A New Energy-efficient Multi-hop Routing Protocol for Heterogeneous Wireless Sensor Networks
Research Abstract
Major goals of routing optimization approaches for heterogeneous wireless sensor networks
(HWSNs) are to optimize the use of sensor nodes' power and prolong the lifetime of HWSNs.
Most routing techniques work on WSNs with static nodes, so node positions are known, and once
formed, the cluster remains constant throughout the network's lifetime. However, the challenge
with WSN dynamic node positions is that node positions change dynamically, requiring cluster
formation changes and routing techniques to handle node positions. In the proposed multi-hop
routing protocol using moving HWSNs nodes.The challenge is to dynamically control cluster
formation and CHs selection so that the routing protocol can deal with changes in node location
and energy. A new energy-efficient multi-hop routing protocol for HWSNs with sensor node
mobility is proposed, with the main goal of improving HWSNs performance by minimizing energy
consumption, extending network lifetime, and eliminating redundancy in sensor data to improve
throughput.
Research Keywords
Heterogeneous wireless sensor networks (HWSNs); forwarding of reliable route packets (FRRPs); grey wolf optimizer (GWO); routing optimization; tabu search algorithm (TSA); quality of service (QoS