Wireless sensor networks (WSNs) consist of a large number of nodes each with limited battery power. As networks of these nodes are usually deployed unattended, network lifetime becomes an important concern. This paper proposes a novel, feasible, dynamic approach for node lifetime estimation that works for both static and dynamic loads. It covers several factors that have an impact on node lifetime, including battery type, model, brand, self-discharge, discharge rate, age, and temperature. The feasibility of the proposed scheme is evaluated by using the real testbed experiments with two wireless sensor platforms: Mica2 and N740 NanoSensor, two operating systems: TinyOS and Contiki, and different brands of alkaline and nickel-metal-hydride ba...
Wireless Sensor Node (WSN) lifetime is correlated with the battery current usage profile. State of t...
A great amount of work addressed methods for predicting the battery lifetime in wireless sensor syst...
The physical constraints of battery-powered sensors impose limitations on their processing capacity ...
Lifetime estimation in Wireless Sensor Networks (WSN) is crucial to ensure that the network will las...
(WSN) is crucial to ensure that the network will last long enough (low maintenance cost) while not b...
Abstract—Node lifetime is a key performance metric in wire-less sensor network (WSN) research. Simpl...
Design and technical advancements in sensing, processing, and communicating capabilities of small, p...
The designers, optimizers and maintenance personnel of a wireless sensor network are frequently chal...
In this paper we present a method for experimental lifetime measurements of sensor networks. Despi...
Lifetime of a wireless sensor network is affected by key factors such as network architecture, netwo...
One of the design challenges of wireless sensor networks is the tradeoff between network operation t...
© 2021 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
In this paper, a simple and flexible method for increasing the lifetime of fixed or mobile wireless ...
Abstract—Wireless sensor networks are currently being de-ployed over a vast array of applications to...
Abstract—One of the design challenges of wireless sensor networks is the tradeoff between network op...
Wireless Sensor Node (WSN) lifetime is correlated with the battery current usage profile. State of t...
A great amount of work addressed methods for predicting the battery lifetime in wireless sensor syst...
The physical constraints of battery-powered sensors impose limitations on their processing capacity ...
Lifetime estimation in Wireless Sensor Networks (WSN) is crucial to ensure that the network will las...
(WSN) is crucial to ensure that the network will last long enough (low maintenance cost) while not b...
Abstract—Node lifetime is a key performance metric in wire-less sensor network (WSN) research. Simpl...
Design and technical advancements in sensing, processing, and communicating capabilities of small, p...
The designers, optimizers and maintenance personnel of a wireless sensor network are frequently chal...
In this paper we present a method for experimental lifetime measurements of sensor networks. Despi...
Lifetime of a wireless sensor network is affected by key factors such as network architecture, netwo...
One of the design challenges of wireless sensor networks is the tradeoff between network operation t...
© 2021 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
In this paper, a simple and flexible method for increasing the lifetime of fixed or mobile wireless ...
Abstract—Wireless sensor networks are currently being de-ployed over a vast array of applications to...
Abstract—One of the design challenges of wireless sensor networks is the tradeoff between network op...
Wireless Sensor Node (WSN) lifetime is correlated with the battery current usage profile. State of t...
A great amount of work addressed methods for predicting the battery lifetime in wireless sensor syst...
The physical constraints of battery-powered sensors impose limitations on their processing capacity ...