Distributed Kalman filtering based on consensus strategies

Carli, Ruggero; Chiuso, Alessandro; Schenato, Luca; Zampieri, Sandro

doi:10.1109/jsac.2008.080505

Cited by 462 publications

(276 citation statements)

References 31 publications

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“…In [107], the authors consider a two-stage distributed Kalman filter which consists of a measurement update step and a fusion step using consensus algorithm. The interaction between the filter gain, the consensus matrix and the number of communications is analyzed in depth.…”

Section: Distributed Estimation For Networked Systemsmentioning

confidence: 99%

Particle filtering with applications in networked systems: a survey

Wang

Yuan

2016

Complex Intell. Syst.

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The particle filtering algorithm was introduced in the 1990s as a numerical solution to the Bayesian estimation problem for nonlinear and non-Gaussian systems and has been successfully applied in various fields including physics, economics, engineering, etc. As is widely recognized, the particle filter has broad application prospects in networked systems, but network-induced phenomena and limited computing resources have led to new challenges to the design and implementation of particle filtering algorithms. In this survey paper, we aim to review the particle filtering method and its applications in networked systems. We first provide an overview of the particle filtering methods as well as networked systems, and then investigate the recent progress inThe work of W. Li, Y. Yuan and L.

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Section: Distributed Estimation For Networked Systemsmentioning

confidence: 99%

Particle filtering with applications in networked systems: a survey

Wang

Yuan

2016

Complex Intell. Syst.

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“…Distributed averaging methods automatically avoid problems of double counting information; however, they suffer from the delayed data problem, that takes place when the nodes execute the state prediction without having incorporated all the measurements taken at the current step, giving rise to disagreement in the robot estimates [19]. An interesting solution is given in [16] but its convergence is proved only in the absence of observation and system noises.…”

Section: Related Workmentioning

confidence: 99%

Feature-based map merging with dynamic consensus on information increments

2014

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Abstract-We study the problem of feature-based map merging in robot networks. Along its operation, each robot observes the environment and builds and maintains a local map. Simultaneously, each robot communicates and computes the global map of the environment. The communication between the robots is range-limited. We propose a dynamic strategy based on consensus algorithms that is fully distributed and does not rely on any particular communication topology. Robots reach consensus on the latest global map, using the map increments between the previous and the current time steps. Under mild connectivity conditions on the communication graph, our merging algorithm asymptotically converges to the global map. We give proofs of unbiasedness and consistency of this global map for all the robots, at each iteration. The proposed approach has been experimentally validated using real RGB-D images.

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“…Other publications cited in Table 2.12 are [28], [30], [31,180], [33], [80], [10], [99], [102], [103], [104], [111], [112,113], [118], [209], [210], [222], [243], [322], [327], [328] and [320] repectively.…”

Section: Dc-based Estimationmentioning

confidence: 99%

“…In [33], a network is modeled as a Bernoulli random topology and establish necessary and sufficient conditions for mean square sense and almost sure convergence of average consensus when network links fail. Other DKF methods and its applications can be seen in [26], [27], [28], [29], [30], [31], [32], [123], [153], [218], [219] and [220].…”

Section: Introductionmentioning

confidence: 99%