This paper presents an approach towards guaranteed trajectory tracking for nonlinear control-affine systems subject to external disturbances based on robust control contraction metrics (CCM) that aims to minimize the $\mathcal L_\infty$ gain from the disturbances to nominal-actual trajectory deviations. The guarantee is in the form of invariant tubes, computed offline and valid for any nominal trajectories, in which the actual states and inputs of the system are guaranteed to stay despite disturbances. Under mild assumptions, we prove that the proposed robust CCM (RCCM) approach yields tighter tubes than an existing approach based on CCM and input-to-state stability analysis. We show how the RCCM-based tracking controller together with tube...
In this article, we present a virtual control contraction metric (VCCM) based nonlinear parameter-va...
Nonlinear control of mechanical systems is a challenging discipline that lies at the intersection be...
We study an important class of feedback controllers that arise in curve tracking problems for roboti...
Control design for general nonlinear robotic systems with guaranteed stability and/or safety in the ...
We present a motion planning algorithm for a class of uncertain control-affine nonlinear systems whi...
We present a framework for online generation of robust motion plans for robotic systems with nonline...
This paper presents an approach to trajectory-centric learning control based on contraction metrics ...
We propose a novel framework for learning stabilizable nonlinear dynamical systems for continuous co...
©2011 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for al...
We analyze an important class of feedback controllers for curve tracking problems for robotics. Earl...
Autonomous robots that are capable of operating safely in the presence of imperfect model knowledge ...
In this work, we investigate constructive control methods for affine nonlinear systems based on rece...
© The Author(s) 2020. We propose a novel framework for learning stabilizable nonlinear dynamical sys...
Abstract — We present a general notion of robust motion specification and a mechanism for sequential...
Gain-scheduled control based on linear parameter-varying (LPV) models derived from local linearizati...
In this article, we present a virtual control contraction metric (VCCM) based nonlinear parameter-va...
Nonlinear control of mechanical systems is a challenging discipline that lies at the intersection be...
We study an important class of feedback controllers that arise in curve tracking problems for roboti...
Control design for general nonlinear robotic systems with guaranteed stability and/or safety in the ...
We present a motion planning algorithm for a class of uncertain control-affine nonlinear systems whi...
We present a framework for online generation of robust motion plans for robotic systems with nonline...
This paper presents an approach to trajectory-centric learning control based on contraction metrics ...
We propose a novel framework for learning stabilizable nonlinear dynamical systems for continuous co...
©2011 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for al...
We analyze an important class of feedback controllers for curve tracking problems for robotics. Earl...
Autonomous robots that are capable of operating safely in the presence of imperfect model knowledge ...
In this work, we investigate constructive control methods for affine nonlinear systems based on rece...
© The Author(s) 2020. We propose a novel framework for learning stabilizable nonlinear dynamical sys...
Abstract — We present a general notion of robust motion specification and a mechanism for sequential...
Gain-scheduled control based on linear parameter-varying (LPV) models derived from local linearizati...
In this article, we present a virtual control contraction metric (VCCM) based nonlinear parameter-va...
Nonlinear control of mechanical systems is a challenging discipline that lies at the intersection be...
We study an important class of feedback controllers that arise in curve tracking problems for roboti...