Abstract
Neighbor discovery is one of the first steps to establish communication links between sensor nodes; thus it becomes a fundamental building block for wireless sensor networks (WSNs). Traditional neighbor discovery protocols mainly focus on static wireless networks or networks where all nodes operate on the same frequency. However, the proliferation of mobile devices and multichannel communications post new challenges to neighbor discovery problem. In this paper, we present a neighbor discovery protocol named EasiND for asynchronous duty-cycled multichannel mobile WSNs. First, we propose a neighbor discovery system based on quorum system, which can bound the discovery latency in multichannel scenarios with low power consumptions. Second, we design an optimal asynchronous neighbor discovery system for multichannel mobile WSNs based on cyclic difference set. It is optimal in the sense that it minimizes the power consumption with bounded discovery latency under desired duty cycles. Finally, we validate the performance of EasiND through both theoretical analysis and test-bed evaluations. EasiND provides a 33.3% reduction in power-latency product in theory compared to U-Connect. Meanwhile, test-bed evaluation results show that EasiND decreases average discovery latency by up to 86% compared to U-Connect and achieves at least 93.5% average fraction of discoveries in a predefined time limitation under various network conditions.
Highlights
Neighbor discovery, namely, the ability for each node to find the neighboring nodes in the physical proximity, is one of the first steps and a fundamental building block in configuring and managing wireless networks, since a node first has to find at least one potential target node within its communication range before initializing any data communications
Most existing neighbor discovery schemes are designed for static wireless networks [2, 4, 10,11,12,13] or networks where all nodes operate on the same frequency [1, 3, 5]
This paper presents a novel asynchronous neighbor discovery method named EasiND for duty-cycled multichannel mobile wireless sensor networks (WSNs)
Summary
The ability for each node to find the neighboring nodes in the physical proximity, is one of the first steps and a fundamental building block in configuring and managing wireless networks, since a node first has to find at least one potential target node within its communication range before initializing any data communications. The information obtained from neighbor discovery, namely, the set of nodes that a node can directly communicate with, is needed to support basic functionalities such as medium access control and routing. This information is needed by topology control and clustering protocols to enhance the performance and efficiency of the networks. Most existing neighbor discovery schemes are designed for static wireless networks [2, 4, 10,11,12,13] or networks where all nodes operate on the same frequency (single-channel communication networks) [1, 3, 5]. Those neighbor discovery methods cannot be directly applied to multichannel mobile WSNs
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