Run-Length-Limited ISI-Mitigation (RLIM) Coding for Molecular Communication
Abstract
Inter-symbol interference (ISI) limits reliability in diffusion-based molecular communication (MC) channels. We propose RLIM, a family of run-length-limited (RLL) codes that form fixed-size codebooks by minimizing the total number of 1-bits, increasing the per-symbol molecule budget under standard power normalizations and thus improving reliability. We develop a provably optimal linear-time greedy decoder that is equivalent to Viterbi decoding under a deterministic last-wins tie-break and has lower computational complexity; empirically, it outperforms first-wins and random Viterbi variants on RLL baselines. Extensive binomial and particle-tracking simulations show that RLIM achieves lower bit error rate (BER) than classical RLL and other prominent coding schemes across a broad range of scenarios.
Cite
@article{arxiv.2411.15955,
title = {Run-Length-Limited ISI-Mitigation (RLIM) Coding for Molecular Communication},
author = {Melih Şahin and Ozgur B. Akan},
journal= {arXiv preprint arXiv:2411.15955},
year = {2026}
}
Comments
12 pages, 6 figures, 6 tables