Real-Time adaptive LDPC coded APSK for aeronautical telemetry

Ding Zou; Ivan B. Djordjevic

doi:10.1109/TELSKS.2017.8246288

Real-Time adaptive LDPC coded APSK for aeronautical telemetry

Ding Zou, Ivan B. Djordjevic

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

2 Scopus citations

Abstract

In this paper, we consider the design of capacity-Approaching forward error correction (FEC) coded amplitude phase shift keying (APSK) modulation schemes for use in the aeronautical telemetry. By maximizing the mutual information, we first investigate the designs of APSK modulations suitable for communication over nonlinear wireless channels. Then we propose a unified FPGA-based hardware-efficient architecture which combines the capacity-Approaching LDPC decoders with four APSK modulation formats, including Gray-mapping-based 8-APSK, 16-APSK, 32-APSK, and 64-APSK. The proposed architecture allows the flexibility of the FEC-encoded signal to be received by legacy test-range systems. The emulation results show that such an LDPC-coded modulation scheme can adapt to wide range of received signal-To-noise ratios, ranging from 9.4 dB to 21.4 dB, by using different LDPC codes and/or modulation formats.

Original language	English (US)
Title of host publication	2017 13th International Conference on Advanced Technologies, Systems and Services in Telecommunications, TELSIKS 2017 - Proceeding
Editors	Bratislav D. Milovanovic, Nebojsa S. Doncov, Zoran Z. Stankovic, Tijana Z. Dimitrijevic
Publisher	Institute of Electrical and Electronics Engineers Inc.
Pages	321-325
Number of pages	5
ISBN (Electronic)	9781538618004
DOIs	https://doi.org/10.1109/TELSKS.2017.8246288
State	Published - Jun 28 2017
Event	13th International Conference on Advanced Technologies, Systems and Services in Telecommunications, TELSIKS 2017 - Nis, Serbia Duration: Oct 18 2017 → Oct 20 2017

Publication series

Name	2017 13th International Conference on Advanced Technologies, Systems and Services in Telecommunications, TELSIKS 2017 - Proceeding
Volume	2017-October

Other

Other	13th International Conference on Advanced Technologies, Systems and Services in Telecommunications, TELSIKS 2017
Country/Territory	Serbia
City	Nis
Period	10/18/17 → 10/20/17

Keywords

APSK
Aeronautical telemetry
FPGA
LDPC coding
adaptive coding
coded modulation

ASJC Scopus subject areas

Computer Science Applications
Hardware and Architecture
Signal Processing
Computer Networks and Communications
Safety, Risk, Reliability and Quality

Access to Document

10.1109/TELSKS.2017.8246288

Cite this

Zou, D., & Djordjevic, I. B. (2017). Real-Time adaptive LDPC coded APSK for aeronautical telemetry. In B. D. Milovanovic, N. S. Doncov, Z. Z. Stankovic, & T. Z. Dimitrijevic (Eds.), 2017 13th International Conference on Advanced Technologies, Systems and Services in Telecommunications, TELSIKS 2017 - Proceeding (pp. 321-325). (2017 13th International Conference on Advanced Technologies, Systems and Services in Telecommunications, TELSIKS 2017 - Proceeding; Vol. 2017-October). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/TELSKS.2017.8246288

Real-Time adaptive LDPC coded APSK for aeronautical telemetry. / Zou, Ding; Djordjevic, Ivan B.
2017 13th International Conference on Advanced Technologies, Systems and Services in Telecommunications, TELSIKS 2017 - Proceeding. ed. / Bratislav D. Milovanovic; Nebojsa S. Doncov; Zoran Z. Stankovic; Tijana Z. Dimitrijevic. Institute of Electrical and Electronics Engineers Inc., 2017. p. 321-325 (2017 13th International Conference on Advanced Technologies, Systems and Services in Telecommunications, TELSIKS 2017 - Proceeding; Vol. 2017-October).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Zou, D & Djordjevic, IB 2017, Real-Time adaptive LDPC coded APSK for aeronautical telemetry. in BD Milovanovic, NS Doncov, ZZ Stankovic & TZ Dimitrijevic (eds), 2017 13th International Conference on Advanced Technologies, Systems and Services in Telecommunications, TELSIKS 2017 - Proceeding. 2017 13th International Conference on Advanced Technologies, Systems and Services in Telecommunications, TELSIKS 2017 - Proceeding, vol. 2017-October, Institute of Electrical and Electronics Engineers Inc., pp. 321-325, 13th International Conference on Advanced Technologies, Systems and Services in Telecommunications, TELSIKS 2017, Nis, Serbia, 10/18/17. https://doi.org/10.1109/TELSKS.2017.8246288

Zou D, Djordjevic IB. Real-Time adaptive LDPC coded APSK for aeronautical telemetry. In Milovanovic BD, Doncov NS, Stankovic ZZ, Dimitrijevic TZ, editors, 2017 13th International Conference on Advanced Technologies, Systems and Services in Telecommunications, TELSIKS 2017 - Proceeding. Institute of Electrical and Electronics Engineers Inc. 2017. p. 321-325. (2017 13th International Conference on Advanced Technologies, Systems and Services in Telecommunications, TELSIKS 2017 - Proceeding). doi: 10.1109/TELSKS.2017.8246288

Zou, Ding ; Djordjevic, Ivan B. / Real-Time adaptive LDPC coded APSK for aeronautical telemetry. 2017 13th International Conference on Advanced Technologies, Systems and Services in Telecommunications, TELSIKS 2017 - Proceeding. editor / Bratislav D. Milovanovic ; Nebojsa S. Doncov ; Zoran Z. Stankovic ; Tijana Z. Dimitrijevic. Institute of Electrical and Electronics Engineers Inc., 2017. pp. 321-325 (2017 13th International Conference on Advanced Technologies, Systems and Services in Telecommunications, TELSIKS 2017 - Proceeding).

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abstract = "In this paper, we consider the design of capacity-Approaching forward error correction (FEC) coded amplitude phase shift keying (APSK) modulation schemes for use in the aeronautical telemetry. By maximizing the mutual information, we first investigate the designs of APSK modulations suitable for communication over nonlinear wireless channels. Then we propose a unified FPGA-based hardware-efficient architecture which combines the capacity-Approaching LDPC decoders with four APSK modulation formats, including Gray-mapping-based 8-APSK, 16-APSK, 32-APSK, and 64-APSK. The proposed architecture allows the flexibility of the FEC-encoded signal to be received by legacy test-range systems. The emulation results show that such an LDPC-coded modulation scheme can adapt to wide range of received signal-To-noise ratios, ranging from 9.4 dB to 21.4 dB, by using different LDPC codes and/or modulation formats.",

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N2 - In this paper, we consider the design of capacity-Approaching forward error correction (FEC) coded amplitude phase shift keying (APSK) modulation schemes for use in the aeronautical telemetry. By maximizing the mutual information, we first investigate the designs of APSK modulations suitable for communication over nonlinear wireless channels. Then we propose a unified FPGA-based hardware-efficient architecture which combines the capacity-Approaching LDPC decoders with four APSK modulation formats, including Gray-mapping-based 8-APSK, 16-APSK, 32-APSK, and 64-APSK. The proposed architecture allows the flexibility of the FEC-encoded signal to be received by legacy test-range systems. The emulation results show that such an LDPC-coded modulation scheme can adapt to wide range of received signal-To-noise ratios, ranging from 9.4 dB to 21.4 dB, by using different LDPC codes and/or modulation formats.

AB - In this paper, we consider the design of capacity-Approaching forward error correction (FEC) coded amplitude phase shift keying (APSK) modulation schemes for use in the aeronautical telemetry. By maximizing the mutual information, we first investigate the designs of APSK modulations suitable for communication over nonlinear wireless channels. Then we propose a unified FPGA-based hardware-efficient architecture which combines the capacity-Approaching LDPC decoders with four APSK modulation formats, including Gray-mapping-based 8-APSK, 16-APSK, 32-APSK, and 64-APSK. The proposed architecture allows the flexibility of the FEC-encoded signal to be received by legacy test-range systems. The emulation results show that such an LDPC-coded modulation scheme can adapt to wide range of received signal-To-noise ratios, ranging from 9.4 dB to 21.4 dB, by using different LDPC codes and/or modulation formats.

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KW - Aeronautical telemetry

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KW - LDPC coding

KW - adaptive coding

KW - coded modulation

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Real-Time adaptive LDPC coded APSK for aeronautical telemetry

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