[[abstract]]In this paper, we present a positioning and tracking scheme based on adaptive weighted interpolation and Kalman filtering for wireless sensor networks. The proposed positioning method formulates location estimation as a weighted least squares problem by taking weights based on the reliability of distance estimation. This method can be realized in an iterative, decentralized manner to improve both bandwidth and energy efficiencies. To improve the location accuracy, a Kalman filter is employed at the central server to track variations of the location estimate computed from the proposed positioning method. As compared with a previous positioning approach based on the projection onto convex sets, the proposed scheme has faster conve...
[[abstract]]In this paper, we propose a reduced-complexity decentralized positioning (RCDP) algorith...
Target tracking is essential for localization and many other applications in Wireless Sensor Network...
[[abstract]]This paper presents a low-complexity incremental (LCI) algorithm for target positioning ...
[[abstract]]This paper presents a new scheme for positioning and tracking mobile nodes based on adap...
This paper presents the performance of an adaptive location-estimation technique combining Kalman fi...
Abstract: Wireless Sensor Networks (WSNs), is one of the most emerging technologies in recent years....
We consider the problem of cooperative localization in mo-bile wireless sensor networks (WSNs). To b...
[[abstract]]This paper presents algorithms for calibrating and tracking the location of a mobile ter...
Localization is a challenging research issue in various sectors of activity, particularly in dynamic...
Node localization is the basic mechanism for wireless sensor networks. Which location data is indisp...
AbstractThis paper presents the performance of an adaptive location-estimation technique combining K...
[[abstract]]In this paper, we propose a weighted incremental subgradient (WIG) algorithm for positio...
[[abstract]]This paper presents adaptive algorithms for estimating the location of a mobile terminal...
In this paper we develop a simple yet effective heuristic algorithm to estimate the location of a se...
This paper addresses the problem of collaborative tracking of dynamic targets in wireless sensor net...
[[abstract]]In this paper, we propose a reduced-complexity decentralized positioning (RCDP) algorith...
Target tracking is essential for localization and many other applications in Wireless Sensor Network...
[[abstract]]This paper presents a low-complexity incremental (LCI) algorithm for target positioning ...
[[abstract]]This paper presents a new scheme for positioning and tracking mobile nodes based on adap...
This paper presents the performance of an adaptive location-estimation technique combining Kalman fi...
Abstract: Wireless Sensor Networks (WSNs), is one of the most emerging technologies in recent years....
We consider the problem of cooperative localization in mo-bile wireless sensor networks (WSNs). To b...
[[abstract]]This paper presents algorithms for calibrating and tracking the location of a mobile ter...
Localization is a challenging research issue in various sectors of activity, particularly in dynamic...
Node localization is the basic mechanism for wireless sensor networks. Which location data is indisp...
AbstractThis paper presents the performance of an adaptive location-estimation technique combining K...
[[abstract]]In this paper, we propose a weighted incremental subgradient (WIG) algorithm for positio...
[[abstract]]This paper presents adaptive algorithms for estimating the location of a mobile terminal...
In this paper we develop a simple yet effective heuristic algorithm to estimate the location of a se...
This paper addresses the problem of collaborative tracking of dynamic targets in wireless sensor net...
[[abstract]]In this paper, we propose a reduced-complexity decentralized positioning (RCDP) algorith...
Target tracking is essential for localization and many other applications in Wireless Sensor Network...
[[abstract]]This paper presents a low-complexity incremental (LCI) algorithm for target positioning ...