Rate-Compatible, Bandwidth-Efficient, Low-Density Parity-Check (LDPC) Codes for Aeronautical Telemetry

Low-density parity-check (LDPC) codes form part of the IRIG-106 standard and have been successfully deployed for the Telemetry Group version of shaped-offset quadrature phase shift keying (SOQPSK-TG) modulation. Recently, LDPC code solutions have been proposed and optimized for continuous phase modu...

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Published in:	Entropy (Basel, Switzerland) Vol. 26; no. 12; p. 1045
Main Authors:	Cummins, Andrew D., Mitchell, David G. M., Perrins, Erik
Format:	Journal Article
Language:	English
Published:	Switzerland MDPI AG 30.11.2024 MDPI
Subjects:	Aeronautics Analysis avionics Channel capacity Codes Decoding Design Error correcting codes Error correction & detection FEC Frequency modulation IRIG LDPC codes Low density parity check codes Numerical analysis Parity Pulse code modulation Quadrature phase shift keying Simulation Simulation methods spectral efficiency Telemetry United States puncturing iterative decoding FEC IRIG shortening spectral efficiency telemetry avionics LDPC codes
ISSN:	1099-4300, 1099-4300
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Abstract	Low-density parity-check (LDPC) codes form part of the IRIG-106 standard and have been successfully deployed for the Telemetry Group version of shaped-offset quadrature phase shift keying (SOQPSK-TG) modulation. Recently, LDPC code solutions have been proposed and optimized for continuous phase modulations (CPMs), including pulse code modulation/frequency modulation (PCM/FM) and the multi-h CPM developed by the Advanced-Range TeleMetry program (ARTM CPM), the latter of which was shown to perform around one dB from channel capacity. In this paper, we consider the effect of the random puncturing and shortening of these LDPC codes to further improve spectrum efficiency. We perform asymptotic analyses of the ARTM0 code ensembles and present numerical simulation results that affirm the robust decoding performance promised by LDPC codes designed for ARTM CPM.
AbstractList	Low-density parity-check (LDPC) codes form part of the IRIG-106 standard and have been successfully deployed for the Telemetry Group version of shaped-offset quadrature phase shift keying (SOQPSK-TG) modulation. Recently, LDPC code solutions have been proposed and optimized for continuous phase modulations (CPMs), including pulse code modulation/frequency modulation (PCM/FM) and the multi-h CPM developed by the Advanced-Range TeleMetry program (ARTM CPM), the latter of which was shown to perform around one dB from channel capacity. In this paper, we consider the effect of the random puncturing and shortening of these LDPC codes to further improve spectrum efficiency. We perform asymptotic analyses of the ARTM0 code ensembles and present numerical simulation results that affirm the robust decoding performance promised by LDPC codes designed for ARTM CPM. Low-density parity-check (LDPC) codes form part of the IRIG-106 standard and have been successfully deployed for the Telemetry Group version of shaped-offset quadrature phase shift keying (SOQPSK-TG) modulation. Recently, LDPC code solutions have been proposed and optimized for continuous phase modulations (CPMs), including pulse code modulation/frequency modulation (PCM/FM) and the multi-h CPM developed by the Advanced-Range TeleMetry program (ARTM CPM), the latter of which was shown to perform around one dB from channel capacity. In this paper, we consider the effect of the random puncturing and shortening of these LDPC codes to further improve spectrum efficiency. We perform asymptotic analyses of the ARTM0 code ensembles and present numerical simulation results that affirm the robust decoding performance promised by LDPC codes designed for ARTM CPM.Low-density parity-check (LDPC) codes form part of the IRIG-106 standard and have been successfully deployed for the Telemetry Group version of shaped-offset quadrature phase shift keying (SOQPSK-TG) modulation. Recently, LDPC code solutions have been proposed and optimized for continuous phase modulations (CPMs), including pulse code modulation/frequency modulation (PCM/FM) and the multi-h CPM developed by the Advanced-Range TeleMetry program (ARTM CPM), the latter of which was shown to perform around one dB from channel capacity. In this paper, we consider the effect of the random puncturing and shortening of these LDPC codes to further improve spectrum efficiency. We perform asymptotic analyses of the ARTM0 code ensembles and present numerical simulation results that affirm the robust decoding performance promised by LDPC codes designed for ARTM CPM.
Audience	Academic
Author	Perrins, Erik Cummins, Andrew D. Mitchell, David G. M.
AuthorAffiliation	1 Klipsch School of Electrical and Computer Engineering, New Mexico State University, Las Cruces, NM 88003, USA; dgmm@nmsu.edu 2 Department of Electrical Engineering & Computer Science, University of Kansas, Lawrence, KS 66045, USA; esp@ku.edu
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Keywords	puncturing iterative decoding FEC IRIG shortening spectral efficiency telemetry avionics LDPC codes
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Notes	ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 14 content type line 23 This paper is an extended version of “Spectrally Efficient LDPC Codes for IRIG-106 Waveforms via Random Puncturing”, presented at the International Foundation for Telemetering, Glendale, AZ, October 21–24, 2024.
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SubjectTerms	Aeronautics Analysis avionics Channel capacity Codes Decoding Design Error correcting codes Error correction & detection FEC Frequency modulation IRIG LDPC codes Low density parity check codes Numerical analysis Parity Pulse code modulation Quadrature phase shift keying Simulation Simulation methods spectral efficiency Telemetry
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Title	Rate-Compatible, Bandwidth-Efficient, Low-Density Parity-Check (LDPC) Codes for Aeronautical Telemetry
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