无线体域网络的节能和延迟感知自适应时隙分配介质访问控制协议

2017 5th International Conference on Information and Communication Technology (ICoIC7) Pub Date : 2017-05-17 DOI:10.1109/ICOICT.2017.8074659

Fasee Ullah, A. Abdullah, Marina Md Arshad, K. Qureshi

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引用次数: 3

摘要

无线体域网络(WBAN)是使用生物医学传感器的最便宜的解决方案。他们监测病人不同的生理生命体征。生命体征的输出不接受bms的碰撞、延迟、丢失和高能耗。提出了一种节能、时延敏感的WBAN自适应时隙分配介质访问控制(EED-MAC)协议。建议的MAC为所有类型的bms提供足够的专用通道。病人的资料是根据病人的需要来划分的。此外，通过提出减少争用自适应插槽分配CSMA/CA (RCA-CSMA/CA)方案，减少了bms的争用并且不会丢失数据。第三种方案是可靠性感知信道分配(RAC)，它使用警报信号为基于紧急情况的bms分配信道，而不会产生竞争。所提出的MAC和其他方案的仿真与最先进的MAC协议相比取得了显著的改进。

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Energy efficient and delay-aware adaptive slot allocation medium access control protocol for Wireless Body Area Network

Wireless Body Area Network (WBAN) is the cheapest solution using BioMedical Sensors. They monitor different physiological vital signs of a patient. The output of vital signs does not accept collision, delay, loss, and a high energy consumption of BMSs. This paper proposes Energy Efficient and Delay-Aware Adaptive Slots Allocation Medium Access Control (EED-MAC) Protocol for WBAN. This Proposed MAC provides sufficient and dedicated channels to all types of BMSs. The patient's data are divided according to the need of a patient. Moreover, the contentions of BMSs are reduced and does not drop data by proposing a Reduced Contention Adaptive Slots Allocation CSMA/CA (RCA-CSMA/CA) scheme. The third proposed scheme is Reliability-Aware Channel Allocation (RAC), which allocates channels for emergency-based BMSs using alert signals without contention. The simulation of the proposed MAC and other schemes achieve significant improvements against the state-of-the-art MAC protocols.

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2017 5th International Conference on Information and Communication Technology (ICoIC7)

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