Journal
IEEE ACCESS
Volume 8, Issue -, Pages 176495-176520Publisher
IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
DOI: 10.1109/ACCESS.2020.3026939
Keywords
Wireless sensor networks; Energy efficiency; Sensor phenomena and characterization; Protocols; Energy consumption; Adaptation models; Adaptive; dynamic; wireless sensor networks (WSNs); two-way communication; analyzer; scheduling
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Funding
- Deanship of Scientific Research from King Faisal University
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Wireless Sensor Networks (WSNs) have revolutionized the era of conventional computing into a digitized world, commonly known as The Internet of Things. WSN consists of tiny low-cost sensing devices, having computation, communication and sensing capabilities. These networks are always debatable for their limited resources and the most arguable and critical issue in WSNs is energy efficiency. Sensors utilize energy in broadcasting, routing, clustering, on-board calculations, localization, and maintenance, etc. However, primary domains of energy consumption at node level are three i.e. sensing by sensing-module, processing by microprocessor and communication by radio link. Extensive sensing, over-costs processing and frequent communication not only minimize the network life-time, but also affects the availability of these resources for other tasks. To increase life-time and provide an energy-efficient WSN, here we have proposed a new scheme called A Content-based Adaptive and Dynamic Scheduling (CADS) using two ways communication model in WSNs. CADS dynamically changes a node states during data aggregation and each node adapts a new state based on contents of the sensed data packets. Analyzer module at the Base-Station investigates contents of sensed data packets and regulates functions of a node by transmitting control messages in a backward direction. CADS minimizes energy consumption by reducing unnecessary network traffic and avoid redundant message-forwarding. Simulation results have been shown that it increases energy-efficiency in terms of network life-time by 9.65% in 100 nodes-network, 11.36% in 150 nodes-network and 0.94% in 300 nodes. The proposed scheme is also showing stability in terms of increasing cluster life by 87.5% for a network of 100 nodes, 94.73% for 150 nodes and 53.9% in 300 nodes.
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