Abstract
Sensor nodes transmit the sensed information to the sink through wireless sensor networks (WSNs). They have limited power, computational capacities and memory. Portable wireless devices are increasing in popularity. Mechanisms that allow information to be efficiently obtained through mobile WSNs are of significant interest. However, a mobile sink introduces many challenges to data dissemination in large WSNs. For example, it is important to efficiently identify the locations of mobile sinks and disseminate information from multi-source nodes to the multi-mobile sinks. In particular, a stationary dissemination path may no longer be effective in mobile sink applications, due to sink mobility. In this paper, we propose a Sink-oriented Dynamic Location Service (SDLS) approach to handle sink mobility. In SDLS, we propose an Eight-Direction Anchor (EDA) system that acts as a location service server. EDA prevents intensive energy consumption at the border sensor nodes and thus provides energy balancing to all the sensor nodes. Then we propose a Location-based Shortest Relay (LSR) that efficiently forwards (or relays) data from a source node to a sink with minimal delay path. Our results demonstrate that SDLS not only provides an efficient and scalable location service, but also reduces the average data communication overhead in scenarios with multiple and moving sinks and sources.
Highlights
Recent developments of wireless communication and Micro Electro Mechanical Systems (MEMS)technologies have made possible the deployment of large-scale Wireless Sensor Networks (WSNs) [1].WSNs can be used for a wide range of applications in the scientific, commercial, medical, and military battlefield, industry control, traffic control, and ambient conditions detection areas [1,2,3].Typical WSNs are composed of a large number of sensor nodes which transmit the sensed information to the sink
We propose an Eight-Direction Anchor (EDA) system that acts as a location service server
We proposed a Sink-oriented Dynamic Location Service (SDLS) approach to handle sink mobility
Summary
Recent developments of wireless communication and Micro Electro Mechanical Systems (MEMS). Many researchers have recently studied the problem of scalable and efficient data dissemination in large-scale WSNs from multiple sources to multiple mobile sinks [11,12,13,14,15,16,17,18,19,20,21,22,23,24]. A sink is a soldier that collects the sensed information from WSNs. WSNs may not execute their function normally if some sensor nodes fail due to energy exhaustion. To reduce the energy consumed by the energy-limited sensor nodes that continuously provide the data reports to soldiers in a battlefield. This scenario motivates us in this paper.
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