Abstract
Wireless sensor networks (WSNs) have been widely recognized as a promising technology that can enhance various aspects of infrastructure monitoring. Typical applications, such as sensors embedded in the outer surface of a pipeline or mounted along the supporting structure of a bridge, feature a large-scale linear sensor arrangement. In this paper, we propose a new bidirectional wireless communication scheme, based on the high-level data link control (HDLC) standard, for devices with short-range transmission capabilities for linear sensor topology. By applying for the first time a standard data layer along with a time division multiple access (TDMA)-based medium access control (MAC) and time synchronization technique specifically designed for the linear topology, we address the interoperability problem with guaranteed energy efficiency and data link performance in linear sensor topology. The proposed Wireless HDLC supports half-duplex communication, point to point (peer to peer), and multipoint networking.
Highlights
The existing applications of Wireless sensor networks (WSNs) span a very wide range, including remote system monitoring and control, fraud detection, environmental monitoring, and so forth
The high-level data link control (HDLC) standard protocol implemented for low-power linear WSNs was presented and evaluated
This protocol is evaluated in order to meet the objectives of interoperability, efficiency, and reliability in WSNs
Summary
The existing applications of WSNs span a very wide range, including remote system monitoring and control, fraud detection, environmental monitoring, and so forth. These limitations are very important for WSNs deployed in large-scale infrastructures, where the number of hops is assumed to be in order of hundreds and each node is both source and router. In this framework, we present the implementation and evaluation of a bidirectional wireless communication schema for linear IEEE 802.15.4-compliant WSNs based on HDLC standard [17] (Wireless HDLC).
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