Abstract
Using energy efficiency to increase the life and sustainability of wireless sensor networks (WSNs) for biomedical applications is still a challenge. Clustering has boosted energy productivity by allowing cluster heads to be categorized, but its implementation is still a challenge. Existing cluster head selection criteria start with determining acceptable cluster head locations. The cluster heads are picked from the nodes that are most closely connected with these places. This location-based paradigm incorporates challenges such as faster processing, less precise selection, and redundant node selection. The development of the sampling-based smart spider monkey optimization (SSMO) approach is addressed in this paper. If the sample population's nodes are varied, network nodes are picked from among them. The problems with distributed nodes and cluster heads are no longer a concern. This article shows how to use an SSMO and smart CH selection to increase the lifetime and stability of WSNs. The goal of this study is to look at how cluster heads are chosen using standard SMO and sampling-based SMO for biomed applications. Low-energy adaptive clustering hierarchy centralized (LEACH-C), particle swarm optimization clustering protocol (PSO-C), and SSMO improved routing protocol measurements are compared to those obtained in homogeneous and heterogeneous settings using equivalent methodologies. In these implementations, SSMO boosts network longevity and stability periods by an estimated 12.22%, 6.92%, 32.652%, and 1.22%.
Highlights
wireless sensor networks (WSNs) were used in a variety of applications including smart homes, disaster monitoring, air purifiers, and so on, due to their increased productive output, convenience of the use, and reduced price
Research has concentrated on extending the life and stability of networks through the use of a variety of different communication protocols [1]. rough the use of clustering, the low-energy adaptive clustering hierarchy (LEACH) protocol maximizes energy efficiency. e distance between nodes and base stations (BSs) has an effect on the amount of energy consumed during data transfer
In comparison to other protocols based on swarm intelligence, Low-energy adaptive clustering hierarchy centralized (LEACH-C) returned an inappropriate cluster heads (CHs) distribution
Summary
WSNs were used in a variety of applications including smart homes, disaster monitoring, air purifiers, and so on, due to their increased productive output, convenience of the use, and reduced price. E distance between nodes and base stations (BSs) has an effect on the amount of energy consumed during data transfer. Clustering is based on the principle of reducing the difference between nodes that are not cluster heads (CHs), which gather information from neighbouring nodes for forwarding. When selecting CHs, it is necessary to consider the centrally controlled use of understanding on all nodes at the BS. LEACH-C increases data availability but Contrast Media & Molecular Imaging empowers the BS to have more computational power than the nodes. As a result, this type of centralized operation could be used to increase the effectiveness of clustering. Swarm intelligence-based clustering is an amazingly precise method that is widely adopted in optimal control protocols
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