Complex processes are naturally suitable to be controlled in a decentralized framework: centralized con- trol solutions are often unfeasible in dealing with large scale plants and they are computationally prohib- itive when the processes are too fast for the existing computational resources. In these cases, the resulting control problem is usually split into many smaller subproblems and the global requirements are guaranteed by means of a proper coordination. A coordination strategy based on a networked decen- tralized Model Predictive Control is proposed in this paper for improving the global control performances. The innovative solution is based on independent agents and on a local area network used for exchanging a reduced set of information. The proposed architecture guarantees satisfactory performance under strong interactions among subsystems. A stability analysis is presented for the unconstrained decentral- ized case and the provided stability results are employed for tuning the decentralized controller. Numer- ical simulations are given for testing and validating the proposed technique.
Unconstrained Networked Decentralized Model Predictive Control / Vaccarini, Massimo; Longhi, Sauro; Katebi, R.. - In: JOURNAL OF PROCESS CONTROL. - ISSN 0959-1524. - 19:(2009), pp. 328-339. [10.1016/j.jprocont.2008.03.005]
Unconstrained Networked Decentralized Model Predictive Control
VACCARINI, Massimo;LONGHI, SAURO;
2009-01-01
Abstract
Complex processes are naturally suitable to be controlled in a decentralized framework: centralized con- trol solutions are often unfeasible in dealing with large scale plants and they are computationally prohib- itive when the processes are too fast for the existing computational resources. In these cases, the resulting control problem is usually split into many smaller subproblems and the global requirements are guaranteed by means of a proper coordination. A coordination strategy based on a networked decen- tralized Model Predictive Control is proposed in this paper for improving the global control performances. The innovative solution is based on independent agents and on a local area network used for exchanging a reduced set of information. The proposed architecture guarantees satisfactory performance under strong interactions among subsystems. A stability analysis is presented for the unconstrained decentral- ized case and the provided stability results are employed for tuning the decentralized controller. Numer- ical simulations are given for testing and validating the proposed technique.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.