Add to ORKGIn this paper, a new approach is developed for robust control of nonlinear chemical processes. The methodology proposed is based on passivity theory. Uncertainty and perturbations are taken into account in the stability analysis and controller synthesis such that the resulting closed-loop system can achieve better robustness and performance. The suggested passivity framework can deal with a large class of uncertainties and perturbations in chemical processes
AbstractTo date, sensitivity, bifurcation and singularity analysis have been employed to identify an...
Chemical process systems, and among them free-radical polymerization (FRP) systems, belong to compl...
Passivity based controllers are known to provide robust stability for inherently passive dynamic sys...
The robust control problem for nonlinear multi-unit chemical processes is addressed. The processes d...
This paper presents the development of a Passivity-Based Controller (PBCr) from a First-Order-Plus-D...
In this thesis, we develop a passivity-based adaptive control framework for controlling nonlinear pr...
The operation of a chemical process plant has become more complex with the addition of process integ...
The design of robust nonlinear feedback-feedforward controllers for state-variable nonlinear systems...
This paper highlights some of our recent results on control of single-input single-output constraine...
[[abstract]]©1992 Elsevier - Chemical process control is subjected to uncertainty due to uncertain m...
The research effort under this cooperative agreement has been essentially the continuation of the wo...
In this paper, a new robust stability criterion for linear systems is proposed by combining the pass...
11 pages, 6 figuresIn this paper we combine recent results that link passivity, as it is understood ...
abstract: Robust control design has been increasingly used in industrial settings by leading automat...
Publications applying the concepts of passivity and dissipativeness to the control of nonlinear syst...
AbstractTo date, sensitivity, bifurcation and singularity analysis have been employed to identify an...
Chemical process systems, and among them free-radical polymerization (FRP) systems, belong to compl...
Passivity based controllers are known to provide robust stability for inherently passive dynamic sys...
The robust control problem for nonlinear multi-unit chemical processes is addressed. The processes d...
This paper presents the development of a Passivity-Based Controller (PBCr) from a First-Order-Plus-D...
In this thesis, we develop a passivity-based adaptive control framework for controlling nonlinear pr...
The operation of a chemical process plant has become more complex with the addition of process integ...
The design of robust nonlinear feedback-feedforward controllers for state-variable nonlinear systems...
This paper highlights some of our recent results on control of single-input single-output constraine...
[[abstract]]©1992 Elsevier - Chemical process control is subjected to uncertainty due to uncertain m...
The research effort under this cooperative agreement has been essentially the continuation of the wo...
In this paper, a new robust stability criterion for linear systems is proposed by combining the pass...
11 pages, 6 figuresIn this paper we combine recent results that link passivity, as it is understood ...
abstract: Robust control design has been increasingly used in industrial settings by leading automat...
Publications applying the concepts of passivity and dissipativeness to the control of nonlinear syst...
AbstractTo date, sensitivity, bifurcation and singularity analysis have been employed to identify an...
Chemical process systems, and among them free-radical polymerization (FRP) systems, belong to compl...
Passivity based controllers are known to provide robust stability for inherently passive dynamic sys...