Advanced coding and modulation schemes for TDRSS
Abstract
This paper describes the performance of the Ungerboeck and pragmatic 8-Phase Shift Key (PSK) Trellis Code Modulation (TCM) coding techniques with and without a (255,223) Reed-Solomon outer code as they are used for Tracking Data and Relay Satellite System (TDRSS) S-Band and Ku-Band return services. The performance of these codes at high data rates is compared to uncoded Quadrature PSK (QPSK) and rate 1/2 convolutionally coded QPSK in the presence of Radio Frequency Interference (RFI), self-interference, and hardware distortions. This paper shows that the outer Reed-Solomon code is necessary to achieve a 10(exp -5) Bit Error Rate (BER) with an acceptable level of degradation in the presence of RFI. This paper also shows that the TCM codes with or without the Reed-Solomon outer code do not perform well in the presence of self-interference. In fact, the uncoded QPSK signal performs better than the TCM coded signal in the self-interference situation considered in this analysis. Finally, this paper shows that the E(sub b)/N(sub 0) degradation due to TDRSS hardware distortions is approximately 1.3 dB with a TCM coded signal or a rate 1/2 convolutionally coded QPSK signal and is 3.2 dB with an uncoded QPSK signal.
- Publication:
-
Networks Technology Conference
- Pub Date:
- November 1993
- Bibcode:
- 1993nete.conf..349H
- Keywords:
-
- Bit Error Rate;
- Data Links;
- Quadrature Phase Shift Keying;
- Radio Frequency Interference;
- Reed-Solomon Codes;
- Satellite Transmission;
- Tdr Satellites;
- Trellis Coding;
- Degradation;
- Distortion;
- Relay Satellites;
- Superhigh Frequencies;
- Ultrahigh Frequencies;
- Communications and Radar