Robust Non-Linear Feedback Coding via Power-Constrained Deep Learning
April 25, 2023 Β· Declared Dead Β· π International Conference on Machine Learning
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Authors
Junghoon Kim, Taejoon Kim, David Love, Christopher Brinton
arXiv ID
2304.13178
Category
cs.IT: Information Theory
Cross-listed
cs.LG
Citations
13
Venue
International Conference on Machine Learning
Last Checked
4 months ago
Abstract
The design of codes for feedback-enabled communications has been a long-standing open problem. Recent research on non-linear, deep learning-based coding schemes have demonstrated significant improvements in communication reliability over linear codes, but are still vulnerable to the presence of forward and feedback noise over the channel. In this paper, we develop a new family of non-linear feedback codes that greatly enhance robustness to channel noise. Our autoencoder-based architecture is designed to learn codes based on consecutive blocks of bits, which obtains de-noising advantages over bit-by-bit processing to help overcome the physical separation between the encoder and decoder over a noisy channel. Moreover, we develop a power control layer at the encoder to explicitly incorporate hardware constraints into the learning optimization, and prove that the resulting average power constraint is satisfied asymptotically. Numerical experiments demonstrate that our scheme outperforms state-of-the-art feedback codes by wide margins over practical forward and feedback noise regimes, and provide information-theoretic insights on the behavior of our non-linear codes. Moreover, we observe that, in a long blocklength regime, canonical error correction codes are still preferable to feedback codes when the feedback noise becomes high.
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