Estimation, filtering and fusion for networked systems with network-induced phenomena: New progress and prospects

Hu, Jun; Wang, Zidong; Chen, Dongyan; Alsaadi, Fuad E.

doi:10.1016/j.inffus.2016.01.001

Cited by 146 publications

(67 citation statements)

References 174 publications

(201 reference statements)

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“…From the algorithm development aspect, we will investigate the combination of the state-dependent model switching-based multiple model framework with other filtering techniques to deal with the particle loss problem, such as the particle flow algorithm as in [29] or exploiting various numbers of particles in every mode for filtering. Finally, we will consider a more challenging scenario as in [30] and [31], to track the BM by a sensor-networked system considering the possible network-induced phenomena such as missing/fading measurements, sensor saturations, communication delays, and randomly occurring incomplete information.…”

Section: Bm Parameters Estimationmentioning

confidence: 99%

Multiple Model Ballistic Missile Tracking With State-Dependent Transitions and Gaussian Particle Filtering

Gong

et al. 2018

IEEE Trans. Aerosp. Electron. Syst.

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This paper proposes a new method for tracking the entire trajectory of a ballistic missile from launch to impact on the ground. Multiple state models are used to represent the different ballistic missile dynamics in three flight phases: boost, coast and reentry. In particular, the transition probabilities between state models are represented in a state-dependent way by utilising domain knowledge. Based on this modelling system and radar measurements, a state-dependent interacting multiple model approach based on Gaussian particle filtering is developed to accurately estimate information describing the ballistic missile such as the phase of flight, position, velocity and relevant missile parameters. Comprehensive numerical simulation studies show that the proposed method outperforms the traditional multiple model approaches for ballistic missile tracking.

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Section: Bm Parameters Estimationmentioning

confidence: 99%

Multiple Model Ballistic Missile Tracking With State-Dependent Transitions and Gaussian Particle Filtering

Gong

et al. 2018

IEEE Trans. Aerosp. Electron. Syst.

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“…Such network-induced phenomena include, but are not limited to, signal quantization (Dong, Wang, Ding, & Gao, 2015;Wang, Dong, Shen, & Gao, 2013), missing/fading measurements (Ding, Wang, Lam, & Shen, 2015;Ding, Wang, Shen, & Dong, 2015a,1;Wang, Ding, Dong, & Shu, 2013), communication delays (Hu, Chen, & Du, 2014;Shen, Wang, & Tan, 2017;Wang, Liu, Shen, Alsaadi, & Abdullah, 2017), variable sampling/transmission intervals, sensor saturations and out-of-sequencemeasurement updates (Hu, Wang, Chen, & Alsaadi, 2016;Shen et al, 2009). In particular, a class of emerging network-induced phenomenon (randomly occurring incomplete information) has obtained preliminary research interest in the field of signal processing and control.…”

Section: Networked Control Systemsmentioning

confidence: 99%

A survey on set-membership filtering for networked control systems under communication protocols

Dong

Han

et al. 2018

Systems Science & Control Engineering

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In recent years, the set-membership filtering problem has received extensive research interests due to its engineering significance to estimate a set which includes the true state of the system rather than a single vector. What's more, the communication protocol has been widely applied in the control systems because of its ability to prevent from data collisions and reduce the burden of the network. From the engineering practice, it is of vital importance to investigate the set-membership filtering under communication protocols. In this paper, a bibliographical review is provided on the set-membership filtering for networked control systems (NCSs) under communication protocols. Next, the concept of the NCS is briefly introduced. Some recent advances on the set-membership filtering problem for NCSs are summarized. Then, some well-known scheduling schemes are presented and the results of the set-membership filtering for NCSs under communication protocols are reviewed. Finally, some concluding remarks are given and some potential future research directions are pointed out. ARTICLE HISTORY

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“…However, in a network context, usually the restrictions of the physical equipment or the uncertainties in the external environment, inevitably cause problems in both the sensor outputs and the transmission of such outputs, that can worsen dramatically the quality of the fusion estimators designed without considering these drawbacks [6]. Multiplicative noise uncertainties and missing measurements are some of the random phenomena that usually arise in the sensor measured outputs and motivate the design of new estimation algorithms (see e.g., [7][8][9][10][11], and references therein).…”

Section: Introductionmentioning

confidence: 99%

Fusion Estimation from Multisensor Observations with Multiplicative Noises and Correlated Random Delays in Transmission

2017

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Abstract:In this paper, the information fusion estimation problem is investigated for a class of multisensor linear systems affected by different kinds of stochastic uncertainties, using both the distributed and the centralized fusion methodologies. It is assumed that the measured outputs are perturbed by one-step autocorrelated and cross-correlated additive noises, and also stochastic uncertainties caused by multiplicative noises and randomly missing measurements in the sensor outputs are considered. At each sampling time, every sensor output is sent to a local processor and, due to some kind of transmission failures, one-step correlated random delays may occur. Using only covariance information, without requiring the evolution model of the signal process, a local least-squares (LS) filter based on the measurements received from each sensor is designed by an innovation approach. All these local filters are then fused to generate an optimal distributed fusion filter by a matrix-weighted linear combination, using the LS optimality criterion. Moreover, a recursive algorithm for the centralized fusion filter is also proposed and the accuracy of the proposed estimators, which is measured by the estimation error covariances, is analyzed by a simulation example.

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Estimation, filtering and fusion for networked systems with network-induced phenomena: New progress and prospects

Cited by 146 publications

References 174 publications

Multiple Model Ballistic Missile Tracking With State-Dependent Transitions and Gaussian Particle Filtering

Multiple Model Ballistic Missile Tracking With State-Dependent Transitions and Gaussian Particle Filtering

A survey on set-membership filtering for networked control systems under communication protocols

Fusion Estimation from Multisensor Observations with Multiplicative Noises and Correlated Random Delays in Transmission

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