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Optimizations of a Hardware Decoder for Deep-Space Optical Communications (2007)

Moision, Bruce E. ; Hamkins, Jon ; Nakashima, Michael A. ; [et al.]

In: Other Sources

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Publication Date: 2018-06-11

Description: The National Aeronautics and Space Administration has developed a capacity approaching modulation and coding scheme that comprises a serial concatenation of an inner accumulate pulse-position modulation (PPM) and an outer convolutional code [or serially concatenated PPM (SCPPM)] for deep-space optical communications. Decoding of this code uses the turbo principle. However, due to the nonbinary property of SCPPM, a straightforward application of classical turbo decoding is very inefficient. Here, we present various optimizations applicable in hardware implementation of the SCPPM decoder. More specifically, we feature a Super Gamma computation to efficiently handle parallel trellis edges, a pipeline-friendly 'maxstar top-2' circuit that reduces the max-only approximation penalty, a low-latency cyclic redundancy check circuit for window-based decoders, and a high-speed algorithmic polynomial interleaver that leads to memory savings. Using the featured optimizations, we implement a 6.72 megabits-per-second (Mbps) SCPPM decoder on a single field-programmable gate array (FPGA). Compared to the current data rate of 256 kilobits per second from Mars, the SCPPM coded scheme represents a throughput increase of more than twenty-six fold. Extension to a 50-Mbps decoder on a board with multiple FPGAs follows naturally. We show through hardware simulations that the SCPPM coded system can operate within 1 dB of the Shannon capacity at nominal operating conditions.

Keywords: Space Communications, Spacecraft Communications, Command and Tracking

Type: IEEE Transactions On Circuits and Systems--I: Regular Papers; Volume 55; No. 2; 644-658

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Integrated Performance of Next Generation High Data Rate Receiver and AR4JA LDPC Codec for Space Communications (2008)

Andrews, Kenneth S. ; Lee, Dennis ; Nakashima, Michael A. ; [et al.]

In: Other Sources

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Publication Date: 2019-07-13

Description: No abstract available

Keywords: Space Communications, Spacecraft Communications, Command and Tracking

Type: SpaceOps 2008; May 12, 2008 - May 16, 2008; Heidelberg; Germany

Format: text

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Implementation of a Coded Modulation for Deep Space Optical Communications (2006)

Hamkins, Jon ; Cheng, Michael K. ; Moision, Bruce E. ; [et al.]

In: Other Sources

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Publication Date: 2019-07-13

Description: We present an efficient implementation of a coded modulation for the deep space optical channel. NASA designed this so called serially concatenated pulse position modulation (SCPPM) code to provide an optical link that can operate within one dB signal energy of the Shannon capacity during a nominal mission condition from Mars. Here, we describe some of the challenges in realizing the SCPPM decoder on a field-programmable gate array (FPGA). Through various architectural optimizations, we achieve a 6 Mbps decoder on a single FPGA. Moreover, we demonstrate that it is possible to communicate reliably on an efficient bits-per-photon count in an end-to-end SCPPM coded system.

Keywords: Space Communications, Spacecraft Communications, Command and Tracking

Type: IEEE Globecom; Nov 27, 2006 - Dec 01, 2006; San Francisco, CA; United States

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Implementation of a Coded Modulation for Deep Space Optical Communications (2006)

Moision, Bruce E. ; Hamkins, Jon ; Cheng, Michael K. ; [et al.]

In: Other Sources

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Publication Date: 2019-07-13

Description: We present a field programmable gate array code (FPGA) implementation of a turbo-like decoder for a serially concatenated pulse-position modulation (SCPPM) code. NASA a developed this coded modulation scheme for deep space communications from Mars. Under a nominal mission condition, the decoder complexity by iteratively decoding the modulation and SCPPM coded system can operate within a one dB signal energy gap from capacity. The structure of SCPPM makes direct application of the conventional turbo decoding algorithm very inefficient. Here, we describe techniques to increase the throughput and performance of a hardware SCPPM decoder. using our optimizations, we demonstrate a 6 mega-bits per second (Mbps) decoder realization on a single FPGA. Extension toa higher data rate decoder using multiple FPGAs is readily achievable. Similar codes designed for the optical channel can benefit from our optimization techniques.

Keywords: Space Communications, Spacecraft Communications, Command and Tracking

Type: Information Theory Workshop; Feb 06, 2006 - Feb 10, 2006; San Diego, CA; United States

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Integrated Performance of Next Generation High Data Rate Receiver and AR4JA LDPC Codec for Space Communications (2008)

Andrews, Kenneth S. ; Nakashima, Michael A. ; Lee, Dennis ; [et al.]

In: Other Sources

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Publication Date: 2019-07-13

Description: Low-density parity-check (LDPC) codes are the state-of-the-art in forward error correction (FEC) technology that exhibits capacity approaching performance. The Jet Propulsion Laboratory (JPL) has designed a family of LDPC codes that are similar in structure and therefore, leads to a single decoder implementation. The Accumulate-Repeat-by-4-Jagged- Accumulate (AR4JA) code design offers a family of codes with rates 1/2, 2/3, 4/5 and lengths 1024, 4096, 16384 information bits. Performance is less than one dB from capacity for all combinations.Integrating a stand-alone LDPC decoder with a commercial-off-the-shelf (COTS) receiver faces additional challenges than building a single receiver-decoder unit from scratch. In this work, we outline the issues and show that these additional challenges can be over-come by simple solutions. To demonstrate that an LDPC decoder can be made to work seamlessly with a COTS receiver, we interface an AR4JA LDPC decoder developed on a field-programmable gate array (FPGA) with a modern high data rate receiver and mea- sure the combined receiver-decoder performance. Through optimizations that include an improved frame synchronizer and different soft-symbol scaling algorithms, we show that a combined implementation loss of less than one dB is possible and therefore, most of the coding gain evidence in theory can also be obtained in practice. Our techniques can benefit any modem that utilizes an advanced FEC code.

Keywords: Space Communications, Spacecraft Communications, Command and Tracking

Type: SpaceOps 2008; May 12, 2008 - May 16, 2008; Heidelberg; Germany

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