Abstract
A light-weight solution for blackhole attacks in wireless sensor networks
Highlights
Due to the collaborative and low-cost nature of wireless sensor networks (WSNs), and with the advances in wireless communication technology, WSNs have been used in many areas [1,2,3]
For the proposed secure AODV (SAODV) routing protocol, when there are no blackhole nodes in the grid, the average end-to-end delay for all transmissions ranges between 58.28 ms and 451.87 ms, with an average of 255.51 ms, when Advanced Encryption Standard (AES) is used
The proposed SAODV routing protocol, with SPECK64 or AES, results in slightly higher end-to-end delay values compared to the ad-hoc on-demand distance vector (AODV) routing protocol when there are no blackhole nodes in the grid
Summary
Due to the collaborative and low-cost nature of wireless sensor networks (WSNs), and with the advances in wireless communication technology, WSNs have been used in many areas [1,2,3]. Parameter name Network simulator Number of nodes Packet size Traffic type Queue type Routing protocols Blackhole ratio Encryption algorithms Encryption and decryption time in AES Encryption and decryption time in SPECK64 Experiment number for each simulation Seed value
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