This paper describes a mechanics–based framework for virtual prototyping of soft robots, i.e. robots with deformable bodies and flexible joints. The framework builds on top of the screw theory, and uses geometrically exact nonlinear beam models for describing the behavior of deformable bodies, as well as the finite element method for space discretization. The computer implementation of this framework results in SimSOFT, a physics engine for soft robots. The capabilities of the framework are illustrated with one general example, an articulated chain of rigid and soft links connected through rigid and flexible joints. Furthermore, several case studies are shown for industrial and medical applications
This paper reports about the virtual and physical prototyping of an antagonistic Variable Stiffness ...
International audienceDue to the complexity of modeling deformable materials and infinite degrees of...
International audienceThe technological differences between traditional robotics and soft robotics h...
This paper describes a mechanics–based framework for virtual prototyping of soft robots, i.e. robots...
Enabling remote semi-autonomous operations in hazardous environments is a challenging technological ...
Mathematical modeling of soft robots is complicated by the description of the continuously deformabl...
Soft robots are one of the most significant recent evolutions in robotics. They rely on compliant ph...
This paper reviews the current status of soft robots in biomedical field. Soft robots are made of ma...
In this paper, an elastic deformation modeling method of series robots with consideration of gravity...
This chapter is organized into two main parts: the first one focuses on different applications of th...
A soft joint has been designed and modeled to perform as a robotic joint with 2 Degrees of Freedom (...
Soft robots that are built from materials with mechanical properties similar to those of living tiss...
Soft and compliant robotic systems have the potential to interact with humans and complex environmen...
Inspired by biological systems, soft robotics has become a new research field that builds compliance...
International audienceIn this paper, we present a new method for the control of soft robots with ela...
This paper reports about the virtual and physical prototyping of an antagonistic Variable Stiffness ...
International audienceDue to the complexity of modeling deformable materials and infinite degrees of...
International audienceThe technological differences between traditional robotics and soft robotics h...
This paper describes a mechanics–based framework for virtual prototyping of soft robots, i.e. robots...
Enabling remote semi-autonomous operations in hazardous environments is a challenging technological ...
Mathematical modeling of soft robots is complicated by the description of the continuously deformabl...
Soft robots are one of the most significant recent evolutions in robotics. They rely on compliant ph...
This paper reviews the current status of soft robots in biomedical field. Soft robots are made of ma...
In this paper, an elastic deformation modeling method of series robots with consideration of gravity...
This chapter is organized into two main parts: the first one focuses on different applications of th...
A soft joint has been designed and modeled to perform as a robotic joint with 2 Degrees of Freedom (...
Soft robots that are built from materials with mechanical properties similar to those of living tiss...
Soft and compliant robotic systems have the potential to interact with humans and complex environmen...
Inspired by biological systems, soft robotics has become a new research field that builds compliance...
International audienceIn this paper, we present a new method for the control of soft robots with ela...
This paper reports about the virtual and physical prototyping of an antagonistic Variable Stiffness ...
International audienceDue to the complexity of modeling deformable materials and infinite degrees of...
International audienceThe technological differences between traditional robotics and soft robotics h...