Fractionally Spaced Equalization and Decision Feedback Sequence Detection for Diffusive MC

Cao TN, Jamali V, Zlatanov N, Yeoh PL, Evans J, Schober R (2021)


Publication Type: Journal article

Publication year: 2021

Journal

Book Volume: 25

Pages Range: 117-121

Article Number: 9187645

Journal Issue: 1

DOI: 10.1109/LCOMM.2020.3022391

Abstract

In this letter, we consider diffusive molecular communication (MC) systems affected by signal-dependent diffusive noise, inter-symbol interference, and external noise. We design linear and nonlinear fractionally-spaced equalization schemes and a detection scheme which combines decision feedback and sequence detection (DFSD). In contrast to the symbol-rate equalization schemes in the MC literature, the proposed equalization and detection schemes exploit multiple samples of the received signal per symbol interval to achieve lower bit error rates (BERs) than existing schemes. The proposed DFSD scheme achieves a BER which is very close to that achieved by maximum likelihood sequence detection, but with lower computational complexity.

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APA:

Cao, T.N., Jamali, V., Zlatanov, N., Yeoh, P.L., Evans, J., & Schober, R. (2021). Fractionally Spaced Equalization and Decision Feedback Sequence Detection for Diffusive MC. IEEE Communications Letters, 25(1), 117-121. https://doi.org/10.1109/LCOMM.2020.3022391

MLA:

Cao, Trang Ngoc, et al. "Fractionally Spaced Equalization and Decision Feedback Sequence Detection for Diffusive MC." IEEE Communications Letters 25.1 (2021): 117-121.

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