A Novel Inter-Symbol Interference Model and Weighted Sum Detection for Diffusion-Based Molecular Communication Systems

IF 2.4 Q2 ENGINEERING, ELECTRICAL & ELECTRONIC
Musaab Saeed;Mehdi Maleki;Hamid Reza Bahrami
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引用次数: 0

Abstract

Inter-symbol interference (ISI) may result in substantial performance degradation in molecular communication systems. In this paper, we propose a more accurate and realistic ISI model compared to the literature, by quantifying the ISI in a three-dimensional fluid environment with a spherical receiver. Moreover, due to the propagation delay in a fluid environment, a large number of the molecules absorbed earlier in a transmission interval are due to the previous transmissions. Therefore, we find the optimal delay time, that the receiver should wait at the beginning of each time interval before counting the absorbed molecules, to reduce the effect of the ISI. Further, and to enhance the performance of the system, we adopt a detection approach based on multiple molecular observations at the receiver, and introduce a weighted sum detector, in which the transmission interval is divided into a number of sub-intervals. We analytically derive the weights, assigned to different sub-intervals, that minimize the bit error rate (BER). Simulations, based on the presented approaches, show the impact of the transmitter-receiver distance, the reaction rate, and the diffusion constant of the environment on the BER performance. We also show that using a weighted sum detector significantly improves the BER performance.
基于扩散的分子通信系统符号间干扰模型及加权和检测
符号间干扰(ISI)可能导致分子通信系统的性能显著下降。在本文中,我们通过用球形接收器量化三维流体环境中的ISI,提出了一个与文献相比更准确、更真实的ISI模型。此外,由于流体环境中的传播延迟,在传输间隔中较早吸收的大量分子是由于先前的传输。因此,我们找到了最佳延迟时间,即接收器应该在每个时间间隔开始时等待,然后再对吸收的分子进行计数,以减少ISI的影响。此外,为了提高系统的性能,我们采用了一种基于接收器处多个分子观测的检测方法,并引入了一种加权和检测器,其中传输间隔被划分为多个子间隔。我们分析推导了分配给不同子区间的权重,这些权重使误码率(BER)最小化。基于所提出的方法进行的仿真显示了发射器-接收器距离、反应速率和环境的扩散常数对BER性能的影响。我们还表明,使用加权和检测器可以显著提高误码率性能。
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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来源期刊
CiteScore
3.90
自引率
13.60%
发文量
23
期刊介绍: As a result of recent advances in MEMS/NEMS and systems biology, as well as the emergence of synthetic bacteria and lab/process-on-a-chip techniques, it is now possible to design chemical “circuits”, custom organisms, micro/nanoscale swarms of devices, and a host of other new systems. This success opens up a new frontier for interdisciplinary communications techniques using chemistry, biology, and other principles that have not been considered in the communications literature. The IEEE Transactions on Molecular, Biological, and Multi-Scale Communications (T-MBMSC) is devoted to the principles, design, and analysis of communication systems that use physics beyond classical electromagnetism. This includes molecular, quantum, and other physical, chemical and biological techniques; as well as new communication techniques at small scales or across multiple scales (e.g., nano to micro to macro; note that strictly nanoscale systems, 1-100 nm, are outside the scope of this journal). Original research articles on one or more of the following topics are within scope: mathematical modeling, information/communication and network theoretic analysis, standardization and industrial applications, and analytical or experimental studies on communication processes or networks in biology. Contributions on related topics may also be considered for publication. Contributions from researchers outside the IEEE’s typical audience are encouraged.
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