An Efficient Routing Awareness Based Scheduling Approach in Energy Harvesting Wireless Sensor Networks

计算机科学 计算机网络 无线传感器网络 路由协议 网络数据包 分布式计算 聚类分析 调度(生产过程) 分层路由 链路状态路由协议 工程类 运营管理 机器学习
作者
Dipak Kumar Sah,Abhishek Hazra,Nabajyoti Mazumdar,Tarachand Amgoth
出处
期刊:IEEE Sensors Journal [IEEE Sensors Council]
卷期号:23 (15): 17638-17647 被引量:19
标识
DOI:10.1109/jsen.2023.3279249
摘要

Wireless sensor networks (WSNs) have emerged as a promising technology for various Internet of Things (IoT)-based sensing applications. Generally, sensor nodes are powered by nonrechargeable and low-capacity batteries; they only last for a small amount of time. Due to their dispersed nature, sensor nodes cannot have their batteries replaced or maintained locally. The energy harvesting (EH) concept shows commitment as a method for addressing the current energy shortage. Another problem is the intra-energy control of various network load functions, including coverage preservation, routing, clustering, etc. This study proposes an efficient routing awareness scheduling (ERAS) algorithm to address the abovementioned issues. The ERAS method employs a solar harvesting system as a hierarchical clustering-based routing protocol. The presented scheme dynamically alters nodes between states and adjusts to new states based on the insides of sensed data packets. Synchronization-based scheduling ensures proper coordination between the cluster head (CH) and cluster members (CMs). It selects the CH based on both remaining and harvested energy and the number of active nodes to improve throughput. Surprisingly proposed EASR algorithm performs efficiently while considering various performance matrices, including network lifetime, packet delivery ratio (PDR), energy consumption, and network sustainability. Extensive simulation results exhibit the network lifetime of the proposed ERAS technique (79.8%) compared to energy routing awareness (ERA), sleep-wake energy-efficient distributed (SEED) and cross-layer design with energy scavenging and transfer (CREST) methods as 67.3%, 73.8%, and 75.2%, respectively.
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