Matched and Euclidean-Mismatched Decoding on Fourier-Curve Constellations with Tangent Noise

April 16, 2026 ยท Grace Period ยท + Add venue

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Authors Bin Han, Hao Chen, Muxia Sun, Hans D. Schotten arXiv ID 2604.14844 Category cs.IT: Information Theory Cross-listed eess.SP Citations 0
Abstract
We study matched and Euclidean-mismatched decoding on finite Fourier-curve constellations with tangent-space artificial noise. Each hypothesis induces a Gaussian law with symbol-dependent rank-one covariance. We derive exact Euclidean pairwise errors for arbitrary pairs and an exact Gaussian-expectation representation for matched decoding on bilaterally tangent-orthogonal pairs. For uniform even constellations, the Euclidean side yields explicit distance spectra and symbol-error bounds across all offset classes; the matched side is exact on antipodal pairs and benchmarked numerically at the full-codebook level via Monte Carlo. By isolating the detection-theoretic consequence of tangent-space artificial noise, these results clarify analytically how noise fraction and constellation density enter the mismatch behavior; secrecy-rate implications require additional channel and adversary modeling.
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