Performance of an optical relay satellite using Reed-Solomon coding over a cascaded optical PPM and BPSK channel
Abstract
The nature of the optical/microwave interface aboard the relay satellite is considered. To allow for the maximum system flexibility, without overburdening either the optical or RF channel, demodulating the optical on board the relay satellite but leaving the optical channel decoding to be performed at the ground station is examined. The occurrence of erasures in the optical channel is treated. A hard decision on the erasure (i.e., the relay selecting a symbol at random in case of erasure occurrence) seriously degrades the performance of the overall system. Coding the erasure occurrences at the relay and transmitting this information via an extra bit to the ground station where it can be used by the decoder is suggested. Many examples with varying bit/photon energy efficiency and for the noisy and noiseless optical channel are considered. It is shown that coding the erasure occurrences dramatically improves the performance of the cascaded channel relative to the case of hard decision on the erasure by the relay.
- Publication:
-
The Telecommunications and Data Acquisition Report
- Pub Date:
- August 1982
- Bibcode:
- 1982tdar.nasa..117D
- Keywords:
-
- Deep Space;
- Electron Photon Cascades;
- Optical Communication;
- Pulse Position Modulation;
- Relay Satellites;
- Cascade Control;
- Communication Satellites;
- Deep Space;
- Optical Paths;
- Spacecraft Communication;
- Visual Signals;
- Communications and Radar