Wireless Sensor Networks (WSNs) are prone to highly constrained resources, as a result ensuring the proper functioning of the network is a requirement. Therefore, an effective WSN management system has to be integrated for the network efficiency. Our objective is to model, design, and propose a homogeneous WSN hybrid
READ MORENowadays, WSN [] is used in many sensitive and difficult areas such as medicine, the military etc such networks, monitoring and energy management is very important to ensure protection against the misuse of this resource concerning the nodes that make up the wireless sensor network and against attacks by malicious nodes, such as
READ MOREWireless Sensor Networks suffer from many problems but energy efficient always presents the most critical trouble in this field. Many approaches and technologies were invented in order to reduce the energy consumed such as the IEEE 802.15.4. The IEEE 802.15.4 is invented for low power and Low Rate Wireless Personal Area Networks (LRWPANs). It
READ MORETherefore, to overcome the energy depletion in sensor nodes, it is important to study the energy management issue in WSN. In this chapter, the significance of energy management issue is discussed first, and then the possible energy
READ MOREThe WSN comprises many tiny, low-cost hubs with sensing elements, energy, and memory constraints [].Multiple issues arise when learning each component in this specific type of network [].The recent advancements in WSN applications have facilitated the widespread adoption of low-power [], low-cost, and multi-operational
READ MORETitle of thesis: Energy Management T echniques in Wireless Sensor Net w orks: Proto col. Design and Ev aluation. Degree: Master of Applied Science in T elecommunication. Departmen t: Departmen t
READ MOREEnergy management in Wireless Sensor Networks (WSNs) is of paramount importance for the remotely deployed energy stringent sensor nodes. These nodes are typically
READ MORETransmission efficiency is of paramount importance in Wireless Sensor Networks (WSNs), and many methods of energy optimization have been investigated to
READ MOREEnergy Management in Wireless Sensor Networks discusses this unavoidable issue in the application of Wireless Sensor Networks (WSN). To guarantee efficiency and
READ MOREAbstract. Wireless sensor networks (WSNs) with energy harvesting have fascinated the prospectus attention of researchers due to their wide deployment and omnipresent nature in the emerging areas of the Internet of Things (IoT''s) and home automation. However, there are a lot of key challenges that affect the performance of
READ MOREThe power consumption of a wireless sensor network (WSN) is of crucial concern because of the scarcity of energy. The main focus of this chapter is on local dynamic power management strategies in WSNs. The first step towards developing a local power management strategy is the understanding of how power is consumed by the
READ MOREIn wireless sensor networks, Khan, Qureshi, and Iqbal (2015) provided a high-level taxonomy of energy management. They looked at several battery-driven power utilization and energy harvesting
READ MOREWireless Sensor Networks suffer from many problems but energy efficient always presents the most critical trouble in this field. Many approaches and technologies were invented in order to reduce the energy consumed such as the IEEE 802.15.4. The IEEE 802.15.4 is invented for low power and Low Rate Wireless Personal
READ MOREAs mentioned earlier sensor nodes are energy constrained and preserving their energy is very important as the lifetime of the network is limited by the energy dissipation by these nodes. Several authors have studied the lifetime in wireless sensor networks [1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17] [], the authors have derived
READ MORESeveral areas of research that have worked on optimizing the energy dissipation of wireless sensor networks have led to the creation of multiple routing
READ MOREA deployed WSN cannot be dependable without ensuring a lifetime that satisfies the intended applications, especially in remote unattended environment. Energy
READ MOREEfficient energy management is thus a key requirement for a credible design of a wireless sensor network. Wireless sensor networks find great applications in radiation levels control, noise pollution control, atmospheric pollution control, structural health monitoring and smart vehicle parking.
READ MOREEnergy conservation is the main major issue in wireless sensor networks (WSNs). Indeed, recharging energy sources in WSNs is often too costly, difficult and sometimes impossible. To extend the WSN lifetime without recharging, energy saving methods and energy harvesting systems are crucial. In this paper, we propose Enhanced
READ MORESummary. The power consumption of a wireless sensor network (WSN) is of crucial concern because of the scarcity of energy. The main focus of this chapter is on local dynamic power management strategies in WSNs. The first step towards developing a local power management strategy is the understanding of how power is consumed by
READ MORETo achieve this initiative, various energy management techniques for WSNs are discussed which include sleep-wake scheduling, MIMO techniques, multihop technique, energy
READ MOREAbstract. Energy management in Wireless Sensor Networks (WSNs) is of paramount importance for the remotely deployed energy stringent sensor nodes. These nodes are typically powered by attached batteries. Several battery-driven energy conservation schemes are proposed to ensure energy efficient network operation.
READ MOREIn this paper we proposed an energy efficient dynamic power management technique which can reduce power consumed by each sensor node by shutting down
READ MOREEnergy management in Wireless Sensor Networks (WSNs) is of paramount importance for the remotely deployed energy stringent sensor nodes. These nodes
READ MOREEnergy management in Wireless Sensor Networks (WSNs) is of paramount importance for the remotely deployed energy stringent sensor nodes.These nodes are typically powered by attached batteries.Several battery-driven energy conservation schemes are proposed to ensure energy efficient network operation. The
READ MOREAbstract: Wireless Sensor Networks suffer from many problems but energy efficient always presents the most critical trouble in this field. Many approaches and
READ MOREThe problem of energy in the wireless sensor networks is the key problem of relation with the network survival time; also it is the primary objective to be solved in the wireless sensor networks design. In this paper, the author summarizes energy efficient related work in wireless sensor networks, combines with characteristics of the network,
READ MOREAn Energy-Harvesting Wireless Sensor Network (EH-WSN) depends on harvesting energy from the environment to prolong network lifetime. Subjected to limited energy in complex environments, an EH-WSN encounters difficulty when applied to real environments as the network efficiency is reduced. Existing EH-WSN studies are usually
READ MOREIn wireless sensor networks (WSN), routing is quite challenging area of research where packets are forwarded through multiple nodes to the base station. Lai C-F (2017) An efficient centroid-based routing protocol for energy management in WSN-assisted IoT. IEEE Access 5:18469–18479. Article Google Scholar
READ MOREEnergy Management in Wireless Sensor Networks discusses this unavoidable issue in the application of Wireless Sensor Networks (WSN). To guarantee efficiency and durability in a network, the science must go beyond hardware solutions and seek alternative software solutions that allow for better data control from the source to delivery.
READ MOREThe development and use of new technologies such as machine learning, the Internet of Things, and machine-to-machine (M2M) networks are driving the use of large wireless sensor network (WSN) deployment. However, the main constraint in the WSN is the finite energy supply of node batteries. So, ensuring a network remains operational for the
READ MORETopology management is an essential part of Wireless Sensor Networks (WSNs), most often used to conserve energy while maintaining network connectivity. The three categories of topology management, topology discovery, sleep cycle management, and clustering, all have benefits to a WSN. Topology discovery allows the network
READ MORE