Trellis coded modulation for 4800-9600 bps transmission over a fading mobile satellite channel
Abstract
The combination of trellis coding and multiple phase-shift-keyed (MPSK) signalling with the addition of asymmetry to the signal set is discussed with regard to its suitability as a modulation/coding scheme for the fading mobile satellite channel. For MPSK, introducing nonuniformity (asymmetry) into the spacing between signal points in the constellation buys a further improvement in performance over that achievable with trellis coded symmetric MPSK, all this without increasing average or peak power, or changing the bandwidth constraints imposed on the system. Whereas previous contributions have considered the performance of trellis coded modulation transmitted over an additive white Gaussian noise (AWGN) channel, the emphasis in the paper is on the performance of trellis coded MPSK in the fading environment. The results will be obtained by using a combination of analysis and simulation. It will be assumed that the effect of the fading on the phase of the received signal is fully compensated for either by tracking it with some form of phase-locked loop or with pilot tone calibration techniques. Thus, results will reflect only the degradation due to the effect of the fading on the amplitude of the received signal. Also, we shall consider only the case where interleaving/deinterleaving is employed to further combat the fading. This allows for considerable simplification of the analysis and is of great practical interest. Finally, the impact of the availability of channel state information on average bit error probability performance is assessed.
- Publication:
-
NASA STI/Recon Technical Report N
- Pub Date:
- January 1986
- Bibcode:
- 1986STIN...8628295D
- Keywords:
-
- Bandwidth;
- Bit Error Rate;
- Coding;
- Communication;
- Constraints;
- Fading;
- Ground Stations;
- Land Mobile Satellite Service;
- Modulation;
- Phase Shift Keying;
- Transmission Circuits;
- Asymmetry;
- Random Noise;
- White Noise;
- Communications and Radar