Distributed Kalman filtering is an important signal processing method for state estimation in large-scale sensor networks. However, existing solutions do not account for unforeseen events that are likely to occur and thus dramatically changing the operational conditions (e.g. node failure, communication deterioration). This article presents an integration solution for distributed Kalman filtering with distributed self-organization to cope with these events. An overview of existing methods on both topics is presented, followed by an empirical case study of a self-organizing sensor network for observing the contaminant distribution process across a large area in time
In this paper, we propose a strategy for distributed Kalman filtering over sensor networks, based on...
We study distributed Kalman filtering over the wireless sensor network, where each sensor node is re...
A wastewater treatment plant is a large-scale nonlinear system including a series of biological reac...
Distributed Kalman filtering is an important signal processing method for state estimation in large-...
Distributed solutions for signal processing techniques are important for establishing large-scale mo...
Distributed solutions for signal processing techniques are important for establishing large-scale mo...
This letter presents a fully distributed approach for tracking state vector sequences over sensor ne...
This letter presents a fully distributed approach for tracking state vector sequences over sensor ne...
In this work, a distributed Kalman filtering and clustering framework for sensor networks tasked wit...
This paper derives a distributed Kalman filter to estimate a sparsely connected, large-scale, n−dime...
A sensor network operating under changing operational conditions will have to adapt to its environme...
Most distributed Kalman filtering (DKF) algorithms for sensor networks calculate a local estimate of...
This paper is concerned with distributed Kalman filtering for linear time-varying systems over multi...
This paper investigates the distributed filtering for discrete-time-invariant systems in sensor netw...
In this paper, we propose a strategy for distributed Kalman filtering over sensor networks, based on...
In this paper, we propose a strategy for distributed Kalman filtering over sensor networks, based on...
We study distributed Kalman filtering over the wireless sensor network, where each sensor node is re...
A wastewater treatment plant is a large-scale nonlinear system including a series of biological reac...
Distributed Kalman filtering is an important signal processing method for state estimation in large-...
Distributed solutions for signal processing techniques are important for establishing large-scale mo...
Distributed solutions for signal processing techniques are important for establishing large-scale mo...
This letter presents a fully distributed approach for tracking state vector sequences over sensor ne...
This letter presents a fully distributed approach for tracking state vector sequences over sensor ne...
In this work, a distributed Kalman filtering and clustering framework for sensor networks tasked wit...
This paper derives a distributed Kalman filter to estimate a sparsely connected, large-scale, n−dime...
A sensor network operating under changing operational conditions will have to adapt to its environme...
Most distributed Kalman filtering (DKF) algorithms for sensor networks calculate a local estimate of...
This paper is concerned with distributed Kalman filtering for linear time-varying systems over multi...
This paper investigates the distributed filtering for discrete-time-invariant systems in sensor netw...
In this paper, we propose a strategy for distributed Kalman filtering over sensor networks, based on...
In this paper, we propose a strategy for distributed Kalman filtering over sensor networks, based on...
We study distributed Kalman filtering over the wireless sensor network, where each sensor node is re...
A wastewater treatment plant is a large-scale nonlinear system including a series of biological reac...