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Space Assigned Number Authority(SANA) Registry

Functional Resources

XML version of this registry
Created
2010-10-28
Last Updated
2016-11-01
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Object Identifier External Type Object Identifier Type Semantic Definition Classifier Configured Version Creation date Assignment Policy Deprecated Unit Type Definition Guard Condition
1.3.112.4.4.2.1.1 FR The Antenna FR accepts as input the carrier signal that shall either be radiated into space or into a water load, provided the given FR instance has the transmit capability. It provides as output the carrier signal received from space to the Rtn401SpaceLinkCarrierRecept FR and the azimuth and elevation pointing angles to the TdmSegmentGen FR and to the RawRadiometricDataCollection FR, provided the given FR instance has the receive capability. The pointing angles are provided only while the antenna is in some form of auto-track mode.Note: An Antenna FR may be limited to 'transmit-only' or 'receive-only'. Antenna 2016-02-07
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1.3.112.4.4.2.1.1.2.1.1 E This event notifies any change of the antennaProductionStatus. antProdStatChange 1 2016-02-07
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1.3.112.4.4.1.1.5.1.1.1 V The event value reports the antennaProductionStatus value that applies since the notified antennaProductionStatusChange event occurred. antProdStatValue 1 2016-02-07
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'eventValue': 'EventValue': 'qualifiedValues': 'SequenceOfQualifiedValues': 'SEQUENCE OF QualifiedValues': 'qualifiedValues': 'TypeAndValueComplexQualified': 'typeAndValue': 'TypeAndValue': 'enumerated': SEQUENCE (SIZE (1)) OF Enumerated (0 .. 3){ configured (0), operational (1), interrupted (2), halted (3)}
1.3.112.4.4.2.1.1.2.2.1 E This event notifies the loss of lock of the tracking receiver. antTrackingRxLoL 1 2016-02-07
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1.3.112.4.4.2.1.1.2.3.1 E This event notifies that gusts exceed the nominal wind speed the antenna can withstand in operation and therefore the antenna may have to be moved to its stow position. antWindSpeedWarning 1 2016-02-07
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1.3.112.4.4.2.1.1.3.1.1 D This directive permits setting of the controllable parameters of the Antenna FR type. antSetContrParams 1 2016-02-07
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None
Q The directive qualifier specifies the FR instance the directive shall act on and contains a set of parameter identifier and parameter value pairs. To be valid, the parameter identifier must reference a controllable parameter of the antenna FR and the parameter value must be of the same type as the parameter value that shall be set. antContrParamIdsAndValues 1 2016-02-07
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depends on the specific paramter(s) being set For the identification of the FR instance: 'directiveQualifier': 'functResourceDirQualifier': 'functResourceInstanceNumber': 'FunctionalResourceInstanceNumber': 'IntPos'For the identification of the parameter to be set:'directiveQualifier': 'functResourceDirQualifier': 'functionalResourceQualifiers': 'DirectiveQualifierValues': 'setOfParamIdsAndValues': 'SetOfParameterIdsAndValues': 'parameterIdentifier': 'PublishedIdentifier'For the parameter value:'directiveQualifier': 'functResourceDirQualifier': 'functionalResourceQualifiers': 'DirectiveQualifierValues': 'setOfParamIdsAndValues': 'SetOfParameterIdsAndValues': 'parameterValue': 'TypeAndValueComplexQualified'The remainder of the path depends on the type of the value of the parameter that shall be set.
1.3.112.4.4.2.1.1.1.1.1 P This parameter identifies the antenna that is involved in providing a given support. So far, these antenna identifiers are typically defined by the operating agency so that no guarantee can be given that the identifier is globally unique. Knowledge of which antenna is being used is needed for a number of aspects, e.g. to assess the observed signal levels with respect to the antenna performance or to perform time correlation that requires knowledge of the exact location of the given antenna.Note: In case the antennas used for uplink and downlink are not identical, the Functional Resource (FR) instance number shall be used to differentiate them. As concerns antenna arraying, it is assumed that each array is associated with a name constituting a single functional resource. antId false 1 2016-02-07
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SEQUENCE (SIZE (1)) OF VisibleString (SIZE(3..16))
1.3.112.4.4.2.1.1.1.2.1 1.3.112.4.4.1.1.5.1.1.1 P This enumerated parameter reports the overall status of the antenna and can take on four values: - 'configured': the antenna system has been configured, but is not yet tracking because it is still moving to the initial pointing or the spacecraft is not yet or no longer in view; - 'operational': the antenna is tracking in the reported pointing mode (cf. antennaPointingMode); - 'interrupted': a failure has been detected that prevents the antenna from tracking nominally; - 'halted': the antenna has been taken out of service, e.g. due to wind speed requiring the antenna to be put into stow position. antProdStat true 1 2016-02-07
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SEQUENCE (SIZE (1)) OF Enumerated (0 .. 3){ configured (0), operational (1), interrupted (2), halted (3)} Setting of the antProdStat to 'operational' or 'interrupted' by means of the directive antSetContrParams is not permissible.
1.3.112.4.4.2.1.1.1.3.1 P This parameter reports the current antenna azimuth pointing in 1/1000 degrees, where 0 degrees corresponds to pointing north and 90 degrees corresponds to pointing east. Depending on the way the antenna is built, values above 360 degrees may be reported in cases where the antenna enables such azimuth range as to mitigate the cable unwrap issue. For antennas with a mount different from elevation over azimuth (e.g. x/y mount), the antenna pointing shall be converted to the azimuth/elevation presentation. This also applies to antennas having a tilt mode as to overcome the zenith track singularity.Note: Time-tagged antenna pointing is regarded a radiometric product and therefore not part of monitoring. antActualAzimuth false 1 2016-02-07
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1/1000 degree SEQUENCE (SIZE (1)) OF IntUnsigned (0 .. 540000)
1.3.112.4.4.2.1.1.1.4.1 P This parameter reports the current antenna elevation pointing in 1/1000 degrees, where 0 degrees corresponds to pointing to the horizon and 90 degrees corresponds to zenith pointing. Depending on the way the antenna is built, values above 90 degrees may be reported in cases where the antenna enables such elevation range as to mitigate the azimuth singularity at zenith. For antennas with a mount different from elevation over azimuth (e.g. x/y mount), the antenna pointing shall be converted to the azimuth/elevation presentation. This also applies to antennas having a tilt mode as to overcome the zenith track singularity. antActualElevation false 1 2016-02-07
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1/1000 degree SEQUENCE (SIZE (1)) OF IntUnsigned (0 .. 180000)
1.3.112.4.4.2.1.1.1.5.1 P This parameter reports the azimuth pointing in 1/1000 degrees commanded to the servo system, where 0 degrees corresponds to pointing north and 90 degrees corresponds to pointing east. Depending on the way the antenna is built, values above 360 degrees may be reported in cases where the antenna enables such azimuth range as to mitigate the cable unwrap issue. For antennas with a mount different from elevation over azimuth (e.g. x/y mount), the antenna pointing shall be converted to the azimuth/elevation presentation. This also applies to antennas having a tilt mode as to overcome the zenith track singularity. antCommandedAzimuth false 1 2016-02-07
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1/1000 degree SEQUENCE (SIZE (1)) OF IntUnsigned (0 .. 540000)
1.3.112.4.4.2.1.1.1.6.1 P This parameter reports the antenna elevation pointing in 1/1000 degrees commanded to the servo system, where 0 degrees corresponds to pointing to the horizon and 90 degrees corresponds to zenith pointing. Depending on the way the antenna is built, values above 90 degrees may be reported in cases where the antenna enables such elevation range as to mitigate the azimuth singularity at zenith. For antennas with a mount different from elevation over azimuth (e.g. x/y mount), the antenna pointing shall be converted to the azimuth/elevation presentation. This also applies to antennas having a tilt mode as to overcome the zenith track singularity. antCommandedElevation false 1 2016-02-07
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1/1000 degree SEQUENCE (SIZE (1)) OF IntUnsigned (0 .. 180000)
1.3.112.4.4.2.1.1.1.7.1 P This parameter reports the azimuth in 1/1000 degrees the antenna shall point to when the pointing-mode is set to 'point', where 0 degrees corresponds to pointing north and 90 degrees corresponds to pointing east. Depending on the way the antenna is built, values above 360 degrees may be supported in cases where the antenna enables such azimuth range as to mitigate the cable unwrap issue. For antennas with a mount different from elevation over azimuth (e.g. x/y mount), the antenna pointing shall be converted to the azimuth/elevation presentation. This also applies to antennas having a tilt mode as to overcome the zenith track singularity. antControlledAzimuth true 1 2016-02-07
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1/1000 degrees SEQUENCE (SIZE (1)) OF IntUnsigned (0 .. 540000) None
1.3.112.4.4.2.1.1.1.8.1 P This parameter reports the elevation in 1/1000 degrees the antenna shall point to when the pointing-mode is set to 'point', where 0 degrees corresponds to pointing to the local horizon and 90 degrees corresponds to zenith pointing. Depending on the way the antenna is built, values above 90 degrees may be reported in cases where the antenna enables such elevation range as to mitigate the azimuth singularity at zenith. For antennas with a mount different from elevation over azimuth (e.g. x/y mount), the antenna pointing shall be converted to the azimuth/elevation presentation. This also applies to antennas having a tilt mode as to overcome the zenith track singularity. antControlledElevation true 1 2016-02-07
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1/1000 degrees SEQUENCE (SIZE (1)) OF IntUnsigned (0 .. 180000) None
1.3.112.4.4.2.1.1.1.9.1 P The parameter reports the azimuth angular rate in 1/1000 degrees per second at which the antenna shall move when pointing-mode is set to 'slew'. antControlledAzimuthRate true 1 2016-02-07
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1/1000 degrees/s SEQUENCE (SIZE (1)) OF INTEGER None
1.3.112.4.4.2.1.1.1.10.1 P The parameter reports the elevation angular rate in 1/1000 degrees per second at which the antenna shall move when the antennaPointingMode is set to 'slew'. antControlledElevationRate true 1 2016-02-07
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1/1000 degrees/s SEQUENCE (SIZE (1)) OF INTEGER None
1.3.112.4.4.2.1.1.1.11.1 P This parameter reports the difference in 1/1000 degrees between the actual and the predicted azimuth. Consequently this parameter will only be valid if antennaPointingMode = ('auto-track' OR 'conical scan'). Antennas not having or not being operated in any closed-loop tracking mode cannot provide this parameter and in this case the parameter shall be flagged as unavailable. Note: Time-tagged antenna pointing is regarded a radiometric product and therfore not part of monitoring. antAzimuthError false 1 2016-02-07
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1/1000 degree SEQUENCE (SIZE (1)) OF INTEGER (-54000 .. 540000)
1.3.112.4.4.2.1.1.1.12.1 P This parameter reports the difference in 1/1000 degrees between the actual and the predicted elevation. Consequently this parameter will only be valid if antennaPointingMode = ('auto-track' OR  'conical scan'). Antennas not having or not being operated in any closed-loop tracking mode cannot provide this parameter and in this case the parameter shall be flagged as unavailable. antElevationError false 1 2016-02-07
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1/1000 degree SEQUENCE (SIZE (1)) OF INTEGER (-18000 .. 180000)
1.3.112.4.4.2.1.1.1.13.1 P This enumerated parameter reports the pointing mode of the antenna servo system. The values this parameter can take on are:- 'stow': the antenna is in or is moving to its stow position;- 'halt': the antenna has been stopped in its current position;- 'point': the antenna is moving or has moved to the specified azimuth and elevation;- 'slew': the antenna is moving at commanded angular rates;- 'program-track': the antenna is pointed in accordance with spacecraft trajectory predicts;- 'conical scan': the antenna is performing a conical scan around the nominal pointing and applies offsets with respect to the predicts such that the observed signal strength is constant throughout the scan;- 'auto-track': the antenna pointing is driven by a tracking receiver that by means of a suitable feed (e.g. monopulse) determines an error signal both for azimuth and elevation.Antenna implementations will typically support only a subset of the above listed pointing modes. antPointingMode true 1 2016-02-07
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SEQUENCE (SIZE (1)) OF Enumerated (0 .. 5){ stow (0), halt (1), point (2), slew (3), programTrack (4), conicalScan (5), autoTrack (6)} If the antenna servo system does not support the pointing mode commanded by means of the antSetContrParams directive, the Functional Resource will reject the setting of the antPointingMode parameter with the diagnostic 'parameter out of range'.antProdStat ≠ 'halted'Setting antPointingMode to 'point' shall be rejected except if the parameters antControlledAzimuth and antControlledElevation have valid values.Setting antPointingMode to 'slew' shall be rejected except if the parameters antControlledAzimuthRate and antControlledElevationRate have valid values.
1.3.112.4.4.2.1.1.1.14.1 P This enumerated parameter reports the lock status of the tracking receiver and as such is only supported by antennas that support and are configured to operate in antPointingMode = 'auto-track' mode. The values the parameter may have are:- 'locked': the tracking receiver has locked on the return link signal and consequently is driving the antenna pointing;- 'not locked': the tracking receiver is not locked on the return link signal and therefore cannot drive the antenna pointing. As a consequence, the antPointingMode will have changed to 'program-track' and won't return to 'auto-track' until tracking receiver lock is (re-)acquired. If a tracking receiver is not available or not used, this parameter shall be flagged as undefined. antTrackingRxLockStat false 1 2016-02-07
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SEQUENCE (SIZE (1)) OF Enumerated (0 .. 1){ locked (0), notLocked (1)}
1.3.112.4.4.2.1.1.1.15.1 P This enumerated parameter reports the configuration of the tracking receiver and as such is only supported by antennas that support and are configured to operate in antPointingMode = 'auto-track' mode. The values the parameter may have are:- 'carrier tracking loop': the tracking receiver tracks the remnant carrier by means of a carrier tracking PLL;- 'cross-correlation mode': the tracking receiver tracks the return link signal by means of checking for the spectral symmetry (e.g. in case of suppressed carrier modulation schemes).If a tracking receiver is not available or not used, this parameter shall be flagged as undefined. antTrackingRxMode true 1 2016-02-07
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SEQUENCE (SIZE (1)) OF Enumerated (0 .. 1){ carrierTrackingLoop (0), crossCorrelationMode (1)} If the antenna servo system does not have a tracking receiver or if the tracking receiver is not used, a directive attempting the setting of this parameter shall be rejected with the diagnostic ‘invalid Functional Resource parameter’.
1.3.112.4.4.2.1.1.1.16.1 P This parameter reports the return link signal level in tenth of dBm as observed by the tracking receiver, i.e., the signal level derived from the tracking receiver AGC reading. As to have comparable, i.e. station level plan independent, values the level reading should be calibrated to the LNA input. Due to the levels to be expected, the numbers will always be negative. antTrackingRxInpLevel false 1 2016-02-07
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1/10 dBm SEQUENCE (SIZE (1)) OF INTEGER (-2000 .. -30)
1.3.112.4.4.2.1.1.1.17.1 P This parameter reports the tracking receiver's dual-sided tracking loop bandwidth in tenth Hz. Depending on the mode the tracking receiver operates in, this is either the bandwidth of the PLL tracking the remnant carrier or the frequency range observed for checking spectral symmetry. antTrackingRxLoopBwdth true 1 2016-02-07
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1/10 Hz SEQUENCE (SIZE (1)) OF IntPos (1 .. 1000000) If the antenna servo system does not have a tracking receiver or if the tracking receiver is not used, a directive attempting the setting of this parameter shall be rejected with the diagnostic ‘invalid Functional Resource parameter’.
1.3.112.4.4.2.1.1.1.18.1 P This parameter reports the wind speed as observed close to the antenna. This parameter is measured in tenth m/s and averaged over the most recent minute. antMeanWindSpeed false 1 2016-02-07
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1/10 m/s SEQUENCE (SIZE (1)) OF IntUnsigned (0 .. 100)
1.3.112.4.4.2.1.1.1.19.1 P This parameter reports the highest wind speed observed close to the antenna during the most recent 10 minutes. This parameter is measured in tenth m/s. antPeakWindSpeed false 1 2016-02-07
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1/10 m/s SEQUENCE (SIZE (1)) OF IntUnsigned (0 .. 100)
1.3.112.4.4.2.1.1.1.20.1 P This parameter reports the current wind direction in degrees, where 0 degrees corresponds to north and 90 degrees to east. antWindDirection false 1 2016-02-07
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degree SEQUENCE (SIZE (1)) OF IntUnsigned (0 .. 359)
1.3.112.4.4.2.1.1.1.21.1 P This parameter reports the amount of precipitation in mm that accumulated since 0:00 UTC of the current day. antAccumulatedPrecipitation false 1 2016-02-07
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mm SEQUENCE (SIZE (1)) OF IntUnsigned (0 .. 100)
1.3.112.4.4.2.1.1.1.22.1 P This parameter reports the precipitation rate in mm/h as observed during the most recent hour. antPrecipitationRate false 1 2016-02-07
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mm/h SEQUENCE (SIZE (1)) OF IntUnsigned (0 .. 100)
1.3.112.4.4.2.1.1.1.23.1 P This parameter reports the relative humidity in % as observed by an outdoor meteorological sensor at the station. This parameter shall be flagged as invalid if the value from the meteo unit is invalid and it shall be flagged as unavailable if this parameter is not available at this time.Note: Time-tagged meteo data (relative humidity, atmospheric pressure, temperature) is regarded a radiometric product and therefore not part of the monitoring data. antRelativeHumidity false 1 2016-02-07
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% SEQUENCE (SIZE (1)) OF IntUnsigned (0 .. 100)
1.3.112.4.4.2.1.1.1.24.1 P This parameter reports the atmospheric pressure in 1/100 Pa as observed by an outdoor meteorological sensor at the station. This parameter shall be flagged as invalid if the value from the meteo unit is invalid and it shall be flagged as unavailable if this parameter is not available at this time. antAtmosphericPressure false 1 2016-02-07
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0.01 Pa SEQUENCE (SIZE (1)) OF IntUnsigned (800 .. 1100)
1.3.112.4.4.2.1.1.1.25.1 P This parameter reports the temperature in °C as observed by an outdoor meteorological sensor at the station. This parameter shall be flagged as invalid if the value from the meteo unit is invalid and it shall be flagged as unavailable if this parameter is not available at this instant in time. antAmbientTemperature false 1 2016-02-07
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°C SEQUENCE (SIZE (1)) OF INTEGER (-100 .. 100)
1.3.112.4.4.2.1.2 FR The Fwd401SpaceLinkCarrierXmit FR accepts as input for modulation of the carrier the optionally convolutionally encoded physical channel symbol stream from the FwdAosSyncAndChnlEncoding FR or from the TcSyncAndChnlEncoding FR. It also accepts from the FwddLinkRng FR the ranging signal for modulation of the forward carrier.The Fwd401SpaceLinkCarrierXmit FR provides the to be radiated carrier signal to the Antenna FR and the actual carrier frequency to the RawRadiometricDataCollection FR. Fwd401SpaceLinkCarrierXmit 2016-02-07
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1.3.112.4.4.2.1.2.2.1.1 E This event notifies any change of the fwd401CarrierTransmissionProductionStatus parameter. fwd401CarrierXmitProdStatChange 1 2016-02-07
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1.3.112.4.4.1.1.5.1.1.1 V The event value reports the fwd401CarrierTransmissionProductionStatus value that applies since the notified fwd401CarrierTransmissionProductionStatusChange event occurred. fwd401CarrierXmitProdStatValue 1 2016-02-07
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'eventValue': 'EventValue': 'qualifiedValues': 'SequenceOfQualifiedValues': 'SEQUENCE OF QualifiedValues': 'qualifiedValues': 'TypeAndValueComplexQualified': 'typeAndValue': 'TypeAndValue': 'enumerated': SEQUENCE (SIZE (1)) OF Enumerated (0 .. 3){ configured (0), operational (1), interrupted (2), halted (3)}
1.3.112.4.4.2.1.2.3.1.1 D This directive permits setting of the controllable parameters of the Fwd401SpaceLinkCarrierTransmission FR type. fwd401CarrierXmitSetContrParams 1 2016-02-07
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None
Q The directive qualifier specifies the FR instance the directive shall act on and contains a set of parameter identifier and parameter value pairs. To be valid, the parameter identifier must reference a controllable parameter of the Fwd401SpaceLinkCarrierTransmission FR and the parameter value must be of the same type as the parameter value that shall be set. fwd401CarrierXmitContrParamIdsAndValues 1 2016-02-07
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depends on the specific paramter(s) being set For the identification of the FR instance: 'directiveQualifier': 'functResourceDirQualifier': 'functResourceInstanceNumber': 'FunctionalResourceInstanceNumber': 'IntPos'For the identification of the parameter to be set:'directiveQualifier': 'functResourceDirQualifier': 'functionalResourceQualifiers': 'DirectiveQualifierValues': 'setOfParamIdsAndValues': 'SetOfParameterIdsAndValues': 'parameterIdentifier': 'PublishedIdentifier'For the parameter value:'directiveQualifier': 'functResourceDirQualifier': 'functionalResourceQualifiers': 'DirectiveQualifierValues': 'setOfParamIdsAndValues': 'SetOfParameterIdsAndValues': 'parameterValue': 'TypeAndValueComplexQualified'The remainder of the path depends on the type of the value of the parameter that shall be set.
1.3.112.4.4.2.1.2.1.1.1 1.3.112.4.4.1.1.5.1.1.1 P This enumerated parameter reports the Fwd401SpaceLinkCarrierXmit FR production status and can take on four values:- 'configured': the forward link equipment has been configured, but the carrier has not been brought up or has been stopped;- 'operational': the forward link is active, i.e., the carrier is up;- 'interrupted': a failure has been detected, e.g. carrier still on outside the transmission mask, that resulted in the carrier being shut down;- 'halted': the forward link has been taken out of service, e.g. due to failed HPA cooling. fwd401CarrierXmitProdStat true 1 2016-02-07
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SEQUENCE (SIZE (1)) OF Enumerated (0 .. 3){ configured (0), operational (1), interrupted (2), halted (3)} Setting of the fwd401CarrierXmitProdStat to 'operational' or 'interrupted' by means of the directive fwd401CarrierXmitSetContrParams is not permissible.
1.3.112.4.4.2.1.2.1.2.1 P This enumerated parameter reports the current state of the carrier radiation and can take on three values:- 'up': the carrier is presently up and the signal is radiated via the antenna;- 'test': the carrier is presently up and the signal is radiated into the water load;- 'down': the carrier is presently down, i.e., no signal is being radiated. fwd401CarrierXmitStat true 1 2016-02-07
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SEQUENCE (SIZE (1)) OF Enumerated (0 .. 2){ up (0), test (1), down (2)} The fwd401CarrierXmitStat can be set to 'up' only if - in view of the given antenna pointing, the EIRP and the spectrum of the radiated signal - the ITU limits regarding the permitted spectral power density are respected.Furthermore, the following parameters must have a valid value:- fwd401CarrierXmitEirp;- fwd401CarrierXmitPolarization;- fwd401CarrierXmitContrNominalCarrierFrequ.
1.3.112.4.4.2.1.2.1.3.1 P This parameter reports the current forward link signal level expressed as Equivalent Isotropically Radiated Power (EIRP) in dBW. fwd401CarrierXmitEirp true 1 2016-02-07
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dBW SEQUENCE (SIZE (1)) OF IntUnsigned (0 .. 150) The commanded signal level must not result in a radiated signal that exceeds the spectral power density limits defined in the pertinent ITU regulations.Note: The applicable limit depends on the pointing of the antenna and the local horizon.
1.3.112.4.4.2.1.2.1.4.1 P This enumerated parameter reports the configured forward link polarization and can take on two values:- 'lcp': the carrier is radiated with left hand circular polarization;- 'rcp': the carrier is radiated in right hand circular polarization.Note: Polarization is defined from the point of view of the source, i.e., in the direction of the wave propagation. fwd401CarrierXmitPolarization true 1 2016-02-07
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SEQUENCE (SIZE (1)) OF Enumerated (0 .. 1){ lhc (0), rhc (1)} None
1.3.112.4.4.2.1.2.1.5.1 P This parameter reports the current forward link frequency in Hz. In general, the frequency will be constant, except during the forward link sweep and for Category B missions in case the forward link is being ramped as to compensate for the Doppler shift and rate on the forward link. fwd401CarrierXmitActualCarrierFrequ false 1 2016-02-07
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Hz SEQUENCE (SIZE (1)) OF IntPos (2025000000 .. 40500000000)
1.3.112.4.4.2.1.2.1.6.1 P This parameter reports the controlled nominal forward link frequency in Hz. fwd401CarrierXmitContrNominalCarrierFrequ true 1 2016-02-07
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Hz SEQUENCE (SIZE (1)) OF IntPos (2025000000 .. 40500000000) None
1.3.112.4.4.2.1.2.1.7.1 P This enumerated parameter reports the current state of the carrier modulation and can take on two values:- 'on': the carrier is presently being modulated;- 'off': the carrier is presently not being modulated.Note: This parameter reports the modulation being off also when this is not explicitly commanded, e.g. when it is forced off automatically because the forward link sweep is active (fwd401CarrierXmitSweepProcStat = 'active'). fwd401CarrierXmitMod true 1 2016-02-07
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SEQUENCE (SIZE (1)) OF Enumerated (0 .. 1){ on (0), off (1)} Turning on of the modulation is not permitted while fwd401CarrierXmitSweepProcStat = 'active'.Turning off the modulation must not result in exceeding the ITU spectral power density limits.Furthermore, the modulation can be turned on only if at least one of the two sets of parameters listed below comprises only parameters of which all values are valid:Set 1:- fwd401CarrierXmitSymbolStreamModType;- fwd401CarrierXmitSymbolStreamModIndex;- fwd401CarrierXmitSubcarrierFrequ;- fwd401CarrierXmitSymbolClock;- fwd401CarrierXmitBasebandWaveform.Set 2:- fwd401CarrierXmitRngModIindex.
1.3.112.4.4.2.1.2.1.8.1 P This enumerated parameter reports whether the symbol stream directly modulates the forward carrier or modulates a subcarrier that in turn modulates the forward carrier. It can take on two values:- 'direct': the carrier is directly modulated by the input data symbol stream;- 'subcarrier': the carrier modulating signal is the subcarrier which in turn is modulated by the to be radiated symbol stream. fwd401CarrierXmitSymbolStreamModType true 1 2016-02-07
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SEQUENCE (SIZE (1)) OF Enumerated (0 .. 1){ direct (0), subcarrier (1)} Setting the fwd401CarrierXmitSymbolStreamModType to 'direct' is only possible if fwd401CarrierXmitSubcarrierFrequ = 0 and the following parameters have all a valid value:- fwd401CarrierXmitSymbolStreamModIindex;- fwd401CarrierXmitSymbolClock;- fwd401CarrierXmitBasebandWaveform.Setting the fwd401CarrierXmitSymbolStreamModType to 'subcarrier' is only possible if fwd401CarrierXmitSubcarrierFrequ ≠ 0 and the following parameters have all a valid value:- fwd401CarrierXmitSymbolStreamModIndex;- fwd401CarrierXmitSubcarrierFrequCoherency;- fwd401CarrierXmitSymbolClock;- fwd401CarrierXmitBasebandWaveform.
1.3.112.4.4.2.1.2.1.9.1 P This parameter reports the configured peak modulation index for the forward symbol stream in 1/100 radians. It applies either to the carrier modulation by the symbol stream or in case the symbol strem modulates a subcarrier to the modulation of the carrier by the subcarrier. In case of suppressed carrier, this parameter shall report "-1". fwd401CarrierXmitSymbolStreamModIndex true 1 2016-02-07
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1/100 rad SEQUENCE (SIZE (1)) OF INTEGER (0 .. 140, -1) None
1.3.112.4.4.2.1.2.1.10.1 P This parameter reports the configured peak modulation index for the ranging signal in 1/100 radians. fwd401CarrierXmitRngModIndex true 1 2016-02-07
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1/100 rad SEQUENCE (SIZE (1)) OF IntUnsigned (0 .. 140) None
1.3.112.4.4.2.1.2.1.11.1 P This enumerated parameter reports the current state of the carrier sweep and can take on two values:- 'active': the carrier is presently being swept;- 'not active': the carrier is presently not being swept, i.e., the nominal frequency is being radiated. Modulation shall be forced off, whenever the sweep is active. In case the forward link frequency is being ramped as to compensate for Doppler shift and rate on the forward link (Category B missions only), this is not regarded to be a sweep. fwd401CarrierXmitSweepProcStat true 1 2016-02-07
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SEQUENCE (SIZE (1)) OF Enumerated (0 .. 1){ active (0), notActive (1)} fwd401CarrierXmitStat ≠ 'down'Furthermore, the parameter fwd401CarrierXmitSweepProfile must have a valid value.
1.3.112.4.4.2.1.2.1.12.1 P This complex parameter reports on the start frequency in Hz of the first leg of the sweep. For each leg it then specifies the stop frequency in Hz, the sweep rate in Hz/s and the duration of the dwell period in seconds (i.e., the time during which the carrier frequency is not changed) before the next leg is started. The assumption is that there are no frequency discontinuities, i.e., the start frequency of a sweep leg is always equal to the stop frequency of the previous leg. fwd401CarrierXmitSweepProfile true 1 2016-02-07
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Hz, Hz/s, s (see Semantic Definition for details) SEQUENCE OF IntUnsigned, where the first element specifies the start frequency of the first leg of the sweep profile and has a range of (2025000000 .. 40500000000). The remainder of the sequence consist of three elements for each leg of the sweep profile as follows:- stop frequency with a range of (2025000000 .. 40500000000);- sweep rate with a range of (1 .. 32000);- dwell time with a range of (0 .. 20). None
1.3.112.4.4.2.1.2.1.13.1 P This parameter reports the configured subcarrier frequency in 1/1000 Hz. As per CCSDS 401.0-B-25, only 8 kHz or 16 kHz are permissible. The fine resolution is specified here as to enable fine tuning of the subcarrier frequency in cases where this is necessary to compensate the forward link Doppler shift. In case that direct modulation is used (fwd401CarrierXmitSymbolStreamModType = 'direct'), this parameter shall report '0'. Note: The specified range is intended to also cover the case of non-CCSDS missions. fwd401CarrierXmitSubcarrierFrequ true 1 2016-02-07
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1/1000 Hz SEQUENCE (SIZE (1)) OF IntUnsigned (0 .. 300000000) None
1.3.112.4.4.2.1.2.1.14.1 P This enumerated parameter reports if the subcarrier is currently being modulated and can take on two values:- 'on': the subcarrier is currently being modulated;- 'off': the subcarrier is currently not being modulated.In case no subcarrier is used (fwd401CarrierXmitSymbolStreamModType = 'direct'), this parameter shall be flagged as undefined. fwd401CarrierXmitSubcarrierMod true 1 2016-02-07
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SEQUENCE (SIZE (1)) OF Enumerated (0 .. 1){ on (0), off (1)} fwd401CarrierXmitSymbolStreamModType = 'subcarrier'.
1.3.112.4.4.2.1.2.1.15.1 P This enumerated parameter reports if the coherency between the subcarrier frequency and symbol clock is given in case a subcarrier is used. This parameter can take on 2 values:- 'yes': the subcarrier frequency is coherent with the symbol clock;- 'no': the subcarrier frequency is not coherent with the symbol clock.In case no subcarrier is used (fwd401CarrierXmitSymbolStreamModType = 'direct'), this parameter shall be flagged as undefined. fwd401CarrierXmitSubcarrierFrequCoherency true 1 2016-02-07
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SEQUENCE (SIZE (1)) OF Enumerated (0 .. 1){ yes (0), no (1)} None
1.3.112.4.4.2.1.2.1.16.1 P This parameter reports the configured forward link symbol rate in 1/10000 Hz, where the range is 78125 to 2560000000. fwd401CarrierXmitSymbolClock true 1 2016-02-07
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1/10000 Hz SEQUENCE (SIZE (1)) OF IntPos (78125 .. 2560000000) None
1.3.112.4.4.2.1.2.1.17.1 P This enumerated parameter reports the baseband waveform used to modulate the subcarrier or carrier of the forward link. It can take on the following values:- 'nrz-l';- 'nrz-m';- 'sp-l'. fwd401CarrierXmitBasebandWaveform true 1 2016-02-07
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true SEQUENCE (SIZE (1)) OF Enumerated (0 .. 2){ nrzL (0), nrzM (1), spL (2)} None
1.3.112.4.4.2.1.3 FR This FR does not take any input. It provides the ranging signal to be radiated to the spacecraft to the Forward 401 Space Link Carrier Transmission FR for modulation onto the forward carrier.It provides the timing information needed by the Range and Doppler Extraction FR. FwdLinkRng 2015-12-14
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1.3.112.4.4.2.1.3.3.1.1 D This directive permits setting of the controllable parameters of the Forward Link Ranging FR type. fwdLinkRngSetContrParams 1 2015-12-14
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The value of fwdLinkRngType must be valid.
Q The directive qualifier specifies the FR instance the directive shall act on and contains a set of parameter identifier and parameter value pairs. To be valid, the parameter identifier must reference a controllable parameter of the Forward Link Ranging FR and the parameter value must be of the same type as the parameter value that shall be set. fwdLinkRngParamIdsAndValues 1 2015-12-14
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depends on the specific paramter(s) being set For the identification of the FR instance: 'directiveQualifier': 'functResourceDirQualifier': 'functResourceInstanceNumber': 'FunctionalResourceInstanceNumber': 'IntPos'For the identification of the parameter to be set:'directiveQualifier': 'functResourceDirQualifier': 'functionalResourceQualifiers': 'DirectiveQualifierValues': 'setOfParamIdsAndValues': 'SetOfParameterIdsAndValues': 'parameterIdentifier': 'PublishedIdentifier'For the parameter value:'directiveQualifier': 'functResourceDirQualifier': 'functionalResourceQualifiers': 'DirectiveQualifierValues': 'setOfParamIdsAndValues': 'SetOfParameterIdsAndValues': 'parameterValue': 'TypeAndValueComplexQualified'The remainder of the path depends on the type of the value of the parameter that shall be set.
1.3.112.4.4.2.1.3.1.1.1 P This enumerated parameter reports if the ranging system is active and can take on two values:- 'active': the ranging system is presently active, i.e., the ranging system is generating the ranging signal and modulating it on the forward link carrier;- 'not active': the ranging system is presently not active as far as the forward link is concerned, i.e., no ranging signal is modulated on the forward link carrier. fwdLinkRngMod true 1 2015-12-14
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SEQUENCE (SIZE (1)) OF Enumerated (0 .. 1){ on (0), off (1)} fwdLinkRngType must have a valid value.
1.3.112.4.4.2.1.3.1.2.1 P This enumerated parameter reports the type of ranging that is being used. It can take on the following values:- 'hybrid': the system performs range measurements in accordance with ECSS-E-50-02A;- 'pseudo noise': the system performs range measurements in accordance with CCSDS 414.1-B-2. fwdLinkRngType true 1 2015-12-14
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SEQUENCE (SIZE (1)) OF Enumerated (0 .. 1){ hybrid (0), pseudo-noise (1)} fwdLinkRngMod = 'off' and:if fwdLinkRngType = 'hybrid', then the values of fwdLinkRngHybridToneFrequ and fwdLinkRngHybridCodeLength must be valid;if fwdLinkRngType = 'pn', then the values of fwdLinkRngPnChipRate and fwdLinkRngPnCodeType must be valid.
1.3.112.4.4.2.1.3.1.3.1 P This parameter reports the configured tone frequency in Hz, where the range is 100 kHz to 1.5 MHz. It is applicable only in case fwdLinkRngType = ‘hybrid’. If fwdLinkRngType ≠ 'hybrid', the value of this parameter shall be flagged as 'undefined'. fwdLinkRngHybridToneFrequ true 1 2015-12-14
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Hz SEQUENCE (SIZE (1)) OF IntPos (100000 .. 1500000) None. It should however be noted that the commanded tone frequency takes effect only when the fwdLinkRngType is 'hybrid'.
1.3.112.4.4.2.1.3.1.4.1 P This parameter reports the configured length of the code that is modulating the ranging tone for resolving the range ambiguity. The code length range is 5 to 24. It determines the distance range within which ambiguity can be resolved. It is applicable only in case the fwdLinkRngType = ‘hybrid’. If fwdLinkRngType ≠ 'hybrid', the value of this parameter shall be flagged as 'undefined'. fwdLinkRngHybridCodeLength true 1 2015-12-14
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SEQUENCE (SIZE (1)) OF IntPos (5 .. 24) None. It should however be noted that the commanded code length takes effect only when fwdLinkRngType is 'hybrid'.
1.3.112.4.4.2.1.3.1.5.1 P This parameter reports the chip rate of the forward link ranging signal as a function of the forward link carrier frequency. The exact definition is given in CCSDS 414.1-B-2. This parameter is applicable only in case fwdLinkRngType = 'pseudo noise'. If fwdLinkRngType ≠ 'pseudo noise', the value of this parameter shall be flagged as 'undefined'. fwdLinkRngPnChipRate true 1 2015-12-14
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SEQUENCE (SIZE (2) OF IntPoswhere the first element reports the value of the parameter 'l' while the second element reports the value 'k' (see CCSDS 414.1-B-2 for the exact specification).l and k are integer values constrained by the following expression:(k=6 AND l = {1,2,…,12,16,32, OR 64}) OR (l=2 AND k= {8,9, OR 10}). None. It should however be noted that the commanded chip rate takes effect only if fwdLinkRngType is 'pn'.
1.3.112.4.4.2.1.3.1.6.1 P This enumerated parameter reports the PN ranging code type and modulating wave form and can take on the following values:- 't2B-sine': weighted-voting balanced Tausworthe T2B with sinusoidal range clock;- 't2B-square': weighted-voting balanced Tausworthe T2B with square wave range clock;- 't4B-sine': weighted-voting balanced Tausworthe T4B with sinusoidal range clock (only to be used in regenerative mode);- 't4B-square': weighted-voting balanced Tausworthe T4B with square wave range clock (only to be used in regenerative mode).If fwdLinkRngType ≠ 'pseudo noise', the value of this parameter shall be flagged as 'undefined'. fwdLinkRngPnCodeType true 1 2015-12-14
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SEQUENCE (SIZE (1)) OF Enumerated{ t2B-sine (0), t2B-square (1), t4B-sine (2), t4B-square (3)} None. It should however be noted that the commanded code type and modulating waveform takes effect only when the fwdLinkRngType is 'pn'.
1.3.112.4.4.2.1.4 FR The TcSyncAndChannelEncoding FR accepts as input one of the following:- CLTUs;- TC frames to be radated via a specific physical channel.It also accepts the CLCWs extracted from the return link associated with the forward link used by this FR.This FR provides the symbol stream to be used for modulating the forward carrier of the physical channel associated with this FR. FwdTcSyncAndChnlEncoding 2016-02-29
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1.3.112.4.4.2.1.4.2.1.1 E This event notifies any change of the tcSyncFwdLinkStatus parameter. fwdTcSyncLinkStatChange 1 2016-02-29
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1.3.112.4.4.2.1.4.1.9.1 V The event value reports the tcSyncFwdLinkStatus value that applies since the notified tcSyncFwdLinkStatusChange event occurred. fwdTcSyncLinkStatValue 1 2016-02-29
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'eventValue': 'EventValue': 'qualifiedValues': 'SequenceOfQualifiedValues': 'SEQUENCE OF QualifiedValues': 'qualifiedValues': 'TypeAndValueComplexQualified': 'typeAndValue': 'TypeAndValue': 'enumerated': SEQUENCE (SIZE (1)) OF Enumerated (0 .. 3){ configured (0), operational (1), interrupted (2), halted (3)}
1.3.112.4.4.2.1.4.3.1.1 D This directive permits setting of the controllable parameters of the TcSyncAndChannelEncoding FR type. fwdTcSyncSetContrParams 1 2016-02-29
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none
Q The directive qualifier specifies the FR instance the directive shall act on and contains a set of parameter identifier and parameter value pairs. To be valid, the parameter identifier must reference a controllable parameter of the TcSyncAndChannelEncoding FR and the parameter value must be of the same type as the parameter value that shall be set. fwdTcSyncContrParamIdsAndValues 1 2016-02-29
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depends on the specific paramter(s) being set For the identification of the FR instance: 'directiveQualifier': 'functResourceDirQualifier': 'functResourceInstanceNumber': 'FunctionalResourceInstanceNumber': 'IntPos'For the identification of the parameter to be set:'directiveQualifier': 'functResourceDirQualifier': 'functionalResourceQualifiers': 'DirectiveQualifierValues': 'setOfParamIdsAndValues': 'SetOfParameterIdsAndValues': 'parameterIdentifier': 'PublishedIdentifier'For the parameter value:'directiveQualifier': 'functResourceDirQualifier': 'functionalResourceQualifiers': 'DirectiveQualifierValues': 'setOfParamIdsAndValues': 'SetOfParameterIdsAndValues': 'parameterValue': 'TypeAndValueComplexQualified'The remainder of the path depends on the type of the value of the parameter that shall be set.
1.3.112.4.4.2.1.4.1.1.1 P This parameter reports the name assigned to the forward physical channel. This name is a Visible String which has a length of 1 to 32 characters. fwdTcSyncPhysicalChnlName true 1 2016-02-29
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SEQUENCE (SIZE (1)) OF VisibleString (1 ..32) None
1.3.112.4.4.2.1.4.1.2.1 P This parameter reports the maximum length in octets of a CLTU the FR will forward to the Fwd401SpaceLinkCarrierXmit FR. If the given FR instance is not configured to accept CLTUs as incoming service data units, the value of this parameter shall be flagged as 'undefined'. fwdTcSyncMaxCltuLength true 1 2016-02-28
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octet SEQUENCE (SIZE (1)) OF IntPos (12 .. 4096) The FR instance that the fwdTcSyncSetContrParams directive setting this parameter is acting on must be configured to accept CLTUs as input.
1.3.112.4.4.2.1.4.1.3.1 P This enumerated parameter reports if the FR randomizes incoming MC TC frames prior to converting them to CLTUs. This parameter can take on two values:- 'not used';- 'used'.The details regarding the randomization are specified in CCSDS 231.0-B-2. If the given FR instance is not configured to accept MC TC frames as incoming service data unit, the value of this parameter shall be flagged as 'undefined'. fwdTcSyncFrameRandomization true 1 2016-02-29
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SEQUENCE (SIZE (1)) OF Enumerated (0 .. 1){ notUsed (0), used (1)} The FR instance the fwdTcSyncSetContrParams directive setting this parameter is acting on must be configured to accept MC TC frames as input.
1.3.112.4.4.2.1.4.1.4.1 P This parameter reports how many times a given CLTU may at most be repeated on the forward link. The value of this parameter must be '1' if fwdTcSyncMaxNumberOfFramesPerCltu ≠ 1. If the given instance of the FR is not configured to accept MC TC frames as incoming service data unit, the value of this parameter shall be flagged as 'undefined'.Note: If fwdTcSyncMaxCltuRepetions = 1, the repeated transmissions option is either disabled or not supported. fwdTcSyncMaxCltuRepetitions true 1 2016-02-29
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SEQUENCE (SIZE (1)) OF IntPos (1 .. 5) The FR instance the fwdTcSyncSetContrParams directive is acting on must be configured to accept MC TC frames as input and fwdTcSyncMaxNumberOfFramesPerCltu = 1.
1.3.112.4.4.2.1.4.1.5.1 P This enumerated parameter reports the Physical Layer Operation Procedure (PLOP) that the FwdTcSyncAndChnlEncoding FR applies. This parameter can take on two values: - 'plop1'; - 'plop2'. The exact behavior of the FR as determined by the selected PLOP in effect is further described in the F-CLTU specification CCSDS 912.1-B-3. fwdTcSyncPlop true 1 2016-02-29
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SEQUENCE (SIZE (1)) OF Enumerated (0 .. 1) { plop1 (0) , plop2 (1) } None
1.3.112.4.4.2.1.4.1.6.1 P This parameter reports the size, in octets, of the bit pattern to be radiated to enable the spacecraft telecommand system to achieve bit lock. The radiation of the acquisition sequence will be performed in accordance with the applicable Physical Layer Operations Procedure (PLOP) - cf. fwdTcSyncPlop. fwdTcSyncAcquSequLength true 1 2016-02-29
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octet SEQUENCE (SIZE (1)) OF IntUnsigned (0 .. 255) None
1.3.112.4.4.2.1.4.1.7.1 P This parameter reports the minimum time, in microseconds, that the FR instance will ensure between the completion of the radiation of one CLTU and the beginning of the radiation of the following CLTU. The exact effect of the delay time depending on the PLOP is further described in the F-CLTU specification CCSDS 912.1-B-3. fwdTcSyncMinDelayTime true 1 2016-02-29
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1/1000000 s SEQUENCE (SIZE (1)) OF Duration: microseconds: IntUnsigned None
1.3.112.4.4.2.1.4.1.8.1 P This parameter reports the length, in octets, of the idle sequence that shall be radiated after radiation of the acquisition sequence and whenever the radiation of a CLTU completed, provided fwdTcSyncPlop = 'plop1'. If the parameter value is zero, no idle sequence is applied. If fwdTcSyncPlop ≠ 'plop1', then this parameter shall be flagged as 'undefined'. fwdTcSyncPlop1IdleSequLength true 1 2016-02-29
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octet SEQUENCE (SIZE (1)) OF IntUnsigned (0 .. 255) None
1.3.112.4.4.2.1.4.1.9.1 P This enumerated parameter reports the status of the forward link as it can be derived from the Communication Link Control Word (CLCW) in the associated telemetry stream. It can take on the following values:- 'forward link status not available': no CLCWs from the spacecraft have been received by the service provider;- 'no rf available': the service provider has received at least one CLCW; in the last CLCW received by the service provider, the bit that flags ‘No RF Available’ was set to ‘1’;- 'no bit lock': the service provider has received at least one CLCW; in the last CLCW received by the service provider, the bit that flags ‘No RF Available’ was set to ‘0’, and the bit that flags ‘No Bit Lock’ was set to ‘1;- 'nominal': the provider has received at least one CLCW; in the last CLCW received by the provider, the bit that flags ‘No RF Available’ was set to ‘0’, and the bit that flags ‘No Bit Lock’ was set to ‘0’. fwdTcSyncLinkStat false 1 2016-02-28
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SEQUENCE (SIZE (1)) OF Enumerated (0 .. 3){ forward-link-status-not-available (0), noRfAvailable (1), noBitLock (2), nominal (3)}
1.3.112.4.4.2.1.4.1.10.1 P This parameter reports the name assigned to the physical channel carrying the CLCW. This name is a Visible String which has a length of 1 to 32 characters. fwdTcSyncClcwPhysicalChnl true 1 2016-02-29
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SEQUENCE (SIZE (1)) OF VisibleString (1 ..32) None
1.3.112.4.4.2.1.4.1.11.1 P This parameter reports on the Master or Virtual Channel that carries the CLCW to be used to determine the forward link RF and/or bit lock status. The parameter is the concatenation of the CCSDS assigned Spacecraft Identifier (SCID), the Transfer Frame Version Number (TFVN) and, if applicable, the Virtual Channel Identifier (VCID). The range of the Spacecraft Identifier and the Virtual Channel Identifier depend on the TFVN as follows:- TFVN = 0 (version 1) - SCID = (0 .. 1023), VCID = (0 .. 7);- TFVN = 1 (version 2) - SCID = (0 .. 255), VCID = (0 .. 63). fwdTcSyncClcwGlobalVcid true 1 2016-02-29
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SEQUENCE (SIZE (3)) OF IntUnsigned, where the first element is the SCID (0 .. 1023), the second element is the TFVN (0 .. 1); and the third element is the VCID (0 .. 63).As to have a way for expressing also the selection of the Master Channel, the 'special' VCID value 99 is used to indicate that the VCID may have any value. Therefore the exact range specification is:VCID ϵ {0 .. 63,99} None
1.3.112.4.4.2.1.4.1.12.1 P This parameter reports on the maximum number of TC MC frames that may be converted into a single CLTU. The value of this parameter must be '1' if fwdTcSyncMaxCltuRepetitions ≠ 1. If the given FR instance is not configured to accept TC MC frames as incoming service data unit, the value of this parameter shall be flagged as 'undefined'. fwdTcSyncMaxNumberOfFramesPerCltu true 1 2016-02-29
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SEQUENCE (SIZE (1)) OF IntPos (1 .. 15) None
1.3.112.4.4.2.1.5 FR This FR can be configured to accept one of the following input types:- CADUs to be radated via a specific physical channel;- AOS frames to be radated via a specific physical channel. This FR provides the symbol stream to be used for modulating the forward carrier of the physical channel associated with this FR. FwdAosSyncAndChnlEncoding 2015-11-05
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1.3.112.4.4.2.1.5.3.1.1 D This directive permits setting of the controllable parameters of the Fwd AOS Sync and Channel Encoding FR type. fwdAosSyncSetContrParams 1 2015-11-05
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None
Q The directive qualifier specifies the FR instance the directive shall act on and contains a set of parameter identifier and parameter value pairs. To be valid, the parameter identifier must reference a controllable parameter of the Fwd AOS Sync and Channel Encoding FR and the parameter value must be of the same type as the parameter value that shall be set. fwdAosSyncContrParamIdsAndValues 1 2015-11-05
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depends on the specific paramter(s) being set Will be entered when the format problem is solved
1.3.112.4.4.2.1.5.1.1.1 P This parameter reports the name assigned to the forward physical channel used to radiate "AOS" frames. This name is a Visible String which has a length of 1 to 32 characters. fwdAosSyncPhysicalChnlName true 1 2015-11-05
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SEQUENCE (SIZE (1)) OF VisibleString (1 ..32) None
1.3.112.4.4.2.1.5.1.2.1 P This parameter reports the length in octets of a CADU the FR accepts for further processing. If the FR instance is not configured to accept AOS CADUs as incoming service data units, the value of this parameter shall be flagged as 'undefined'. fwdAosSyncCaduLength true 1 2015-11-05
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octet SEQUENCE (SIZE (1)) OF IntPos (6 .. 2048) incomingServiceDataUnit = AOS frame
1.3.112.4.4.2.1.5.1.3.1 P This enumerated parameter reports if the FR randomizes the AOS frames. This parameter can take on two values:- 'randomization';- 'no randomization'.The details regarding the randomization are specified in CCSDS 131.0-B-2. If the FR instance is not configued to accept AOS frames as incoming service data units, the value of this parameter shall be flagged as 'undefined'. fwdAosSyncFrameRandomization true 1 2015-11-05
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SEQUENCE (SIZE (1)) OF Enumerated (0 .. 1){ randomization (0), noRandomization (1)} incomingServiceDataUnit = MC Frame
1.3.112.4.4.2.1.5.1.4.1 P This enumerated parameter reports on the encoding that is applied to the AOS frames. This parameter can take on the following values:- 'uncoded';- 'convolutional';- 'reedSolomon';- 'concatenated';- 'turbo';- 'ldpc'.If the FR instance is not configured to accept AOS Frames as incoming service data units, the value of this parameter shall be flagged as 'undefined'.Note: The length and pattern of the ASM is determined by the applicable encoding. fwdAosSyncFrameEncoding true 1 2015-11-05
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SEQUENCE (SIZE (1)) OF Enumerated (0 .. 5){ uncoded (0), convolutional (1), reedSolomon (2), concatenated (3), turbo (4), ldpc (5)} incomingServiceDataUnit = AOS frame
1.3.112.4.4.2.1.5.1.5.1 P This enumerated parameter reports on the coding rate set for the convolutional encoding of the AOS frames. The convolutional encoding is applied to the ASM and the uncoded or Reed-Solomon encoded frame. This parameter can take on the following values:- '1/2';- '2/3';- '3/4';- '5/6';- '7/8'.IF ((incoming service data unit NOT AOS frame) OR (frame-encoding = 'reedSolomon') OR (frame-encoding = 'turbo') OR (frame-encoding = 'ldpc')), the value of this parameter shall be flagged as 'undefined'. fwdAosSyncFrameConvolCodeRate true 1 2015-11-05
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SEQUENCE (SIZE (1)) OF Enumerated (0 .. 4){ 1/2 (0), 2/3 (1), 3/4 (2), 5/6 (3), 7/8 (4)} The FR instance is configured to accept AOS frames as input AND fwdAosSyncFrameEncoding = ('convolutional' OR 'concatenated').
1.3.112.4.4.2.1.5.1.6.1 P This enumerated parameter reports on the correction capability of the applied Reed-Solomon code. It can take on the following values:- '8';- '16'.IF ((incoming service data unit NOT AOS Frame) OR NOT ((fwdAosSyncFrameEncoding = 'reedSolomon') OR (fwdAosSyncFrameEncoding = 'concatenated'))), the value of this parameter shall be flagged as 'undefined'. fwdAosSyncFrameRsErrorCorrectionCapability true 1 2015-11-05
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SEQUENCE (SIZE (1)) OF Enumerated (0 .. 1){ 8 (0), 16 (1)} incomingServiceDataUnit = 'AOS frame' AND fwdAosSyncFrameEncoding = ('reedSolomon' OR 'concatenated')
1.3.112.4.4.2.1.5.1.7.1 P This enumerated parameter reports on the interleaving depth of the applied Reed-Solomon encoding. It can take on the following values:- '1';- '2';- '3';- '4';- '5';- '8'.If ((incoming service data unit NOT MC Frame) OR NOT ((fwdAosSyncFrameEncoding = 'reedSolomon') OR (fwdAosSyncFrameEncoding = 'concatenated'))), the value of this parameter shall be flagged as 'undefined'.Note: If and how much virtual fill needs to be inserted is determined based on the value of fwdAosSyncFrameRsInterleavingDepth. fwdAosSyncFrameRsInterleavingDepth true 1 2015-11-05
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SEQUENCE (SIZE (1)) OF Enumerated (0 .. 5){ 1 (0), 2 (1), 3 (2), 4 (3), 5 (4), 8 (5)} incomingServiceDataUnit = AOS frame AND fwdAosSyncFrameEncoding = ('reedSolomon' OR 'concatenated')
1.3.112.4.4.2.1.5.1.8.1 P This enumerated parameter reports on the coding rate of the applied turbo encoding. This parameter can take on the following values:- '1/2';- '1/3';- '1/4';- '1/6'.If ((incoming service data unit NOT MC Frame) OR (fwdAosSyncFrameEncoding ≠ 'turbo')), the value of this parameter shall be flagged as 'undefined'.Note: The information block length is determined by the value of fwdAosSuncCaduLength. fwdAosSyncFrameTurboCodeRate true 1 2015-11-05
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SEQUENCE (SIZE (1)) OF Enumerated (0 .. 3){ 1/2 (0), 1/3 (1), 1/4 (2), 1/6 (3)} incomingServiceDataUnit = AOS frame AND fwdAosSyncFrameEncoding = 'turbo'
1.3.112.4.4.2.1.5.1.9.1 P This enumerated parameter reports on the coding rate of the applied ldpc encoding. This parameter can take on the following values:- '1/2';- '2/3';- '3/4';- '7/8'.If ((incoming service data unit NOT MC Frame) OR (fwdAosSyncFrameEncoding ≠ 'ldpc')), the value of this parameter shall be flagged as 'undefined'.Note: The information block length is determined by the value of transfer-frame-length. fwdAosSyncFrameLdpcCodeRate true 1 2015-11-05
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SEQUENCE (SIZE (1)) OF Enumerated (0 .. 3){ 1/2 (0), 2/3 (1), 3/4 (2), 7/8 (3)} incomingServiceDataUnit = AOS frame AND fwdAosSyncFrameEncoding = 'ldpc'
1.3.112.4.4.2.1.6 FR This FR accepts TC frames without FECF belonging to one Master Channel.It provides all TC frames for one physical channel.which optionally contain FECFs. FwdTcMcMux 2015-11-05
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1.3.112.4.4.2.1.6.3.1.1 D This directive permits setting of the controllable parameters of the TC MC Mux FR type. fwdTcMcMuxSetContrParams 1 2015-11-05
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None
Q The directive qualifier specifies the FR instance the directive shall act on and contains a set of parameter identifier and parameter value pairs. To be valid, the parameter identifier must reference a controllable parameter of the TC MC Mux FR and the parameter value must be of the same type as the parameter value that shall be set. fwdTcMcMuxContrParamIdsAndValues 1 2015-11-05
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depends on the specific paramter(s) being set Will be entered when the format problem is solved
1.3.112.4.4.2.1.6.1.1.1 P This parameter reports the maximum length in octets of a TC MC frame the FR accepts for further processing. The reported length refers to the frame length after insertion of the Frame Error Control Field if applicable. fwdTcMcMuxMaxFrameLength true 1 2015-11-05
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octet SEQUENCE (SIZE (1)) OF IntPos (1 .. 1024) None
1.3.112.4.4.2.1.6.1.2.1 P This parameter reports the Spacecraft IDs and consequently the Master Channels that are permitted on the given forward link. fwdTcMcMuxValidScids true 1 2015-11-05
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SEQUENCE (SIZE (1 .. 1024) OF IntUnsigned (0 .. 1023) None
1.3.112.4.4.2.1.6.1.3.1 P This enumerated parameter reports on the scheme that the FR applies to multiplex, if applicable, the Master Channels on the forward link. It can take on the following values:- 'fifo': the multiplexing is performed such that the TC MC Frames queued for the different Master Channels are multiplexed on the physical channel in the same sequence as they were received on the FR input; - 'absolute priority': TC MC Frames are multiplexed in the order of priority given to the Master Channel for which they have been queued where all priorities have to be different; - 'polling vector': the TC MC Frame queues of the Master Channels are checked for TC MC Frames ready to be multiplexed on the physical channel according to the polling vector. fwdTcMcMuxScheme true 1 2015-11-05
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SEQUENCE (SIZE (1)) OF Enumerated (0 .. 2) { fifo (0) , absolute priority (1) , polling vector (2) } None
1.3.112.4.4.2.1.6.1.4.1 P This parameter reports on how the TC Master Channels are multiplexed on the physical channel. In case fwdTcMcMuxScheme = ‘fifo’, this parameter will be flagged as undefined. If fwdTcMcMuxScheme = 'absolute priority', then this parameter contains a sequence of the SCIDs used on the forward link where the first SCID in the sequence has the highest priority, the second has the second-highest priority etc. Consequently the sequence has as many elements as Spacecraft Identifiers are permitted on the given physical channel. If fwdTcMcMuxScheme = 'polling vector', then the sequence consists of up to 3072 elements where each element is a SCID. Each SCID used in fwdTcMcMuxContr must be an element of fwdTcMcMuxValidScids. If the given FR instance is not configured to accept TC MC frames as incoming service data units, the value of this parameter shall be flagged as 'undefined'. fwdTcMcMuxContr true 1 2015-11-05
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SEQUENCE (SIZE (1 .. 3072) OF IntUnsigned (0 .. 1023) None
1.3.112.4.4.2.1.6.1.5.1 P This enumerated parameter reports if the FR inserts the Frame Error Control Field into each frame before before passing it to the FwdTcSyncAndChnlEncoding FR. This parameter can take on two values:- 'present';- 'absent'.The details regarding the FEC are specified in CCSDS 232.0-B-2. fwdTcMcMuxPresenceOfFec true 1 2015-11-05
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SEQUENCE (SIZE (1)) OF Enumerated (0 .. 1){ present (0), absent (1)} None
1.3.112.4.4.2.1.7 FR This FR accepts TC frames not containing FECFs for a specific TC VC as input.It provides the TC frames not containing FECFs for a specific TC Master Channel. FwdTcVcMux 2015-11-05
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1.3.112.4.4.2.1.7.3.1.1 D This directive permits setting of the controllable parameters of the TC VC Mux FR type. fwdTcVcMuxContrParams 1 2015-11-05
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None
Q The directive qualifier specifies the FR instance the directive shall act on and contains a set of parameter identifier and parameter value pairs. To be valid, the parameter identifier must reference a controllable parameter of the TC VC Mux FR and the parameter value must be of the same type as the parameter value that shall be set. fwdTcVcMuxContrParamIdsAndValues 1 2015-11-05
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depends on the specific paramter(s) being set Will be entered when the format problem is solved
1.3.112.4.4.2.1.7.1.1.1 P This parameter reports on the maximum TC VC frame length in octets that the FR accepts as input for further processing where the specified length shall not take into account the Frame Error Control Field, if present on the physical channel.Note: The value of the fwdTcVcMuxMaxFrameLength parameter of an instance of this FR must be less than or equal to the fwdTcMcMuxMaxFrameLength parameter of the FwdTcMcMux FR consuming the TC MC frames generated by this FwdTcVcMux FR instance. fwdTcVcMuxMaxFrameLength true 1 2015-11-05
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octet SEQUENCE (SIZE (1)) OF IntPos (1 .. 1024) fwdTcVcMuxMaxFrameLength ≤ FwdTcMcMux : fwdTcMcMuxMaxFrameLength
1.3.112.4.4.2.1.7.1.2.1 P This parameter reports on the spacecraft ID and thus on the Master Channel that is provided by the given FR instance. fwdTcVcMuxMc true 1 2015-11-05
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SEQUENCE (SIZE (1)) OF IntUnsigned (0 .. 1023) fwdTcVcMuxMc ͼ {FwdTcMcMux: fwdTcMcMuxValidScids}
1.3.112.4.4.2.1.7.1.3.1 P This parameter reports the VC-IDs of the TC VC frames the FR instance accepts as input. fwdTcVcMuxValidVcids true 1 2015-11-05
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SEQUENCE (SIZE (1 .. 64) OF IntUnsigned (0 .. 63) None
1.3.112.4.4.2.1.7.1.4.1 P This enumerated parameter reports on the VC multiplexing scheme that the given FR instance applies to multiplex the Virtual Channels into the Master Channel. It can take on the following values:- 'fifo': the multiplexing is performed such that the TC VC frames queued for the different Virtual Channels are inserted into the Master Channel in the same sequence as they get queued by the FRs generating these frames;- 'absolute priority': TC VC frames are multiplexed in the order of priority given to the Virtual Channel for which they have been queued where all priorities have to be different;- 'polling vector': the TC VC fame queues of the Virtual Channels are checked for TC VC fames ready to be inserted in the Master Channel according to the polling vector. fwdTcVcMuxScheme true 1 2015-11-05
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SEQUENCE (SIZE (1)) OF Enumerated (0 .. 2){ fifo (0), absolutePriority (1), pollingVector (2)} None
1.3.112.4.4.2.1.7.1.5.1 P This parameter reports on how the Virtual Channels are multiplexed into the Master Channel provided by this FR instance. In case fwdTcVcMuxScheme = ‘fifo’, this parameter will be flagged as undefined. If fwdTcVcMuxScheme = 'absolute priority', then this parameter contains a sequence of the VCIDs used on the given Master Channel where the first VCID in the sequence has the highest priority, the second has the second-highest priority etc. Consequently the sequence has as many elements as Virtual Channels exist on the Master Channel provided by the given FR instance. If fwdTcVcMuxScheme = 'polling vector', then the sequence consists of up to 192 elements where each element is a VCID. fwdTcVcMuxContr true 1 2015-11-05
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SEQUENCE (SIZE (1 .. 192) OF IntUnsigned (0 .. 63) fwdTcVcMuxScheme ≠ 'fifo' AND (each element of {fwdTcVcMuxContr}) ͼ {fwdTcVcMuxValidVcids}
1.3.112.4.4.2.1.8 FR This FR instance accepts as input one of the following:- ENCAP.requests carrying IP packets; this type of input data gets converted to Encapsulation packets which are then passed to the VCP service. Such request will only be accepted if (the EPI in the request is 2 and 2 ͼ {fwdTcVcGenValidProtocolIds)) AND (PVN in the request is 8 AND 8 ͼ {fwdTcVcGenValidPktVersionNumbers}).- ENCAP.requests bearing CFDP data units; this type of input data gets converted to Encapsulation packets which are then passed to the VCP service. Such request will only be accepted if (the EPI in the request is 3 AND 3 ͼ {fwdTcVcGenValidProtocolIds)) AND (the PVN in the request is 8 AND 8 ͼ {fwdTcVcGenValidPktVersionNumbers}).- VCP.requests carrying CFDP data units; such request will only be accepted if (the space packet header of the packet in the request has the APID 2045 AND 2045 ͼ {fwdTcVcGenValidApids}) AND (the PVN in the request is 1 AND 1 ͼ {fwdTcVcGenValidPktVersionNumbers}).ENCAP.requests carrying forward file data units; this type of input data gets converted to Encapsulation packets which are then passed to the VCP service. Such request will only be accepted if (the EPI in the request is 7 AND 7 ͼ {fwdTcVcGenValidProtocolIds}) AND (the PVN in the request is 8 AND 8 ͼ {fwdTcVcGenValidPktVersionNumbers}).- VCP.requests carrying space packets; such requests will only be accepted if (the PVN in the request is 1 AND 1 ͼ {fwdTcVcGenValidPktVersionNumbers}) and the APID contained in the header of the packet in the request ͼ {fwdTcVcGenValidApids}.- MAP Channel frame data units that are the result of MAP multiplexing; this input type is only accepted if fwdTcVcGenPresenceOfSegmentHeader = 'present'. Regardless of the specific input type, incoming requests are only accepted if the VCID of the SDLP Channel / GVCID of the request is equal to fwdTcVcGenVcid and the TVN of the GVCID in the request is 0.In deviation from CCSDS 232.0-B-2, the VCP.requests carrying space packets have an additional argument that flags if the packet of this request may be blocked, i.e. may be embedded in a TC frame together with other space packets or has to the single packet traveling in the given TC frame.In parallel it may accept as input- COP directives;- CLCWs extracted from the associated return link.This FR provides TC frames of a specific Virtual Channel. These frames do not (yet) contain the FECF. FwdTcEncapAndVcPktProcessingAndVcGen 2015-11-05
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1.3.112.4.4.2.1.8.3.1.1 D This directive permits setting of the controllable parameters of the FwdTcEncapAndVcPktProcessingAndVcGen FR type. fwdTcVcGenSetContrParams 1 2015-11-05
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None
Q The directive qualifier specifies the FR instance the directive shall act on and contains a set of parameter identifier and parameter value pairs. To be valid, the parameter identifier must reference a controllable parameter of the TC Encap VC Pkt Processing &VC Gen FR and the parameter value must be of the same type as the parameter value that shall be set. fwdTcVcGenContrParamIdsAndValues 1 2015-11-05
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depends on the specific paramter(s) being set Will be entered when the format problem is solved
1.3.112.4.4.2.1.8.1.1.1 P This parameter reports on the maximum TC VC frame length without FECF in octets that may result from processing the input to be accepted for further processing. Note: The value of fwdTcVcGenMaxFrameLength parameter of an instance of this FR must be less than or equal to the parameter fwdTcVcMux: fwdTcVcMuxMaxFrameLength of the fwdTcVcMux FR instance consuming the TC VC frames provided by this FwdTcEncapAndVcPktProcessingAndVcGen FR instance. fwdTcVcGenMaxFrameLength true 1 2015-11-05
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octet SEQUENCE (SIZE (1)) OF IntPos (5 .. 1024) commanded-maximum-tc-vc-frame-length ≤ TC VC Mux: maximum-tc-vc-frame-length
1.3.112.4.4.2.1.8.1.2.1 P This parameter reports on the VCID of the TC VC Frames the given FR instance provides. fwdTcVcGenVcid true 1 2015-11-05
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SEQUENCE (SIZE (1)) OF IntUnsigned (0 .. 63) fwdTcVcGenVcid ͼ {fwdTcVcMux: fwdTcVcMuxValidVcids}
1.3.112.4.4.2.1.8.1.3.1 P This parameter reports the maximum length in octets that an incoming packet of a VCP.request or the data unit of an ENCAP.request may have to be accepted for further processing by this FR instance. fwdTcVcGenMaxPktLength true 1 2015-11-05
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octet SEQUENCE (SIZE (1)) OF IntPos (1 .. 4294967287) None
1.3.112.4.4.2.1.8.1.4.1 P This parameter reports the set of APIDs on of which an incoming VCP.request must have to be accepted by this FR instance. fwdTcVcGenValidApids true 1 2015-11-05
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SEQUENCE (SIZE (1 .. 2048) OF IntUnsigned (0 .. 2047) None
1.3.112.4.4.2.1.8.1.5.1 P This enumerated parameter reports if in the TC VC Frames generated by the given FR instance the segment header is present or absent. It can take on two values:- 'present';- 'absent'. fwdTcVcGenPresenceOfSegmentHeader true 1 2015-11-05
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SEQUENCE (SIZE (1)) OF Enumerated (0 .. 1){ present (0), absent (1)} The segment header must not be set to be absent if the active input data is of the type MAP Channel frame data units.
1.3.112.4.4.2.1.8.1.6.1 P This parameter reports on the Packet Version Numbers of packets that the FR may insert into the TC VC frames.Note: If '1' is not an element of the fwdTcVcGenValidPktVersionNumbers parameter, then incoming VCP.requests are disregarded by the FR instance. If 8 is not an element of the fwdTcVcGenValidPktVersionNumbers parameter, then incoming ENCAP.requests are disregarded by the FR instance. fwdTcVcGenValidPktVersionNumbers true 1 2015-11-05
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SEQUENCE (SIZE (1 .. 2) OF IntPos ({1,8}) If the FR instance shall accept ENCAP.requests as input, 8 must not be removed from {wdTcVcGenValidPktVersionNumbers}. If the FR instance shall accept VCP-requests as input, 1 must not be removed from {fwdTcVcGenValidPktVersionNumbers}.
1.3.112.4.4.2.1.8.1.7.1 P This parameter specifies the minimum length in octets that the Encapsulation Data Unit embedded in the incoming ENCAP.request must have to be accepted as input by this FR instance. If an incoming ENCAP.request does not meet this requirement, it will be disregarded by this FR instance.If (8 NOT ELEMENT OF {fwdTcVcGenValidPktVersionNumbers}), this parameter shall be flagged as 'undefined'. fwdTcVcGenEncapMinDataUnitLength true 1 2015-11-05
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octet SEQUENCE (SIZE (1)) OF IntUnsigned (0 .. 4294967287) 8 ͼ {fwdTcVcGenValidPktVersionNumbers} AND the resulting length of the Encapsulation Packet must not exceed the length specified in fwdTcVcGenMaxPktLength.
1.3.112.4.4.2.1.8.1.8.1 P This parameter specifies the maximum length in octets that the data unit of an incoming ENCAP.request may have. If an incoming request does not meet this requirement, that request will be disregarded by the FR.If (8 NOT ELEMENT OF fwdTcVcGenValidPktVersionNumbers), this parameter shall be flagged as 'undefined'. fwdTcVcGenEncapMaxDataUnitLength true 1 2015-11-05
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octet SEQUENCE (SIZE (1)) OF IntUnsigned (0 .. 4294967287) 8 ͼ {fwdTcVcGenValidPktVersionNumbers} AND the resulting length of the Encapsulation Packet must not exceed the length specified in fwdTcVcGenMaxPktLength.
1.3.112.4.4.2.1.8.1.9.1 P This parameter specifies the set of protocol IDs one of which the EPI of an incoming ENCAP.request must be to be accepted by this FR instance to be accepted as input.If (8 NOT ELEMENT OF {fwdTcVcGenValidPktVersionNumbers}), this parameter shall be flagged as 'undefined'.NOTE: The only valid EPI values for the ENCAP.requests handled by this FR type are 2 and 3. fwdTcVcGenValidProtocolIds true 1 2015-11-05
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SEQUENCE (SIZE (1 .. 8) OF IntUnsigned (0 .. 7) 8 ͼ {fwdTcVcGenValidPktVersionNumbers}
1.3.112.4.4.2.1.8.1.10.1 P This parameter specifies the set of protocol ID extensions of which the EPI of an incoming ENCAP.request must contain one to be accepted by this FR instance, provided the protocol ID specified in the EPI is 6. The FR instance disregards incoming ENCAP.requests if the EPI specifies a protocol ID of 6, but the protocol id extension of the EPI does not specify a a value that is ͼ {valid-protocol-id-extensions}. If ((8 NOT ELEMENT OF {fwdTcVcGenValidPktVersionNumbers}) OR (data-field-content = 'virtual channel access service data unit') OR (6 NOT ELEMENT OF {fwdTcVcGenValidProtocolIds})), this parameter shall be flagged as 'undefined'.NOTE: None of the ENCAP.request types handled by this FR instance is permitted to specify 6 as protocol ID. Thedrefore at least for now the parameter fwdTcVcGenValidProtocolIdExtensions is specified only for the sake of completeness, but is not used. fwdTcVcGenValidProtocolIdExtensions true 1 2015-11-05
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SEQUENCE (SIZE (1 .. 16) OF IntUnsigned (0 .. 15) 8 ͼ {fwdTcVcGenValidPktVersionNumbers} AND 6 ͼ {fwdTcVcGenValidProtocolIds}
1.3.112.4.4.2.1.8.1.11.1 P This parameter specifies if on the given Virtual Channel the aggregation (blocking) of packets in a common TC VC frame is permitted. It can take on two values:- 'permitted';- 'prohibited'.Note: If blocking = 'prohibited', the permission of blocking in an incoming VCP.request is disregarded by this FR instance. fwdTcVcGenBlocking true 1 2015-11-05
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SEQUENCE (SIZE (1)) OF Enumerated (0 .. 1) { permitted (0) , prohibited (1) } None
1.3.112.4.4.2.1.8.1.12.1 P This parameter reports the period in 1/1000 seconds from inserting a first space packet into a Frame Data Field until this unit is passed to the FOP regardless of the number of packets contained; this timeout period is applicable to all blocking performed for the given VC. The parameter shall be flagged as undefined in case fwdTcVcGenBlocking = 'prohibited'. fwdTcVcGenBlockingTimeoutPeriod true 1 2015-11-05
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1/1000 s SEQUENCE (SIZE (1)) OF Duration: milliseconds: IntUnsigned (100 .. 100000) None
1.3.112.4.4.2.1.8.1.13.1 P This enumerated parameter reports how the FR instance shall act in case the transmission in AD mode of a TC frame is considered failed because the permitted number of TC frame retransmissions has been exhausted (cf. transmission-limit) and the permitted time from the moment when the last radiation has occurred until the frame should have been acknowledged by a CLCW (cf. t1-initial) has expired. The FOP offers two options which are reflected in the two values that this parameter can take on:-'alert': the AD mode is terminated and a FOP alert is generated;- 'suspend': the AD mode is suspended and may be resumed at a later point by invoking the dedicated directive.NOTE: This FR type does not offer an FR directive for setting this parameter. It can only be set by means of the related COP directive which may be sent by the fwdSpTsProvider FR. fwdTcVcGenCopTimeoutType false 1 2015-09-23
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SEQUENCE (SIZE (1)) OF Enumerated (0 .. 1) { alert (0), suspend (1)}
1.3.112.4.4.2.1.8.1.14.1 P This parameter reports how many times a CLTU containing a TC Frame containing a Type-A service data unit of the given Virtual Channel shall be radiated.Note: This parameter must be equal or less than the parameter FwdTcSyncAndChnlEncoding: fwdTcSyncMaxCltuRepetitions of the FwdTcSyncAndChnlEncoding FR instance generating the physical channel used to transfer the given Virtual Channel. fwdTcVcGenCopTypeARepetitions true 1 2015-11-05
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SEQUENCE (SIZE (1)) OF IntPos (1 .. 5) fwdTcVcGenCopTypeARepetitions ≤ FwdTcSyncAndChnlEncoding: fwdTcSyncMaxCltuRepetitions
1.3.112.4.4.2.1.8.1.15.1 P This parameter reports how many times a transfer frame containing a COP control service data unit shall be forwarded on the given Virtual Channel.NOTE: This parameter must be equal or less than the parameter FwdTcSyncAndChnlEncoding: fwdTcSyncMaxCltuRepetitions of the FwdTcSyncAndChnlEncoding FR instance generating the physical channel used to transfer the given Virtual Channel. fwdTcVcGenCopContrRepetions true 1 2015-11-05
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SEQUENCE (SIZE (1)) OF IntPos (1 .. 5) fwdTcVcGenCopContrRepetions ≤ FwdTcSyncAndChnlEncoding: fwdTcSyncMaxCltuRepetitions
1.3.112.4.4.2.1.8.1.16.1 P This parameter reports the time, in microseconds, from the transmission of a TC transfer frame in AD mode, as long as not acknowledged by an incoming CLCW, until this frame will be retransmitted or, after the last permitted retransmission has happened (cf. fwdTcVcGenCopTransmissionLimit), the FOP alert or AD mode suspension will occur.NOTE: This FR type does not offer an FR directive for setting this parameter. It can only be set by means of the related COP directive which may be sent by the fwdSpTsProvider FR. fwdTcVcGenCopT1Initial false 1 2015-09-23
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1/1000000 s SEQUENCE (SIZE (1)) OF Duration: microseconds: IntUnsigned
1.3.112.4.4.2.1.8.1.17.1 P This parameter reports the maximum number of times the first TC frame on the FOP Sent_Queue may be transmitted.NOTE: This FR type does not offer an FR directive for setting this parameter. It can only be set by means of the related COP directive which may be sent by the fwdSTsProvider FR. fwdTcVcGenCopTransmissionLimit false 1 2015-09-23
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SEQUENCE (SIZE (1)) OF IntPos (1 .. 255)
1.3.112.4.4.2.1.8.1.18.1 P This parameter reports the number of TC frames that may be transmitted on the given VC before an acknowledgement in the CLCW is required.NOTE: This FR type does not offer an FR directive for setting this parameter. It can only be set by means of the related COP directive which may be sent by the fwdSpTsProvider FR. fwdTcVcGenFopSlidingWindowWidth false 1 2015-09-23
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SEQUENCE (SIZE (1)) OF IntPos (1 .. 255)
1.3.112.4.4.2.1.8.1.19.1 P This enumerated parameter reports the present state of the Frame Operation Procedure (FOP) as specified in CCSDS 232.1-B-2. The parameter can take on the following values:- 'active';- 'retransmit without wait';- 'retransmit with wait';- 'initializing without BC frame';- 'initializing with BC frame';- 'initial'.The FOP state table is explained in details in the CCSDS Communications Operation Procedure-1, CCSDS 232.1-B-2. fwdTcVcGenFopState false 1 2015-09-23
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SEQUENCE (SIZE (1)) OF Enumerated (0 .. 5){ active (0), retransmit-without-wait (1), retransmit-with-wait (2), initializing-without-bc-frame (3), initializing-with-bc-frame (4), initial (5)}
1.3.112.4.4.2.1.8.1.20.1 P This parameter reports the value of the Frame Sequence Number, N(S), to be put in the Transfer Frame Primary Header of the next Type-AD frame to be transmitted after (re-)initialization of the AD service. This value will be equal to Transmitter_Frame_Sequence_Number, V(S).NOTE: This FR type does not offer an FR directive for setting this parameter. It can only be set by means of the related COP directive which may be sent by the fwdSpTsProvider FR. fwdTcVcGenTxFrameSequNumber false 1 2015-09-23
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SEQUENCE (SIZE (1)) OF IntUnsigned (0 .. 255)
1.3.112.4.4.2.1.9 FR This FR instance accepts as input one of the following:- ENCAP.requests carrying IP packets; this type of input data gets converted to Encapsulation packets which are then passed to the MAPP service. Such request will only be accepted if (the EPI in the request is 2 and 2 ͼ {fwdPktProcessingValidProtocolIds)) AND (PVN in the request is 8 AND 8 ͼ {fwdPktProceessingValidPktVersionNumbers}) AND the GMAP ID specified in the SDLP Channel of the ENCAP.request identifies a MAP ID that is ͼ {fwdPktProcessingValidMapIds}- ENCAP.requests bearing CFDP data units; this type of input data gets converted to Encapsulation packets which are then passed to the MAPP service. Such request will only be accepted if (the EPI in the request is 3 AND 3 ͼ {fwdPktProcessingValidProtocolIds}) AND (the PVN in the request is 8 AND 8 ͼ {fwdPktProceessingValidPktVersionNumbers}) AND the MAP ID contained in the GMAP ID conveyed in the SDLP_Channel parameter of the ENCAP.request is ͼ {fwdPktProcessingValidMapIds}.- MAPP.requests carrying CFDP data units; such request will only be accepted if (the space packet header of the packet in the request has the APID 2045 AND 2045 ͼ {valid-apids}) AND (the PVN in the request is 1 AND 1 ͼ {fwdPktProceessingValidPktVersionNumbers}) AND the MAP ID parameter of the MAPP.request is ͼ {fwdPktProcessingValidMapIds}.ENCAP.requests carrying forward file data units; this type of input data gets converted to Encapsulation packets which are then passed to the VCP service. Such request will only be accepted if (the EPI in the request is 7 AND 7 ͼ {fwdPktProcessingValidProtocolIds}) AND (the PVN in the request is 8 AND 8 ͼ {fwdPktProceessingValidPktVersionNumbers}).- VCP.requests carrying space packets; such requests will only be accepted if (the PVN in the request is 1 AND 1 ͼ {fwdPktProceessingValidPktVersionNumbers}) and the APID contained in the header of the packet in the request ͼ valid-apids.- MAP Channel frame data units that are the result of MAP multiplexing; this input type is only accepted if presence-of-segment-header = 'present'. Regardless of the specific input type, incoming requests are only accepted if the VCID of the SDLP Channel / GVCID of the request is equal to tc-frame-vcid and the TVN of the GVCID in the request is 0.In deviation from CCSDS 232.0-B-2, the VCP.requests carrying space packets have an additional argument that flags if the packet of this request may be blocked, i.e. may be embedded in a TC frame together with other space packets or has to the single packet traveling in the given TC frame.In parallel it may accept as input- COP directives;- CLCWs extracted from the associated return link.This FR provides TC frames of a specific Virtual Channel. These frames do not (yet) contain the FECF.Note: The present FR Model does not envisage the use of the MAPA.request primitive as an input to this FR type. Therefore, the parameters defined for this FR do not cover the case of incoming MAPA.request primitives. FwdEncapMapPktProcessing 2015-05-26
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1.3.112.4.4.2.1.9.1.1.1 P This parameter reports on the maximum transfer frame length in octets that is permitted on the given MAP Channel, where the specified length must take into account the Frame Error Control Field, if present on the given physical channel.Note: The value of the fwdPktProcessingMaxFrameLength parameter of an instance of this FR must be less than or equal to the parameter fwdTcVcGenMaxFrameLength of the TC Encapsulation, VC Packet Processing and VC Generation FR consuming the MAP channel generated by this FwdEncapMapPktProcessing FR instance. fwdPktProcessingMaxFrameLength false 1 2014-06-16
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octets SEQUENCE (SIZE (1)) OF IntUnsigned (1 .. 1024)
1.3.112.4.4.2.1.9.1.2.1 P This parameter reports on the Packet Version Numbers of packets that the FR may insert into the MAP channel.Note 1: If 1 is not an element of {fwdPktProceessingValidPktVersionNumbers}, then incoming MAPP requests are disregarded by the FR. If 8 is not an element of {fwdPktProceessingValidPktVersionNumbers}, then incoming ENCAPP requests are disregarded. If both versions are allowed, then the data insertion is performed in the same sequence as the requests are received by the FR.Note 2: This parameter must be a subset of the fwdTcVcGenValidPktVersionNumbers parameter of the FwdTcEncapAndVcPktProcessingAndVcGen FR instance that consumes the MAP channel generated by this FR instance. fwdPktProceessingValidPktVersionNumbers false 1 2014-06-16
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SEQUENCE (SIZE (1 .. 2) OF IntUnsigned ({1,8})
1.3.112.4.4.2.1.9.1.3.1 P This parameter specifies the minimum length in octets that the data unit argument of an incoming ENCAP request must have. If an incoming request does not meet this requirement, that request will be disregarded by the FR.If (8 NOT ELEMENT OF {fwdPktProceessingValidPktVersionNumbers}), this parameter shall be flagged as 'undefined'.Note: The value of this parameter must be equal or greater than the fwdTcVcGenEncapMinDataUnitLength of the FwdTcEncapAndVcPktProcessingAndVcGen FR instance that consumes the MAP channel generated by this FR instance. fwdPktProcessingEncapMinDataUnitLength false 1 2014-06-16
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octets SEQUENCE (SIZE (1)) OF IntUnsigned (0 .. 4294967287)
1.3.112.4.4.2.1.9.1.4.1 P This parameter specifies the maximum length in octets that the data unit argument of an incoming ENCAP request may have. If an incoming request does not meet this requirement, that request will be disregarded by the FR.If (8 NOT ELEMENT OF {fwdPktProceessingValidPktVersionNumbers}), this parameter shall be flagged as 'undefined'.Note: The value of this parameter must equal or less than the fwdTcVcGenEncapMaxDataUnitLength of the fwdTcEncapAndVcPktProcessingAndVcGen FR instance that consumes the MAP channel generated by this FR instance. fwdPktProcessingEncapMaxDataUnitLength false 1 2014-06-16
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octets SEQUENCE (SIZE (1)) OF IntUnsigned (0 .. 4294967287)
1.3.112.4.4.2.1.9.1.5.1 P This parameter specifies the set of protocol IDs of which an encap request must contain one to be valid. The FR disregards incoming encap requests that are not valid.If (8 NOT ELEMENT OF {fwdPktProceessingValidPktVersionNumbers}), this parameter shall be flagged as 'undefined'.Note: This parameter must be a subset of the fwdTcVcGenValidProtocolIds parameter of the FwdTcEncapAndVcPktProcessingAndVcGen FR instance that consumes the MAP chnnel generated by this FR instance. fwdPktProcessingValidProtocolIds false 1 2016-06-16
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SEQUENCE (SIZE (1 .. 8) OF IntUnsigned (0 .. 7)
1.3.112.4.4.2.1.9.1.6.1 P This parameter specifies the set of protocol ID extensions of which an encap request must contain one to be valid if the protocol ID of that request is '6'. The FR disregards incoming encap requests that are not valid.If ((8 NOT ELEMENT OF {fwdPktProceessingValidPktVersionNumbers}) OR (6 NOT ELEMENT OF {fwdPktProcessingValidProtocolIds})), this parameter shall be flagged as 'undefined'. fwdPktProcessingValidProtocolIdExtensions false 1 2014-06-16
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SEQUENCE (SIZE (1 .. 16) OF IntUnsigned (0 .. 15)
1.3.112.4.4.2.1.9.1.7.1 P This parameter reports the MAP IDs that are permitted on the Virtual Channel generated by the given FR instance and for each permitted MAP-ID the maximum packet length, if segmentation is permitted, if blocking is permitted and if so, which timeout period shall be applied. fwdPktProcessingValidMapIds false 1 2014-06-16
CSTS
SEQUENCE (SIZE (1 .. 64) OF a sequence of IntUnsigned where the sequence consists of up to 64 sequences where each of them has five elements. The first element specifies the MAP-ID, the second element specifies the maximum packet length applicable to the given MAP channel (6 .. 65537), the third element indicates whether segmentation of packets is permitted (0) or prohibited (1) on the given MAP channel, the fourth element specifies if more than one packet may be aggregated within one MAP channel frame data unit (blocking: permitted (0), prohibited (1)) and the fifth specifies the blocking timeout period in 1/1000 s and shall be set to zero in case blocking is prohibited.
1.3.112.4.4.2.1.9.1.8.1 P This enumerated parameter reports on the MAP multiplexing scheme that the given FR instance applies to multiplex the MAP channels on the Virtual Channel. It can take on the following values:- 'fifo': the multiplexing is performed such that the MAPP requests queued for the different MAPs are inserted into the Virtual Channel in the same sequence as they get sent by the FRs generating these MAPP requests;- 'absolute priority': MAPP requests are multiplexed in the order of priority given to the MAP for which they have been queued where all priorities have to be different;- 'polling vector': the MAPP request queues of the MAP Channels are checked for MAPP requests ready to be inserted in the Virtual Channel according to the polling vector. fwdPktProcessingMapMuxScheme false 1 2014-06-16
CSTS
SEQUENCE (SIZE (1)) OF IntUnsigned (0 .. 2){ fifo (0), absolutePriority (1), pollingVector (2)}
1.3.112.4.4.2.1.9.1.9.1 P This parameter reports on how the MAP Channels are multiplexed on the Virtual Channel. In case map-multiplexing-scheme = ‘fifo’, this parameter will be flagged as undefined. If map-multiplexing-scheme = 'absolute priority', then this parameter contains a sequence of the MAP IDs used on the given Virtual Channel where the first MAP ID in the sequence has the highest priority, the second has the second-highest priority etc. Consequently the sequence has as many elements as MAP Channels exist on the given Virtual Channel of the given mission. If map-multiplexing-scheme = 'polling vector', then the sequence consists of up to 192 elements where each element is a MAP ID. fwdPktProcessingMapMuxControl false 1 2014-06-16
CSTS
SEQUENCE (SIZE (1 .. 192) OF IntUnsigned (0 .. 63)
1.3.112.4.4.2.1.10 FR [Editor's note: This FR type is not yet specified to any level of detail. It is listed here only as a placeholder to achieve the desired OID assignment] FwdMapMux 2015-05-26
CSTS
1.3.112.4.4.2.1.11 FR This FR accepts AOS frames without FECF belonging to one Master Channel.It provides all AOS frames for one physical channel.which optionally contain FECFs. FwdAosMcMux 2015-11-05
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1.3.112.4.4.2.1.11.3.1.1 D This directive permits setting of the controllable parameters of the AOS MC Mux FR type. fwdAosMcMuxSetContrParams 1 2015-11-05
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None
Q The directive qualifier specifies the FR instance the directive shall act on and contains a set of parameter identifier and parameter value pairs. To be valid, the parameter identifier must reference a controllable parameter of the AOS MC Mux FR and the parameter value must be of the same type as the parameter value that shall be set. ControlledAosMcMuxParametersIdsAndValues 1 2015-11-05
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depends on the specific paramter(s) being set Will be entered when the format problem is solved
1.3.112.4.4.2.1.11.1.1.1 P This parameter reports the Spacecraft IDs and consequently the Master Channels that are permitted on the given physical channel. If the given FR instance is not configured to accept AOS frames as incoming service data units, the value of this parameter shall be flagged as 'undefined'. fwdAosMcMuxValidAosScids true 1 2015-11-05
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SEQUENCE (SIZE (1 .. 256) OF IntUnsigned (0 .. 255) incomingServiceDataUnit = AOS frame
1.3.112.4.4.2.1.11.1.2.1 P This enumerated parameter reports on the scheme that the FR applies to multiplex if applicable the Master Channels on the physical channel. It can take on the following values:- 'fifo': the multiplexing is performed such that the MC Frames queued for the different Master Channels are multiplexed on the physical channel in the same sequence as they are received on the FR input;- 'absolute priority': the MC Frames are multiplexed in the order of priority given to the Master Channel for which they have been queued where all priorities have to be different;- 'polling vector': the MC Frame queues of the Master Channels are checked for MC Frames ready to be multiplexed on the physical channel according to a polling vector. If the given FR instance is not configured to accept MC frames as incoming service data units, the value of this parameter shall be flagged as 'undefined'. fwdAosMcMuxScheme false 1 2015-11-05
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SEQUENCE (SIZE (1)) OF Enumerated (0 .. 2){ fifo (0), absolute priority (1), polling vector (2)} None
1.3.112.4.4.2.1.11.1.3.1 P This parameter reports on how the Master Channels are multiplexed on the physical channel. In case fwdAosMcMuxScheme = ‘fifo’, this parameter will be flagged as undefined. If fwdAosMcMuxScheme = 'absolute priority', then this parameter contains a sequence of the SCIDs used on the physical channel where the first SCID in the sequence has the highest priority, the second has the second-highest priority etc. Consequently the sequence has as many elements as Spacecraft Identifiers are permitted on the physical channel. If fwdAosMcMuxScheme = 'polling vector', then the sequence consists of up to 768 elements where each element is a SCID. Each SCID used in fwdAosMcMuxControl must be an element of {fwdAosMcMuxValidAosScids}. If the given FR instance is not configured to accept MC frames, the value of this parameter shall be flagged as 'undefined'. fwdAosMcMuxControl false 1 2015-11-05
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SEQUENCE (SIZE (1 .. 768) OF IntUnsigned (0 .. 255) fwdAosMcMuxScheme ≠ 'fifo'
1.3.112.4.4.2.1.11.1.4.1 P This enumerated parameter reports if the FR inserts the Header Error Control Field into each AOS frame. This parameter can take on two values:- 'present';- 'absent'. fwdAosMcMuxPresenceOfAosFrameHeaderErrorControl true 1 2015-11-05
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SEQUENCE (SIZE (1)) OF Enumerated (0 .. 1){ present (0), absent (1)} None
1.3.112.4.4.2.1.11.1.5.1 P This parameter reports the length in octets of the Insert Zone which will be inserted into each frame before generating the corresponding CADU. If fwdAosMcMuxInsertZoneLength = 0, then the Insert Zone is absent. If the FR instance is not configured to accept MC Frames as incoming service data units, the value of this parameter shall be flagged as 'undefined'. fwdAosMcMuxInsertZoneLength true 1 2015-11-05
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octet SEQUENCE (SIZE (1)) OF IntUnsigned (0 .. 2040) None
1.3.112.4.4.2.1.11.1.6.1 P This enumerated parameter reports if the FR inserts the Frame Error Control Field into each AOS frame before providing it to the Fwd AOS Sync and Channel Encoding FR. This parameter can take on two values: - 'present';- 'absent'. fwdAosMcMuxPresenceOfFec true 1 2015-11-05
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SEQUENCE (SIZE (1)) OF Enumerated (0 .. 1){ present (0), absent (1)} None
1.3.112.4.4.2.1.12 FR None FwdAosVcMux 2014-06-02
CSTS
1.3.112.4.4.2.1.12.1.1.1 P This parameter reports on the spacecraft ID of the Master Channel that is generated by the given FR instance. fwdAosVcMuxMc false 1 2014-06-02
CSTS
SEQUENCE (SIZE (1)) OF IntUnsigned (0 .. 255)
1.3.112.4.4.2.1.12.1.2.1 P This parameter reports the VCIDs that are permitted on the Master Channel generated by the given FR instance. fwdAosVcMuxValidVcids false 1 2014-06-02
CSTS
SEQUENCE (SIZE (1 .. 64) OF IntUnsigned (0 .. 63)
1.3.112.4.4.2.1.12.1.3.1 P This enumerated parameter reports on the VC multiplexing scheme that the given FR instance applies to multiplex the Virtual Channels on the Master Channel. It can take on the following values:- 'fifo': the multiplexing is performed such that the AOS VC frames queued for the different Virtual Channels are inserted into the Master Channel in the same sequence as they get queued by the FRs generating these frames;- 'absolute priority': AOS VC Frames are multiplexed in the order of priority given to the Virtual Channel for which they have been queued where all priorities have to be different;- 'polling vector': the AOS VC frame queues of the Virtual Channels are checked for AOS VC frames ready to be inserted in the Master Channel according to the polling vector. fwdAosVcMuxScheme false 1 2014-06-02
CSTS
SEQUENCE (SIZE (1)) OF IntUnsigned (0 .. 2){ fifo (0), absolutePriority (1), pollingVector (2)}
1.3.112.4.4.2.1.12.1.4.1 P This parameter reports on how the Virtual Channels are multiplexed on the Master Channel. In case fwdAosVcMuxScheme = ‘fifo’, this parameter will be flagged as undefined. If fwdAosVcMuxScheme = 'absolute priority', then this parameter contains a sequence of the VCIDs used on the given Master Channel where the first VCID in the sequence has the highest priority, the second has the second-highest priority etc. Consequently the sequence has as many elements as Virtual Channels exist on the given Master Channel of the given mission. If fwdAosVcMuxScheme = 'polling vector', then the sequence consists of up to 192 elements where each element is a VCID. fwdAocVcMuxContr false 1 2014-06-18
CSTS
SEQUENCE (SIZE (1 .. 192) OF IntUnsigned (0 .. 63)
1.3.112.4.4.2.1.13 FR None FwdAosEncapAndVcPktProcessingAndVCGen 2014-06-14
CSTS
1.3.112.4.4.2.1.13.1.1.1 P This parameter reports on the Packet Version Numbers of packets that the FR may insert into the AOS VC Channel.Note 1: If 1 is not an element of the set of supported Packet Version Numbers, then incoming VCP requests are disregarded by the FR. If 8 is not an element of {fwdAosVcGenValidPktVersionNumbers}, then incoming ENCAP requests are disregarded. If both versions are allowed, then the data insertion is performed in the same sequence as the requests are received by the FR. fwdAosVcGenValidPktVersionNumbers false 1 2014-06-16
CSTS
SEQUENCE (SIZE (1 .. 2) OF IntUnsigned ({1,8})
1.3.112.4.4.2.1.13.1.2.1 P This parameter specifies the maximum length in octets that a packet contained in an incoming PACKET or ENCAP request may have. The FR will disregard requests containing packets that exceed this limit. fwdAosVcGenPktLength false 1 2014-06-16
CSTS
octets SEQUENCE (SIZE (1)) OF IntUnsigned (6 .. 65537)
1.3.112.4.4.2.1.14 FR The FCltuTsProvider FR provides the to be radiated CLTUs to the TCSyncAndChannelEncoding FR. FwdCltuTsProvider 2016-02-29
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1.3.112.4.4.2.1.14.2.1.1 E This event notifies any change of the fCltuProductionStatus parameter. fwdCltuTsProdStatChange 1 2016-02-29
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1.3.112.4.4.2.1.14.1.8 V The event value reports the fCltuProductionStatus value that applies since the notified fCltuProductionStatusChange event occurred. fwdCltuTsProdStatValue 1 2016-02-29
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'eventValue': 'EventValue': 'qualifiedValues': 'SequenceOfQualifiedValues': 'SEQUENCE OF QualifiedValues': 'qualifiedValues': 'TypeAndValueComplexQualified': 'typeAndValue': 'TypeAndValue': 'enumerated': SEQUENCE (SIZE (1)) OF Enumerated (0 .. 3){ configured (0), operational (1), interrupted (2), halted (3)}
1.3.112.4.4.2.1.14.3.1.1 D This directive permits setting of the controllable parameters of the FwdCltuTsProvider FR type. fwdCltuTsSetContrParams 1 2016-02-29
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None
Q The directive qualifier specifies the FR instance the directive shall act on and contains a set of parameter identifier and parameter value pairs. To be valid, the parameter identifier must reference a controllable parameter of the FCltuTsProvider FR and the parameter value must be of the same type as the parameter value that shall be set. fwdCltuTsContrParamIdsAndValues 1 2016-02-29
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depends on the specific paramter(s) being set For the identification of the FR instance: 'directiveQualifier': 'functResourceDirQualifier': 'functResourceInstanceNumber': 'FunctionalResourceInstanceNumber': 'IntPos'For the identification of the parameter to be set:'directiveQualifier': 'functResourceDirQualifier': 'functionalResourceQualifiers': 'DirectiveQualifierValues': 'setOfParamIdsAndValues': 'SetOfParameterIdsAndValues': 'parameterIdentifier': 'PublishedIdentifier'For the parameter value:'directiveQualifier': 'functResourceDirQualifier': 'functionalResourceQualifiers': 'DirectiveQualifierValues': 'setOfParamIdsAndValues': 'SetOfParameterIdsAndValues': 'parameterValue': 'TypeAndValueComplexQualified'The remainder of the path depends on the type of the value of the parameter that shall be set.
1.3.112.4.4.2.1.14.1.1.1 P This parameter reports the identifier of the given service instance. fwdCltuTsSiid false 1 2016-02-29
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SEQUENCE (SIZE (1)) OF VisibleString (SIZE (30 .. 256))
1.3.112.4.4.2.1.14.1.2.1 P This enumerated parameter reports the delivery mode of the given instance of the F-CLTU service. For the present version of this service only the ‘forward online’ delivery mode is defined. fwdCltuTsDeliveryMode false 1 2016-02-29
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SEQUENCE (SIZE (1)) OF Enumerated (0){ fwd-online (0)}
1.3.112.4.4.2.1.14.1.3.1 P This parameter reports the setting of the maximum time period in seconds permitted from when a confirmed F-CLTU operation is invoked until the return has to be received by the invoker. fwdCltuTsRtnTimeoutPeriod true 1 2016-02-29
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s SEQUENCE (SIZE (1)) OF IntUnsigned (1 .. 600) Setting of this parameter by means of the fwdCltuTsSetContrParams directive is only permissible while fwdCltuTsSiState = 'unbound'.
1.3.112.4.4.2.1.14.1.4.1 P This enumerated parameter reports how the F-CLTU provider notifies certain changes of fwdCltuTsProdStat to the service user. It can take on two values:- 'immediate': the user is notified of a fwdCltuTsProdStat change to 'interrupted' as soon as this transition is detected;- 'deferred': the user is notified about the fwdCltuTsProdStat change only if and when the radiation of a CLTU is affected. fwdCltuTsNotificationMode true 1 2016-02-29
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SEQUENCE (SIZE (1)) OF Enumerated (0 .. 1){ immediate (0), deferred (1)} Setting of this parameter by means of the fwdCltuTsSetContrParams directive is only permissible while fwdCltuTsSiState = 'unbound'.
1.3.112.4.4.2.1.14.1.5.1 P This enumerated parameter reports the way the F-CLTU service provider will act in the event of a protocol abort. This parameter can take on two values:- 'abort': service production will cease in the event of a protocol abort;- 'continue': service production will disregard the protocol abort event and continue radiating the CLTUs already buffered at the time of the event. fwdCltuTsProtocolAbortMode true 1 2016-02-29
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SEQUENCE (SIZE (1)) OF Enumerated (0 .. 1){ abort (0), continue (1)} Setting of this parameter by means of the fwdCltuTsSetContrParams directive is only permissible while fwdCltuTsSiState = 'unbound'.
1.3.112.4.4.2.1.14.1.6.1 P This enumerated parameter reports the status of the given instance of the F-CLTU service. It can take on the following values:- 'unbound': all resources required to enable the provision of the Forward CLTU service have been allocated, and all objects required to provide the service have been instantiated; however, no association yet exists between the user and the provider, i.e., the F-CLTU transfer service provider port is not bound;- 'ready': an association has been established between the user and the provider, and they may interact by means of the service operations. However, sending of CLTUs from the user to the provider (by means of the CLTU-TRANSFER-DATA operation) is not permitted; the user may enable the delivery of CLTUs by means of the appropriate service operation (CLTU-START), which, in turn, will cause the provider to transition to the state 'active';- 'active': this state resembles state ‘ready’, except that now the user can send CLTUs and the provider is enabled to radiate CLTUs to the spacecraft; the service continues in this state until the user invokes either the CLTU-STOP operation to cause the provider to suspend transmission of CLTUs and transition back to state 'ready' or the PEER-ABORT invocation to cause the service to transition back to the 'unbound' state. fwdCltuTsSiState false 1 2016-02-29
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SEQUENCE (SIZE (1)) OF Enumerated (0 .. 2){ unbound (0), ready (1), active (2)}
1.3.112.4.4.2.1.14.1.7.1 P This parameter reports the current setting of the time in seconds between successive CLTU-STATUS-REPORT invocations sent by the F-CLTU service provider. The permissible values are in the range (2 .. 600). If cyclic reporting is off, this parameter shall be flagged as 'undefined'. fwdCltuTsReportingCycle false 1 2016-02-29
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s SEQUENCE (SIZE (1)) OF IntUnsigned (2 .. 600)
1.3.112.4.4.2.1.14.1.8.1 P This enumerated parameter reports the status of the service production process used by the given instance of a F-CLTU service. It can take on the following values:- 'configured': equipment has been assigned to support the service instance, but the production process is not yet capable of radiating CLTUs;- 'operational': the production process has been configured for support, has completed the acquisition sequence, and is capable of radiating CLTUs;- 'interrupted': the production process is stopped due to a fault;- 'halted': the production process is stopped and production equipment is out of service due to management action. fwdCltuTsProdStat true 1 2016-02-29
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SEQUENCE (SIZE (1)) OF Enumerated (0 .. 3){ configured (0), operational (1), interrupted (2), halted (3)} Setting of the fwdCltuTsProdStat to 'operational' or 'interrupted' by means of the directive fwdCltuTsSetContrParams is not permissible.
1.3.112.4.4.2.1.14.1.9.1 P This enumerated parameter reports if the RF lock flag in the CLCW shall be reflected in the service provider’s fwdCltuTsProdStat parameter. It can take on the following values:- 'yes': the ‘No RF available’ flag in the CLCW must be false in order for the provider to set fwdCltuTsProdStat to ‘operational’;- 'no': the CLCW ‘No RF available’ flag shall be ignored. fwdCltuTsRfAvailableRequired true 1 2016-02-29
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SEQUENCE (SIZE (1)) OF Enumerated (0 .. 1){ 'yes' (0), 'no' (1)} Setting of this parameter by means of the fwdCltuTsSetContrParams directive is only permissible while fwdCltuTsSiState = 'unbound'.
1.3.112.4.4.2.1.14.1.10.1 P This enumerated parameter reports if the bit lock flag in the CLCW shall be reflected in the service provider’s fwdCltuTsProdStat parameter. It can take on the following values:- 'yes': the ‘No bit lock’ flag in the CLCW must be false in order for the provider to set fwdCltuTsProdStat to ‘operational’;- 'no': the CLCW ‘No bit lock’ flag shall be ignored. fwdCltuTsBitLockRequired true 1 2016-02-29
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SEQUENCE (SIZE (1)) OF Enumerated (0 .. 1){ yes (0), no (1)} Setting of this parameter by means of the fwdCltuTsSetContrParams directive is only permissible while fwdCltuTsSiState = 'unbound'.
1.3.112.4.4.2.1.14.1.11.1 P This parameter reports the value of the cltu-identification the F-CLTU service provider expects to receive in the next CLTU-TRANSFER-DATA invocation for this invocation to be valid. As long as fwdCltuTsSiState ≠ 'active', the value reported will be zero. fwdCltuTsExpectedCltuId false 1 2016-02-29
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SEQUENCE (SIZE (1)) OF IntUnsigned (0 .. 4294967295)
1.3.112.4.4.2.1.14.1.12.1 P This parameter reports the value of the event-invocation-identification the F-CLTU service provider expects to receive in the next CLTU-THROW-EVENT invocation for this invocation to be valid. The initial value of this parameter is zero. fwdCltuTsExpectedEventInvocId false 1 2016-02-29
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SEQUENCE (SIZE (1)) OF IntUnsigned (0 .. 4294967295)
1.3.112.4.4.2.1.14.1.13.1 P This parameter reports the total number of CLTUs received while the given service instance is accessible to the user. Only CLTUs that the service provider accepted and consequently buffered are counted in the total. fwdCltuTsNumberOfCltusReceived false 1 2016-02-29
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SEQUENCE (SIZE (1)) OF IntUnsigned
1.3.112.4.4.2.1.14.1.14.1 P This parameter reports the number of CLTUs that the provider attempted to radiate while the given service instance has been active including - CLTUs that radiated successfully; - CLTUs that expired; - CLTUs that aborted; - a CLTU in the process of being radiated. fwdCltuTsNumberOfCltusProcessed false 1 2016-02-29
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SEQUENCE (SIZE (1)) OF IntUnsigned
1.3.112.4.4.2.1.14.1.15.1 P This parameter reports the number of CLTUs that the provider successfully radiated completely during the service provision period. A CLTU in the process of being radiated is not included in this count. fwdCltuTsNumberOfCltusRadiated false 1 2016-02-29
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SEQUENCE (SIZE (1)) OF IntUnsigned
1.3.112.4.4.2.1.15 FR [Editor's note: This FR type is not yet specified to any level of detail. It is listed here to have the desired OID assigned and as to demonstrate OID cross references to the serviceGenericIdentifiers subbranch.] FwdFrameCstsProvider 2014-06-27
CSTS
1.3.112.4.4.1.1.5.2.1.1 E This event notifies any change of the fwdFrameCstsProdStat parameter. fwdFrameCstsProdStatChange 1 2016-03-17
CSS Area
1.3.112.4.4.1.1.5.1.1.1 V The event value reports the svcProductionStatusVersion1 value that applies since the notified svcProductionStatusChangeVersion1 event occurred. fwdFrameProdStatValue 1 2016-03-17
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'eventValue': 'EventValue': 'qualifiedValues': 'SequenceOfQualifiedValues': 'SEQUENCE OF QualifiedValues': 'qualifiedValues': 'TypeAndValueComplexQualified': 'typeAndValue': 'TypeAndValue': 'enumerated': SEQUENCE (SIZE (1)) OF Enumerated (0 .. 3){ configured (0), operational (1), interrupted (2), halted (3)}
1.3.112.4.4.1.1.5.1.1.1 P This parameter reports the production status of the Forward Frame CSTS Provider fwdFrameProdStat false 1 2016-03-17
1.3.112.4.4.2.1.16 FR none FwdSpTsProvider 2014-06-18
CSTS
1.3.112.4.4.2.1.16.1.1.1 P This parameter reports the identifier of the given service instance. fwdSpTsSiid false 1 2014-06-18
CSTS
SEQUENCE (SIZE (1)) OF VisibleString (SIZE (30 .. 256))
1.3.112.4.4.2.1.16.1.2.1 P This enumerated parameter reports the status of the given instance of the FSP service. It can take on the following values:- 'unbound': all resources required to enable the provision of the FSP service have been allocated, and all objects required to provide the service have been instantiated; however, no association yet exists between the user and the provider, i.e., the FSP transfer service provider port is not bound;- 'ready': an association has been established between the user and the provider, and they may interact by means of the service operations. However, sending of TC packets from the user to the provider (by means of the FSP-TRANSFER-DATA operation) is not permitted; the user may enable the delivery of TC packets by means of the appropriate service operation (FSP-START), which, in turn, will cause the provider to transition to the state 'active';- 'active': this state resembles state ‘ready’, except that now the user can send TC packets and the provider is enabled to process them; the service continues in this state until the user invokes the FSP-STOP operation to cause the provider to suspend the nprocessing of TC packets and transition back to state 'ready' or the PEER-ABORT invocation to cause the service to transition back to the 'unbound' state. fwdSpTsSiState false 1 2014-06-18
CSTS
SEQUENCE (SIZE (1)) OF IntUnsigned (0 .. 2) { unbound (0) , ready (1) , active (2) }
1.3.112.4.4.2.1.16.1.3.1 P This enumerated parameter reports the delivery mode of the given instance of the FSP service. For the present version of this service only the ‘forward online’ delivery mode is defined. fwdSpTsDeliveryMode false 1 2014-06-18
CSTS
SEQUENCE (SIZE (1)) OF IntUnsigned (0) { fwd-online (0) }
1.3.112.4.4.2.1.16.1.4.1 P This parameter reports the setting of the maximum time period in seconds permitted from when a confirmed FSP operation is invoked until the return is received by the invoker. fwdSpTsRtnTimeoutPeriod false 1 2014-06-18
CSTS
s SEQUENCE (SIZE (1)) OF IntUnsigned (1 .. 600)
1.3.112.4.4.2.1.16.1.5.1 P This enumerated parameter reports on the status of the service production process used by the given instance of the FSP service. It can take on the following values:- 'configured': equipment has been assigned to support the service instance, but the production process is not yet capable of processing Space Packets;- 'operational BD': the production process has been configured for support, has completed the acquisition sequence, and is capable of processing Space Packets and radiating them in BD transmission mode; the AD transmission mode is currently not supported;- 'operational AD and BD': the production process has been configured for support, has completed the acquisition sequence, and is capable of processing Space Packets and radiating them in any transmission mode;- 'operational AD suspended': a TC frame has been transmitted the transmission-limit number of times but no acknowledgement by CLCW has been received; the AD mode has therefore been suspended;- 'interrupted': the production process is stopped due to a fault;- 'halted': the production process is stopped and production equipment is out of service due to management action. fwdSpTsProdStat false 1 2014-06-18
CSTS
SEQUENCE (SIZE (1)) OF IntUnsigned (0 .. 3) { configured (0) , operational-bd (1) , operational-ad-bd (2) , operational-ad-suspended (3) , interrupted (4) , halted (5) }
1.3.112.4.4.2.1.16.1.6.1 P This enumerated parameter reports if the RF lock flag in the CLCW shall be reflected in the service provider’s production-status parameter. It can take on the following values:- 'yes': the ‘No RF available’ flag in the CLCW must be false in order for the provider to set fwdSpTsProdStat to ‘operational’;- 'no': the CLCW ‘No RF available’ flag shall be ignored. fwdSpTsRfAvailableRequired false 1 2014-06-17
CSTS
SEQUENCE (SIZE (1)) OF IntUnsigned (0 .. 1){ 'yes' (0), 'no' (1)}
1.3.112.4.4.2.1.16.1.7.1 P This enumerated parameter reports if the bit lock flag in the CLCW shall be reflected in the service provider’s production-status parameter. It can take on the following values:- 'yes': the ‘No bit lock’ flag in the CLCW must be false in order for the provider to set fwdSpTsProdStat to ‘operational’;- 'no': the CLCW ‘No bit lock’ flag shall be ignored. fwdSpTsBitLockRequired false 1 2014-06-17
CSTS
SEQUENCE (SIZE (1)) OF IntUnsigned (0 .. 1){ yes (0), no (1)}
1.3.112.4.4.2.1.16.1.8.1 P This enumerated parameter reports if the given service instance is permitted to invoke directives. This parameter can take on two values:- 'enabled': this service instance is permitted to invoke directives for the given Virtual Channel;- 'disabled': directives cannot be invoked using this service instance. fwdSpTsCopDirectiveInvocEnabled false 1 2014-06-18
CSTS
SEQUENCE (SIZE (1)) OF IntUnsigned (0 .. 1) { enabled (0) , disabled (1) }
1.3.112.4.4.2.1.16.1.9.1 P This enumerated parameter reports if the service instance that is permitted to invoke directives for the given VC, if any, is in the state 'active' (cf. fwdSpTsSiState). At most one service instance for a given VC will be configured to have the capability to invoke directives. This parameter can take on two values:- 'yes': the service instance permitted to invoke directives for the given Virtual Channel is 'active';- 'no': it is presently not possible to invoke directives for the given VC, i.e., the service instance permitted to invoke directives for the given Virtual Channel is 'unbound' or 'ready'. fwdSpTsDirectiveInvocOnline false 1 2014-06-18
CSTS
SEQUENCE (SIZE (1)) OF IntUnsigned (0 .. 1) { 'yes' (0) , no (1) }
1.3.112.4.4.2.1.16.1.10.1 P This enumerated parameter reports the transmission mode that the given service instance may use for the Space Packets that it processes. This parameter can take on two values: - 'expedited': the Space Packets will be embedded in TC frames that will be radiated in BD mode;- 'sequence controlled': the Space Packets will be embedded in TC frames that will be radiated in AD mode; - 'any': the service supports either transmission mode and will therefore transmit a Space Packet in the mode requested in the FSP-DATA-TRANSFER invocation. fwdSpTsPermittedXmitMode false 1 2014-06-18
CSTS
SEQUENCE (SIZE (1)) OF IntUnsigned (0 .. 2) { expedited (0) , sequence-controlled (1) , any (2) }
1.3.112.4.4.2.1.16.1.11.1 P This parameter reports all APIDs that the Space Packets processed by the given service instance may contain. If all APIDs are permitted, this parameter shall take the value -1. fwdSpTsApidList false 1 2014-06-18
CSTS
SEQUENCE (SIZE (1 .. 2048)) OF Integer (0 .. 2047, -1)
1.3.112.4.4.2.1.16.1.12.1 P This parameter reports the current setting of the time in seconds between successive FSP-STATUS-REPORT invocations sent by the FSP service provider. The permissible values are in the range (2 .. 600). If cyclic reporting is off, the value reported is undefined. fwdSpTsReportingCycle false 1 2014-06-18
CSTS
s SEQUENCE (SIZE (1)) OF IntUnsigned (2 .. 600)
1.3.112.4.4.2.1.16.1.13.1 P This parameter reports the value of the packet-identification the FSP service provider expects to receive in the next FSP-TRANSFER-DATA invocation for this invocation to be valid. As long as fwdSpTsSiState ≠ 'active', the value reported will be zero. fwdSpTsExpectedPktId false 1 2014-06-18
CSTS
SEQUENCE (SIZE (1)) OF IntUnsigned (0 .. 4294967295)
1.3.112.4.4.2.1.16.1.14.1 P This parameter reports the value of the directive-invocation-identification the FSP service provider expects to receive in the next FSP-INVOKE-DIRECTIVE invocation for this invocation to be valid. The initial value of this parameter is zero. fwdSpTsExpectedDirectiveId false 1 2014-06-18
CSTS
SEQUENCE (SIZE (1)) OF IntUnsigned (0 .. 4294967295)
1.3.112.4.4.2.1.16.1.15.1 P This parameter reports the value of the event-invocation-identification the FSP service provider expects to receive in the next FSP-THROW-EVENT invocation for this invocation to be valid. The initial value of this parameter is zero. fwdSpTsExpectedEventInvocId false 1 2014-06-18
CSTS
SEQUENCE (SIZE (1)) OF IntUnsigned (0 .. 4294967295)
1.3.112.4.4.2.1.17 FR none FwdCfdpEntity 2014-06-27
CSTS
1.3.112.4.4.2.1.17.1.1.1 P This parameter reports the entity id length and the entity IDs required for the CFDP core procedure where the first element of the parameter specifies the length of the entity IDs in octets, the second element reports the ID of the local, i.e. the sending entity and the third element reports the ID of the receiving entity. fwdCfdpEntityIds false 1 2014-06-29
CSTS
SEQUENCE (SIZE (3)) OF IntUnsigned
1.3.112.4.4.2.1.17.1.2.1 P This enumerated parameter reports if the local CFDP entity is configured to provide an EOF-sent.indication to the FwdFileServer FR when the initial transmission of the transaction's EOF PDU has been performed. It can take on two values:- EOF-sent indication enabled;- EOF-sent indication disabled. fwdCfdpEofSentIndication false 1 2014-06-29
CSTS
SEQUENCE (SIZE (1)) OF IntUnsigned (0 .. 1){ eofSentIndicationEnabled (0), eofSentIndicationDisabled (1)}
1.3.112.4.4.2.1.17.1.3.1 P This parameter reports the default fault handler override, if any. If the parameter has the value '-1', the default fault handlers as specified in CCSDS 727.0.B-4 apply. Other values specify the overrides as per CCSDS 727.0.B-4. fwdCfdpFaultHandlerOverride false 1 2014-06-29
CSTS
SEQUENCE (SIZE (1)) OF INTEGER (-1 .. 15)
1.3.112.4.4.2.1.17.1.4.1 P This enumerated parameter reports on the output format that the CFDP Sending Entity is configured to generate. It may take on four values:- ENCAP.request;- VCP.request;- PACKET.request;- MAPP.request.If fwdCfdpRequestType = encapRequest, then the trailing end of the UT address shall be the concatenation of the Packet Version Number set to 7 and the Embedded Protocol Id set to 3. If fwdCfdpRequestType ≠ encapRequest, then the trailing end of the UT address shall be the concatenation of the Packet Version Number set to 0 and the APID set to 2045. fwdCfdpRequestType false 1 2014-06-29
CSTS
SEQUENCE (SIZE (1)) OF IntUnsigned (0 .. 2){ encapRequest (0), vcpRequest (1), packetRequest (2), mappRequest (3)}
1.3.112.4.4.2.1.17.1.5.1 P This parameter reports the Transfer Frame Version Number (TVN) applicable to the space link protocol used to transfer the CFDP PDUs. The frames may be either TC frames or AOS frames fwdCfdpTfvn false 1 2014-06-29
CSTS
SEQUENCE (SIZE (1)) OF IntUnsigned (0 .. 1){ tcFrame (0), aosFrame (1)}
1.3.112.4.4.2.1.17.1.6.1 P This parameter reports on the spacecraft ID in the transfer frame headers used to transfer the CFDP PDUs.If (fwdCfdpTfvn = 'tcframe'), then the range of spacecraft-id is 0 .. 1023.If (fwdCfdpTfvn = 'aosframe'), then the range of spacecraft-id is 0 .. 255. fwdCfdpScid false 1 2014-06-29
CSTS
SEQUENCE (SIZE (1) OF IntUnsigned (0 .. 1023)
1.3.112.4.4.2.1.17.1.7.1 P This parameter reports on the virtual channel ID in the transfer frame headers used to transfer the CFDP PDUs.If (fwdCfdpTfvn = 'tcframe'), then the range of fwdCfdpVcid is 0 .. 7.If (fwdCfdpTfvn = 'aosframe') then the range of fwdCfdpVcid is 0 .. 63. fwdCfdpVcid false 1 2014-06-29
CSTS
SEQUENCE (SIZE (1) OF IntUnsigned (0 .. 63)
1.3.112.4.4.2.1.17.1.8.1 P This parameter reports on the MAP ID in the segment header of the TC frames used to transfer the CFDP PDUs.If (fwdCfdpRequestType ≠ mappRequest), then this parameter shall be flagged as undefined. fwdCfdpMapId false 1 2014-06-29
CSTS
SEQUENCE (SIZE (1) OF IntUnsigned (0 .. 63)
1.3.112.4.4.2.1.17.1.9.1 P This parameter reports the one-way light time in milliseconds to the remote CFDP entity. fwdCfdpOneWayLightTime false 1 2014-06-29
CSTS
1/1000 s SEQUENCE (SIZE (1) OF Duration [1]
1.3.112.4.4.2.1.17.1.10.1 P This parameter reports on the NAK timer period in milliseconds the remote CFDP entity will apply. fwdCfdpNakInterval false 1 2014-06-29
CSTS
1/1000 s SEQUENCE (SIZE (1) OF Duration [1]
1.3.112.4.4.2.1.17.1.11.1 P This parameter reports on the keep alive timer period in milliseconds the remote CFDP entity will apply. If the value of this parameter is zero, the remote entity does not to send keep alive PDUs periodically. fwdCfdpKeepAliveInterval false 1 2014-06-29
CSTS
1/1000 s SEQUENCE (SIZE (1) OF Duration [1]
1.3.112.4.4.2.1.17.1.12.1 P This parameter reports on the report timer period in milliseconds at which the remote CFDP entity will issue report.indication primitives. If the value of the parameter is zero, the remote entity does not to issue report.indication primitives periodically. fwdCfdpReportInterval false 1 2014-06-29
CSTS
1/1000 s SEQUENCE (SIZE (1) OF Duration [1]
1.3.112.4.4.2.1.17.1.13.1 P This enumerated parameter reports if the remote CFDP entity will provide immediate or deferred NAKs. It can have the vales:- immediate;- deferred. fwdCfdpNakMode false 1 2014-06-29
CSTS
SEQUENCE (SIZE (1)) OF IntUnsigned (0 .. 1){ immediate (0), deferred (1)}
1.3.112.4.4.2.1.17.1.14.1 P This enumerated parameter reports the default transmission mode of the remote CFDP entity. The parameter can take on two values:- acknowledged;- unacknowledged. fwdCfdpDefaultXmitMode false 1 2014-06-29
CSTS
SEQUENCE (SIZE (1)) OF IntUnsigned (0 .. 1){ acknowledged (0), unacknowledged (1)}
1.3.112.4.4.2.1.17.1.15.1 P This enumerated parameter reports how the remote CFDP entity will dispose of an incomplete received file upon transaction cancellation. The parameter can take on two values:- discard;- retain. fwdCfdpIncompleteFileHandling false 1 2014-06-29
CSTS
SEQUENCE (SIZE (1)) OF IntUnsigned (0 .. 1){ discard (0), retain (1)}
1.3.112.4.4.2.1.17.1.16.1 P This enumerated parameter reports if at the remote CFDP entity the CRC option is active. It can have two values:- CRC present in PDUs;- CRC absent in PDUs. fwdCfdpCrc false 1 2014-06-30
CSTS
SEQUENCE (SIZE (1)) OF IntUnsigned (0 .. 1){ crcPresent (0), crcAbsent (1)}
1.3.112.4.4.2.1.17.1.17.1 P This parameter reports on the maximum file segment length (in octets) the remote CFDP entity is able to handle. fwdCfdpMaxFileSegmentLength false 1 2014-06-29
CSTS
octets SEQUENCE (SIZE (1) OF IntUnsigned
1.3.112.4.4.2.1.17.1.18.1 P This parameter reports how many times the NAK timer may expire at the remote CFDP entity without intervening reception of file data or metadata not previously received until that entity will declare a 'NAK Limit Reached' fault. fwdCfdpNakTimerExpirationLimit false 1 2014-06-29
CSTS
SEQUENCE (SIZE (1) OF IntUnsigned
1.3.112.4.4.2.1.17.1.19.1 P This parameter reports the maximum period in milliseconds that may pass without reception of a PDU until the remote CFDP entity will declare an Inactivity fault condition. fwdCfdpTransactionInactivityLimit false 1 2014-06-29
CSTS
1/1000 s SEQUENCE (SIZE (1) OF Duration [1]
1.3.112.4.4.2.1.17.1.20.1 P This parameter reports the start and end time of the reception opportunity at the remote CFDP entity. fwdCfdpReceptionOpportunity false 1 2014-06-29
CSTS
SEQUENCE (SIZE (2) OF Time
1.3.112.4.4.2.1.18 FR [Editor's Note: This FR type is not yet specified to any level of detail. It is listed here only so that the desired OID is assigned] FwdFileServer 2014-06-27
CSTS
1.3.112.4.4.2.1.19 FR [Editor's Note: This FR type is not yet specified to any level of detail. It is listed here only so that the desired OID is assigned] FwdFileDataStore 2015-05-26
CSTS
1.3.112.4.4.2.1.20 FR [Editor's Note: This FR type is not yet specified to any level of detail. It is listed here only so that the desired OID is assigned] TerrestialFileCstsProvider 2014-06-27
CSTS
1.3.112.4.4.2.1.21 FR The Rtn401SpaceLinkCarrierReception FR accepts as input the carrier signal from the Antenna FR.It provides the symbol stream demodulated from the physical channel to the RtnTmSyncAndChnlDecoding FR. It provides observables needed for the creation of radiometric data to the RngAndDopplerExtraction FR, the TdmSegmentGen FR and to the RawRadiometricDataCollection FR.It provides the carrier waveform to the DdorRawDataCollection FR and to the RtnOpenLoopRxFormatter FR. Rtn401SpaceLinkCarrierRecpt 2016-02-07
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1.3.112.4.4.2.1.21.2.1.1 E This event notifies any change of the rtn401CarrierRecptProdStat. rtn401CarrierRecptProdStatChange 1 2016-02-07
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1.3.112.4.4.2.3.21.1.1.2.1 V The event value reports the rtn401CarrierRecptProdStat value that applies since the notified rtn401CarrierRecptProdStatChange event occurred. rtn401CarrierRecptProdStatValue 1 2016-02-07
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'eventValue': 'EventValue': 'qualifiedValues': 'SequenceOfQualifiedValues': 'SEQUENCE OF QualifiedValues': 'qualifiedValues': 'TypeAndValueComplexQualified': 'typeAndValue': 'TypeAndValue': 'enumerated': SEQUENCE (SIZE (1)) OF Enumerated (0 .. 3){ configured (0), operational (1), interrupted (2), halted (3)}
1.3.112.4.4.2.1.21.2.2.1 E This event norifies any loss of lock occurring when receiving the return carrier. rtn401CarrierRecptLol 1 2016-02-07
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V The event value reports which lock or locks have been lost. It should be noted that loss of carrier lock implies loss of subcarrier lock if a subcarrier is used and loss of symbol lock. Only the loss of carrier lock is reported in this case. Loss of subcarrier lock, if a subcarrier is used, implies loss of symbol lock. Only the loss of subcarrier lock is reported in this case. rtn401CarrierRecptLockType 1 2016-02-07
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'eventValue': 'EventValue': 'qualifiedValues': 'SequenceOfQualifiedValues': 'SEQUENCE OF QualifiedValues': 'qualifiedValues': 'TypeAndValueComplexQualified': 'typeAndValue': 'TypeAndVlue': 'enumerated': SEQUENCE (SIZE (1)) OF Enumerated (0 .. 2){ carrierLockLost (0), subcarrierLockLost (1), symbolLockLost (2)}
1.3.112.4.4.2.1.21.3.1.1 D This directive permits setting of the controllable parameters of the Rtn401SpaceLinkCarrierRecept FR type. rtn401CarrierRecptSetContrParams 1 2016-02-07
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None
Q The directive qualifier specifies the FR instance the directive shall act on and contains a set of parameter identifier and parameter value pairs. To be valid, the parameter identifier must reference a controllable parameter of the Rtn401SpaceLinkCarrierRecept FR and the parameter value must be of the same type as the parameter value that shall be set. rtn401CarrierRecptContrParamIdsAndValues 1 2016-02-07
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depends on the specific paramter(s) being set For the identification of the FR instance: 'directiveQualifier': 'functResourceDirQualifier': 'functResourceInstanceNumber': 'FunctionalResourceInstanceNumber': 'IntPos'For the identification of the parameter to be set:'directiveQualifier': 'functResourceDirQualifier': 'functionalResourceQualifiers': 'DirectiveQualifierValues': 'setOfParamIdsAndValues': 'SetOfParameterIdsAndValues': 'parameterIdentifier': 'PublishedIdentifier'For the parameter value:'directiveQualifier': 'functResourceDirQualifier': 'functionalResourceQualifiers': 'DirectiveQualifierValues': 'setOfParamIdsAndValues': 'SetOfParameterIdsAndValues': 'parameterValue': 'TypeAndValueComplexQualified'The remainder of the path depends on the type of the value of the parameter that shall be set.
1.3.112.4.4.2.1.21.1.1.1 P This enumerated parameter reports the subcarrier wave form. The values the parameter may have are:- 'sine': the subcarrier is a sinusodial wave;- 'square': the subcarrier is a square wave.If the applicable modulation scheme does not use a subcarrier, this parameter shall be flagged as 'undefined'. rtn401CarrierRecptSubcarrierWaveform true 1 2016-02-07
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SEQUENCE (SIZE (1)) OF Enumerated (0 .. 1){ sine (0), square (1)} rtn401CarrierRecptNominalSubcarrierFrequ is valid and ≠ 0
1.3.112.4.4.2.1.21.1.2.1 P This enumerated parameter reports on the return link carrier production status and can take on four values:- 'configured': the return link equipment has been configured and the antenna moved to point, but due to geometry or spacecraft timeline, no carrier signal is expected to be seen at this time or the expected LOS time has passed where again LOS may be due to geometry or due to the spacecraft timeline;- 'operational': the return link is active, i.e., all receiving equipment is in nominal condition, the expected AOS time has passed and the expected LOS has not yet been reached;- 'interrupted': a failure has been detected, e.g. a receiver malfunction, that prevents the reception of the carrier signal;- 'halted': the return link has been taken out of service, e.g. due to a power failure affecting the return link string. rtn401CarrierRecptProdStat true 1 2016-02-07
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SEQUENCE (SIZE (1)) OF Enumerated (0 .. 3){ configured (0), operational (1), interrupted (2), halted (3)} Setting of rtn401CarrierRecptProdStat to 'operational' or 'interrupted' by means of the directive rtn401CarrierRecptSetContrParams is not permissible.
1.3.112.4.4.2.1.21.1.3.1 P This parameter reports the level of the received signal in dBm as observed at the LNA input. When the Automatic Gain Control (AGC) is in coherent mode and the modulation scheme uses a remnant carrier, then the reported level refers to the carrier power. In all other cases, the reported level refers to the total signal power. rtn401CarrierRecptSignalLevel false 1 2016-02-07
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dBm SEQUENCE (SIZE (1)) OF INTEGER (-250 .. -30)
1.3.112.4.4.2.1.21.1.4.1 P This parameter reports the system noise temperature in K derived from the noise density observed at the receiver input. As such, it takes into account all contributions to the noise temperature such as antenna microwave components, atmospheric noise and cosmic microwave background noise. The noise temperature varies with weather conditions and antenna elevation due to variation of the path length through the atmosphere and ground noise received by the antenna side lobes. rtn401CarrierRecptSystemNoiseTemperature false 1 2016-02-07
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K SEQUENCE (SIZE (1)) OF IntUnsigned (1 .. 1000)
1.3.112.4.4.2.1.21.1.5.1 P This parameter reports (after acquisition of signal) on the power ratio of the signal received with left hand circular (LHC) polarization and the signal received with the orthogonal, i.e., right hand circular (RHC) polarization. If the angle reported is 0 degrees, then the full power is received via the LHC channel. At 45 degrees, the power in the LHC and RHC channels is equal, as if the input signal were linearly polarized. At 90 degrees, the full power is received with RHC polarization.Only stations supporting concurrent reception of LHC and RHC polarization provide this information. When this is not possible or the station is configured to use a single channel only, this parameter shall be flagged as unavailable. rtn401CarrierRecptPolarizationAngle false 1 2016-02-07
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degree SEQUENCE (SIZE (1)) OF IntUnsigned (0 .. 90)
1.3.112.4.4.2.1.21.1.6.1 P This parameter reports the nominal return carrier frequency disregarding any Doppler shift.Note: This parameter shall also be used to configure the tracking receiver, if the spacecraft shall be tracked using this carrier signal. rtn401CarrierRecptNominalFrequ true 1 2016-02-07
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Hz SEQUENCE (SIZE (1)) OF IntPos (2200000000 .. 32300000000) None
1.3.112.4.4.2.1.21.1.7.1 P This parameter specifies the band in Hz centered around the rtn401CarrierRecptNominalFrequ, possibly corrected for the expected Doppler offset, in which the receiver shall search for the carrier signal. This parameter is also valid in case of a suppressed carrier modulation scheme.Note: This parameter shall also be used to configure the tracking receiver, if the spacecraft shall be tracked using this carrier signal. rtn401CarrierRecptFrequUncertainty true 1 2016-02-07
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Hz SEQUENCE (SIZE (1)) OF IntUnsigned (0 .. 1500000) None
1.3.112.4.4.2.1.21.1.8.1 P This enumerated parameter specifies for which condition the Doppler predicts have been calculated. It can take on three values:- 1-way: this mode will be used when the spacecraft is not locked to a forward link signal or while the spacecraft transponder is commanded to non-coherent mode or when the spacecraft receiver is in 'coherency enabled' mode and the forward link carrier frequency is ramped such that the Doppler on the forward link is compensated, i.e., the spacecraft always 'sees' the nominal forward link frequency; in this case it does not matter if the forward link is radiated by the same station that is receiving the return link or a different station; - 2-way: this mode is applied when the spacecraft receiver is commanded to 'coherency enabled' mode and the station that is receiving the return link also radiates the forward link, the latter at a constant frequency;- 3-way: this mode is applied when the spacecraft receiver is in 'coherency enabled' mode and a station different from the one receiving the return link is radiating the forward link signal at a known constant frequency. rtn401CarrierRecptPredictMode true 1 2016-02-07
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SEQUENCE (SIZE (1)) OF Enumerated (0 .. 2){ oneWay (0), twoWay (1), threeWay (2)} None
1.3.112.4.4.2.1.21.1.9.1 P This parameter reports the dual-sided tracking loop bandwidth in tenth Hz of the receiver. rtn401CarrierRecptTrackingLoopBwdth true 1 2016-02-07
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1/10 Hz SEQUENCE (SIZE (1)) OF IntUnsigned (1 .. 30000) None
1.3.112.4.4.2.1.21.1.10.1 P This enumerated parameter reports the order of the carrier tracking loop. It can take on the following values:- 'first order': such loop is hardly ever used as it has a static phase error even in case of a constant return link carrier frequency;- 'second order': this is the most commonly used loop as it has no static phase error for a constant return link carrier frequency;- 'third order': such configuration may have to be used in case of high Doppler rates, as such loop has no static phase error even when the return link carrier frequency is sweeping, but initial acquisition is more difficult with such loop. rtn401CarrierRecptOrderOfLoop true 1 2015-12-14
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SEQUENCE (SIZE (1)) OF Enumerated (0 .. 2){ firstOrder (0), secondOrder (1), thirdOrder (2)} None
1.3.112.4.4.2.1.21.1.11.1 P This enumerated parameter reports the lock status of the receiver used for telemetry and possibly ranging. The values the parameter may have are:- 'locked': the receiver has locked on the return link signal;- 'not locked': the receiver has not locked on the return link signal and therefore cannot deliver telemetry and Doppler measurements.This parameter is valid also in case of a suppressed carrier modulation scheme. rtn401CarrierRecptCarrierLock false 1 2016-02-07
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SEQUENCE (SIZE (1)) OF Enumerated (0 .. 1){ locked (0), notLocked (1)}
1.3.112.4.4.2.1.21.1.12.1 P This parameter reports the mean value of the phase error in 1/100 radians in the carrier tracking loop by accumulating the loop errors Ei over a period of n samples and then dividing by n. The mean M should be zero unless the loop is subject to a static phase error. A given implementation shall specify the number of samples used to calculate this paramter. This shall be recorded in the Service Agreement. rtn401CarrierRecptLoopMeanPhaseError false 1 2016-02-07
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1/100 rad SEQUENCE (SIZE (1)) OF INTEGER (-629 .. 629)
1.3.112.4.4.2.1.21.1.13.1 P This parameter reports the peak absolute value of the phase error |Ei - M| in 1/100 radians in the carrier tracking loop observed in the most recent n samples.A given implementation shall specify the number of samples used to calculate this parameter. This shall be recorded in the Service Agreement. rtn401CarrierRecptLoopPeakPhaseError false 1 2016-02-07
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1/100 rad SEQUENCE (SIZE (1)) OF IntUnsigned (0 .. 629)
1.3.112.4.4.2.1.21.1.14.1 P This parameter is derived from the carrier-loop-phase-error-std-deviation (std) as follows: SNR in 1/100 dB is given by 1000 log (2/(2PI std)^2) where log is to the base of 10. The carrier loop phase error standard deviation (or rms value) in rad over n samples, i.e. the sum of (Ei - M)^2 for i = 1 .. n is calculated, then divided by n and then the square root taken.A given implementation shall specify the number of samples used to calculate this parameter. This shall be recorded in the Service Agreement. rtn401CarrierRecptLoopSnr false 1 2016-02-07
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1/100 dB SEQUENCE (SIZE (1)) OF INTEGER (- 2800 .. 10000)
1.3.112.4.4.2.1.21.1.15.1 P This parameter reports the observed carrier return link frequency in Hz. This parameter therefore varies with the Doppler shift induced by the radial velocity of the spacecraft relative to the ground based antenna. In 1-way mode, the Doppler shift applies only once, but also the onboard oscillator drift affects the observed return link carrier frequency. In 2-way mode in combination with a constant forward link frequency, the Doppler shift approximately doubles with respect to the 1-way case, but the contribution of the onboard oscillator drift is eliminated. rtn401CarrierRecptActualFrequ false 1 2016-02-07
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Hz SEQUENCE (SIZE (1)) OF IntUnsigned (2199700000 .. 38500000000)
1.3.112.4.4.2.1.21.1.16.1 P This parameter reports the observed carrier return link offset in Hz with respect to the nominal return link carrier frequency. As such it reports on the onboard oscillator drift (in case of 1-way operation) plus the Doppler shift induced by the radial velocity between spacecraft and the ground-based antenna. In 2-way mode, the effect of the onboard oscillator drift is eliminated. In combination with a constant forward link frequency, the Doppler shift approximately doubles compared to the 1-way case. rtn401CarrierRecptFrequOffset false 1 2016-02-07
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Hz SEQUENCE (SIZE (1)) OF INTEGER (-5000000 .. 5000000)
1.3.112.4.4.2.1.21.1.17.1 P This parameter reports the forward link frequency in Hz that corresponds to the non-coherent return link frequency divided by the transponder turnaround ratio in the Doppler free case. The spacecraft is expected to lock on the forward link, when it 'sees' this frequency. rtn401CarrierRecptBestLockFrequ false 1 2016-02-07
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Hz SEQUENCE (SIZE (1)) OF IntUnsigned (2024956000 .. 40501863000)
1.3.112.4.4.2.1.21.1.18.1 P This parameter reports the Doppler offset standard deviation in Hz over n samples. Each sample Si is the difference between the actual return link frequency and the predicted return link frequency where the predict takes into account the expected Doppler shift. Based on these samples, the mean Doppler offset M is calculated by forming the sum of n samples Si and dividing it by n. Then the sum of (Si - M)^2 for i = 1 .. n is calculated, then divided by n and then the square root taken. rtn401CarrierRecptDopplerStdDeviation false 1 2016-02-07
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Hz SEQUENCE (SIZE (1)) OF IntUnsigned (0 .. 629)
1.3.112.4.4.2.1.21.1.19.1 P This parameter reports the subcarrier demodulator loop bandwidth expressed as symbol rate to subcarrier frequency ratio. If the applicable modulation scheme does not use a subcarrier, this parameter shall be flagged as undefined. rtn401CarrierRecptSubcarrierDemodLoopBwdth true 1 2016-02-07
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SEQUENCE (SIZE (1)) OF REAL (10^-5 .. 10^-1) rtn401CarrierRecptNominalSubcarrierFrequ is valid and ≠ 0
1.3.112.4.4.2.1.21.1.20.1 P This parameter reports the subcarrier to carrier power ratio expressed in 1/100 dBc. If the applicable modulation scheme does not use a subcarrier, this parameter shall be flagged as 'undefined'. rtn401CarrierRecptSubcarrierLevelEstimate false 1 2016-02-07
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1/100 dBc SEQUENCE (SIZE (1)) OF INTEGER (-20000 .. 0)
1.3.112.4.4.2.1.21.1.21.1 P This enumerated parameter reports on the subcarrier lock status of the BPSK subcarrier demodulator. The values the parameter may have are:- 'locked': the demodulator has locked on the return link subcarrier;- 'not locked': the demodulator has not locked on the return link subcarrier and therefore cannot deliver telemetry.If the applicable modulation scheme does not use a subcarrier, this parameter shall be flagged as undefined. rtn401CarrierRecptSubcarrierLockStat false 1 2016-02-07
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SEQUENCE (SIZE (1)) OF Enumerated (0 .. 1){ locked (0), notLocked (1)}
1.3.112.4.4.2.1.21.1.22.1 P This parameter reports the nominal subcarrier frequency in 1/1000 Hz, i.e., this parameter does not take into account Doppler shift of the subcarrier frequency. If the applicable modulation scheme does not use a subcarrier, this parameter shall be be set to 0. rtn401CarrierRecptNominalSubcarrierFrequ true 1 2016-02-07
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1/1000 Hz SEQUENCE (SIZE (1)) OF IntUnsigned (2000 .. 300000) None
1.3.112.4.4.2.1.21.1.23.1 P This parameter reports the actually received subcarrier frequency in 1/1000 Hz, i.e., this parameter reflects the Doppler shift of the subcarrier frequency. If the applicable modulation scheme does not use a subcarrier, this parameter shall be flagged as 'undefined'. rtn401CarrierRecptActualSubcarrierFrequ false 1 2016-02-06
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1/1000 Hz SEQUENCE (SIZE (1)) OF IntUnsigned (2000 .. 300000)
1.3.112.4.4.2.1.21.1.24.1 P This parameter reports the symbol synchronizer loop bandwidth expressed as dual-sided symbol synchronizer loop bandwidth to symbol rate ratio. rtn401CarrierRecptSymbolSyncLoopBdwth true 1 2016-02-07
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SEQUENCE (SIZE (1)) OF REAL (10^-5 .. 10^-2) None
1.3.112.4.4.2.1.21.1.25.1 P This enumerated parameter reports the symbol stream synchronizer lock status. The values the parameter may have are:- 'locked': the symbol synchronizer has locked on the return link symbol stream;- 'not locked': the symbol synchronizer has not locked on the symbol stream. rtn401CarrierRecptSymbolSyncLockStat false 1 2016-02-07
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SEQUENCE (SIZE (1)) OF Enumerated (0 .. 1){ locked (0), notLocked (1)}
1.3.112.4.4.2.1.21.1.26.1 P This parameter reports the nominally received symbol stream rate in 1/1000 symbols/second, i.e., this parameter does not reflect the Doppler shift of the symbol rate. rtn401CarrierRecptNominalSymbolRate true 1 2016-02-07
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1/1000 symbols/s SEQUENCE (SIZE (1)) OF IntUnsigned (4000 .. 20000000000) None
1.3.112.4.4.2.1.21.1.27.1 P This parameter reports the actually received symbol stream rate in 1/1000 symbols/second, i.e., this parameter reflects the Doppler shift of the symbol rate. rtn401CarrierRecptActualSymbolRate false 1 2016-02-07
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1/1000 symbols/s SEQUENCE (SIZE (1)) OF IntUnsigned (4000 .. 20000000000)
1.3.112.4.4.2.1.21.1.28.1 P This parameter reports the estimated symbol energy over noise density ratio (Es/No) in 1/100 dB. The algorithms used to calculate this estimate tend to saturate at a certain Es/No level so that the reported estimate may be significantly too low. However, this saturation happens at levels that are so high that the telemetry is anyway virtually error free. rtn401CarrierRecptEsOverNo false 1 2016-02-07
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1/100 dB SEQUENCE (SIZE (1)) OF INTEGER (-1000 .. 60000)
1.3.112.4.4.2.1.22 FR The RtnLinkRngAndDopplerExtraction FR accepts as input the timing information from the FwdLinkRng FR and the range and Doppler data from the Rtn401SpaceLinkCarrierRecept FR.It provides range and Doppler observables to the TdmSegmentGen FR and to the RawRadiometricDataCollection FR. RtnLinkRngAndDopplerExtraction 2015-12-14
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1.3.112.4.4.2.1.22.3.1.1 D This directive permits setting of the controllable parameters of the RtnLinkRngAndDopplerExtraction FR type. rtnRngAndDopplerSetContrParams 1 2015-12-14
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None
Q The directive qualifier specifies the FR instance the directive shall act on and contains a set of parameter identifier and parameter value pairs. To be valid, the parameter identifier must reference a controllable parameter of the RtnLinkRngAndDopplerExtraction FR and the parameter value must be of the same type as the parameter value that shall be set. rtnRngAndDopplerContrParamIdsAndValues 1 2015-12-14
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depends on the specific paramter(s) being set For the identification of the FR instance: 'directiveQualifier': 'functResourceDirQualifier': 'functResourceInstanceNumber': 'FunctionalResourceInstanceNumber': 'IntPos'For the identification of the parameter to be set:'directiveQualifier': 'functResourceDirQualifier': 'functionalResourceQualifiers': 'DirectiveQualifierValues': 'setOfParamIdsAndValues': 'SetOfParameterIdsAndValues': 'parameterIdentifier': 'PublishedIdentifier'For the parameter value:'directiveQualifier': 'functResourceDirQualifier': 'functionalResourceQualifiers': 'DirectiveQualifierValues': 'setOfParamIdsAndValues': 'SetOfParameterIdsAndValues': 'parameterValue': 'TypeAndValueComplexQualified'The remainder of the path depends on the type of the value of the parameter that shall be set.
1.3.112.4.4.2.1.22.1.1.1 P This parameter reports, in 1/1000 Hz, the dual sided bandwidth of the tone or PN chip tracking loop. rtnRngAndDopplerToneOrPnChipLoopBdwth true 1 2014-12-14
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1/1000 Hz SEQUENCE (SIZE (1)) OF IntUnsigned (1 .. 3000) None
1.3.112.4.4.2.1.22.1.2.1 P This parameter reports the tone/ pn-chip to carrier power ratio expressed in 1/100 dBc. rtnRngAndDopplerToneOrPnChipLevel false 1 2015-12-14
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1/100 dB SEQUENCE (SIZE (1)) OF INTEGER (-20000 .. 0)
1.3.112.4.4.2.1.22.1.3.1 P This enumerated value reports the tone respectively PN chip loop lock status. It can take on two values: - 'locked'; - 'not locked'. rtnRngAndDopplerRngLoopLockStat false 1 2015-12-14
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SEQUENCE (SIZE (1)) OF IntUnsigned (0 .. 1) { locked (0) , not-locked (1) }
1.3.112.4.4.2.1.22.1.4.1 P This parameter reports an estimate in 1/100 radians of the effective ranging modulation index. rtnRngAndDopplerEstimatedEffectiveRngModIndex true 1 2015-12-14
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1/100 rad SEQUENCE (SIZE (1)) OF IntUnsigned (0 .. 140) None
1.3.112.4.4.2.1.22.1.5.1 P This parameter reports the code number up to which the replica has been correlated with the return link signal. rtnRngAndDopplerCodeNumber false 1 2015-12-14
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SEQUENCE (SIZE (1)) OF IntUnsigned (0 .. 24)
1.3.112.4.4.2.1.22.1.6.1 P This enumerated parameter reports in case of tone/code ranging if the ambiguity has been resolved and in case of PN ranging if lock on the PN sequence has been achieved. It can take on two values:- 'yes': the ranging system has reached the state where range measurements can be performed;- 'no': correlation of the forward link replica with the return link signal has not yet been achieved or has failed. rtnRngAndDopplerAmbiguityResolved false 1 2015-12-14
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SEQUENCE (SIZE (1)) OF IntUnsigned (0 .. 1) { yes (0) , no (1) }
1.3.112.4.4.2.1.23 FR The RtnTmSyncAndDecoding FR accepts as input the symbol stream from the Rtn401SpaceLinkCarrierReception FR.It provides the decoded and annotated telemetry frames to the RafTsProvider, the RcfTsProvider, the RocfTsProvider, to the McDemuxReception and to the TmFrameDataSink FRs.It provides the carrier waveform to the D-DOR Raw Data Collection FR and to the Open Loop Receiver/Formatter FR. RtnTmSyncAndChnlDecoding 2016-02-29
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1.3.112.4.4.2.1.23.2.1.1 E This event notifies the successful acquisition of frame lock, i.e., in two consecutive frames the ASM was detected at the expected position and with a correlation error not exceeding the permitted limit. rtnTmSyncFrameSyncLockStatChange 1 2016-02-29
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1.3.112.4.4.2.3.23.1.1.2.1 V The event value reports the rtnTmSyncFrameSynchronizerLockStatus value that applies since the notified rtnTmSyncFrameSynchronizerLockStatusChange event occurred. rtnTmSyncFrameSyncLockStatValue 1 2016-02-29
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'eventValue': 'EventValue': 'qualifiedValues': 'SequenceOfQualifiedValues': 'SEQUENCE OF QualifiedValues': 'qualifiedValues': 'TypeAndValueComplexQualified': 'typeAndValue': 'TypeAndValue': 'enumerated': SEQUENCE (SIZE (1)) OF Enumerated (0 .. 2){ locked (0), verify (1), notLocked (2)}
1.3.112.4.4.2.1.23.3.1.1 D This directive permits setting of the controllable parameters of the RtnTmSyncAndDecoding FR type. rtnTmSyncSetContrParams 1 2016-02-29
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None
Q The directive qualifier specifies the FR instance the directive shall act on and contains a set of parameter identifier and parameter value pairs. To be valid, the parameter identifier must reference a controllable parameter of the RtnTmSyncAndDecoding FR and the parameter value must be of the same type as the parameter value that shall be set. rtnTmSyncContrParamIdsAndValues 1 2016-02-29
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depends on the specific paramter(s) being set For the identification of the FR instance: 'directiveQualifier': 'functResourceDirQualifier': 'functResourceInstanceNumber': 'FunctionalResourceInstanceNumber': 'IntPos'For the identification of the parameter to be set:'directiveQualifier': 'functResourceDirQualifier': 'functionalResourceQualifiers': 'DirectiveQualifierValues': 'setOfParamIdsAndValues': 'SetOfParameterIdsAndValues': 'parameterIdentifier': 'PublishedIdentifier'For the parameter value:'directiveQualifier': 'functResourceDirQualifier': 'functionalResourceQualifiers': 'DirectiveQualifierValues': 'setOfParamIdsAndValues': 'SetOfParameterIdsAndValues': 'parameterValue': 'TypeAndValueComplexQualified'The remainder of the path depends on the type of the value of the parameter that shall be set.
1.3.112.4.4.2.1.23.1.1.1 P This parameter reports the number of symbols in the most recently received ASM that differ from the nominal ASM pattern. When comparing these numbers, one needs to take into consideration whether the synchronization is done on the (pre Viterbi decoder) symbol stream or on the (post Viterbi decoder) bit stream.The frame synchronization is also used to remove the phase ambiguity of some modulation schemes. To that end, the correlation process is performed both for the standard ASM pattern and its inversion.A given implementation will specify if the the synchronization is performed in the symbol or bit domain. This shall be recorded in the Service Agreement. rtnTmSyncAsmCorrelationError false 1 2016-02-29
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SEQUENCE (SIZE (1)) OF IntUnsigned (0 .. 192)
1.3.112.4.4.2.1.23.1.2.1 P This enumerated parameter reports the frame synchronizer lock status. It can take on the following values:- 'locked': The synchronizer has found at least two Attached Sync Markers with the expected number of symbols or bits between them and with each ASM having a correlation error that is lower than the configured error limit;- 'verify': the frame synchronizer has found one ASM in the symbol or bit stream with the correlation error lower than the configured threshold and is looking for a second ASM at the expected number of symbols or bits after the first ASM; if such ASM is found, the rtnTmSyncFrameSyncLockStat changes to 'locked'; if no ASM is found where expected, the rtnTmSyncFrameSyncLockStat changes to 'not locked'; if an ASM is found, but at a larger distance in terms of symbols or bits than expected, that newly found ASM will be the reference for searching the next verification ASM;- not locked: the frame synchronizer did not find any ASM with a correlation error below the correlation error limit. rtnTmSyncFrameSyncLockStat false 1 2016-02-29
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SEQUENCE (SIZE (1)) OF Enumerated (0 .. 2){ locked (0), verify (1), notLocked (2)}
1.3.112.4.4.2.1.23.1.3.1 P This enumerated parameter reports if, based on the observed polarity of the ASM, the symbol stream had to be inverted or not. It can take two values:- 'yes': the frame synchronizer locked on the inverted ASM pattern and therefore inverts the polarity of the symbol stream;- 'no': the frame synchronizer locked on the ASM with the pattern in positive logic and therefore does not invert the symbol stream.As long as rtnTmSyncFrameSyncLockStat is ≠ 'locked', this parameter shall be flagged as unavailable. rtnTmSyncSymbolInversion false 1 2016-02-29
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SEQUENCE (SIZE (1)) OF Enumerated (0 .. 1){ yes (0), no (1)}
1.3.112.4.4.2.1.23.1.4.1 P The parameter reports the ratio of erred frames to the total number of frames processed for the most recent n frames. If the frames are RS or LDPC encoded, then frames for which the RS or LDPC correction is not possible are considered erred. Frames are also considered erred if the FECF is present and the check of the FECF is negative. In all other cases, i.e. if the frames are neither RS or LDPC encoded nor do they contain a CCSDS compliant FECF, this parameter shall be flagged as 'undefined'. rtnTmSyncFrameErrorRate false 1 2016-02-29
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SEQUENCE (SIZE (1)) OF REAL (0 .. 1)
1.3.112.4.4.2.1.23.1.5.1 P This parameter reports the number of bits in the frame corrected by means of the RS trailer. The number of bits that can be corrected depends on the coding and the interleaving depth. If the applicable coding scheme does not use RS coding, this parameter shall be flagged as 'undefined'. rtnTmSyncNumberOfRsErrorsCorrected false 1 2016-02-29
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SEQUENCE (SIZE (1)) OF IntUnsigned (0 .. 128)
1.3.112.4.4.2.1.23.1.6.1 P This enumerated parameter reports if the time tags used to annotate the telemetry frames with the Earth Receive Time (ERT) are generated by a time code generator slaved to a high precision reference or if this generator is free running. It can take on two values: - 'yes' - The time tags are generated by a system that is locked to the station's frequency and timing system; - 'no' - the system generating the time tags is free-running. rtnTmSyncErtAnnotationLockedToReference false 1 2014-03-01
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SEQUENCE (SIZE (1)) OF Enumerated (0 .. 1){ yes (0), no (1)}
1.3.112.4.4.2.1.23.1.7.1 P This parameter reports the length in octets of the CADU the frame synchronizer shall attempt to lock on. Depending on the implementation, the frame synchronizer may operate on the convolutionally encoded symbol stream or the already convolutionally decoded symbol stream, if convolutional encoding is applied at all. rtmTmSyncCaduLength true 1 2016-02-29
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number of symbols SEQUENCE (SIZE (1)) OF IntPos (48 .. 32768) None
1.3.112.4.4.2.1.23.1.8.1 P This enumerated parameter reports if the FR is configured to derandomize the incoming frames. This parameter can take on two values:- 'derandomization';- 'no derandomization'.The details regarding the randomization are specified in CCSDS 131.0-B-2. rtnTmSyncDerandomization true 1 2016-02-29
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SEQUENCE (SIZE (1)) OF Enumerated (0 .. 1){ derandomization (0), noDerandomization (1)} None
1.3.112.4.4.2.1.23.1.9.1 P This enumerated parameter reports on the decoding the RtnTmSyncAndChnlDecoding FR is configured to apply to the incoming frames. This parameter can take on the following values:- 'no decoding';- 'convolutional';- 'reedSolomon';- 'concatenated';- 'turbo';- 'ldpc'.Note: The length and pattern of the ASM is implicitly specified by the decoding that is to be applied. rtnTmSyncDecoding true 1 2016-02-29
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SEQUENCE (SIZE (1)) OF Enumerated (0 .. 5){ noDecoding (0), convolutional (1), reedSolomon (2), concatenated (3), turbo (4), ldpc (5)} None
1.3.112.4.4.2.1.23.1.10.1 P This enumerated parameter reports on the coding rate set for the convolutional decoding of the frames. The convolutional decoding is applied to the ASM and the otherwise uncoded or Reed-Solomon encoded frame. This parameter can take on the following values:- '1/2';- '2/3';- '3/4';- '5/6';- '7/8'.IF ((rtnTmSyncDecoding = 'reedSolomon') OR (rtnTmSyncDecoding = 'turbo') OR (rtnTmSyncDecoding = 'ldpc')), the value of this parameter shall be flagged as 'undefined'. rtnTmSyncConvolCodeRate true 1 2016-02-29
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SEQUENCE (SIZE (1)) OF Enumerated (0 .. 4){ 1/2 (0), 2/3 (1), 3/4 (2), 5/6 (3), 7/8 (4)} rtnTmSyncDecoding = 'convolutional' OR 'concatenated'
1.3.112.4.4.2.1.23.1.11.1 P This enumerated parameter reports on the correction capability of the applied Reed-Solomon decoding. It can take on the following values:- '8';- '16'.IF (NOT ((rtnTmSyncDecoding = 'reedSolomon') OR (rtnTmSyncDecoding = 'concatenated'))), the value of this parameter shall be flagged as 'undefined'. rtnTmSyncRsErrorCorrectionCapability true 1 2016-02-29
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SEQUENCE (SIZE (1)) OF Enumerated (0 .. 1){ 8 (0), 16 (1)} rtnTmSyncDecoding = 'reedSolomon' OR 'concatenated'
1.3.112.4.4.2.1.23.1.12.1 P This enumerated parameter reports on the interleaving depth of the applied Reed-Solomon decoding. It can take on the following values:- '1';- '2';- '3';- '4';- '5';- '8'.If NOT ((rtnTmSyncDecoding = 'reedSolomon') OR (rtnTmSyncDecoding = 'concatenated')), the value of this parameter shall be flagged as 'undefined'.Note: If and how much virtual fill needs to be inserted is determined based on the values of rtmTmSyncCaduLength and rtnTmSyncRsInterleavingDepth. rtnTmSyncRsInterleavingDepth true 1 2016-02-29
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SEQUENCE (SIZE (1)) OF Enumerated (0 .. 5){ 1 (0), 2 (1), 3 (2), 4 (3), 5 (4), 8 (5)} rtnTmSyncDecoding = 'reedSolomon' OR 'concatenated'
1.3.112.4.4.2.1.23.1.13.1 P This enumerated parameter reports on the coding rate of the applied turbo decoding. This parameter can take on the following values:- '1/2';- '1/3';- '1/4';- '1/6'.If rtnTmSyncDecoding ≠ 'turbo'), the value of this parameter shall be flagged as 'undefined'.Note: The information block length is determined by the value of rtnTmSyncCaduLength. rtnTmSyncTurboCodeRate true 1 2016-02-29
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SEQUENCE (SIZE (1)) OF Enumerated (0 .. 3){ 1/2 (0), 1/3 (1), 1/4 (2), 1/6 (3)} rtnTmSyncDecoding = ' turbo'
1.3.112.4.4.2.1.23.1.14.1 P This enumerated parameter reports on the coding rate of the applied ldpc decoding. This parameter can take on the following values:- '1/2';- '2/3';- '3/4';- '7/8'.If rtnTmSyncDecoding ≠ 'ldpc', the value of this parameter shall be flagged as 'undefined'.Note: The information block length is determined by the value of rtnTmSyncCaduLength. rtnTmSyncLdpcCodeRate true 1 2016-02-29
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SEQUENCE (SIZE (1)) OF Enumerated (0 .. 3){ 1/2 (0), 2/3 (1), 3/4 (2), 7/8 (3)} rtnTmSyncDecoding = 'ldpc'
1.3.112.4.4.2.1.24 FR none RtnMcDemuxRecpt 2014-06-27
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1.3.112.4.4.2.1.24.1.1.1 P This parameter reports the Master Channel ID the given FR instance is configured to process. If the Transfer Frame Version Number part of the MC-ID is '00', then the range of the MC-ID is 0 .. 1023. If the Transfer Frame Version Number part of the MC-ID is '00', then the range of the MC-ID is 512 .. 767. rtnMcDemuxMcid false 1 2014-06-27
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SEQUENCE (SIZE (1) OF IntUnsigned (0 .. 1023)
1.3.112.4.4.2.1.24.1.2.1 P This enumerated parameter reports if the FR instance shall extract CLCWs and forward them to the FR types that consume them. It can take on two values:- clcw: the CLCW shall be extracted from frame of the configured Master Channel;- no clcw: no CLCW extraction shall take place, either because the configured MC does not carry CLCWs or no FR is set up to consume the MC CLCW stream. rtnMcDemuxClcwExtraction false 1 2014-06-27
CSTS
SEQUENCE (SIZE (1)) OF IntUnsigned (0 .. 1){ clcw (0), noClcw (1)}
1.3.112.4.4.2.1.25 FR none RtnVcDemuxRecpt 2014-06-27
CSTS
1.3.112.4.4.2.1.25.1.1.1 P This parameter reports the Virtual Channel ID the given FR instance is configured to process. If the Transfer Frame Version Number part of the MC-ID is '00', then the range of the VC-ID is 0 .. 7. If the Transfer Frame Version Number part of the MC-ID is '00', then the range of the VC-ID is 0 .. 63. rtnVcDemuxVcid false 1 2014-06-27
CSTS
SEQUENCE (SIZE (1) OF IntUnsigned (0 .. 63)
1.3.112.4.4.2.1.25.1.2.1 P This enumerated parameter reports if the FR instance shall extract CLCWs and forward them to the FR types that consume them. It can take on two values:- clcw: the CLCW shall be extracted from frame of the configured Virtual Channel;- no clcw: no CLCW extraction shall take place, either because the configured VC does not carry CLCWs or no FR is set up to consume the VC CLCW stream. rtnVcDemuxClcwExtraction false 1 2014-06-27
CSTS
SEQUENCE (SIZE (1)) OF IntUnsigned (0 .. 1){ clcw (0), noClcw (1)}
1.3.112.4.4.2.1.26 FR none rtnPktExtractionAndDeencap 2014-06-27
CSTS
1.3.112.4.4.2.1.26.1.1.1 P This parameter reports the set of APIDs of the space packets that are to be forwarded by means of Packet.indication primitives to the RtnFileServer FR. If the APID set contains an element set to the value -1, no space packets shall be forwarded to the Return File Service Production FR. rtnPktExtractionRtnFileServiceProdApidSet false 1 2014-06-27
CSTS
SEQUENCE (SIZE (1 .. 2048) OF IntUnsigned (-1 .. 2047)
1.3.112.4.4.2.1.26.1.2.1 P This parameter reports the set of Protocol IDs of the encapsulation packets that are to be forwarded by means of ENCAP.indication primitives to the RtnFileServer FR. If the Protocol ID set contains an element set to the value -1, no encapsulation packets shall be forwarded to the RtnFileServer FR.Note: If the Protocol ID is '6', the encapsulation packet is only forwarded if the Protocol ID Extension is an element of the parameter rfsp-protocol-id-extension-set. rtnPktExtractionRtnFileServiceProdProtocolIdSet false 1 2014-06-27
CSTS
SEQUENCE (SIZE (1 .. 8) OF IntUnsigned (-1 .. 7)
1.3.112.4.4.2.1.26.1.3.1 P This parameter reports the set of Protocol ID extensions of the encapsulation packets that are to be forwarded by means of ENCAP.indication primitives to the Return File Service Production FR. If ((6 NOT element of {rtnPktExtractionRtnFileServiceProdProtocolIdSet}) OR (-1 element of {rtnPktExtractionRtnFileServiceProdProtocolIdSet})), then this parameter shall be flagged as 'undefined'. rtnPktExtractionRtnFileServiceProdProtocolIdExtensionSet false 1 2014-06-27
CSTS
SEQUENCE (SIZE (1 .. 16) OF IntUnsigned (-1 .. 15)
1.3.112.4.4.2.1.26.1.4.1 P This parameter reports the set of Protocol IDs of the encapsulation packets that are to be forwarded by means of ENCAP.indication primitives to the Rtn IP over CCSDS Router FR. If the Protocol ID set contains an element set to the value -1, no encapsulation packets shall be forwarded to the RtnIpOverCcsdsRouter FR.Note: If the Protocol ID is '6', the encapsulation packet is only forwarded if the Protocol ID Extension is an element of {rtnPktExtractionRtnIpOverCcsdsProtocolIdExtensionSet}. rtnPktExtractionRtnIpOverCcsdsProtocolIdSet false 1 2014-06-27
CSTS
SEQUENCE (SIZE (1 .. 8) OF IntUnsigned (-1 .. 7)
1.3.112.4.4.2.1.26.1.5.1 P This parameter reports the set of Protocol ID extensions of the encapsulation packets that are to be forwarded by means of ENCAP.indication primitives to the RtnIpOverCcsdsRouter FR. If ((6 NOT element of {rtnPktExtractionRtnIpOverCcsdsProtocolIdSet}) OR (-1 element of {rtnPktExtractionRtnIpOverCcsdsProtocolIdSet})), then this parameter shall be flagged as 'undefined'. rtnPktExtractionRtnIpOverCcsdsProtocolIdExtensionSet false 1 2014-06-27
CSTS
SEQUENCE (SIZE (1 .. 16) OF IntUnsigned (-1 .. 15)
1.3.112.4.4.2.1.26.1.6.1 P This parameter reports the set of APIDs of the space packets that are to be forwarded by means of Packet.indication primitives to the RtnCfdpEntity FR. If the APID set contains an element set to the value -1, no space packets shall be forwarded to the RtnCfdpEntity FR. Note: If the standard APID assignement is used for the transfer of CFDP PDUs over space packets, then the APID is 2045. rtnPktExtractionRtnCfdpEntityApidSet false 1 2014-06-27
CSTS
SEQUENCE (SIZE (1 .. 2048) OF IntUnsigned (-1 .. 2047)
1.3.112.4.4.2.1.26.1.7.1 P This parameter reports the set of Protocol IDs of the encapsulation packets that are to be forwarded by means of ENCAP.indication primitives to the RtnCfdpEntity FR. If the Protocol ID set contains an element set to the value -1, no encapsulation packets shall be forwarded to the RtnCfdpEntity FR.Note: If the standard protocol id assignment is used, then the protocol id '3' is used for the transfer of CFDP PDUs.Note: If the Protocol ID is '6', the encapsulation packet is only forwarded if the Protocol ID Extension is an element of {rtnPktExtractionRtnCfdpEntityProtocolIdExtensionSet}. rtnPktExtractionRtnCfdpEntityProtocolIdSet false 1 2014-06-27
CSTS
SEQUENCE (SIZE (1 .. 8) OF IntUnsigned (-1 .. 7)
1.3.112.4.4.2.1.26.1.8.1 P This parameter reports the set of Protocol ID extensions of the encapsulation packets that are to be forwarded by means of ENCAP.indication primitives to the CFDP Receiving Entity FR. If ((6 NOT element of {rtnPktExtractionRtnCfdpEntityProtocolIdSet}) OR (-1 element of {rtnPktExtractionRtnCfdpEntityProtocolIdSet})), then this parameter shall be flagged as 'undefined'. rtnPktExtractionRtnCfdpEntityProtocolIdExtensionSet false 1 2014-06-27
CSTS
SEQUENCE (SIZE (1 .. 16) OF IntUnsigned (-1 .. 15)
1.3.112.4.4.2.1.26.1.9.1 P This enumerated parameter parameter reports if CFDP PDUs shall be extracted from space packets or encpsulation packets and forwarded to the RtnCfdpEntity FR. It can take on the following values:- space packet: the CFDP PDUs will be extrracted from spacepackets with the APID = 2045;- encapsulation packet: the CFDP PDUs are extracted from encapsulation packets with the protocol-id = 3;- no cfdp support: no extraction and forwarding of CFDP PDUs takes place. rtnPktExtractionCfdpPduExtraction false 1 2014-06-27
CSTS
SEQUENCE (SIZE (1)) OF IntUnsigned (0 .. 1){ spacePacket (0), encapsulationPacket (1), noCfdpSupport (2)}
1.3.112.4.4.2.1.27 FR None RtnFrameDataSink
CSTS
1.3.112.4.4.2.1.27.1.1.1 P This parameter reports the service package on behalf of which telemetry frames are passed to one or more offline frame buffers. rtnFrameDataSinkServicePackageId false 1 2014-06-27
CSTS
SEQUENCE (SIZE (1)) OF VisibleString (1 .. 255)
1.3.112.4.4.2.1.27.1.2.1 P This parameter reports the start and stop time of the period during which this FR instance forwards frames to the RtnOfflineFrameBuffer FR instances consuming the frame stream generated by this FR instance. rtnFrameDataSinkProductionPeriod false 1 2014-06-29
CSTS
SEQUENCE (SIZE (2) OF Time
1.3.112.4.4.2.1.28 FR [Editor's Note: This FR type is not yet specified to any level of detail. It is listed here only so that the desired OID is assigned] RtnOfflineFrameBuffer 2014-06-27
CSTS
1.3.112.4.4.2.1.29 FR The RtnAfTsProvider accepts as input the frame provided by the RtnTmSyncAndChnlDecoding and the RtnOfflineFrameBuffer FRs. RtnAfTsProvider 2016-02-29
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1.3.112.4.4.2.1.29.2.1.1 E This event notifies any change of the rtnAfProdStat parameter. rtnAfProdStatChange 1 2016-02-29
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1.3.112.4.4.2.3.29.1.1.9.1 V The event value reports the rtnAfProdStat value that applies since the notified rtnAfProdStatChange event occurred. rtnAfProdStatValue 1 2016-02-29
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'eventValue': 'EventValue': 'qualifiedValues': 'SequenceOfQualifiedValues': 'SEQUENCE OF QualifiedValues': 'qualifiedValues': 'TypeAndValueComplexQualified': 'typeAndValue': 'TypeAndValue': 'enumerated': SEQUENCE (SIZE (1)) OF Enumerated (0 .. 2){ running (0), interrupted (1), halted (2)}
1.3.112.4.4.2.1.29.3.1.1 D This directive permits setting of the controllable parameters of the RtnAfTsProvider FR type. rtnAfSetContrParams 1 2016-02-29
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None
Q The directive qualifier specifies the FR instance the directive shall act on and contains a set of parameter identifier and parameter value pairs. To be valid, the parameter identifier must reference a controllable parameter of the RtnAfTsProvider FR and the parameter value must be of the same type as the parameter value that shall be set. rtnAfContrParamIdsAndValues 1 2016-02-29
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depends on the specific paramter(s) being set For the identification of the FR instance: 'directiveQualifier': 'functResourceDirQualifier': 'functResourceInstanceNumber': 'FunctionalResourceInstanceNumber': 'IntPos'For the identification of the parameter to be set:'directiveQualifier': 'functResourceDirQualifier': 'functionalResourceQualifiers': 'DirectiveQualifierValues': 'setOfParamIdsAndValues': 'SetOfParameterIdsAndValues': 'parameterIdentifier': 'PublishedIdentifier'For the parameter value:'directiveQualifier': 'functResourceDirQualifier': 'functionalResourceQualifiers': 'DirectiveQualifierValues': 'setOfParamIdsAndValues': 'SetOfParameterIdsAndValues': 'parameterValue': 'TypeAndValueComplexQualified'The remainder of the path depends on the type of the value of the parameter that shall be set.
1.3.112.4.4.2.1.29.1.1.1 P This parameter reports the identifier of the given RAF service instance. rtnAfSiid true 1 2016-02-29
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SEQUENCE (SIZE (1)) OF VisibleString (SIZE (30 .. 256)) Setting of this parameter by means of the rtnAfSetContrParams directive is only permissible while rtnAfSiState = 'unbound'.
1.3.112.4.4.2.1.29.1.2.1 P This enumerated parameter reports the delivery mode of the given RAF service instance. It can take on three values:- 'timely online' - the timely online delivery mode limits the size of the backlog of not yet delivered data that is allowed to accumulate by discarding data that cannot be delivered within a certain time. Furthermore, when data is discarded, it is discarded ‘in chunks’, i.e., as a sufficiently large block of contiguous frames rather than as random frames here and there; in general, this approach maximizes the usefulness of the data that is delivered.- 'complete online' - this delivery mode attempts to deliver all acquired frames having the user selected characteristics, in order, with minimum delay consistent with the available ground communications bandwidth. To that end, the service provider has a buffer sufficiently large to deal with communications service delays, outages, and bandwidth limitations;- 'offline' - in this delivery mode, the provider side buffer enables data to be delivered hours or days after their acquisition. To that end, this buffer is sufficiently large to hold all data that might be accumulated during several space link sessions. rtnAfDeliveryMode true 1 2016-02-29
CSS Area
SEQUENCE (SIZE (1)) OF Enumerated (0 .. 2){ timelyOnline (0), completeOnline (1), offline (2)} Setting of this parameter by means of the rtnAfSetContrParams directive is only permissible while rtnAfSiState = 'unbound'.
1.3.112.4.4.2.1.29.1.3.1 P This parameter reports the setting of the maximum time period in seconds permitted from when a confirmed RAF operation is invoked until the return is received by the invoker. rtnAfRtnTimeoutPeriod true 1 2016-02-29
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s SEQUENCE (SIZE (1)) OF IntUnsigned (1 .. 600) Setting of this parameter by means of the rtnAfSetContrParams directive is only permissible while rtnAfSiState = 'unbound'.
1.3.112.4.4.2.1.29.1.4.1 P This parameter reports the maximum allowable delivery latency time, in seconds, for the online delivery modes, i.e., the maximum delay from when the frame is acquired by the provider until it is delivered to the user. If rtnAfDeliveryMode = 'offline', rafLatencyLimit has no effect. rtnAfLatencyLimit true 1 2016-02-29
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s SEQUENCE (SIZE (1)) OF IntUnsigned (1 .. 100) Setting of this parameter by means of the rtnAfSetContrParams directive is only permissible while rtnAfSiState = 'unbound'.
1.3.112.4.4.2.1.29.1.5.1 P This parameter reports the number of frames the provider shall block in one RAF-PDU before passing it to the underlying communications layer except if expiry of the latency limit requires earlier release of the RAF-PDU. rtnAfTransferBufferSize true 1 2016-02-29
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SEQUENCE (SIZE (1)) OF IntUnsigned (1 .. 1000) Setting of this parameter by means of the rtnAfSetContrParams directive is only permissible while rtnAfSiState = 'unbound'.
1.3.112.4.4.2.1.29.1.6.1 P This enumerated parameter reports the set of the quality of the frames that the user may select with the given RAF service instance. The permitted frame quality settings must be chosen from the following set of values: - 'good' - only frames that based on successful RS or LDPC decoding/correcting and/or based on the check of the FECF are assumed to be error free will be delivered to the user;- 'erred' - only frames that based on unsuccessful RS or LDPC decoding/correcting or based on the failed check of the FECF were found to contain errors will be delivered to the user;- 'all' - all frames regardless if error free or not are delivered to the user; this includes telemetry frames for which due to lack of compatibility with the pertinent CCSDS Recommendations the quality cannot be determined. rtnAfPermittedFrameQuality true 1 2016-02-29
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SET (SIZE (1 .. 3)) OF SEQUENCE (SIZE (1)) OF Enumerated (0 .. 2){ good (0), erred (1), all (2)} Setting of this parameter by means of the rtnAfSetContrParams directive is only permissible while rtnAfSiState = 'unbound'.
1.3.112.4.4.2.1.29.1.7.1 P This enumerated parameter reports the status of the given instance of the RAF service. It can take on the following values:- 'unbound' - All resources required to enable the provision of the RAF service have been allocated, and all objects required to provide the service have been instantiated; however, no association yet exists between the user and the provider, i.e., the RAF transfer service provider port is not bound;- 'ready'- An association has been established between the user and the provider, and they may interact by means of the service operations. However, sending of telemetry frames from the provider to the user (by means of the RAF-TRANSFER-DATA operation) is not permitted; the user may enable the delivery of telemetry frames by means of the appropriate service operation (RAF-START), which, in turn, will cause the provider to transition to the state 'active';- 'active' - This state resembles state ‘ready’, except that now the provider will send telemetry frames provided frames of the selected characteristics are made available by the RAF production process; the service continues in this state until the user invokes either the RAF-STOP operation to cause the provider to suspend delivery of telemetry frames and transition back to state 'ready' or the PEER-ABORT invocation to cause the service to transition back to the 'unbound' state. rtnAfSiState false 1 2016-02-29
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SEQUENCE (SIZE (1)) OF Enumerated (0 .. 2){ unbound (0), ready (1), active (2)}
1.3.112.4.4.2.1.29.1.8.1 P This parameter reports the current setting of the time in seconds between successive RAF-STATUS-REPORT invocations sent by the RAF service provider. The permissible values are in the range (2 .. 600). If cyclic reporting is off, this parameter shall be flagged as 'undefined'. rtnAfReportingCycle false 1 2016-02-29
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s SEQUENCE (SIZE (1)) OF IntUnsigned (0 .. 600)
1.3.112.4.4.2.1.29.1.9.1 P This enumerated parameter reports the status of the service production process used by the given instance of an RAF service. It can take on the following values: - 'running' - the RAF production process is capable of processing a return space link physical channel, if available; - 'interrupted' - the RAF production process is stopped due to a fault; - 'halted' - the RAF production process is stopped and production equipment is out of service due to management action. rtnAfProdStat true 1 2016-02-29
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SEQUENCE (SIZE (1)) OF Enumerated (0 .. 2){ running (0), interrupted (1), halted (2)} Setting of the rtnAfProdStat to 'interrupted' by means of the directive rtnAfSetContrParams is not permissible.
1.3.112.4.4.2.1.29.1.10.1 P This enumerated parameter reports the quality of the frames that shall be delivered by the given RAF service instance. It can take on three values:- 'good' - only frames that based on successful RS or LDPC decoding/correcting and/or based on the check of the FECF are assumed to be error free will be delivered to the user;- 'erred' - only frames that based on unsuccessful RS or LDPC decoding/correcting and/or based on the failed check of the FECF were found to contain errors will be delivered to the user;- 'all' - all frames regardless if error free or not are delivered to the user; this includes telemetry frames for which due to lack of compatibility with the pertinent CCSDS Recommendations the quality cannot be determined.If the given service instance does not constrain this parameter to a single value, it shall be flagged 'undefined' whenever si-state ≠ 'active'. rtnAfRequestedFrameQuality false 1 2016-02-29
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SEQUENCE (SIZE (1)) OF Enumerated (0 .. 2){ good (0), erred (1), all (2)}
1.3.112.4.4.2.1.29.1.11.1 P This parameter reports the total number of telemetry frames that were annotated with a frame-quality of ‘good’ and delivered to the user since the start of the service instance provision period. rtnAfNumberOfErrorFreeFramesDelivered false 1 2016-02-29
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SEQUENCE (SIZE (1)) OF IntUnsigned
1.3.112.4.4.2.1.29.1.12.1 P This parameter reports the total number of telemetry frames that were delivered to the user since the start of the service instance provision period. rtnAfNumberOfFramesDelivered false 1 2016-02-29
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SEQUENCE (SIZE (1)) OF IntUnsigned
1.3.112.4.4.2.1.30 FR none RtnCfTsProvider 2014-06-27
CSTS
1.3.112.4.4.2.1.30.1.1.1 P This parameter reports the identifier of the given service instance. rtnCfSiid false 1
CSTS
SEQUENCE (SIZE (1)) OF VisibleString (SIZE (30 .. 256))
1.3.112.4.4.2.1.30.1.2.1 P This enumerated parameter reports the delivery mode of the given RCF service instance. It can take on three values: - 'timely online' - the timely online delivery mode limits the size of the backlog of not yet delivered data that is allowed to accumulate by discarding data that cannot be delivered within a certain time. Furthermore, when data is discarded, it is discarded ‘in chunks’, i.e., as a sufficiently large block of contiguous frames rather than as random frames here and there; in general, this approach maximizes the usefulness of the data that is delivered. - 'complete online' - this delivery mode attempts to deliver all acquired frames having the user selected characteristics, in order, with minimum delay consistent with the available ground communications bandwidth. To that end, the service provider has a buffer sufficiently large to deal with communications service delays, outages, and bandwidth limitations; - 'offline' - in this delivery mode, the provider side buffer enables data to be delivered hours or days after their acquisition. To that end, this buffer is sufficiently large to hold all data that might be accumulated during several space link sessions. rtnCfDeliveryMode false 1
CSTS
SEQUENCE (SIZE (1)) OF IntUnsigned (0 .. 2) { timely-online (0) , complete-online (1) , offline (2) }
1.3.112.4.4.2.1.30.1.3.1 P This parameter reports the setting of the maximum time period in seconds permitted from when a confirmed RCF operation is invoked until the return is received by the invoker. rtnCfRtnTimeoutPeriod false 1
CSTS
SEQUENCE (SIZE (1)) OF IntUnsigned (1 .. 600)
1.3.112.4.4.2.1.30.1.4.1 P This parameter reports the maximum allowable delivery latency time, in seconds, for the online delivery modes, i.e., the maximum delay from when the frame is acquired by the provider until it is delivered to the user: this parameter shall be flagged as undefined if rtnCfDeliveryMode = 'offline'. rtnCfLatencyLimit false 1
CSTS
SEQUENCE (SIZE (1)) OF IntUnsigned (1 .. 100)
1.3.112.4.4.2.1.30.1.5.1 P This parameter reports the number of frames the provider shall block in one RCF-PDU before passing it to the underlying communications layer except if expiry of latency-limit requires earlier release of the RCF-PDU. If rtnCfDeliveryMode = 'offline', latency-limit has no effect. rtnCfTransferBufferSize false 1
CSTS
SEQUENCE (SIZE (1)) OF IntUnsigned (1 .. 100)
1.3.112.4.4.2.1.30.1.6.1 P This parameter reports the set of Master and/or Virtual Channel that the given RCF service instance permits the user to select. The parameter is a set of the concatenation of the CCSDS assigned Spacecraft Identifier (SCID), the Transfer Frame Version Number (TFVN) and, if applicable, the Virtual Channel Identifier (VCID). The range of the Spacecraft Identifier and the Virtual Channel Identifier depend on the TFVN as follows: - TFVN = 0 (version 1) - SCID = (0 .. 1023)10, VCID = (0 .. 7)10; - TFVN = 1 (version 2) - SCID = (0 .. 255)10, VCID = (0 .. 63)10. rtnCfPermittedGlobalVcidSet false 1
CSTS
SET OF SEQUENCE (SIZE (3)) OF IntUnsigned, where the first element is the SCID (0 .. 1023), the second element is the TFVN (0 .. 1); and the third element is the VCID (0 .. 63). As to have a way for expressing also the selection of the Master Channel, the 'special' VCID value 99 is used to indicate that the VCID may have any value. Therefore the exact range specification is: VCID ϵ {0 .. 63,99}
1.3.112.4.4.2.1.30.1.7.1 P This enumerated parameter reports the status of the given instance of the RCF service. It can take on the following values: - 'unbound' - All resources required to enable the provision of the RCF service have been allocated, and all objects required to provide the service have been instantiated; however, no association yet exists between the user and the provider, i.e., the RCF transfer service provider port is not bound; - 'ready'- An association has been established between the user and the provider, and they may interact by means of the service operations. However, sending of telemetry frames from the provider to the user (by means of the RCF-TRANSFER-DATA operation) is not permitted; the user may enable the delivery of telemetry frames by means of the appropriate service operation (RCF-START), which, in turn, will cause the provider to transition to the state 'active'; - 'active' - This state resembles state ‘ready’, except that now the provider will send telemetry frames provided frames of the selected characteristics are made available by the RCF production process; the service continues in this state until the user invokes the RCF-STOP operation to cause the provider to suspend delivery of telemetry frames and transition back to state 'ready' or the PEER-ABORT invocation to cause the service to transition back to the 'unbound' state. rtnCfSiState false 1
CSTS
SEQUENCE (SIZE (1)) OF IntUnsigned (0 .. 2) { unbound (0) , ready (1) , active (2) }
1.3.112.4.4.2.1.30.1.8.1 P This parameter reports the current setting of the time in seconds between successive RCF-STATUS-REPORT invocations sent by the RCF service provider. The permissible values are in the range (2 .. 600). If cyclic reporting is off, the value reported is zero. rtnCfReportingCycle false 1
CSTS
SEQUENCE (SIZE (1)) OF IntUnsigned (0 .. 600)
1.3.112.4.4.2.1.30.1.9.1 P This enumerated parameter reports the status of the service production process used by the given instance of an RCF service. It can take on the following values: - 'running' - the RCF production process is capable of processing a return link Master or Virtual Channel, if available; - 'interrupted' - the RCF production process is stopped due to a fault; - 'halted' - the RCF production process is stopped and production equipment is out of service due to management action. rtnCfProdStat false 1
CSTS
SEQUENCE (SIZE (1)) OF IntUnsigned (0 .. 2) { running (0) , interrupted (1) , halted (2) }
1.3.112.4.4.2.1.30.1.10.1 P This parameter reports the Master or Virtual Channel that the given RCF service instance shall deliver to the user. The parameter is a concatenation of the CCSDS assigned Spacecraft Identifier (SCID), the Transfer Frame Version Number (TFVN) and, if applicable, the Virtual Channel Identifier (VCID). The range of the Spacecraft Identifier and the Virtual Channel Identifier depend on the TFVN as follows:- TFVN = 0 (version 1) - SCID = (0 .. 1023)10, VCID = (0 .. 7)10;- TFVN = 1 (version 2) - SCID = (0 .. 255)10, VCID = (0 .. 63)10.If the global VCID is not constrained to a single value by the given RCF service instance (see rtnCfPermittedGlobalVcidSet), then this parameter shall be flagged undefined as long as rtnCfSiState ≠ 'active. rtnCfRequestedGlobalVcid false 1
CSTS
SEQUENCE (SIZE (3)) OF IntUnsigned, where the first element is the SCID (0 .. 1023), the second element is the TFVN (0 .. 1); and the third element is the VCID (0 .. 63). As to have a way for expressing also the selection of the Master Channel, the 'special' VCID value 99 is used to indicate that the VCID may have any value. Therefore the exact range specification is: VCID ϵ {0 .. 63,99}
1.3.112.4.4.2.1.30.1.11.1 P This parameter reports the total number of telemetry frames that were delivered to the user since the start of the service instance provision period. rtnCfNumberOfFramesDelivered false 1
CSTS
SEQUENCE (SIZE (1)) OF IntUnsigned
1.3.112.4.4.2.1.31 FR none RtnOcfTsProvider 2014-06-27
CSTS
1.3.112.4.4.2.1.31.1.1.1 P This parameter reports the identifier of the given ROCF service instance. rtnOcfSiid false 1
CSTS
SEQUENCE (SIZE (1)) OF VisibleString (SIZE (30 .. 256))
1.3.112.4.4.2.1.31.1.2.1 P This enumerated parameter reports the delivery mode of the given ROCF service instance. It can take on three values: - 'timely online' - the timely online delivery mode limits the size of the backlog of not yet delivered data that is allowed to accumulate by discarding data that cannot be delivered within a certain time. Furthermore, when data is discarded, it is discarded ‘in chunks’, i.e., as a OCFs extracted from a sufficiently large block of contiguous frames rather than as OCFs from random frames here and there; in general, this approach maximizes the usefulness of the data that is delivered. - 'complete online' - this delivery mode attempts to deliver the OCFs having the user selected characteristics from all acquired frames, in order, with minimum delay consistent with the available ground communications bandwidth. To that end, the service provider has a buffer be sufficiently large to deal with communications service delays, outages, and bandwidth limitations; - 'offline' - in this delivery mode, the provider side buffer enables data to be delivered hours or days after their acquisition. To that end, this buffer is sufficiently large to hold all data that might be accumulated during several space link sessions. rtnOcfDeliveryMode false 1
CSTS
SEQUENCE (SIZE (1)) OF IntUnsigned (0 .. 2) { timely-online (0) , complete-online (1) , offline (2) }
1.3.112.4.4.2.1.31.1.3.1 P This parameter reports the setting of the maximum time period in seconds permitted from when a confirmed ROCF operation is invoked until the return is received by the invoker. rtnOcfRtnTimeoutPeriod false 1
CSTS
SEQUENCE (SIZE (1)) OF IntUnsigned (1 .. 600)
1.3.112.4.4.2.1.31.1.4.1 P This parameter reports the maximum allowable delivery latency time, in seconds, for the online delivery modes, i.e., the maximum delay from when the provider extracts an OCF from a newly acquired frame until it is delivered to the user: this parameter shall be flagged as undefined if rtnOcfDeliveryMode = 'offline'. rtnOcfLatencyLimit false 1
CSTS
SEQUENCE (SIZE (1)) OF IntUnsigned (1 .. 100)
1.3.112.4.4.2.1.31.1.5.1 P This parameter reports the number of OCFs the provider shall block in one ROCF-PDU before passing it to the underlying communications layer except if expiry of latency-limit requires earlier release of the ROCF-PDU. If rtnOcfDeliveryMode = 'offline', latency-limit has no effect. rtnOcfTransferBufferSize false 1
CSTS
SEQUENCE (SIZE (1)) OF IntUnsigned (1 .. 100)
1.3.112.4.4.2.1.31.1.6.1 P This parameter reports the telemetry Master and/or Virtual Channel out of which the given ROCF service instance extracts the OCFs. The parameter is a set of the concatenation of the CCSDS assigned Spacecraft Identifier (SCID), the Transfer Frame Version Number (TFVN) and, if applicable, the Virtual Channel Identifier (VCID). The range of the Spacecraft Identifier and the Virtual Channel Identifier depend on the TFVN as follows: - TFVN = 0 (version 1) - SCID = (0 .. 1023)10, VCID = (0 .. 7)10; - TFVN = 1 (version 2) - SCID = (0 .. 255)10, VCID = (0 .. 63)10. rtnOcfPermittedGlobalVcidSet false 1
CSTS
SET (SIZE (1 .. 65) OF SEQUENCE (SIZE (3)) OF IntUnsigned, where the first element is the SCID (0 .. 1023), the second element is the TFVN (0 .. 1); and the third element is the VCID (0 .. 63). As to have a way for expressing also the selection of the Master Channel, the 'special' VCID value 99 is used to indicate that the VCID may have any value. Therefore the exact range specification is: VCID ϵ {0 .. 63,99}
1.3.112.4.4.2.1.31.1.7.1 P This parameter reports the set of OCF types that the given ROCF service instance permits the user to select. Three types are defined: - 'all control word types' - all OCFs shall be delivered regardless of their type; - 'clcw' - only OCFs containing the CCSDS defined Communication Link Control Word (CLCW) data structure shall be delivered; - 'not-clcw' - only privately defined OCFs shall be delivered. rtnOcfPermittedControlWordTypeSet false 1
CSTS
SET (SIZE (1 .. 3)) OF SEQUENCE (SIZE (1)) OF IntUnsigned (0 .. 2) { all-control-word-types (0) , clcw (1) , not-clcw (2) }
1.3.112.4.4.2.1.31.1.8.1 P This parameter reports the TC Master Channel and/or the Virtual Channels that the CLCWs that shall be extracted are associated with. If rtnOcfRequestedControlWordType ≠ 'clcw', this parameter shall be flagged as undefined. rtnOcfPermittedTcVcidSet false 1
CSTS
SET (SIZE (1 .. 64) OF SEQUENCE (SIZE (3)) OF IntUnsigned, where the first element is the SCID (0 .. 1023), the second element is the TFVN (0); and the third element is the VCID (0 .. 63).
1.3.112.4.4.2.1.31.1.9.1 P This parameter reports the update modes that the given ROCF service instance permits. The update modes are:- 'continuous' - the given ROCF service permits the 'continuous' mode, i.e. the OCF service provider delivers each OCF that fulfills the delivery criteria specified by the ROCF-START invocation parameters start-time, stop-time, rtnOcfRequestedGlobalVcid, rtnOcfRequestedControlWordType, and rtnOcfRequestedTcVcid;- 'change-based' - the ROCF service provider delivers those OCFs that fulfill the delivery criteria specified by the ROCF-START invocation parameters start-time, stop-time, rtnOcfRequestedGlobalVcid, rtnOcfRequestedControlWordType, and rtnOcfRequestedTcVcid provided the content of the OCF is different than the one of the OCF with the same tc-vcid value previously delivered. rtnOcfPermittedUpdateMode false 1
CSTS
SET (SIZE (1 .. 2)) OF SEQUENCE (SIZE (1)) OF IntUnsigned (0 .. 1) { continuous (0) , change-based (1) }
1.3.112.4.4.2.1.31.1.10.1 P This enumerated parameter reports the status of the given instance of the ROCF service. It can take on the following values: - 'unbound' - All resources required to enable the provision of the ROCF service have been allocated, and all objects required to provide the service have been instantiated; however, no association yet exists between the user and the provider, i.e., the ROCF transfer service provider port is not bound; - 'ready'- An association has been established between the user and the provider, and they may interact by means of the service operations. However, sending of Operational Control Fields (OCFs) from the provider to the user (by means of the ROCF-TRANSFER-DATA operation) is not permitted; the user may enable the delivery of OCFs by means of the appropriate service operation (ROCF-START), which, in turn, will cause the provider to transition to the state 'active'; - 'active' - This state resembles state ‘ready’, except that now the provider will send OCFs provided frames of the selected characteristics are made available by the ROCF production process; the service continues in this state until the user invokes the ROCF-STOP operation to cause the provider to suspend delivery of OCFs and transition back to state 'ready or the PEER-ABORT invocation to cause the service to transition back to the 'unbound' state. rtnOcfSiState false 1
CSTS
SEQUENCE (SIZE (1)) OF IntUnsigned (0 .. 2) { unbound (0) , ready (1) , active (2) }
1.3.112.4.4.2.1.31.1.11.1 P This parameter reports the current setting of the time in seconds between successive ROCF-STATUS-REPORT invocations sent by the ROCF service provider. The permissible values are in the range (2 .. 600). If cyclic reporting is off, the value reported is undefined. rtnOcfReportingCycle false 1
CSTS
SEQUENCE (SIZE (1)) OF IntUnsigned (2 .. 600)
1.3.112.4.4.2.1.31.1.12.1 P This enumerated parameter reports the status of the service production process used by the given instance of an ROCF service. It can take on the following values: - 'running' - the ROCF production process is capable of processing a return link Master or Virtual Channel, if available; - 'interrupted' - the ROCF production process is stopped due to a fault; - 'halted' - the ROCF production process is stopped and production equipment is out of service due to management action. rtnOcfProdStat false 1
CSTS
SEQUENCE (SIZE (1)) OF IntUnsigned (0 .. 2) { running (0) , interrupted (1) , halted (2) }
1.3.112.4.4.2.1.31.1.13.1 P This parameter reports the set of Master and/or Virtual Channel that the given ROCF service instance permits the user to select. The parameter is a set of the concatenation of the CCSDS assigned Spacecraft Identifier (SCID), the Transfer Frame Version Number (TFVN) and, if applicable, the Virtual Channel Identifier (VCID). The range of the Spacecraft Identifier and the Virtual Channel Identifier depend on the TFVN as follows:- TFVN = 0 (version 1) - SCID = (0 .. 1023)10, VCID = (0 .. 7)10;- TFVN = 1 (version 2) - SCID = (0 .. 255)10, VCID = (0 .. 63)10.If the global VCID is not constrained to a single value by the given ROCF service instance, then this parameter shall be flagged as undefined as long as rtnOcfSiState ≠ 'active. rtnOcfRequestedGlobalVcid false 1
CSTS
SEQUENCE (SIZE (3)) OF IntUnsigned, where the first element is the SCID (0 .. 1023), the second element is the TFVN (0 .. 1); and the third element is the VCID (0 .. 63). As to have a way for expressing also the selection of the Master Channel, the 'special' VCID value 99 is used to indicate that the VCID may have any value. Therefore the exact range specification is: VCID ϵ {0 .. 63,99}
1.3.112.4.4.2.1.31.1.14.1 P This enumerated parameter reports the type of the OCFs that shall be delivered. It can take on three values: - all control word types' - the service provider delivers all OCFs extracted from the selected telemetry channel, regardless of the control word type they contain; - 'clcw' - the service provider delivers the OCFs extracted from the selected telemetry channel that contain CLCW reports; - 'not clcw' - the service provider delivers the OCFs extracted from the selected telemetry channel that contain reports different from CLCWs. rtnOcfRequestedControlWordType false 1
CSTS
SEQUENCE (SIZE (1)) OF IntUnsigned (0 .. 2) { all-control-word-types (0) , clcw (1) , not-clcw (2) }
1.3.112.4.4.2.1.31.1.15.1 P This parameter reports which TC Master Channel or Virtual Channel the OCFs to be delivered shall be associated with. The parameter is a concatenation of the CCSDS assigned Spacecraft Identifier (SCID), the Transfer Frame Version Number (TFVN) and, if applicable, the Virtual Channel Identifier (VCID).If rtnOcfRequestedControlWordType ≠ clcw, this parameter shall be flagged as undefined. rtnOcfRequestedTcVcid false 1
CSTS
SEQUENCE (SIZE (3)) OF IntUnsigned, where the first element is the SCID (0 .. 1023), the second element is the TFVN (0); and the third element is the VCID (0 .. 63).
1.3.112.4.4.2.1.31.1.16.1 P This enumerated parameter reports the update mode applied by the ROCF service provider for the delivery of OCFs. It can take on two values:- 'continuous' - the ROCF service provider delivers each OCF that fulfills the delivery criteria specified by the ROCF-START invocation parameters start-time, stop-time, rtnOcfRequestedGlobalVcid, rtnOcfRequestedControlWordType, and rtnOcfRequestedTcVcid;- 'change-based' - the ROCF service provider delivers those OCFs that fulfill the delivery criteria specified by the ROCF-START invocation parameters start-time, stop-time, rtnOcfRequestedGlobalVcid, rtnOcfRequestedControlWordType, and rtnOcfRequestedTcVcid provided the content of the OCF is different than the one of the OCF with the same tc-vcid value previously delivered. rtnOcfRequestedUpdateMode false 1
CSTS
SEQUENCE (SIZE (1)) OF IntUnsigned (0 .. 1) { continuous (0) , change-based (1) }
1.3.112.4.4.2.1.31.1.17.1 P This parameter reports the total number of OCFs that were delivered to the user since the start of the service instance provision period. rtnOcfNumberOfOcfsDelivered false 1
CSTS
SEQUENCE (SIZE (1)) OF IntUnsigned
1.3.112.4.4.2.1.32 FR none RtnCfdpEntity 2014-06-27
CSTS
1.3.112.4.4.2.1.32.1.1.1 P This parameter reports the entity id length and the entity IDs required for the CFDP core procedure where the first element of the parameter specifies the length of the entity IDs in octets, the second element reports the ID of the local, i.e. the receiving entity and the third element reports the ID of the sending entity. rtnCfdpEntityIds false 1 2014-06-30
CSTS
SEQUENCE (SIZE (3)) OF IntUnsigned
1.3.112.4.4.2.1.32.1.2.1 P This enumerated parameter reports if the local CFDP entity is configured to provide an EOF-Recv.indication to the RtnFileServer FR when the EOF PDU associated with a transaction has been received from the sending end. It can take on two values:- EOF-recv indication enabled;- EOF-recv indication disabled. rtnCfdpEofRecvdIndication false 1 2014-06-30
CSTS
SEQUENCE (SIZE (1)) OF IntUnsigned (0 .. 1){ eofRecvIndicationEnabled (0), eofRecvIndicationDisabled (1)}
1.3.112.4.4.2.1.32.1.3.1 P This enumerated parameter reports if the local CFDP entity is configured to provide a File-Segment-Recv.indication to the RtnFileServer FR when individual file data segments have been received from the sending end. It can take on two values:- File-Segment-Recv indication enabled;- File-Segment-Recv indication disabled. rtnCfdpFileSegmentRecvdIndication false 1 2014-06-30
CSTS
SEQUENCE (SIZE (1)) OF IntUnsigned (0 .. 1){ fileSegmentRecvIndicationEnabled (0), fileSegmentRecvIndicationDisabled (1)}
1.3.112.4.4.2.1.32.1.4.1 P This enumerated parameter reports if the local CFDP entity is configured to provide a Transaction-Finished.indication to the RtnFileServer FR when the transaction is complete. It can take on two values:- Transaction-Finished indication enabled;- Transaction-Finished indication disabled. rtnCfdpTransactionFinishedIndication false 1 2014-06-30
CSTS
SEQUENCE (SIZE (1)) OF IntUnsigned (0 .. 1){ transactionFinishedIndicationEnabled (0), transactionFinishedIndicationDisabled (1)}
1.3.112.4.4.2.1.32.1.5.1 P This enumerated parameter reports if the local CFDP entity is configured to provide a Suspended.indication to the RtnFileServer FR when the transaction has been suspended. It can take on two values:- Suspended indication enabled;- Suspended indication disabled. rtnCfdpSuspendedIndication false 1 2014-06-30
CSTS
SEQUENCE (SIZE (1)) OF IntUnsigned (0 .. 1){ suspendedIndicationEnabled (0), suspendedIndicationDisabled (1)}
1.3.112.4.4.2.1.32.1.6.1 P This enumerated parameter reports if the local CFDP entity is configured to provide a Resumed.indication to the RtnFileServer FR when the transaction has been resumed. It can take on two values:- Resumed indication enabled;- Resumed indication disabled. rtnCfdpResumedIndication false 1 2014-06-30
CSTS
SEQUENCE (SIZE (1)) OF IntUnsigned (0 .. 1){ resumedIndicationEnabled (0), resumedIndicationDisabled (1)}
1.3.112.4.4.2.1.32.1.7.1 P This parameter reports the default fault handler override, if any. If the parameter has the value '-1', the default fault handlers as specified in CCSDS 727.0.B-4 apply. Other values specify the overrides as per CCSDS 727.0.B-4. rtnCfdpFaultHandlerOverride false 1 2014-06-30
CSTS
SEQUENCE (SIZE (1)) OF INTEGER (-1 .. 15)
1.3.112.4.4.2.1.32.1.8.1 P This parameter reports the one-way light time in milliseconds to the remote CFDP entity. rtnCfdpOneWayLightTime false 1 2014-06-30
CSTS
1/1000 s SEQUENCE (SIZE (1) OF Duration [1]
1.3.112.4.4.2.1.32.1.9.1 P This parameter reports on the prompt timer period in milliseconds the remote CFDP entity applies. If the value of the parameter is zero, the remote entity will not send periodic prompt PDUs. rtnCfdpPromptInterval false 1 2014-06-30
CSTS
1/1000 s SEQUENCE (SIZE (1) OF Duration [1]
1.3.112.4.4.2.1.32.1.10.1 P This parameter reports the discrepancy limit (in octets) between the progress monitored by observing the actual transmission and the progress monitored by means of the Keep Alive PDUs at the remote CFDP entity. When the limit is reached, the remote entity will declare a Keep Alive Limit Reached fault. rtnCfdpKeepAliveDiscrepancyLimit false 1 2014-06-30
CSTS
octet SEQUENCE (SIZE (1) OF IntUnsigned
1.3.112.4.4.2.1.32.1.11.1 P This parameter reports the maximum number of retransmissions of a given PDU the remote CFDP entity will perform until it declares a Positive ACK Limit Reached fault. A retransmission is performed whenever the ACK timer expires. rtnCfdpPosAckTimerExpirationLimit false 1 2014-06-30
CSTS
SEQUENCE (SIZE (1) OF IntUnsigned
1.3.112.4.4.2.1.32.1.12.1 P This parameter reports the maximum period in milliseconds that may pass without reception of a PDU until the remote CFDP entity will declare an Inactivity Fault condition. rtnCfdpTransactionInactivityLimit false 1 2014-06-30
CSTS
1/1000 s SEQUENCE (SIZE (1) OF Duration [1]
1.3.112.4.4.2.1.32.1.13.1 P This parameter reports the start and end time of the tranmission opportunity at the remote CFDP entity. rtnCfdpTransmissionOpportunity false 1 2014-06-30
CSTS
1.3.112.4.4.2.1.33 FR [Editor's Note: This FR type is not yet specified to any level of detail. It is listed here only so that the desired OID is assigned] RtnFileServer 2014-06-27
CSTS
1.3.112.4.4.2.1.34 FR [Editor's Note: This FR type is not yet specified to any level of detail. It is listed here only so that the desired OID is assigned] RtnFileDataStore 2015-05-26
CSTS
1.3.112.4.4.2.1.35 FR [Editor's Note: This FR type is not yet specified to any level of detail. It is listed here only so that the desired OID is assigned] TdmSegmentGen 2014-06-27
CSTS
1.3.112.4.4.2.1.36 FR [Editor's Note: This FR type is not yet specified to any level of detail. It is listed here only so that the desired OID is assigned] TdmSink 2014-06-27
CSTS
1.3.112.4.4.2.1.37 FR [Editor's Note: This FR type is not yet specified to any level of detail. It is listed here only so that the desired OID is assigned] TdmRecordingBuffer 2015-05-26
CSTS
1.3.112.4.4.2.1.38 FR None TdCstsProvider 2014-06-27
CSTS
1.3.112.4.4.1.1.5.2.1.1 E This event notifies any change of the tdCstsProdStat parameter. tdCstsProdStatChange 1
1.3.112.4.4.1.1.5.1.1.1 V The event value reports the tdCstsProdStat value that applies since the notified tdCstsProdStatChange event occurred. tdCstsProdStatValue 1
1.3.112.4.4.1.1.5.1.1.1 P tdCstsProdStat false 1
CSTS
Enumerated
1.3.112.4.4.2.1.39 FR none RtnOpenLoopRxFormatter 2014-06-27
CSTS
1.3.112.4.4.2.1.39.1.1.1 P This parameter specifies in Hz the sampling rate used for the open-loop recording. rtnOpenLoopRxOpenLoopSamplingRate false 1
CSTS
SEQUENCE (SIZE (1)) OF IntUnsigned (1000 .. 2000000)
1.3.112.4.4.2.1.39.1.2.1 P This enumerated parameter specifies the quantization of the samples, i.e. the number of bits used to represent one sample. The following values are supported: - '1 bit'; - '2 bit'; - '4 bit'; - '8 bit'; - '16 bit'. rtnOpenLoopRxQuantization false 1
CSTS
SEQUENCE (SIZE (1)) OF IntUnsigned (0 .. 4) { 1-bit (0) , 2-bit (1) , 4-bit (2) , 8-bit (3) , 16-bit (4) }
1.3.112.4.4.2.1.39.1.3.1 P This parameter specifies the offset in Hz of the open-loop recording center frequency with respect to the nominal carrier return link conversion for right hand circular polarization. rtnOpenLoopRxCenterFrequOffsetRhc false 1
CSTS
SEQUENCE (SIZE (1)) OF Integer (-100000000 .. 100000000)
1.3.112.4.4.2.1.39.1.4.1 P This parameter specifies the offset in Hz of the open-loop recording center frequency with respect to the nominal carrier return link conversion for left hand circular polarization. rtnOpenLoopRxCenterFrequOffsetLhc false 1
CSTS
SEQUENCE (SIZE (1)) OF Integer (-100000000 .. 100000000)
1.3.112.4.4.2.1.39.1.5.1 P This parameter specifies the offset in Hz of the open-loop recording subchannel 1 center frequency with respect to the open-loop recording center frequency specified for the polarization selected for this subchannel. If rtnOpenLoopRxSubchannel1Polarization is 'off', this parameter shall be flagged as undefined. rtnOpenLoopRxSubchannel1FrequOffset false 1
CSTS
SEQUENCE (SIZE (1)) OF Integer (-80000000 .. 80000000)
1.3.112.4.4.2.1.39.1.6.1 P This enumerated parameter reports if this subchannel is active and if so which polarization the input signal has. It can take on three values: - 'off' - the subchannel is not used for the current open-loop recording; - 'rhc' - the right hand circular polarized signal is used as input to this sub-channel; - 'lhc' - the left hand circular polarized signal is used as input to this sub-channel. rtnOpenLoopRxSubchannel1Polarization false 1
CSTS
SEQUENCE (SIZE (1)) OF IntUnsigned (0 .. 2) { off (0) , rhc (1) , lhc (2) }
1.3.112.4.4.2.1.39.1.7.1 P This parameter specifies the offset in Hz of the open-loop recording subchannel 2 center frequency with respect to the open-loop recording center frequency specified for the polarization selected for this subchannel. If rtnOpenLoopRxSubchannel2Polarization is 'off', this parameter shall be flagged as undefined. rtnOpenLoopRxSubchannel2FrequOffset false 1
CSTS
SEQUENCE (SIZE (1)) OF Integer (-80000000 .. 80000000)
1.3.112.4.4.2.1.39.1.8.1 P This enumerated parameter reports if this subchannel is active and if so which polarization the input signal has. It can take on three values: - 'off' - the subchannel is not used for the current open-loop recording; - 'rhc' - the right hand circular polarized signal is used as input to this sub-channel; - 'lhc' - the left hand circular polarized signal is used as input to this sub-channel. rtnOpenLoopRxSubchannel2Polarization false 1
CSTS
SEQUENCE (SIZE (1)) OF IntUnsigned (0 .. 2) { off (0) , rhc (1) , lhc (2) }
1.3.112.4.4.2.1.39.1.9.1 P This parameter specifies the offset in Hz of the open-loop recording subchannel 3 center frequency with respect to the open-loop recording center frequency specified for the polarization selected for this subchannel. If rtnOpenLoopRxSubchannel3Polarization is 'off', this parameter shall be flagged as undefined. rtnOpenLoopRxSubchannel3FrequOffset false 1
CSTS
SEQUENCE (SIZE (1)) OF Integer (-80000000 .. 80000000)
1.3.112.4.4.2.1.39.1.10.1 P This enumerated parameter reports if this subchannel is active and if so which polarization the input signal has. It can take on three values: - 'off' - the subchannel is not used for the current open-loop recording; - 'rhc' - the right hand circular polarized signal is used as input to this sub-channel; - 'lhc' - the left hand circular polarized signal is used as input to this sub-channel. rtnOpenLoopRxSubchannel3Polarization false 1
CSTS
SEQUENCE (SIZE (1)) OF IntUnsigned (0 .. 2) { off (0) , rhc (1) , lhc (2) }
1.3.112.4.4.2.1.39.1.11.1 P This parameter specifies the offset in Hz of the open-loop recording subchannel 4 center frequency with respect to the open-loop recording center frequency specified for the polarization selected for this subchannel. If rtnOpenLoopRxSubchannel4Polarization is 'off', this parameter shall be flagged as undefined. rtnOpenLoopRxSubchannel4FrequOffset false 1
CSTS
SEQUENCE (SIZE (1)) OF Integer (-80000000 .. 80000000)
1.3.112.4.4.2.1.39.1.12.1 P This enumerated parameter reports if this subchannel is active and if so which polarization the input signal has. It can take on three values: - 'off' - the subchannel is not used for the current open-loop recording; - 'rhc' - the right hand circular polarized signal is used as input to this sub-channel; - 'lhc' - the left hand circular polarized signal is used as input to this sub-channel. rtnOpenLoopRxSubchannel4Polarization false 1
CSTS
SEQUENCE (SIZE (1)) OF IntUnsigned (0 .. 2) { off (0) , rhc (1) , lhc (2) }
1.3.112.4.4.2.1.40 FR [Editor's Note: This FR type is not yet specified to any level of detail. It is listed here only so that the desired OID is assigned] RtnOpenLoopDataStore 2014-06-27
CSTS
1.3.112.4.4.2.1.41 FR [Editor's Note: This FR type is not yet specified to any level of detail. It is listed here only so that the desired OID is assigned] DdorRawDataCollection 2014-06-27
CSTS
1.3.112.4.4.2.1.42 FR [Editor's Note: This FR type is not yet specified to any level of detail. It is listed here only so that the desired OID is assigned] DdorRawDataStore 2014-06-27
CSTS
1.3.112.4.4.2.1.43 FR [Editor's Note: This FR type is not yet specified to any level of detail. It is listed here only so that the desired OID is assigned] RawRadiometricDataCollection 2014-06-27
CSTS
1.3.112.4.4.2.1.44 FR [Editor's Note: This FR type is not yet specified to any level of detail. It is listed here only so that the desired OID is assigned] RawRadioMetricDataStore 2014-06-27
CSTS
1.3.112.4.4.2.1.45 FR [Editor's Note: This FR type is not yet specified to any level of detail. It is listed here only so that the desired OID is assigned] ValidatedRadiometricDataStore 2015-05-26
CSTS
1.3.112.4.4.2.1.46 FR The MonitoredDataCSTSProvider FR accepts as input the monitored data provided by the MonitoredDataCollection FR. MdCstsProvider 2016-02-29
CSS Area
1.3.112.4.4.1.1.5.2.1.1 E This event notifies any change of the mdCstsProdStat parameter. mdCstsProdStatChange 1
1.3.112.4.4.1.1.5.1.1.1 V The event value reports the mdCstsProdStat value that applies since the notified mdCstsProdStatChange event occurred. mdCstsProdStatValue 1
1.3.112.4.4.1.1.5.1.1.1 P This parameter reports the production status of the MD CSTS Provider. mdCstsProdStat false 1
1.3.112.4.4.2.1.47 FR [Editor's Note: This FR type is not yet specified to any level of detail. It is listed here only so that the desired OID is assigned] MonitoredDataCollection 2014-06-27
CSTS
1.3.112.4.4.2.1.48 FR none ServiceControlCSTSProvider 2014-06-27
CSTS
1.3.112.4.4.1.1.5.2.1.1 E This event notifies any change of the scCstsProdStat parameter. scCstsProdStatChange 1
CSS Area
1.3.112.4.4.1.1.5.1.1.1 V The event value reports the scCstsProdStat value that applies since the notified scCstsProdStatChange event occurred. scCstsProdStatValue 1
CSS Area
1.3.112.4.4.2.1.48.1.1.1 P This enumerated parameter reports the production status of the service production process associated with the given Service Control service instance. It can take on the following values:- 'configured': equipment has been assigned to support the service instance, but the production process is not yet capable of acting on configuration data;- 'operational': the production process has been configured for support and is now capable to act on configuration data;- 'interrupted': the service production process is stopped due to a fault;- 'halted': the service production process is stopped and production equipment is out of service due to management action. scCstsProdStat false 1 2015-05-26
CSTS
SEQUENCE (SIZE (1)) OF IntUnsigned (0 .. 3){ configured (0), operational (1), interrupted (2), halted (3)}
1.3.112.4.4.2.1.49 FR none ServiceControlProduction 2014-06-27
CSTS