English

Function-Correcting Codes with Optimal Data Protection for Hamming Code Membership

Information Theory 2026-02-26 v1 math.IT

Abstract

This paper investigates single-error-correcting function-correcting codes (SEFCCs) for the Hamming code membership function (HCMF), which indicates whether a vector in F27\mathbb{F}_2^7 belongs to the [7,4,3]-Hamming code. Necessary and sufficient conditions for valid parity assignments are established in terms of distance constraints between codewords and their nearest non-codewords. It is shown that the Hamming-distance-3 relations among Hamming codewords induce a bipartite graph, a fundamental geometric property that is exploited to develop a systematic SEFCC construction. By deriving a tight upper bound on the sum of pairwise distances, we prove that the proposed bipartite construction uniquely achieves the maximum sum-distance, the largest possible minimum distance of 2, and the minimum number of distance-2 codeword pairs. Consequently, for the HCMF SEFCC problem, sum-distance maximisation is not merely heuristic-it exactly enforces the optimal distance-spectrum properties relevant to error probability. Simulation results over AWGN channels with soft-decision decoding confirm that the resulting max-sum SEFCCs provide significantly improved data protection and Bit Error Rate (BER) performance compared to arbitrary valid assignments.

Cite

@article{arxiv.2602.21932,
  title  = {Function-Correcting Codes with Optimal Data Protection for Hamming Code Membership},
  author = {Swaraj Sharma Durgi and Anjana A. Mahesh and Anupriya Kumari and Rajlaxmi Pandey and B. Sundar Rajan},
  journal= {arXiv preprint arXiv:2602.21932},
  year   = {2026}
}

Comments

5 pages, 1 page containing reference, 1 figure

R2 v1 2026-07-01T10:52:03.965Z