Run-Length-Limited ISI-Mitigation (RLIM) Coding for Molecular Communication
Inter-symbol interference (ISI) is a significant challenge in diffusion-based communication channels, where residual molecules from previous transmissions interfere with the current signal interval, leading to detection errors. We introduce a new infinite family of coding schemes, which we name RLIM, that require each 1-bit to be followed by at least i consecutive 0-bits, where i is any chosen positive integer. This enhances ISI mitigation and improves error correction capabilities compared to existing ISI-mitigating channel codes. Through extensive simulations, we demonstrate that the codebooks derived from the proposed RLIM scheme reduce bit error rate compared to prominent coding methods. Simulation results also reveal that an important constraint in RLIM codes is redundant, removal of which makes them equivalent to run-length-limited (RLL) codes. Notably, despite this equivalence, the proposed family of RLIM coding schemes retains a distinct power optimization constraint and employs a specialized error correction algorithm, preserving its unique character.
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