Abstract
Due to the latest advances in microelectronics, wireless sensor networking (WSN) has been introduced in many applications. The flow of event data in WSN applications requires timely and reliable distribution so that immediate response and appropriate action can be taken. However, the limited power supply to the sensor terminal causes a transmission between the delay on the way to the base station and the power consumption. Clustering techniques are essential in developing the WSN routing algorithm that improves network operating time and power efficiency. However, due to the unbalanced power consumption between the terminals, the WSN is the optimal, energy efficient routing. In this work, we propose an energy efficient cluster based routing protocol (EEC-HO) for WSN using hybrid optimization algorithm. We introduce an improved Aquila optimization with fuzzy (IAO-Fuzzy) model for optimal and efficient cluster formation and cluster head (CH) computation. The main objective of proposed IAO-Fuzzy model used to compute the trust degree of each node, the highest trust node is considered as CH. After that, the hybrid beetle search induced decision making (BSDM) algorithm for optimal path selection to transfer data transfer between two nodes.
Recommended Citation
Ramamoorthy, Ramakrishnan; Ranganathan, Rameshkumar; and Ramu, Sivakumar
(2022),
An improved Aquila optimization with fuzzy model based energy efficient cluster routing protocol for wireless sensor networks,
Yanbu Journal of Engineering and Science: Vol. 19:
Iss.
1, 51-61.
DOI: https://doi.org/10.53370/001c.34273
Available at:
https://yjes.researchcommons.org/yjes/vol19/iss1/7
