Adversary Distributed Time Series Routing Protocol for Improving the Performance of Linkage Data Collection in WSN

Abstract

A Wireless Sensor Network (WSN) is a network of devices that transfer all the data collected from the monitoring area via a wireless connection. Data is transmitted over multiple nodes, and the portal connects the nodes to other networks. The sensor collects the data and relays it to the receiver in a single-hop or multi-hop path. WSN with mobile receivers can help prevent hotspot issues and extend the network’s life. Sink nodes can have an important impact on network performance. As the energy capacity of each sensor is low, it is important to improve the receiver location routing. Nonetheless, the mobile sink node cannot change the routing optimally due to less energy and transmission speed constraints. Efficient data transmission is the main problem in Wireless Sensor Networks (WSNs). Due to poor data transmission, the packet delivery ratio, throughput, and network lifetime are minimized, and the packet drop ratio performance is increased. To address these issues, an Adversary Distributed Time Series Routing Protocol (ADTSR) is proposed for efficient data transfer. The proposed algorithm first analyses the node’s current location and then investigates the sink and relay nodes for data transfer. The proposed algorithm efficiently improves performance parameters, namely Packet delivery ratio, throughput, and network lifetime and then minimizes the packet drop ratio than previous methods.