2 research outputs found
Solution for intra/inter-cluster event-reporting problem in cluster-based protocols for wireless sensor networks
In recent years, wireless sensor networks (WSNs) have been considered one of the important topics for researchers due to their wide applications in our life. Several researches have been conducted to improve WSNs performance and solve their issues. One of these issues is the energy limitation in WSNs since the source of energy in most WSNs is the battery. Accordingly, various protocols and techniques have been proposed with the intention of reducing power consumption of WSNs and lengthen their lifetime. Cluster-oriented routing protocols are one of the most effective categories of these protocols. In this article, we consider a major issue affecting the performance of this category of protocols, which we call the intra/inter-cluster event-reporting problem (IICERP). We demonstrate that IICERP severely reduces the performance of a cluster-oriented routing protocol, so we suggest an effective Solution for IICERP (SIICERP). To assess SIICERP’s performance, comprehensive simulations were performed to demonstrate the performance of several cluster-oriented protocols without and with SIICERP. Simulation results revealed that SIICERP substantially increases the performance of cluster-oriented routing protocols
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MECHANISMS AND PROTOCOLS FOR INTERFERENCE MANAGEMENT AND RESOURCE UTILIZATION IN UWB NETWORKS
Ultra-wideband (UWB) communications has emerged as a promising technology for high data rate wireless personal area networks (WPANs). Several proposals for UWB-based WPANs have been made. One widely popular proposal is based on multi-channel OFDM. This proposal was recently standardized by European Computer Manufacturers Association (ECMA). In this dissertation, we address several important aspects that impact the performance of OFDM-based UWB systems. First, we propose an interference management distributed reservation protocol (IMDRP) for these communications. IM-DRP aims at reducing interference between uncooperative beacon groups that operate simultaneously over the same area. We then integrate IM-DRP into the design of a rate adaptation strategy that exploits the multi-rate capability of OFDM-based UWB systems. Besides maintaining a target packet error rate, our proposed strategy attempts to reduce the required reservation time over a link, hence allowing more links to be concurrently activated. Second, we propose a novel overhearing-aware joint routing and rate selection (ORRS) scheme. For a given source-destination pair, ORRS aims at selecting a path and its transmission rates that achieve the minimum channel reservation time, leading to low blocking rate for prospective reservations and high network throughput. At the same time, ORRS takes advantage of packet overhearing, a typical characteristic of broadcast communications. Finally, we propose a novel resource utilization mechanism (RUM) for improving the throughput in multi-rate UWB-based WPANs. RUM exploits opportunistic-relaying and time-spreading techniques to improve link reliability and increase the transmission rate, and hence network throughput. Simulation results indicate that our proposed protocols and schemes achieve significant throughput improvement compared with other protocols