The load profiles of Parent Nodes (PNs) in a network can be used to define their current state as well as to predict potential failures caused by energy loss due to high loads on particular PNs. This paper presents a novel load balancing model that maintains PNs in a state whereby the time-to-live requirement is met. Our model is distributed and utilises historical load profile information about each PN to improve the estimate accuracy of its remaining lifetime before failure. Results prove that the proposed methodology achieves effective reconfiguration performance as well as maintains QoS, especially in high density ad hoc networks
A sensor network with a tree topology faces challenges in efficient data aggregation, especially in ...
International audienceThe vast literature on the wireless sensor research community contains many va...
International audienceOne of the major concerns in wireless sensor networks is improving the network...
Any ad hoc ubiquitous network should be capable of taking proactive measures for smooth reconfigurat...
Energy efficient dynamic clustering offers a flexible paradigm to reconfigure the network in order t...
Due to the limited resources acquired by the sensor, energy consumption is one of the main issues th...
Energy consumption has been the focus of many studies on Wireless Sensor Networks (WSN). It is well ...
Abstract — spreading the load on the each node of the wireless sensor network leads to enhancing the...
International audienceEnergy consumption has been the focus of many studies on Wireless Sensor Netwo...
One of the most critical issues in wireless sensor networks is represented by the limited availabili...
WSN applications demand prolonged network operation in which manually replenishing the scarce batter...
Abstract: By Distributing load on the surrounding nodes in the sensor network leads to the eliminati...
Abstract- The Wireless Sensor Networks (WSNs) are energy constraint as the nodes of WSN run by the b...
Wireless Sensor Networks (WSNs) are energy constrained. Every operation, particularly the use of rad...
Wireless sensor network (WSN) is a vital form of the underlying technology of the internet of things...
A sensor network with a tree topology faces challenges in efficient data aggregation, especially in ...
International audienceThe vast literature on the wireless sensor research community contains many va...
International audienceOne of the major concerns in wireless sensor networks is improving the network...
Any ad hoc ubiquitous network should be capable of taking proactive measures for smooth reconfigurat...
Energy efficient dynamic clustering offers a flexible paradigm to reconfigure the network in order t...
Due to the limited resources acquired by the sensor, energy consumption is one of the main issues th...
Energy consumption has been the focus of many studies on Wireless Sensor Networks (WSN). It is well ...
Abstract — spreading the load on the each node of the wireless sensor network leads to enhancing the...
International audienceEnergy consumption has been the focus of many studies on Wireless Sensor Netwo...
One of the most critical issues in wireless sensor networks is represented by the limited availabili...
WSN applications demand prolonged network operation in which manually replenishing the scarce batter...
Abstract: By Distributing load on the surrounding nodes in the sensor network leads to the eliminati...
Abstract- The Wireless Sensor Networks (WSNs) are energy constraint as the nodes of WSN run by the b...
Wireless Sensor Networks (WSNs) are energy constrained. Every operation, particularly the use of rad...
Wireless sensor network (WSN) is a vital form of the underlying technology of the internet of things...
A sensor network with a tree topology faces challenges in efficient data aggregation, especially in ...
International audienceThe vast literature on the wireless sensor research community contains many va...
International audienceOne of the major concerns in wireless sensor networks is improving the network...