Abstract
Problem statement: Efficient utilization of energy has been a core area of research in wireless sensor networks. Sensor nodes deployed in a network are battery operated. As batteries cannot be recharged frequently in the field setting, energy optimization becomes paramount in prolonging the battery-life and, consequently, the network lifetime. The communication module utilizes a major part of the energy expenditure of a sensor node. Hence data compression methods to reduce the number of bits to be transmitted by the communication module will significantly reduce the energy requirement and increase the lifetime of the sensor node. The present objective of the study contracted with the designing of efficient data compression algorithm, specifically suited to wireless sensor network. Approach: In this investigation, the natural correlation in a typical wireless sensor network data was exploited and a modified Huffman algorithm suited to wireless sensor network was designed. Results: The performance of the modified adaptive Huffman algorithm was analyzed and compared with the static and adaptive Huffman algorithm. The results indicated better compression ratio. Conclusion: Hence the proposed algorithm outperformed both static and adaptive Huffman algorithms, in terms of compression ratio and was well suited to embedding in sensor nodes for compressed data communication.
Highlights
Wireless Sensor Network (WSN) comprises of several autonomous sensor nodes communicating with each other to perform a common task
A wireless sensor node consists of a processor, sensor, communication module powered by a battery
Power efficiency is considered to be a major issue in WSN, because efficient use of energy extends the network lifetime
Summary
Wireless Sensor Network (WSN) comprises of several autonomous sensor nodes communicating with each other to perform a common task. A wireless sensor node consists of a processor, sensor, communication module powered by a battery. Power efficiency is considered to be a major issue in WSN, because efficient use of energy extends the network lifetime. Energy is consumed by the sensor node during sensing, processing and transmission. Almost 80% of the energy is spent in the communication module for data transmission in sensor network[1]. Failure of sensor node causes a partition of the WSN resulting in critical information loss. There is great interest shown by the many researchers in extending the lifetime of sensor nodes by reducing the energy required for transmission. Several algorithms have been proposed for energy efficient wireless sensor network in literature
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