In this paper, we address the problem of the estimation of a spatial field defined over a two-dimensional space with wireless sensor networks. We assume that the field is (spatially) bandlimited and that it is sampled by a set of sensors which are randomly deployed in a given geographical area. Further, we impose a total bandwidth constraint which forces the quantization error in the sensor-to-FC (Fusion Center) channels to depend on the actual number of sensors in the network. With these assumptions, we derive an analytical expression of the mean-square error (MSE) in the reconstructed random field and, on that basis, an approximate closed-form expression of the optimal sensor density which attains the best trade-off in terms of observatio...
Sensor networks are becoming increasingly prevalent for monitoring physical phenomena of interest. F...
In remote sensing with a large array of spatially distributed sensors, localization of individual se...
Abstract—In large-scale wireless sensor networks, sensor-pro-cessor elements (nodes) are densely dep...
In this paper, we address the problem of the estimation of a spatial field defined over a two-dimens...
We consider an environmental monitoring application where a scalar field (e.g., atmospheric pressur...
Environmental monitoring is often performed through wireless sensor networks, by randomly deploying ...
In this paper, we focus on the use of wireless sensor networks for the estimation of spatially-corre...
In this paper, we study the problem of random field estimation with wireless sensor networks. We co...
International audienceWe develop new algorithms for spatial field re- construction, exceedance level...
This paper studies the sensor selection problem for random field estimation in wireless sensor netwo...
Sampling of physical fields with mobile sensor is an emerging area. In this context, this work intro...
We address bandwidth and power constrained distributed vector estimation problem in a wireless senso...
We develop a framework for field estimation using wireless sensor networks, subject to network power...
Wireless sensor networks (WSNs), i.e., networks of autonomous, wireless sensing nodes spatially depl...
We study the problem of joint quantization and power allocation in wireless sensor networks where s...
Sensor networks are becoming increasingly prevalent for monitoring physical phenomena of interest. F...
In remote sensing with a large array of spatially distributed sensors, localization of individual se...
Abstract—In large-scale wireless sensor networks, sensor-pro-cessor elements (nodes) are densely dep...
In this paper, we address the problem of the estimation of a spatial field defined over a two-dimens...
We consider an environmental monitoring application where a scalar field (e.g., atmospheric pressur...
Environmental monitoring is often performed through wireless sensor networks, by randomly deploying ...
In this paper, we focus on the use of wireless sensor networks for the estimation of spatially-corre...
In this paper, we study the problem of random field estimation with wireless sensor networks. We co...
International audienceWe develop new algorithms for spatial field re- construction, exceedance level...
This paper studies the sensor selection problem for random field estimation in wireless sensor netwo...
Sampling of physical fields with mobile sensor is an emerging area. In this context, this work intro...
We address bandwidth and power constrained distributed vector estimation problem in a wireless senso...
We develop a framework for field estimation using wireless sensor networks, subject to network power...
Wireless sensor networks (WSNs), i.e., networks of autonomous, wireless sensing nodes spatially depl...
We study the problem of joint quantization and power allocation in wireless sensor networks where s...
Sensor networks are becoming increasingly prevalent for monitoring physical phenomena of interest. F...
In remote sensing with a large array of spatially distributed sensors, localization of individual se...
Abstract—In large-scale wireless sensor networks, sensor-pro-cessor elements (nodes) are densely dep...