Autonomous energy efficient protocols and strategies for wireless sensor networks
The aim of this research is to develop a model of a sensor network that will endeavour to monitor a hostile environment (one where communication within the network is difficult and the network entities are under risk due to physical damage). In this context, the study identifies the following key ch...
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| Format: | Thesis |
| Language: | English |
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2009
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| Online Access: | https://eprints.soton.ac.uk/66390/ https://eprints.soton.ac.uk/66390/1/FinalPhDThesis.pdf |
| Summary: | The aim of this research is to develop a model of a sensor network that will endeavour to monitor a hostile environment (one where communication within the network is difficult and the network entities are under risk due to physical damage). In this context, the study identifies the following key characteristics. A wireless sensor network (WSN) is a wireless network consisting of spatially distributed devices using sensors to monitor physical or environmental conditions at different locations. In addition to one or more sensors, each node in a WSN is typically equipped with a radio transceiver or other wireless communications device, a small micro controller, and an energy source, usually a battery. The size constraints on sensor nodes result in corresponding constraints on resources such as energy, memory, computational speed and bandwidth. Of these, energy is the most important since it is required for everything else. Thus, it directly influences the life-span of the nodes, hence, that of the system as a whole. Furthermore, the environment itself, where these sensor nodes are deployed, plays a big role in influencing the entire architecture of the network hardware platform and protocols that govern its smooth functioning. As a result the protocols required for governing the actions of the sensor nodes need to be designed accordingly. Against this background, this research facilitates the development of an environmental sensor network called GlacsWeb (deployed inside a glacier in Norway) which focuses on providing useful information about sub-glacial dynamics. GlacsWeb nodes are deployed under very hostile conditions. The strain from the moving ice may damage the nodes and the en-glacial water bodies may carry the nodes far out of transmission range from a centrally located base station. For these reasons GlacsWeb nodes have a high rate of failure. In order to effectively tackle this problem, this research develops GW-MAC (a Medium Access Control protocol) which focuses on efficiently connecting GlacsWeb nodes ... |
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