Article
(CDSSMPC) and a Decentralized PI-D (DPI-D) controller. These both techniques are designed by using respectively the Laguerres functions and the static decoupler approach. To demonstrate the effectiveness of the two methods, an implementation on an aerothermic process is performed. This pilot scale is fully connected through the Humusoft MF624 data acquisition system for real time control. The results show satisfactory performance in closedloop of the DPI-D controller compared to the CDSSMPC and the
M. Ramzi,
H. Youlal
International Journal on Smart Sensing and Intelligent Systems , ISSUE 4, 1830–1849
Article
The interactions between input/output in multivariable processes represent a major challenge in the design of decentralized controllers. In this paper, a simple method for the design of decentralized PID controller is proposed. It consists to combine the conventional PID controller with the static decoupler approach. For each single loop, the individual controller is independently designed by applying the internal model control (IMC) tuning rules. To demonstrate the effectiveness of the
M. Ramzi,
H. Youlal,
M. Haloua
International Journal on Smart Sensing and Intelligent Systems , ISSUE 2, 487–503
Article
M. Ramzi,
N. Bennis,
M. Haloua,
H. Youlal
International Journal on Smart Sensing and Intelligent Systems , ISSUE 4, 1003–1018