DTHMM based delay modeling and prediction for networked control systems

doi:10.3969/j.issn.1004-4132.2010.06.014

Abstract

Abstract:

In the forward channel of a networked control system (NCS), by defining the network states as a hidden Markov chain and quantizing the network-induced delays to a discrete sequence distributing over a finite time interval, the relation between the network states and the network-induced delays is modelled as a discrete-time hidden Markov model (DTHMM). The expectation maximization (EM) algorithm is introduced to derive the maximumlikelihood estimation (MLE) of the parameters of the DTHMM.Based on the derived DTHMM, the Viterbi algorithm is introduced to predict the controller-to-actuator (C-A) delay during the current sampling period. The simulation experiments demonstrate the effectiveness of the modelling and predicting methods proposed.

Key words: networked control system, discrete-time hidden Markov model, network state, delay prediction

Shuang Cong, Yuan Ge, Qigong Chen, Ming Jiang, and Weiwei Shang. DTHMM based delay modeling and prediction for networked control systems[J]. Journal of Systems Engineering and Electronics, 2010, 21(6): 1014-1024.

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DTHMM based delay modeling and prediction for networked control systems

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