The last few decades have seen considerable research progress in microelectronics and integrated circuits, system-on-chip design, wireless communication, and sensor technology. This progress has enabled the seamless integration of autonomous wireless sensor nodes around a human body to create a Body Sensor Network (BSN). The development of a proactive and ambulatory BSN induces a number of enormous issues and challenges. This paper presents the technical hurdles during the design and implementation of a low-power Medium Access Control (MAC) protocol for in-body and on-body sensor networks. We analyze the performance of IEEE 802.15.4 protocol for the on-body sensor network. We also provide a comprehensive insight into the heterogeneous characteristics of the in-body sensor network. A low-power technique called Pattern-Based Wake-up Table is proposed to handle the normal traffic in a BSN. The proposed technique provides a reliable solution towards low-power communication in the in-body sensor network.
翻译:在过去几十年里,在微电子和集成电路、芯片系统设计、无线通信和感应技术方面取得了相当大的研究进展。这一进展使自主无线传感器节点在人体周围的无缝整合成为人体传感器网络(BSN)的创建。开发一个积极主动和流动的BSN系统引发了一系列巨大的问题和挑战。本文件介绍了在设计和实施中低功率中继控制协议(MAC)对机体和机体传感器网络的技术障碍。我们分析了机体传感器网络IEE 802.15.4协议的性能。我们还全面了解了机体传感器网络的多种特性。建议采用一种叫做基于模式的觉醒醒表的低功率技术来处理生物同步传感器网络的正常交通。拟议的技术为体内传感器网络的低功率通信提供了可靠的解决方案。
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