We address the problem of synthesizingre al-time embedded controllers takingin to account constraints deriving form the implementation platform. Specifically, we address the problem of controllinga set of independent systems by usinga shared single CPU processor board. Assuming a time-triggered model of computation for control processes and a real-time preemptive schedulingp olicy, the problem of optimizing robustness of the controlled systems is formulated. Decision variables of the optimization problem are the processes’ activation periods and the feedback gains. The analytical formulation of the problem enables an efficient numerical solution based on a Branch and Bound scheme. The resulting design is directly implementable without performance degradations due to schedulinga nd execution delays.
Synthesis of robust control systems under resource constraints
2002-01-01
Abstract
We address the problem of synthesizingre al-time embedded controllers takingin to account constraints deriving form the implementation platform. Specifically, we address the problem of controllinga set of independent systems by usinga shared single CPU processor board. Assuming a time-triggered model of computation for control processes and a real-time preemptive schedulingp olicy, the problem of optimizing robustness of the controlled systems is formulated. Decision variables of the optimization problem are the processes’ activation periods and the feedback gains. The analytical formulation of the problem enables an efficient numerical solution based on a Branch and Bound scheme. The resulting design is directly implementable without performance degradations due to schedulinga nd execution delays.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
