This thesis presents a new method for the controllable damping of deformable objects. The method evolves from physically based techniques; however, it allows for non-physical, but visually plausible motion. This flexibility leads to a simple interface, with intuitive control over the behaviour of the material. This method is particularly suited for strongly damped materials, which account for the majority of objects of interest to animation, since it produces non-oscillatory behaviour. This is similar to critical damping, except that it affects all modes independently. The new method is based on the minimization of a slightly modified version of total energy. This framework can be used to simulate many other physical phenomena, and th...
The consistently conducted analytical, numerical and experimental studies of nonlinear damped vibrat...
International audienceMass-spring systems simulations rely on the numerical integration method used ...
In this paper a model-free approach for damping control of Variable Stiffness Actuators is proposed....
Damping mechanisms exist in all vibration systems, but their nature is little understood and there i...
This paper addresses the problem of handling deformable linear objects (DLOs) in a suitable way to a...
When suspended payloads are moved in a material handling environment pendulum like oscillations are ...
International audienceWe propose a system capable in real time of adding controllable and plausible ...
Solid damping is the phenomena whereby elastic and inelastic materials dissipate energy when subject...
This paper presents a new methodology for deformable object simulation by drawing an analogy between...
Damping determines how the energy in dynamic deformations is dissipated. The design of damping requi...
This thesis explores a variation of a technique, called "displacement constraints" [19], used for cr...
The term damping is used to describe the means by which oscillation amplitudes are reduced through i...
Characterization of damping forces in a vibrating structure has long been an active area of research...
Abstract: A new concept of semi-active damping of vibration in adaptive structures (equipped with co...
This dissertation proposes a theory for motion control in large flexible structures. The control app...
The consistently conducted analytical, numerical and experimental studies of nonlinear damped vibrat...
International audienceMass-spring systems simulations rely on the numerical integration method used ...
In this paper a model-free approach for damping control of Variable Stiffness Actuators is proposed....
Damping mechanisms exist in all vibration systems, but their nature is little understood and there i...
This paper addresses the problem of handling deformable linear objects (DLOs) in a suitable way to a...
When suspended payloads are moved in a material handling environment pendulum like oscillations are ...
International audienceWe propose a system capable in real time of adding controllable and plausible ...
Solid damping is the phenomena whereby elastic and inelastic materials dissipate energy when subject...
This paper presents a new methodology for deformable object simulation by drawing an analogy between...
Damping determines how the energy in dynamic deformations is dissipated. The design of damping requi...
This thesis explores a variation of a technique, called "displacement constraints" [19], used for cr...
The term damping is used to describe the means by which oscillation amplitudes are reduced through i...
Characterization of damping forces in a vibrating structure has long been an active area of research...
Abstract: A new concept of semi-active damping of vibration in adaptive structures (equipped with co...
This dissertation proposes a theory for motion control in large flexible structures. The control app...
The consistently conducted analytical, numerical and experimental studies of nonlinear damped vibrat...
International audienceMass-spring systems simulations rely on the numerical integration method used ...
In this paper a model-free approach for damping control of Variable Stiffness Actuators is proposed....