In this work we find a lower bound on the energy required for synchronizing moving sensor nodes in a Wireless Sensor Network (WSN) affected by large-scale fading, based on clock estimation techniques. The energy required for synchronizing a WSN within a desired estimation error level is specified by both the transmit power and the required number of messages. In this paper we extend our previous work introducing nodes? movement and the average message delay in the total energy, including a comprehensive analysis on how the distance between nodes impacts on the energy and synchronization quality trade- off under large-scale fading effects.Fil: Briff, Pablo. Universidad de Buenos Aires. Facultad de Ingeniería; ArgentinaFil: Rey Vega,...
This paper discusses a first attempt to investigate, using analytic means, the transmission delay an...
Abstract—We propose a new approach to evaluate the ultimate performance limit of time synchronizatio...
The nodes in self-organizing wireless sensor networks (WSNs) do not have means for synchronizing the...
In this work, the existing trade-off between time synchronization quality and energy is studied for ...
In this paper we propose a lower bound on the energy required for synchronizing nodes in a Wireless ...
Wireless sensor networks (WSN) consists of unattended sensors with limited storage, energy (battery ...
A mathematical framework to obtain a generalised energy-efficient trade-off model for generic wirele...
Time synchronization is of primary importance for the operation of wireless sensor networks (WSN): t...
Clock synchronization among the sensor nodes is a very critical requirement in a Wireless Sensor Net...
none2noWe propose a new approach to evaluate the ultimate performance limit of time synchronization ...
Energy-constrained wireless sensor networks have conflict-ing requirements between the need to commu...
Abstract — The inherent trade-off between energy-efficiency and rapidity of event dissemination is c...
Abstract — The primary contribution of this work is to examine the energy efficiency of pulse couple...
The problem of device synchronization in a distributed measuring system can present a designer with ...
Abstract—Realistic modeling of energy consumption is crucial for accurate performance analysis of wi...
This paper discusses a first attempt to investigate, using analytic means, the transmission delay an...
Abstract—We propose a new approach to evaluate the ultimate performance limit of time synchronizatio...
The nodes in self-organizing wireless sensor networks (WSNs) do not have means for synchronizing the...
In this work, the existing trade-off between time synchronization quality and energy is studied for ...
In this paper we propose a lower bound on the energy required for synchronizing nodes in a Wireless ...
Wireless sensor networks (WSN) consists of unattended sensors with limited storage, energy (battery ...
A mathematical framework to obtain a generalised energy-efficient trade-off model for generic wirele...
Time synchronization is of primary importance for the operation of wireless sensor networks (WSN): t...
Clock synchronization among the sensor nodes is a very critical requirement in a Wireless Sensor Net...
none2noWe propose a new approach to evaluate the ultimate performance limit of time synchronization ...
Energy-constrained wireless sensor networks have conflict-ing requirements between the need to commu...
Abstract — The inherent trade-off between energy-efficiency and rapidity of event dissemination is c...
Abstract — The primary contribution of this work is to examine the energy efficiency of pulse couple...
The problem of device synchronization in a distributed measuring system can present a designer with ...
Abstract—Realistic modeling of energy consumption is crucial for accurate performance analysis of wi...
This paper discusses a first attempt to investigate, using analytic means, the transmission delay an...
Abstract—We propose a new approach to evaluate the ultimate performance limit of time synchronizatio...
The nodes in self-organizing wireless sensor networks (WSNs) do not have means for synchronizing the...