Vol. 3 Issue 2
Year: 2014
Issue:Jul-Sep
Title:Energy Consumption Analysis Of Clone Detection Approaches In Wireless Sensor Networks
Author Name:G Ravi Theja and C Subhas
Synopsis:
Wireless Sensor Network (WSN) is a group of sensor nodes which acquaint themselves over wireless channels and adversary who tries to capture and compromise nodes of a network. An adversary introduces clone to compromise larger area and extracts the secret keys from the sensor node or reprogram them. Clone attack is very hazardous and should be detected as soon as possible to protect our network. Recently, different clone detection schemes where proposed for WSNs, taking into consideration various network configurations and deployment strategies. In this paper the analysis is done on the existing clone detection schemes with regard to their device type, detection methodology, deployment strategy, and detection ranges. Simulation experiments are conducted to show variations in their performance. Finally, the authors are concluding that Randomized, Efficient and Distributed (RED), and Parallel Multiple Probabilistic Cells (P-MPC) schemes have shown good results for static sensors (under random uniform deployment and grid deployment respectively) compared to other schemes which the authors have been taken into consideration. For mobile sensor networks there is no such efficiently working scheme with existing approaches because of its maneuverability.
Year: 2014
Issue:Jul-Sep
Title:Energy Consumption Analysis Of Clone Detection Approaches In Wireless Sensor Networks
Author Name:G Ravi Theja and C Subhas
Synopsis:
Wireless Sensor Network (WSN) is a group of sensor nodes which acquaint themselves over wireless channels and adversary who tries to capture and compromise nodes of a network. An adversary introduces clone to compromise larger area and extracts the secret keys from the sensor node or reprogram them. Clone attack is very hazardous and should be detected as soon as possible to protect our network. Recently, different clone detection schemes where proposed for WSNs, taking into consideration various network configurations and deployment strategies. In this paper the analysis is done on the existing clone detection schemes with regard to their device type, detection methodology, deployment strategy, and detection ranges. Simulation experiments are conducted to show variations in their performance. Finally, the authors are concluding that Randomized, Efficient and Distributed (RED), and Parallel Multiple Probabilistic Cells (P-MPC) schemes have shown good results for static sensors (under random uniform deployment and grid deployment respectively) compared to other schemes which the authors have been taken into consideration. For mobile sensor networks there is no such efficiently working scheme with existing approaches because of its maneuverability.
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