JOURNAL ARTICLE
A study of optical satellite communication systems employing rate-adaptive forward error correction
Abstract
Widely varying path loss is one of the issues involved in realizing high capacity transmission in optical low earth orbit satellite to optical ground station communication systems, as the atmospheric attenuation varies dramatically with zenith angle. We propose an optical satellite-to-ground communication system with variable forward error correction (FEC) redundancy to suit the satellite-to-ground path loss. We assume the satellite has two or more values of FEC redundancy, and FEC redundancy is changed as the zenith angle changes. By using 4 steps in the value of FEC redundancy, the transmissible data volume increases by 30% over the case of fixed FEC redundancy.
Keywords:
Redundancy (engineering) Forward error correction Computer science Attenuation Zenith Communications satellite Error detection and correction Satellite Adaptive optics Free-space optical communication Optical communication Low earth orbit Remote sensing Real-time computing Optics Telecommunications Algorithm Engineering Physics Aerospace engineering Geology Decoding methods
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Topics
Satellite Communication Systems
Physical Sciences → Engineering → Aerospace Engineering
Optical Wireless Communication Technologies
Physical Sciences → Engineering → Electrical and Electronic Engineering
Error Correcting Code Techniques
Physical Sciences → Computer Science → Computer Networks and Communications
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