Improved Receiver Chain Performance via Error Location Inference
By: Michael Greenwood, Robert Hunter
Potential Business Impact:
Improves space messages by fixing errors better.
Modern spacecraft communication systems rely on concatenated error correction schemes, typically combining convolutional and Reed-Solomon (RS) codes. This paper presents a decoder-side method that uses a machine learning model to estimate the likelihood of byte-level corruption in received data frames. These estimates are used to mark erasures prior to RS decoding, enhancing its correction capacity without requiring changes to spacecraft hardware or encoding standards. The approach enables improved data recovery under degraded signal conditions at a gain of 0.3 decibels.
Similar Papers
Study of Iterative Detection, Decoding and Channel Estimation for RIS-Aided MIMO Networks
Information Theory
Boosts wireless signals using smart surfaces.
End-to-end Learning of Probabilistic and Geometric Constellation Shaping with Iterative Receivers
Information Theory
Makes internet signals send more data with fewer errors.
Study of Iterative Dynamic Channel Tracking for Multiple RIS-Assisted MIMO Systems
Information Theory
Improves wireless signals with smart surfaces.