The need to save energy in Wireless Sensor Network (WSN) systems is now widely recognized as an important design goal. The Sensor Nodes (SNs) within a WSN network run on onboard batteries, which deplete over time. Therefore, increasing the length of the life span of sensors through optimizing data depletion in a cost-effective and long-lasting manner concerning energy consumption remains a difficulty. Despite its convenience, WSNs are vulnerable to a broad range of threats from both within and beyond the network, particularly attacks by insiders being particularly challenging to identify and counter. Most typically, hackers pose an insider attack on clustered WSNs by selectively discarding incoming information packets. This research presents the implementation of a Compact Crypto Authenticating Policy (CCAP) to provide highly confidential data aggregation from Member Node (MN) to Cluster Head (CH) along with from CHs to Sink Node (SiN). Intending to set up highly effective and secure paths for communication in WSNs, it takes into account the dynamics of traffic and the challenges connected with resource constraints. The proposed CCAP aims to achieve an equilibrium between energy efficiency and communication throughput, and it does so by providing a suitable cryptographic technique that guarantees safe communication. This study extends the generalization to demonstrate the viability of the proposed secured protocol for routing despite a wide range of unexpected challenges. According to the evaluation methods, the proposed CCAP protocol offers better security than the existing “Hashing Signature Code (HSC)” protocol based on Security Ratio, Energy Consumption Ratio, Computation Time, and Key Generation Time.
A Novel CCAP Protocol to Increase Security with Energy Efficiency for Wireless Sensor Networks
2023-11-22
781545 byte
Conference paper
Electronic Resource
English
Distributed High Efficiency and Energy-Saving Coverage Protocol of Wireless Sensor Networks
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