The Essay on Heterogeneous Wireless Sensor Networks and Information Technology
1. IntroductionA wireless sensor network WSN consists of low-cost, low-power and energy-constrained sensors responsible for monitoring a physical phenomenon and reporting it to the sink 1, 2, 3. WSNs are characterized by the need to carefully integrate traditional functionalities In wireless sensor networks WSNs, clustering can be considered separately to significantly reduce the energy dissipation of nodes and also increase the communication load of cluster heads. When a multi-hop communication model is applied to clustering, an "energy gap" problem may occur due to unbalanced energy consumption among cluster heads. Recently there have been many multi-hops. In order to consider the heterogeneity of the SNs of sensor nodes and further protect the SNs with low residual energy, in this letter we propose an energy-saving UAV-assisted data collection framework for a heterogeneous wireless sensor network WSN, where the working mode of each SN is dynamically determined by its residual energy and a certain. To extend the network lifetime, energy-efficient protocols adapted to the characteristics of wireless sensor networks should be used. This paper explores in depth the nature of heterogeneous wireless sensor networks and finally proposes an algorithm to address the problem of finding an effective path for heterogeneous clustering. In conclusion, although this technology has its own disadvantages, wireless sensor networks have numerous applications that are very important in the world today. As research shows, the future of wireless sensor networks is promising as numerous studies are underway to reduce any delays and costs. According to technologists and researchers, wireless sensor networks as a whole are an important technology for the 21st century. . Recent developments in MEMS sensors, microelectromechanical systems and wireless communications have enabled low-cost, energy-efficient, small and smart sensors that can be widely deployed. Sensing technology has undergone a revolution as a result of technological advancements, with the wireless sensor network WSN being considered as an important area of research in recent times. WSN consists of battery-operated multiple sensor nodes with limited energy, which the researchers ultimately encourage in designing a. The biggest challenges in wireless sensor networks include energy conservation, node lifetime, stability and throughput of the network and its node. Clustering is widely used to reduce energy consumption and improve network stability. The efficient routing protocol in a cluster plays an important role in energy conservation and technological advancements have led to the coupling of small, low-cost sensor devices with computing capacity supported by storage and communication capabilities to form wireless sensor networks WSN. This chapter provides a comprehensive and organized introduction to the fundamental concepts driven by the inherent, Dear Colleagues, Nowadays, wireless sensor networks WSNs are receiving significant attention due to their various applications. In particular, clustered SNWs can operate in both homogeneous and heterogeneous network topologies. They offer many benefits, including scalability and data reduction. BSIDR is a cluster-based routing algorithm in heterogeneous networks proposed to extend network lifetime.,