Work place: Computer Science and Engineering, CHRIST (Deemed to be University), Bangalore-560074, India
E-mail: sharonroji@gmail.com
Website:
Research Interests: Deep Learning, Natural Language Processing, Machine Learning
Biography
Sharon Roji Priya. C. is an Assistant Professor in Computer Science and Engineering Department at school of Engineering and Technology of CHRIST (Deemed to be University), Bangalore. She is having 11 years of experience in Teaching. She is qualified in Bachelor and Master Degrees in Computer Science and Engineering. Her area of interest are Automata Theory, Machine Learning, Deep Learning and Natural Language Processing. She has published papers in journals and international conferences.
By Ramesh Vatambeti Vijay Kumar Damera Karthikeyan H. Manohar M. Sharon Roji Priya C. M. S. Mekala
DOI: https://doi.org/10.5815/ijcnis.2023.06.01, Pub. Date: 8 Dec. 2023
Thanks to recent technological advancements, low-cost sensors with dispensation and communication capabilities are now feasible. As an example, a Wireless Sensor Network (WSN) is a network in which the nodes are mobile computers that exchange data with one another over wireless connections rather than relying on a central server. These inexpensive sensor nodes are particularly vulnerable to a clone node or replication assault because of their limited processing power, memory, battery life, and absence of tamper-resistant hardware. Once an attacker compromises a sensor node, they can create many copies of it elsewhere in the network that share the same ID. This would give the attacker complete internal control of the network, allowing them to mimic the genuine nodes' behavior. This is why scientists are so intent on developing better clone assault detection procedures. This research proposes a machine learning based clone node detection (ML-CND) technique to identify clone nodes in wireless networks. The goal is to identify clones effectively enough to prevent cloning attacks from happening in the first place. Use a low-cost identity verification process to identify clones in specific locations as well as around the globe. Using the Optimized Extreme Learning Machine (OELM), with kernels of ELM ideally determined through the Horse Herd Metaheuristic Optimization Algorithm (HHO), this technique safeguards the network from node identity replicas. Using the node identity replicas, the most reliable transmission path may be selected. The procedure is meant to be used to retrieve data from a network node. The simulation result demonstrates the performance analysis of several factors, including sensitivity, specificity, recall, and detection.
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