In this note, an extremum-seeking controller is developed to steer a periodic system to orbits that maximize a functional of interest for a class of differentially flat nonlinear systems. The problem is posed as a real-time optimal trajectory generation problem in which the optimal orbit is computed using an extremum-seeking approach. Using the flatness property of the dynamics, the original dynamic optimization problem is transformed to a parameterized optimization problem which can be solved in real-time to approximate the optimal orbit. The control algorithm provides tracking of the optimal orbit. A drug delivery control problem is considered to demonstrate the application of the technique
Abstract — A unifying, prescriptive framework is presented for the design of a family of adaptive ex...
The work in this thesis describes our attempts for theoretical advancements to and the experimental ...
Abstract—We summarize a unifying design approach to continuous-time extremum seeking that was recent...
In this paper, an extremum-seeking controller is developed to steer a periodic system to orbits that...
Extremum-seeking control is a powerful adaptive technique to optimize system performance. To this da...
Extremum-seeking control is a powerful adaptive technique to optimize steady-state system performanc...
Extremum seeking control tracks a varying maximum or minimum in a performance function such as a cos...
This dissertation develops a new Extremum Seeking (ES) method, which has a long history as an optimi...
This thesis focuses on a class of real-time model-free optimization methods, the so-called extremum ...
This paper considers the solution of a real-time optimization problem using adaptive extremum seekin...
This paper proposes an alternative extremum seeking control design technique for the solution of rea...
Extremum-seeking control is a useful tool for the steady-state performance optimization of plants fo...
This paper considers the solution of a multi-objective optimization problem using adaptive extremum ...
Abstract — A unifying, prescriptive framework is presented for the design of a family of adaptive ex...
The work in this thesis describes our attempts for theoretical advancements to and the experimental ...
Abstract—We summarize a unifying design approach to continuous-time extremum seeking that was recent...
In this paper, an extremum-seeking controller is developed to steer a periodic system to orbits that...
Extremum-seeking control is a powerful adaptive technique to optimize system performance. To this da...
Extremum-seeking control is a powerful adaptive technique to optimize steady-state system performanc...
Extremum seeking control tracks a varying maximum or minimum in a performance function such as a cos...
This dissertation develops a new Extremum Seeking (ES) method, which has a long history as an optimi...
This thesis focuses on a class of real-time model-free optimization methods, the so-called extremum ...
This paper considers the solution of a real-time optimization problem using adaptive extremum seekin...
This paper proposes an alternative extremum seeking control design technique for the solution of rea...
Extremum-seeking control is a useful tool for the steady-state performance optimization of plants fo...
This paper considers the solution of a multi-objective optimization problem using adaptive extremum ...
Abstract — A unifying, prescriptive framework is presented for the design of a family of adaptive ex...
The work in this thesis describes our attempts for theoretical advancements to and the experimental ...
Abstract—We summarize a unifying design approach to continuous-time extremum seeking that was recent...