Integral quadratic constraints (IQC) arise in many optimal and/or robust control problems. The IQC approach can be viewed as a generalization of the classical multiplier approach in the absolute stability theory. In this paper, we study the relationship between the two approaches for robust stability analysis. Using a slightly modified multiplier approach, we show that the existence of an IQC is equivalent to the existence of a multiplier in most known cases. It is hoped that this result provides some new insight into both approaches and makes them more useful in robust control applications
International audienceThis paper proposes a framework to assess the stability of an ordinary differe...
In this paper, we consider a class of uncertain linear systems which are subject to a general type o...
This paper studies the problem of robust stability checking for a single-input single-output uncerta...
In this tutorial paper we revisit the so-called integral quadratic constraint (IQC) approach. This f...
The integral quadratic constraints (IQC) approach facilitates a systematic and efficient analysis of...
Abstract — Integral quadratic constraints (IQCs) provide a general framework for robustness analysis...
This paper considers the robustness of a feedback connection of a known linear parameter varying sys...
This paper gives an overview of the applicability of the stability analysis based on integral quadra...
Conditions for robust input-output stability of barrier-based model predictive control of linear sys...
An integral quadratic constraints (IQC) is introduced for stability analysis of linear systems with ...
Abstract — The paper considers the analysis of the worst-case input/output gain of an interconnectio...
Integral quadratic constraints (IQC:s) can be used for proving stability of systems with uncertainti...
This manuscript develops a new framework to analyze and design iterative opti-mization algorithms bu...
This manuscript develops a new framework to analyze and design iterative opti-mization algorithms bu...
A central notion in systems theory is dissipativity, which has been introduced by Jan Willems with t...
International audienceThis paper proposes a framework to assess the stability of an ordinary differe...
In this paper, we consider a class of uncertain linear systems which are subject to a general type o...
This paper studies the problem of robust stability checking for a single-input single-output uncerta...
In this tutorial paper we revisit the so-called integral quadratic constraint (IQC) approach. This f...
The integral quadratic constraints (IQC) approach facilitates a systematic and efficient analysis of...
Abstract — Integral quadratic constraints (IQCs) provide a general framework for robustness analysis...
This paper considers the robustness of a feedback connection of a known linear parameter varying sys...
This paper gives an overview of the applicability of the stability analysis based on integral quadra...
Conditions for robust input-output stability of barrier-based model predictive control of linear sys...
An integral quadratic constraints (IQC) is introduced for stability analysis of linear systems with ...
Abstract — The paper considers the analysis of the worst-case input/output gain of an interconnectio...
Integral quadratic constraints (IQC:s) can be used for proving stability of systems with uncertainti...
This manuscript develops a new framework to analyze and design iterative opti-mization algorithms bu...
This manuscript develops a new framework to analyze and design iterative opti-mization algorithms bu...
A central notion in systems theory is dissipativity, which has been introduced by Jan Willems with t...
International audienceThis paper proposes a framework to assess the stability of an ordinary differe...
In this paper, we consider a class of uncertain linear systems which are subject to a general type o...
This paper studies the problem of robust stability checking for a single-input single-output uncerta...