In this work, a new protocol is proposed for sender-based responsive techniques on energy, mobility, and effective routing for Wireless Sensor Networks (WSNs). It addresses diverse challenges in packet routing especially, node mobility, energy optimization, and energy balancing in WSNs communication. The proposed protocol improves the basic Quality of Service (QoS) metrics such as Delay, Hop-Count, and Energy Level for each connection with multiple routes and predicts the best optimal path to develop efficient communication among them. It takes energy and performs mobility prediction and the time of connection failures. The main aim of this paper is to propose a secured and energy-efficient routing protocol using fuzzy rules and a node's trust values. Moreover, the proposed model provides an additional route and hence works without link failure. The observational result shows that the proposed protocol performs better than the existing secure routing protocols and achieves a packet delivery ratio of 20% higher than existing approaches. As per energy consumption, the proposed system obtains 15% lesser than recent approaches in secure energy-efficient routing protocols for WSNs.

在这项工作中，针对基于发送方的响应技术，针对无线传感器网络（WSN）的能量，移动性和有效路由，提出了一种新协议。它解决了数据包路由中的各种挑战，尤其是WSN通信中的节点移动性，能量优化和能量平衡。所提出的协议为具有多个路由的每个连接提高了基本服务质量（QoS）度量，例如延迟，跳数和能量级别，并预测了在它们之间发展有效通信的最佳路径。它消耗能量并执行移动性预测和连接失败的时间。本文的主要目的是提出一种使用模糊规则和节点的信任值的安全且节能的路由协议。此外，所提出的模型提供了一条附加路径，因此可以正常工作而不会出现链路故障。观测结果表明，所提出的协议比现有的安全路由协议具有更好的性能，并且与现有方法相比，其分组传输率提高了20％。就能耗而言，所提出的系统在安全高效的WSN路由协议中比最近的方法少15％。