Power efficient ultra wide band based wireless body area networks with narrowband feedback path

Thotahewa, K. M. S.; Khan, J. Y.; Yuce, M. R.

Title: Power efficient ultra wide band based wireless body area networks with narrowband feedback path
Creator: Thotahewa, K. M. S.; Khan, J. Y.; Yuce, M. R.
Relation: IEEE Transactions on Mobile Computing Vol. 13, Issue 8, p. 1829-1842
Publisher Link: http://dx.doi.org/10.1109/TMC.2013.120
Publisher: Institute of Electrical and Electronics Engineers (IEEE)
Resource Type: journal article
Date: 2014
Description: The basic requirement of wireless healthcare monitoring systems is to send physiological signals acquired from implantable or on-body sensor nodes to a remote location. Low-power consumption is required for wireless healthcare monitoring systems since most medical sensor nodes are battery powered. The emergence of new technologies in measuring physiological signals has increased the demand for high data rate transmission systems. Ultra-wide band (UWB) is a suitable wireless technology to achieve high data rates while keeping power consumption and form factors small. Although UWB transmitters are designed based on simple techniques, UWB receivers require complex hardware and consume comparatively higher power. In order to achieve reliable low power two-way communication, a sensor node can be constructed using a UWB transmitter and a narrow band receiver. This paper proposes a new medium access control (MAC) protocol based on a dual-band physical layer technology. Co-simulation models based on MATLAB and OPNET have been developed to analyze the performance of the proposed MAC protocol. We analyzed the performance of the MAC protocol for a realistic scenario where both implantable and wearable sensor nodes are involved in the data transmission. Priority-based packet transmission techniques have been used in the MAC protocol to serve different sensors according to their QoS requirements. Analysis is done with regard to important network parameters, such as packet loss ratio, packet delay, percentage throughput, and power consumption.
Subject: wireless communication; MAC; ultra wide band; wireless body are networks
Identifier: http://hdl.handle.net/1959.13/1304824
Identifier: uon:20931
Identifier: ISSN:1536-1233
Language: eng
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