One of the major sources of energy waste in a Wireless Sensor Network (WSN) is idle listening, i.e., the cost of actively listening for potential packets. This paper focuses on reducing the idle-listening time via a dynamic duty cycling technique which aims at optimizing the sleep interval between consecutive wakeups. We considered receiver-initiated MAC method for WSNs, in which the sender waits for a beacon signal from the receiver before starting to transmit. In this context, we propose an optimization framework for minimizing the energy waste of the most power hungry node of the network. To this aims, we first derive an analytic model that predicts nodes' energy consumption. Then, we use the model to derive an heuristic distributed opti...
Wireless sensors are battery-limited sensing and computing devices. How to prolong the lifetime of w...
In the wireless sensor networks (WSNs), Synchronous approaches share the schedule information that s...
Duty cycling is a technique for saving energy in resource-limited wireless networks such as sensor n...
One of the major sources of energy waste in a Wireless Sensor Network (WSN) is idle listening, i.e.,...
One of the major sources of energy waste in wireless sensor networks (WSNs) is idle listening, that ...
One of the major sources of energy waste in a Wireless Sensor Network (WSN) is idle listening, i.e.,...
Recent advances in Wireless Sensor Networks (WSN) have led to many new protocols specifically design...
Energy efficiency is one of the main issues in the design and optimization of Wireless Sensor Networ...
In this paper, we investigate the problem of controlling node sleep intervals so as to achieve the m...
In this paper, we investigate the problem of controlling node sleep intervals so as to achieve the m...
This paper considers an overlay solution for asynchronous Medium Access Control (MAC) protocols in a...
A sensor in wireless sensor networks (WSNs) periodically produces data as it monitors its vicinity. ...
WSN applications demand prolonged network operation in which manually replenishing the scarce batter...
Energy efficiency represents one of the primary challenges in the development of wireless sensor net...
Energy efficient asynchronous duty cycle MAC protocols are crucial to the success of wireless sensor...
Wireless sensors are battery-limited sensing and computing devices. How to prolong the lifetime of w...
In the wireless sensor networks (WSNs), Synchronous approaches share the schedule information that s...
Duty cycling is a technique for saving energy in resource-limited wireless networks such as sensor n...
One of the major sources of energy waste in a Wireless Sensor Network (WSN) is idle listening, i.e.,...
One of the major sources of energy waste in wireless sensor networks (WSNs) is idle listening, that ...
One of the major sources of energy waste in a Wireless Sensor Network (WSN) is idle listening, i.e.,...
Recent advances in Wireless Sensor Networks (WSN) have led to many new protocols specifically design...
Energy efficiency is one of the main issues in the design and optimization of Wireless Sensor Networ...
In this paper, we investigate the problem of controlling node sleep intervals so as to achieve the m...
In this paper, we investigate the problem of controlling node sleep intervals so as to achieve the m...
This paper considers an overlay solution for asynchronous Medium Access Control (MAC) protocols in a...
A sensor in wireless sensor networks (WSNs) periodically produces data as it monitors its vicinity. ...
WSN applications demand prolonged network operation in which manually replenishing the scarce batter...
Energy efficiency represents one of the primary challenges in the development of wireless sensor net...
Energy efficient asynchronous duty cycle MAC protocols are crucial to the success of wireless sensor...
Wireless sensors are battery-limited sensing and computing devices. How to prolong the lifetime of w...
In the wireless sensor networks (WSNs), Synchronous approaches share the schedule information that s...
Duty cycling is a technique for saving energy in resource-limited wireless networks such as sensor n...