An analytical framework to evaluate the performance of a dense energy-efficient wireless sensor network (WSN) enabling environment monitoring is developed in this paper. We address the estimation of a target multidimensional process by means of samples that are captured by nodes randomly and uniformly distributed and transmitted to a collector through a self-organizing clustered network. The WSN performance is defined in terms of both process estimation error and network lifetime. A new contention-based medium access control (MAC) protocol is introduced to reduce retransmissions. The impact of the proposed MAC strategy on the energy budget is shown
International audienceWireless sensor networks are employed in many applications such as health care...
In wireless sensor network (WSN) studies, the main objective is minimizing the energy consumption so...
ABSTRACT Wireless sensor network is a collection of autonomous, spatially distributed sensor nodes w...
An efficient medium access control (MAC) protocol is critical for the performance of a wireless sens...
Wireless sensor network (WSN) has garnered remarkable attention due to its wide supports for plenty ...
Wireless sensor network (WSN) has garnered remarkable attention due to its wide supports for plenty ...
Abstract – In this paper, we propose SEA-MAC, a new energy aware medium access control (MAC) protoco...
In this paper, the estimation of a scalar field over a bidimensional scenario (e.g., the atmospheric...
The design of Medium Access Control (MAC) protocols for wireless sensor networks (WSNs) has been con...
Wireless sensor networks are employed in many applications, such as health care, environmental sensi...
In this paper, we study end-to-end performance character-istics of S-MAC, an energy-aware medium acc...
AbstractEnergy efficient medium access control (MAC) protocol designs for wireless sensor networks (...
In modern networks, a Wireless Sensor Network (WSN) is distributed far and wide to monitor physical ...
Summarization: An efficient medium access control (MAC) protocol is critical for the performance of ...
This thesis studies the behavior of the S-MAC protocol in a Wireless Sensor Networks (WSN). The main...
International audienceWireless sensor networks are employed in many applications such as health care...
In wireless sensor network (WSN) studies, the main objective is minimizing the energy consumption so...
ABSTRACT Wireless sensor network is a collection of autonomous, spatially distributed sensor nodes w...
An efficient medium access control (MAC) protocol is critical for the performance of a wireless sens...
Wireless sensor network (WSN) has garnered remarkable attention due to its wide supports for plenty ...
Wireless sensor network (WSN) has garnered remarkable attention due to its wide supports for plenty ...
Abstract – In this paper, we propose SEA-MAC, a new energy aware medium access control (MAC) protoco...
In this paper, the estimation of a scalar field over a bidimensional scenario (e.g., the atmospheric...
The design of Medium Access Control (MAC) protocols for wireless sensor networks (WSNs) has been con...
Wireless sensor networks are employed in many applications, such as health care, environmental sensi...
In this paper, we study end-to-end performance character-istics of S-MAC, an energy-aware medium acc...
AbstractEnergy efficient medium access control (MAC) protocol designs for wireless sensor networks (...
In modern networks, a Wireless Sensor Network (WSN) is distributed far and wide to monitor physical ...
Summarization: An efficient medium access control (MAC) protocol is critical for the performance of ...
This thesis studies the behavior of the S-MAC protocol in a Wireless Sensor Networks (WSN). The main...
International audienceWireless sensor networks are employed in many applications such as health care...
In wireless sensor network (WSN) studies, the main objective is minimizing the energy consumption so...
ABSTRACT Wireless sensor network is a collection of autonomous, spatially distributed sensor nodes w...