On Time-Slotted Communication over Molecular Timing Channels

Proceedings of the 3rd ACM International Conference on Nanoscale Computing and Communication Pub Date : 2016-09-28 DOI:10.1145/2967446.2967450

Yonathan Murin, N. Farsad, Mainak Chowdhury, A. Goldsmith

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引用次数: 5

Abstract

This work studies time-slotted communication over molecular timing (MT) channels. The transmitter, assumed to be perfectly synchronized in time with the receiver, releases a single information particle in each time slot, where the information is encoded in the time of release. The receiver decodes the transmitted information based on the random time of arrivals of the information particles during a finite-time reception window. The maximum-likelihood (ML) detector is derived and shown to have an exponential computational complexity, thus, rendering it impractical. In addition, two practical detectors are presented: The first is a symbol-by-symbol detector. The second is a sequence detector which is based on the Viterbi algorithm (VA), yet, the VA is used differently than in its common application in ML detection where information is transmitted over linear channels with memory. Numerical simulations indicate that the proposed sequence detection algorithm significantly improves the performance compared to the symbol-by-symbol detector. Furthermore, for a short number of transmitted symbols it closely approaches the highly complicated ML detector.

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基于分子时序通道的时隙通信研究

这项工作研究了分子时序(MT)通道的时隙通信。假设发射器与接收器在时间上完全同步，在每个时隙中释放一个信息粒子，信息在释放时间内被编码。接收机在有限时间接收窗口内，根据信息粒子到达的随机时间对所发送的信息进行解码。最大似然(ML)检测器推导并显示具有指数计算复杂性，因此，使其不切实际。此外，还提出了两种实用的检测器:第一种是逐符号检测器。第二种是基于Viterbi算法(VA)的序列检测器，然而，VA的使用不同于其在ML检测中的常见应用，其中信息通过具有内存的线性通道传输。数值仿真结果表明，该算法的检测性能明显优于逐符号检测算法。此外，对于少量的传输符号，它接近高度复杂的ML检测器。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings of the 3rd ACM International Conference on Nanoscale Computing and Communication

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