Diversity Combining in a Single-Input-Multiple-Output Molecular Communication System

2022 National Conference on Communications (NCC) Pub Date : 2022-05-24 DOI:10.1109/NCC55593.2022.9806762

Abhishek K. Gupta, N. Sabu

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Abstract

Molecular communication (MC) can enable nano-scale devices to communicate with each other using molecules as information carriers. To enhance the performance of MC, receiver-devices with multiple receiving ports can be utilized to form single-input multiple-output (SIMO) and multiple-input multiple-output (MIMO) communication links. The receiver ports are analogous to antennas in wireless communication. This paper considers a diffusion-based MC SIMO system with a point transmitter and one receiver system with many receiving ports (RxPs). We first characterize the joint channel between the transmitter and RxPs. We then present the optimal maximum-a-posteriori (MAP) decoding for this system when all ports can share complete information and a central device soft-combines the individual signal values to decode the signal. We then consider a Poisson channel approximation for the channel and show that weighted linear combining is an optimal decoding scheme with weights depending on average channel values. We also study a symmetric SIMO system and investigate the decoding error probability and diversity order for various soft and hard combining schemes.

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单输入多输出分子通信系统中的分集组合

分子通信(MC)可以使纳米级器件之间利用分子作为信息载体进行通信。为了提高MC的性能，可以利用具有多个接收端口的接收设备组成单输入多输出(SIMO)和多输入多输出(MIMO)通信链路。接收端口类似于无线通信中的天线。本文研究了一种基于扩散的多点发射和多点接收系统的多接收端口(rxp) MC SIMO系统。我们首先描述了发射机和rxp之间的联合信道。然后，我们提出了该系统的最佳最大后验(MAP)解码，当所有端口都可以共享完整的信息，并且中央设备对单个信号值进行软组合以解码信号。然后，我们考虑了信道的泊松信道近似，并表明加权线性组合是一种最优解码方案，其权重取决于平均信道值。我们还研究了对称SIMO系统，并研究了各种软、硬组合方案的译码错误概率和分集顺序。

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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2022 National Conference on Communications (NCC)

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