System Level Synthesis (SLS) allows us to construct internally stabilizing controllers for large-scale systems. However, solving large-scale SLS problems is computationally expensive and the state-of-the-art methods consider only state feedback; output feedback poses additional challenges because the constraints are no longer uniquely row or column separable. We exploit the structure of the output-feedback SLS problem by vectorizing the multi-sided matrix multiplications in the SLS optimization constraints, which allows us to reformulate it as a discrete-time control problem and solve using two stages of dynamic programming (DP). Additionally, we derive an approximation algorithm that offers a faster runtime by partially enforcing the con...
The dual iteration was introduced in a conference paper in 1997 by Iwasaki as an iterative and heuri...
This tutorial paper provides an overview of the System Level Approach to control synthesis; a scalab...
A major challenge faced in the design of large-scale cyber-physical systems, such as power systems, ...
This article surveys the System Level Synthesis framework, which presents a novel perspective on con...
We introduce the system level approach to controller synthesis, which is composed of three elements:...
This work introduces a controller synthesis method via system level synthesis for nonlinear systems ...
In Part I, a novel Galerkin-type method for finite dimensional approximations of transfer functions ...
Biological and advanced cyber-physical control systems often have limited, sparse, uncertain, and di...
We derive novel methods that allow to synthesize LPV state-feedback controllers directly from a sing...
This paper investigates the problems of stabilization and mixed H2/H infinity reduced-order dynamic ...
International audienceThis paper is concerned with the problem of static output-feedback stabilizati...
We show that given a desired closed-loop response for a system, there exists an affine subspace of c...
This paper considers the problem of controlling discrete-time linear systems from specifications giv...
This work proposes a technique for the design of stabilizing dynamic output feedback controllers for...
This paper considers an algorithm for synthesis of optimal controllers for full information feedback...
The dual iteration was introduced in a conference paper in 1997 by Iwasaki as an iterative and heuri...
This tutorial paper provides an overview of the System Level Approach to control synthesis; a scalab...
A major challenge faced in the design of large-scale cyber-physical systems, such as power systems, ...
This article surveys the System Level Synthesis framework, which presents a novel perspective on con...
We introduce the system level approach to controller synthesis, which is composed of three elements:...
This work introduces a controller synthesis method via system level synthesis for nonlinear systems ...
In Part I, a novel Galerkin-type method for finite dimensional approximations of transfer functions ...
Biological and advanced cyber-physical control systems often have limited, sparse, uncertain, and di...
We derive novel methods that allow to synthesize LPV state-feedback controllers directly from a sing...
This paper investigates the problems of stabilization and mixed H2/H infinity reduced-order dynamic ...
International audienceThis paper is concerned with the problem of static output-feedback stabilizati...
We show that given a desired closed-loop response for a system, there exists an affine subspace of c...
This paper considers the problem of controlling discrete-time linear systems from specifications giv...
This work proposes a technique for the design of stabilizing dynamic output feedback controllers for...
This paper considers an algorithm for synthesis of optimal controllers for full information feedback...
The dual iteration was introduced in a conference paper in 1997 by Iwasaki as an iterative and heuri...
This tutorial paper provides an overview of the System Level Approach to control synthesis; a scalab...
A major challenge faced in the design of large-scale cyber-physical systems, such as power systems, ...