In this work, a molecular communication link integrated with a micro-electro mechanical system (MEMS) based environment has been designed and simulated. The motivation behind this approach is to explore the possibility of merging acoustic tweezing technique with a molecular communication system to increase the accuracy and reliability of the overall communication link. The proposed design is simulated using finite element methods that mimic the actual environment for an accurate solution. We derive symbol error rate as a performance metric and further show that the proposed system outperforms the diffusion-based modulation techniques and facilitates a reliable communication in the presence of fluid flow and while being insusceptible to external factors.

中文翻译：

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基于声镊的集成分子通信系统

在这项工作中，设计并模拟了与基于微机电系统 (MEMS) 的环境集成的分子通信链路。这种方法背后的动机是探索将声学镊子技术与分子通信系统相结合以提高整体通信链路的准确性和可靠性的可能性。拟议的设计使用有限元方法进行模拟，模拟实际环境以获得准确的解决方案。我们导出符号错误率作为性能指标，并进一步表明所提出的系统优于基于扩散的调制技术，并在存在流体流动且不易受外部因素影响的情况下促进可靠通信。