This paper presents an extension to the classical gradient-based extremum seeking control for the case when the disturbances responsible for changes in the extremum of a selected performance function are available for measurement. Based on these additional measurements, an adaptive extremum seeking disturbance feedforward is designed that approximates the unknown, static mapping between the disturbances and the optimal inputs. For this purpose, orthogonal, multivariate Tchebyshev polynomials are used. The feedforward enables the extremum seeking to be conducted in the proximity of the extremum thus yielding improvements both in terms of accuracy and increased convergence speed compared to the traditional scheme. Simulation results given for...
Extremum-seeking control is a useful tool for the steady-state performance optimization of plants fo...
In this paper, we propose a perturbation amplitude adaption scheme for phasor extremum seeking contr...
Abstract — We present a systematic approach for design of extremum seeking (ES) controllers for a cl...
This paper presents an extension to the classical gradient-based extremum seeking control for the ca...
This paper presents a practical extension to the classical gradient-based extremum seeking control f...
This paper is concerned with an application of an extremum seeking control to electric power systems...
In many applications, there is a variable that indicates the overall performance and that must be ma...
Extremum-seeking control is an adaptive-control methodology that optimizes the steady-state performa...
Abstract — A unifying, prescriptive framework is presented for the design of a family of adaptive ex...
Extremum seeking control tracks a varying maximum or minimum in a performance function such as a cos...
Abstract—We summarize a unifying design approach to continuous-time extremum seeking that was recent...
While the mainstream methods of adaptive control deal only with regulation to known set points or re...
Extremum-seeking control is a powerful adaptive technique to optimize steady-state system performanc...
Extremum-seeking control is a useful tool for the steady-state performance optimization of plants fo...
In this paper, we propose a perturbation amplitude adaption scheme for phasor extremum seeking contr...
Abstract — We present a systematic approach for design of extremum seeking (ES) controllers for a cl...
This paper presents an extension to the classical gradient-based extremum seeking control for the ca...
This paper presents a practical extension to the classical gradient-based extremum seeking control f...
This paper is concerned with an application of an extremum seeking control to electric power systems...
In many applications, there is a variable that indicates the overall performance and that must be ma...
Extremum-seeking control is an adaptive-control methodology that optimizes the steady-state performa...
Abstract — A unifying, prescriptive framework is presented for the design of a family of adaptive ex...
Extremum seeking control tracks a varying maximum or minimum in a performance function such as a cos...
Abstract—We summarize a unifying design approach to continuous-time extremum seeking that was recent...
While the mainstream methods of adaptive control deal only with regulation to known set points or re...
Extremum-seeking control is a powerful adaptive technique to optimize steady-state system performanc...
Extremum-seeking control is a useful tool for the steady-state performance optimization of plants fo...
In this paper, we propose a perturbation amplitude adaption scheme for phasor extremum seeking contr...
Abstract — We present a systematic approach for design of extremum seeking (ES) controllers for a cl...