Please use this identifier to cite or link to this item: http://dspace.unimap.edu.my:80/xmlui/handle/123456789/68515
Title: Critical Data-Based Incremental Cooperative Communication for Wireless Body Area Network
Authors: Hameed, Al-Mishmish
Ahmed Alkhayyat
Hasliza, A. Rahim
R. Badlishah, Ahmad
Abbasi, Qammer H.
Hammood, Dalal A.
ahmedalkhayyat85@gmail.com
dalal@studentmail.unimap.edu.my
haslizarahim@unimap.edu.my
badli@unisza.edu.my
c1582604@student.cankaya.edu.tr
Keywords: Wireless body area network
Critical data index
Incremental cooperative communication
Outage and successful probability
End-to-end delay
Duty cycle
Average power transmission
Issue Date: 2018
Publisher: MDPI AG
Citation: Sensors, vol.18, 2018, 19 pages
Abstract: Wireless Body Area Networks (WBANs) are single-hop network systems, where sensors gather the body’s vital signs and send them directly to master nodes (MNs). The sensors are distributed in or on the body. Therefore, body posture, clothing, muscle movement, body temperature, and climatic conditions generally influence the quality of the wireless link between sensors and the destination. Hence, in some cases, single hop transmission (‘direct transmission’) is not sufficient to deliver the signals to the destination. Therefore, we propose an emergency-based cooperative communication protocol for WBAN, named Critical Data-based Incremental Cooperative Communication (CD-ICC), based on the IEEE 802.15.6 CSMA standard but assuming a lognormal shadowing channel model. In this paper, a complete study of a system model is inspected in the terms of the channel path loss, the successful transmission probability, and the outage probability. Then a mathematical model is derived for the proposed protocol, end-to-end delay, duty cycle, and average power consumption. A new back-off time is proposed within CD-ICC, which ensures the best relays cooperate in a distributed manner. The design objective of the CD-ICC is to reduce the end-to-end delay, the duty cycle, and the average power transmission. The simulation and numerical results presented here show that, under general conditions, CD-ICC can enhance network performance compared to direct transmission mode (DTM) IEEE 802.15.6 CSMA and benchmarking. To this end, we have shown that the power saving when using CD-ICC is 37.5% with respect to DTM IEEE 802.15.6 CSMA and 10% with respect to MI-ICC.
Description: Link to publisher's homepage at https://www.mdpi.com/journal/sensors
URI: http://dspace.unimap.edu.my:80/xmlui/handle/123456789/68515
Appears in Collections:School of Computer and Communication Engineering (Articles)

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