Add to ORKGThis paper considers the problem of designing controllers to place simultaneously the closed-loop eigenvalues of a finite number of plants, representing different operating conditions of a system, in a specific region in the left half of the complex s plane. The problem of selecting the controller gains is converted to a simple optimization problem with an eigenvalue-based performance criterion, which is solved by a tabu search. Various performance criteria are suggested and formulated, allowing the eigenvalue placement in distinctive locations in the complex s plane. Several examples are included to demonstrate the usefulness of the method
Abstract—This paper demonstrates the robust tuning of power systems stabilizers for power systems, o...
Abstract—An arbitrary subset (n−m) of the (n) closed loop eigenvalues of an nth order continuous tim...
This paper deals with some aspects of eigenvalue placement by state feedback for generalized linear ...
This paper considers the problem of designing controllers to place simultaneously the closed-loop ei...
This paper considers the problem of designing controllers to place simultaneously the closed-loop ei...
This paper considers the problem of designing controllers to place simultaneously the closed-loop ei...
This paper demonstrates the use of genetic algorithms to design a single output feedback control law...
This paper demonstrates the use of genetic algorithms to design a single output feedback control law...
This paper demonstrates the use of genetic algorithms to design a single output feedback control law...
Summary form only given as follows. This paper demonstrates the robust tuning of power systems stabi...
Summary form only given as follows. This paper demonstrates the robust tuning of power systems stabi...
Summary form only given as follows. This paper demonstrates the robust tuning of power systems stabi...
The eigenvalue assignment/pole placement procedure has found application in a wide variety of contro...
AbstractWithin the framework of modal control of large systems, a simple approach is advanced for th...
The eigenvalue assignment/pole placement procedure has found application in a wide variety of contro...
Abstract—This paper demonstrates the robust tuning of power systems stabilizers for power systems, o...
Abstract—An arbitrary subset (n−m) of the (n) closed loop eigenvalues of an nth order continuous tim...
This paper deals with some aspects of eigenvalue placement by state feedback for generalized linear ...
This paper considers the problem of designing controllers to place simultaneously the closed-loop ei...
This paper considers the problem of designing controllers to place simultaneously the closed-loop ei...
This paper considers the problem of designing controllers to place simultaneously the closed-loop ei...
This paper demonstrates the use of genetic algorithms to design a single output feedback control law...
This paper demonstrates the use of genetic algorithms to design a single output feedback control law...
This paper demonstrates the use of genetic algorithms to design a single output feedback control law...
Summary form only given as follows. This paper demonstrates the robust tuning of power systems stabi...
Summary form only given as follows. This paper demonstrates the robust tuning of power systems stabi...
Summary form only given as follows. This paper demonstrates the robust tuning of power systems stabi...
The eigenvalue assignment/pole placement procedure has found application in a wide variety of contro...
AbstractWithin the framework of modal control of large systems, a simple approach is advanced for th...
The eigenvalue assignment/pole placement procedure has found application in a wide variety of contro...
Abstract—This paper demonstrates the robust tuning of power systems stabilizers for power systems, o...
Abstract—An arbitrary subset (n−m) of the (n) closed loop eigenvalues of an nth order continuous tim...
This paper deals with some aspects of eigenvalue placement by state feedback for generalized linear ...