International audienceConstructive Tool for Orbital Stabilization of Underactuated Nonlinear Systems: Virtual Constraints Approach Shiriaev, A. Perram, J.W. Canudas-de-Wit, C. We present a constructive tool for generation and orbital stabilization of periodic solutions for underactuated nonlinear systems. Our method can be applied to any mechanical system with a number of independent actuators smaller than the number of degrees of freedom by one. The synthesized feedback control law is nonlinear and time-dependent. It is derived from a feedback structure that explicitly uses the general or full integral of the systems zero dynamics. The control law generates a periodic solution and makes it exponentially orbitally stable
The paper contributes to developing algorithms for motion planning and motion control for mechanical...
This paper proposes a simpler solution to the stabilization problem of a special class of nonlinear ...
Many control design methods for underactuated systems require solving a partial differential equatio...
Orbital stabilization is a particular form of set stabilization, where the control objective is to i...
Robust periodic motion generation is developed for a class of mechanical systems with actuator dynam...
Abstract: This paper provides an introduction to several problems and techniques related to controll...
In this note we study the generation of attractive oscillations of a class of mechanical systems wit...
The paper suggests an explicit form of a general integral of motion for some classes of dynamical sy...
Immersion and invariance is a technique for the design of stabilizing and adaptive controllers and s...
The problem of trajectory planning and control design for underactuated mechanicalsystems is a nontr...
International audienceA method for the generation of attractive and neutrally stable limit cycles fo...
This article investigates the problem of enforcing a virtual holonomic constraint (VHC) on a mechani...
International audienceThe transverse linearization is a useful tool for the design of feedback contr...
This thesis is devoted to nonlinear control, reduction, and classification of underactuated mechanic...
A numerical framework for finding and stabilizing periodic trajectories of underactuated mechanical ...
The paper contributes to developing algorithms for motion planning and motion control for mechanical...
This paper proposes a simpler solution to the stabilization problem of a special class of nonlinear ...
Many control design methods for underactuated systems require solving a partial differential equatio...
Orbital stabilization is a particular form of set stabilization, where the control objective is to i...
Robust periodic motion generation is developed for a class of mechanical systems with actuator dynam...
Abstract: This paper provides an introduction to several problems and techniques related to controll...
In this note we study the generation of attractive oscillations of a class of mechanical systems wit...
The paper suggests an explicit form of a general integral of motion for some classes of dynamical sy...
Immersion and invariance is a technique for the design of stabilizing and adaptive controllers and s...
The problem of trajectory planning and control design for underactuated mechanicalsystems is a nontr...
International audienceA method for the generation of attractive and neutrally stable limit cycles fo...
This article investigates the problem of enforcing a virtual holonomic constraint (VHC) on a mechani...
International audienceThe transverse linearization is a useful tool for the design of feedback contr...
This thesis is devoted to nonlinear control, reduction, and classification of underactuated mechanic...
A numerical framework for finding and stabilizing periodic trajectories of underactuated mechanical ...
The paper contributes to developing algorithms for motion planning and motion control for mechanical...
This paper proposes a simpler solution to the stabilization problem of a special class of nonlinear ...
Many control design methods for underactuated systems require solving a partial differential equatio...