Work place: Department of ECE, Sathyabama Institute of Science and Technology, Chennai, Tamilnadu, India
E-mail: bathula.ashok@gmail.com
Website: https://orcid.org/0000-0002-2014-7750
Research Interests: Network Security, Network Architecture
Biography
Ashok Battula is a Research Scholar in the Faculty of Electronics, Sathyabama Institute of Science and Technology, Chennai. He received his Bachelor's degree in Electronics and Communication Engineering from Sree Kavitha Engineering College, Khammam in 2006 and he received Master's degree in Electronics Communication from Sree Kavitha Engineering College, Khammam, Telangana, under JNT University in 2012. His major research areas include Wireless Sensor Network, Wireless Communication.
By Ashok Battula S. Emalda Roslin W. Florin
DOI: https://doi.org/10.5815/ijcnis.2023.03.05, Pub. Date: 8 Jun. 2023
For starters, in UASN, distance between nodes as they move with water current, improved network's energy usage. The second problem with UASNs is void hole occurrence, which affects network performance. Nodes are unable to deliver data to the destination because there are no forwarder nodes (FNs) in the network. As a result, routing in UASNs aims to solve the previously mentioned issues in order to increase the network's lifespan. This research proposed novel technique in Void avoidance in underwater acoustic sensor network (UASN) with improving the energy efficiency of the network and analysing depth with security. In this proposed model, secure opportunistic energy efficient void avoidance protocol (Se_Opp_EE_VA) is used and the depth of the network has been analysed. By avoiding the vacuum zone and balancing network energy with depth analysis and security, the suggested effort extends the network lifetime. Routing techniques must be comprehensive enough to overcome all of these constraints as well as provide an energy-efficient routing that avoids empty zones while also extending network lifetime. The depth factor is used in depth-based algorithms proposed in recent decades to assess the path from sender to sink. They reduce information replication by using the holding time calculation. 81% of QoS, 92% of PDR, 96% of energy efficiency, Network lifetime attained by Proposed Se_Opp_EE_VA is 94%, and 50% of end to end delay have all improved as a result of the simulation.
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