Abstract
Clustering and routing are effective solutions for addressing the potential design difficulty of energy efficiency in Multimedia assisted Wireless Sensor Networks (WSNs). However, imbalances in the distribution of chosen cluster head (CH) nodes and difficult data transmission routes might lead to unequal energy exhaustion in the network. This work focuses on Energy-Efficient Cluster-based Routing Protocols using the Resilient Honey Badger Optimization Algorithm (EECR-RHBOA) for cluster head (CH) selection in WSN. Inspired by honey badger foraging behaviour, the RHBOA algorithm incorporates resilience and adaptation into cluster formation and routing selections to guarantee optimum network energy usage. RHBOA selects the best cluster head among all the sensors regarding distance to the residual energy, base stations (BS), distance to neighbours, node degree, and centrality. The two main steps of the suggested EECR protocol are cluster formation and data transmission. The RHBOA algorithm arranges sensor nodes into clusters during the cluster formation phase. The method then examines a fitness function considering residual energy, node centrality, and intra-cluster communication cost to choose cluster heads. Extended network lifespan is achieved by reaching balanced energy consumption among multiple nodes. The RHBOA algorithm minimizes energy dissipation during data transmission by optimizing multi-hop routing processes from CHs to BS. These approaches avoid nodes with low energy and help alleviate network congestion. The numerical outcomes show the suggested EECR-RHBOA technique to achieve a lower packet ratio of 0.05, throughput of 104Kbps, packet delivery ratio of 96.2% and coverage rate of 94.8% compared to other methods.
Full text
2,713 characters
· extracted from
oa-pdf
· click to expand
Posted on 12 Jan 2025 — The copyright holder is the author/funder. All rights reserved. No reuse without permission. — https://doi.org/10.22541/au.173669043.35972501/v1 — This is a preprint and has not been peer-reviewed. Data may be preliminary.
Energy-Efficient Cluster-based Routing in Multimedia assisted
Wireless Sensor Networks Using Resilient Honey Badger
Optimization Algorithm
* KJagadeesh 1, Mohanaprakash T 2, Mary Subaja Christo 3, and Mythili Nagalingam 4
1Vel Tech Rangarajan Dr Sagunthala R&D Institute of Science and Technology
2CMR University
3SRM Institute of Science and Technology (Deemed to be University) Research
Kattankulathur
4St Joseph’s Institute of Technology OMR
January 12, 2025
Abstract
Clustering and routing are effective solutions for addressing the potential design difficulty of energy efficiency in Multimedia
assisted Wireless Sensor Networks (WSNs). However, imbalances in the distribution of chosen cluster head (CH) nodes and
difficult data transmission routes might lead to unequal energy exhaustion in the network. This work focuses on Energy-Efficient
Cluster-based Routing Protocols using the Resilient Honey Badger Optimization Algorithm (EECR-RHBOA) for cluster head
(CH) selection in WSN. Inspired by honey badger foraging behaviour, the RHBOA algorithm incorporates resilience and
adaptation into cluster formation and routing selections to guarantee optimum network energy usage. RHBOA selects the best
cluster head among all the sensors regarding distance to the residual energy, base stations (BS), distance to neighbours, node
degree, and centrality. The two main steps of the suggested EECR protocol are cluster formation and data transmission. The
RHBOA algorithm arranges sensor nodes into clusters during the cluster formation phase. The method then examines a fitness
function considering residual energy, node centrality, and intra-cluster communication cost to choose cluster heads. Extended
network lifespan is achieved by reaching balanced energy consumption among multiple nodes. The RHBOA algorithm minimizes
energy dissipation during data transmission by optimizing multi-hop routing processes from CHs to BS. These approaches avoid
nodes with low energy and help alleviate network congestion. The numerical outcomes show the suggested EECR-RHBOA
technique to achieve a lower packet ratio of 0.05, throughput of 104Kbps, packet delivery ratio of 96.2% and coverage rate of
94.8% compared to other methods.
Hosted file
Wireless Paper (3)_need to give.docx available at https://authorea.com/users/879824/articles/
1258999-energy-efficient-cluster-based-routing-in-multimedia-assisted-wireless-sensor-
networks-using-resilient-honey-badger-optimization-algorithm
1
Text is read by the "Ask this paper" AI Q&A widget below.
Extraction quality varies by source — PMC NXML preserves structure
cleanly, OA-HTML may include some navigation residue, and OA-PDF can
have broken hyphenation. The publisher copy
(via DOI)
is the canonical version.