Distributed Stochastic MPC of Linear Systems with Additive Uncertainty and Coupled Probabilistic Constraints

Li Dai; Yuanqing Xia; Yulong Gao; Mark Cannon

doi:10.1109/TAC.2016.2612822

Distributed Stochastic MPC of Linear Systems with Additive Uncertainty and Coupled Probabilistic Constraints

Li Dai, Yuanqing Xia, Yulong Gao, Mark Cannon

School of Automation

Research output: Contribution to journal › Article › peer-review

53 Citations (Scopus)

Abstract

This technical note develops a new form of distributed stochastic model predictive control (DSMPC) algorithm for a group of linear stochastic subsystems subject to additive uncertainty and coupled probabilistic constraints. We provide an appropriate way to design the DSMPC algorithm by extending a centralized SMPC (CSMPC) scheme. To achieve the satisfaction of coupled probabilistic constraints in a distributed manner, only one subsystem is permitted to optimize at each time step. In addition, by making explicit use of the probabilistic distribution of the uncertainties, probabilistic constraints are converted into a set of deterministic constraints for the predictions of nominal models. The distributed controller can achieve recursive feasibility and ensure closed-loop stability for any choice of update sequence. Numerical examples illustrate the efficacy of the algorithm.

Original language	English
Article number	7574385
Pages (from-to)	3474-3481
Number of pages	8
Journal	IEEE Transactions on Automatic Control
Volume	62
Issue number	7
DOIs	https://doi.org/10.1109/TAC.2016.2612822
Publication status	Published - Jul 2017

Keywords

Distributed control
model predictive control (MPC)
probabilistic constraints
stochastic systems

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10.1109/TAC.2016.2612822

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abstract = "This technical note develops a new form of distributed stochastic model predictive control (DSMPC) algorithm for a group of linear stochastic subsystems subject to additive uncertainty and coupled probabilistic constraints. We provide an appropriate way to design the DSMPC algorithm by extending a centralized SMPC (CSMPC) scheme. To achieve the satisfaction of coupled probabilistic constraints in a distributed manner, only one subsystem is permitted to optimize at each time step. In addition, by making explicit use of the probabilistic distribution of the uncertainties, probabilistic constraints are converted into a set of deterministic constraints for the predictions of nominal models. The distributed controller can achieve recursive feasibility and ensure closed-loop stability for any choice of update sequence. Numerical examples illustrate the efficacy of the algorithm.",

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AB - This technical note develops a new form of distributed stochastic model predictive control (DSMPC) algorithm for a group of linear stochastic subsystems subject to additive uncertainty and coupled probabilistic constraints. We provide an appropriate way to design the DSMPC algorithm by extending a centralized SMPC (CSMPC) scheme. To achieve the satisfaction of coupled probabilistic constraints in a distributed manner, only one subsystem is permitted to optimize at each time step. In addition, by making explicit use of the probabilistic distribution of the uncertainties, probabilistic constraints are converted into a set of deterministic constraints for the predictions of nominal models. The distributed controller can achieve recursive feasibility and ensure closed-loop stability for any choice of update sequence. Numerical examples illustrate the efficacy of the algorithm.

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Distributed Stochastic MPC of Linear Systems with Additive Uncertainty and Coupled Probabilistic Constraints

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