Nonlinear control of mechanical systems is a challenging discipline that lies at the intersection between control theory and geometric mechanics. This thesis sheds new light on this interplay while investigating motion control problems for Lagrangian systems. Both stability and motion planning aspects are treated within a unified framework that accounts for a large class of devices such as robotic manipulators, autonomous vehicles and locomotion systems. One distinguishing feature of mechanical systems is the number of control forces. For systems with as many input forces as degrees of freedom, many control problems are tractable. One contribution of this thesis is a set of trajectory tracking controllers designed via the notions of confi...
The problems of modeling and control of mechanical dynamic systems subject to rolling contacts are i...
The problem of designing coordinate-invariant output tracking control laws for nonholonomic mechanic...
We survey the basic theory, results, and applications of geometric control theory. A control system ...
The primary emphasis of this book is the modeling, analysis, and control of mechanical systems. The ...
We present a general framework for the control of Lagrangian systems with as many inputs as degree...
This thesis is organized in two parts. In Part 1, control systems described by a class of nonlinear ...
Many interesting control systems are mechanical control systems. In spite of this, there has not bee...
Due to inherent nonlinearity, the control of mechanical systems dictates the use of nonlinear techni...
In this paper we discuss the control of underactuated mechanical systems. Underactuated mechanical s...
This treatment of modern topics related to the control of nonlinear systems is a collection of contr...
Several aspects of dynamics based motion control of autonomous ground vehicles have been studied. Fo...
The work presented in this talk was initiated by some work which went into my PhD disserta-tion [Lew...
In this paper, we provide controllability tests and motion control algorithms for under-actuated mec...
UnrestrictedThe goal of this work is to develop methods to optimally control autonomous robotic vehi...
This paper addresses formulation of stabilizability and motion tracking conditions for mechanical sy...
The problems of modeling and control of mechanical dynamic systems subject to rolling contacts are i...
The problem of designing coordinate-invariant output tracking control laws for nonholonomic mechanic...
We survey the basic theory, results, and applications of geometric control theory. A control system ...
The primary emphasis of this book is the modeling, analysis, and control of mechanical systems. The ...
We present a general framework for the control of Lagrangian systems with as many inputs as degree...
This thesis is organized in two parts. In Part 1, control systems described by a class of nonlinear ...
Many interesting control systems are mechanical control systems. In spite of this, there has not bee...
Due to inherent nonlinearity, the control of mechanical systems dictates the use of nonlinear techni...
In this paper we discuss the control of underactuated mechanical systems. Underactuated mechanical s...
This treatment of modern topics related to the control of nonlinear systems is a collection of contr...
Several aspects of dynamics based motion control of autonomous ground vehicles have been studied. Fo...
The work presented in this talk was initiated by some work which went into my PhD disserta-tion [Lew...
In this paper, we provide controllability tests and motion control algorithms for under-actuated mec...
UnrestrictedThe goal of this work is to develop methods to optimally control autonomous robotic vehi...
This paper addresses formulation of stabilizability and motion tracking conditions for mechanical sy...
The problems of modeling and control of mechanical dynamic systems subject to rolling contacts are i...
The problem of designing coordinate-invariant output tracking control laws for nonholonomic mechanic...
We survey the basic theory, results, and applications of geometric control theory. A control system ...