Soft actuators offer a safe, adaptable approach to tasks like gentle grasping and dexterous manipulation. Creating accurate models to control such systems however is challenging due to the complex physics of deformable materials. Accurate Finite Element Method (FEM) models incur prohibitive computational complexity for closed-loop use. Using a differentiable simulator is an attractive alternative, but their applicability to soft actuators and deformable materials remains underexplored. This paper presents a framework that combines the advantages of both. We learn a differentiable model consisting of a material properties neural network and an analytical dynamics model of the remainder of the manipulation task. This physics-informed model is...
We present a general strategy for the modeling and simulation-based control of soft robots. Although...
Soft robots are made of compliant materials, which increase their flexibility but also presents mode...
Soft robotic manipulators are on the verge to their first real applications. In most cases they are ...
International audienceIn this paper, we present a new method for the control of soft robots with ela...
Soft robots that are built from materials with mechanical properties similar to those of living tiss...
In the context of robotic manipulation and grasping, the shift from a view that is static (force clo...
In the context of robotic manipulation and grasping, the shift from a view that is static (force clo...
Controller design for continuum robots maintains to be a difficult task. Testing controllers require...
Soft mechanical systems constitute stretchable skins, tissue-like appendages, fibers and fluids, and...
International audienceDue to the complexity of modeling deformable materials and infinite degrees of...
Soft robots have the potential to significantly change the way that robots interact with the environ...
International audienceIn this paper, a method for dexterous manipulation of 3D soft objects for real...
Accurate simulation of soft mechanisms under dynamic actuation is critical for the design of soft ro...
Dielectric elastomers actuators (DEAs) are among the preferred materials for developing lightweight,...
The interaction of a robotic manipulator with unknown soft objects represents a significant challeng...
We present a general strategy for the modeling and simulation-based control of soft robots. Although...
Soft robots are made of compliant materials, which increase their flexibility but also presents mode...
Soft robotic manipulators are on the verge to their first real applications. In most cases they are ...
International audienceIn this paper, we present a new method for the control of soft robots with ela...
Soft robots that are built from materials with mechanical properties similar to those of living tiss...
In the context of robotic manipulation and grasping, the shift from a view that is static (force clo...
In the context of robotic manipulation and grasping, the shift from a view that is static (force clo...
Controller design for continuum robots maintains to be a difficult task. Testing controllers require...
Soft mechanical systems constitute stretchable skins, tissue-like appendages, fibers and fluids, and...
International audienceDue to the complexity of modeling deformable materials and infinite degrees of...
Soft robots have the potential to significantly change the way that robots interact with the environ...
International audienceIn this paper, a method for dexterous manipulation of 3D soft objects for real...
Accurate simulation of soft mechanisms under dynamic actuation is critical for the design of soft ro...
Dielectric elastomers actuators (DEAs) are among the preferred materials for developing lightweight,...
The interaction of a robotic manipulator with unknown soft objects represents a significant challeng...
We present a general strategy for the modeling and simulation-based control of soft robots. Although...
Soft robots are made of compliant materials, which increase their flexibility but also presents mode...
Soft robotic manipulators are on the verge to their first real applications. In most cases they are ...