2018
DOI: 10.1016/j.cherd.2018.04.045
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Comprehensive study of decomposition effects on distributed output tracking of an integrated process over a wide operating range

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Cited by 25 publications
(15 citation statements)
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“…Then, a distributed control system (e.g., DMPC) is developed with local controllers designed based on the same subsystem models. The distributed state estimation system provides state estimates, based on which the distributed control system generates control actions.Remark It has been demonstrated by Pourkargar et al that subsystem decompositions based on community detection can result in good closed‐loop control performance of distributed control with reduced computational complexity. Also, it is shown that the modularity value can be a good indicator of the best achievable control performance of different subsystem decompositions.…”
Section: Proposed Subsystem Decomposition Methodsmentioning
confidence: 99%
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“…Then, a distributed control system (e.g., DMPC) is developed with local controllers designed based on the same subsystem models. The distributed state estimation system provides state estimates, based on which the distributed control system generates control actions.Remark It has been demonstrated by Pourkargar et al that subsystem decompositions based on community detection can result in good closed‐loop control performance of distributed control with reduced computational complexity. Also, it is shown that the modularity value can be a good indicator of the best achievable control performance of different subsystem decompositions.…”
Section: Proposed Subsystem Decomposition Methodsmentioning
confidence: 99%
“…In the study by Pourkargar et al, the community‐based method was applied to a benchmark chemical process to recommend different distributed control structures, and DMPC was designed based on each structure for extensive performance comparison. In the study by Pourkargar et al, the impact of an optimal decomposition on the control performance of distributed set‐point tracking control was systematically studied. The effects on the closed‐loop performance caused by the use of different classes of dynamic optimization solvers, different levels of cooperation, and communication protocols were also investigated.…”
Section: Introductionmentioning
confidence: 99%
“…The argument behind this measure is that modular organizations that arise in natural systems are nonrandom. This measure is intuitive and has seen many interesting applications; for instance, this measure has been shown to provide a flexible and powerful tool for the analysis and design of control architectures and for the decomposition of large‐scale optimization problems . A powerful generalization of Newman's measure has been proposed in Reference and here it was shown that systems of high modularity are extremum points of a Hamiltonian function.…”
Section: Introductionmentioning
confidence: 98%
“…Furthermore, feasible mitigation practices using control strategies after the occurrence of attacks have not yet been explored. In light of these gaps, the contributions of this work are as follows: (a) construction of data‐based machine‐learning detection algorithms which can effectively detect multiple classes of intelligent cyber‐attacks; (b) design of a robust control architecture to promptly contain and eliminate the impact of cyber‐attacks by reconfiguring the control system; and (c) application of the proposed detection and mitigation schemes to a benchmark multivariable nonlinear process example, which is a process example widely used in literature to test the performance of new control system designs . The remainder of this paper is organized as follows: notation and the class of nonlinear process systems considered are presented in Section 2; the cyber‐secure control architecture is formulated in Section 3; the design and detection mechanism of cyber‐attacks are presented in Section 4; and the application of the proposed methodology to a nonlinear chemical process network is presented in Section 5.…”
Section: Introductionmentioning
confidence: 99%