Abstract
Recently, free space optical sensor networks (FSOSNs), which are based on free space optics (FSO) instead of radio frequency (RF), have gained increasing visibility over traditional wireless sensor networks (WSNs) due to their advantages such as larger capacity, higher security, and lower cost. However, the performance of FSOSNs is restricted to the requirement of a direct line-of-sight (LOS) path between a sender and a receiver pair. Once a node dies of energy depletion, the network would probably suffer from a dramatic decrease of connectivity, resulting in a huge loss of data packets. Thus, this paper proposes a reconfigurable routing protocol (RRP) to overcome this problem by dynamically reconfiguring the network virtual topology. The RRP works in three phases: (1) virtual topology construction, (2) routing establishment, and (3) reconfigurable routing. When data transmission begins, the data packets are first routed through the shortest hop paths. Then a reconfiguration is initiated by the node whose residual energy falls below a threshold. Nodes affected by this dying node are classified into two types, namely maintenance nodes and adjustment nodes, and they are reconfigured according to the types. An energy model is designed to evaluate the performance of RRP through OPNET simulation. Our simulation results indicate that the RRP achieves better performance compared with the simple-link protocol and a direct reconfiguration scheme in terms of connectivity, network lifetime, packet delivery ratio and the number of living nodes.
Highlights
IntroductionThe sensor nodes form a large scale, multi-hop self-organizing system, communicating their readings to the base station (BS)
In the past few decades, wireless sensor networks (WSNs), which are composed of numerous nodes randomly distributed over a given region to collect information, have been successfully applied in various applications, such as environmental monitoring, medical care and intelligent households, etc. [1].The sensor nodes form a large scale, multi-hop self-organizing system, communicating their readings to the base station (BS)
As one of the candidate technologies, free space optical sensor networks (FSOSNs) that are based on directed broad-beam free space optics (FSO), show favorable merits over RF-based sensor networks (RFSNs)
Summary
The sensor nodes form a large scale, multi-hop self-organizing system, communicating their readings to the base station (BS). This type of network has played a significant role in the advancement of ubiquitous computing and mobile communication. Research on WSNs has focused on nodes that transmit data via radio frequency (RF). As one of the candidate technologies, free space optical sensor networks (FSOSNs) that are based on directed broad-beam free space optics (FSO), show favorable merits over RFSNs. As one of the candidate technologies, free space optical sensor networks (FSOSNs) that are based on directed broad-beam free space optics (FSO), show favorable merits over RFSNs These merits include the increased spatial reuse for communications, smaller node size, ultra-high bandwidths, enhanced security, and the reduction in interference, etc. These merits include the increased spatial reuse for communications, smaller node size, ultra-high bandwidths, enhanced security, and the reduction in interference, etc. [2]
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