Optimization of Sparse VLSF Codes for Short-Packet Transmission via Saddlepoint Methods

April 17, 2026 ยท Grace Period ยท + Add venue

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Authors Guodong Sun, Samir M. Perlaza, Philippe Mary, Jean-Marie Gorce arXiv ID 2604.16049 Category cs.IT: Information Theory Citations 0
Abstract
In this work, we present an optimization framework for sparse variable-length stop-feedback (VLSF) codes based on a saddlepoint approximation, which jointly optimizes the decoding configuration parameters. Thanks to the analytical tractability of the saddlepoint approximation, the framework enables efficient gradient-based optimization of such parameters for common memoryless channels, including the additive white Gaussian noise, binary symmetric, and binary erasure channels. We further propose a refined decoding rule that extends the conventional fixed-threshold rule and leads to a tighter achievability bound. Numerical results demonstrate that our framework provides near-optimal decoding configurations at low computational cost. Moreover, the results from our refined rule demonstrate that the fixed-threshold decoding rule is restrictive and that achievability bounds can be further tightened.
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