Reliability performance of wireless sensor network for civil infrastructure – Part I: Experimental analysis

Won-Suk Jang Info

Author Name	Affiliation
Won-Suk Jang	Department of Civil Engineering, Yeungnam University, 214-1 Dae-Dong Gyeongsan-Si, 712-749 Gyeongbuk, South Korea

Du Yon Kim Info

Author Name	Affiliation
Du Yon Kim	School of Construction Engineering, Kyungil University, Hayang, Gyeongsan-Si, 712-701 Gyeongbuk, South Korea

Mirosław J Skibniewski Info

Author Name	Affiliation
Mirosław J Skibniewski	Department of Civil and Environmental Engineering, University of Maryland, College Park, 20742 MD, USA

Abstract

Ubiquitous computing has changed the shape of the construction industry by providing a tool of automated sensing and monitoring the construction events using wireless sensor networks (WSNs). On the other hand, wireless signals are vulnerable to a range of environmental factors, such as obstructions from built structures, construction materials and equipment. Moreover, attenuation of the signal performance from the obstructions might reduce the reliability of the WSN performance for possible applications to civil infrastructure. This paper reports the experimental findings by simulating detailed obstruction environments using major construction materials to analyze the performance reliability of wireless communication. The T-R separation distance, construction materials, and their thickness have been identified as potential attenuation components, which were also analyzed quantitatively using the path loss exponent, attenuation index and cumulative beta distribution. The results from this research are expected help general civil engineers evaluate the performance of WSNs in the applications of civil infrastructure.

First published online: 09 Jul 2015

Keywords:

WSN reliability, wireless sensor networks, signal performance, ZigBee, path loss