A Novel Energy-Efficient Routing Protocol for Industrial WSN Using Hybrid Coot-Ls Algorithm with LSTM-Based Dom Prediction

Er.M. Dharshini, Mr.M.Satheesh Kumar
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Abstract

In industrial Wireless Sensor Networks (WSNs), energy efficiency and reliable data transmission are critical challenges that need to be addressed to ensure sustainable and robust network operations. This paper proposes a novel energy-efficient routing protocol that integrates a Hybrid COOT-LS (Coot- Levy Search) algorithm with Long Short-Term Memory (LSTM)-based Dominant Object Motion (DOM) prediction. The routing protocol leverages the strengths of Hybrid Particle Swarm Optimization (PSO) and Ant Colony Optimization (ACO) to enhance routing efficiency and reduce energy consumption. The Hybrid PSO and ACO algorithms are employed to optimize routing paths by balancing exploration and exploitation, considering multiple factors such as energy levels, node distance, and reliability. The COOT-LS algorithm further refines these paths by incorporating a Levy flight mechanism to enhance the search process. Additionally, the LSTM-based DOM prediction provides accurate forecasts of network conditions, enabling dynamic adjustments to routing strategies in real time. Simulation results demonstrate that the proposed protocol significantly improves network lifetime, reduces energy consumption, and enhances data transmission reliability compared to traditional routing protocols. This approach provides a robust and scalable solution for industrial WSN applications, ensuring efficient and reliable network performance in dynamic and complex industrial environments.
使用混合 Coot-Ls 算法和基于 LSTM 的 Dom 预测的新型工业 WSN 节能路由协议
在工业无线传感器网络(WSN)中,能效和可靠的数据传输是确保网络可持续稳健运行所面临的关键挑战。本文提出了一种新型高能效路由协议,该协议将混合 COOT-LS(Coot-Levy 搜索)算法与基于长短期记忆(LSTM)的主要物体运动(DOM)预测相结合。该路由协议充分利用了混合粒子群优化(PSO)和蚁群优化(ACO)的优势,以提高路由效率并降低能耗。混合粒子群优化算法和蚁群优化算法通过平衡探索和开发,并考虑能量水平、节点距离和可靠性等多种因素来优化路由路径。COOT-LS 算法通过采用 Levy 飞行机制来加强搜索过程,从而进一步完善这些路径。此外,基于 LSTM 的 DOM 预测能准确预测网络状况,从而实时动态调整路由策略。仿真结果表明,与传统路由协议相比,所提出的协议显著提高了网络寿命,降低了能耗,并增强了数据传输的可靠性。这种方法为工业 WSN 应用提供了稳健、可扩展的解决方案,确保在动态、复杂的工业环境中实现高效、可靠的网络性能。
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