International audienceThis paper presents a modeling methodology and experimental validation for soft 1 manipulators to obtain forward and inverse kinematic models under quasistatic conditions. It offers a way to obtain the kinematic characteristics of this type of soft robots that is suitable for offline path planning and position control. The modeling methodology presented relies on continuum mechanics which does not provide analytic solutions in the general case. Our approach proposes a real-time numerical integration strategy based on Finite Element Method (FEM) with a numerical optimization based on Lagrangian Multipliers to obtain forward and inverse models. To reduce the dimension of the problem, at each step, a projection of the mod...
Soft continuum manipulators have the advantage of being more compliant and having more degrees of fr...
Soft robots are interesting examples of hyper-redundancy in robotics. However, the nonlinear continu...
This work investigates the applicability of stiffness-based modelling in soft robotics manipulation....
Enabling remote semi-autonomous operations in hazardous environments is a challenging technological ...
International audienceThis paper aims at providing a novel approach to modeling and controlling soft...
This work provides new methods for the kinematic modeling and control of soft, continuum manipulator...
Soft robots that are built from materials with mechanical properties similar to those of living tiss...
International audienceThis paper presents a physically-based algorithm to interactively simulate and...
International audienceIn this paper, we present a new method for the control of soft robots with ela...
Soft robots are made of compliant and deformable materials and can perform tasks challenging for con...
International audienceIn this paper, we propose a method to control the motion of soft robots able t...
International audienceThe technological differences between traditional robotics and soft robotics h...
International audienceThis paper presents a computationally efficient method to model and simulate s...
Includes bibliographical references.This work presents an approach for modelling and computing the f...
International audienceIn this paper, we propose a strategy for the control of soft robots with visua...
Soft continuum manipulators have the advantage of being more compliant and having more degrees of fr...
Soft robots are interesting examples of hyper-redundancy in robotics. However, the nonlinear continu...
This work investigates the applicability of stiffness-based modelling in soft robotics manipulation....
Enabling remote semi-autonomous operations in hazardous environments is a challenging technological ...
International audienceThis paper aims at providing a novel approach to modeling and controlling soft...
This work provides new methods for the kinematic modeling and control of soft, continuum manipulator...
Soft robots that are built from materials with mechanical properties similar to those of living tiss...
International audienceThis paper presents a physically-based algorithm to interactively simulate and...
International audienceIn this paper, we present a new method for the control of soft robots with ela...
Soft robots are made of compliant and deformable materials and can perform tasks challenging for con...
International audienceIn this paper, we propose a method to control the motion of soft robots able t...
International audienceThe technological differences between traditional robotics and soft robotics h...
International audienceThis paper presents a computationally efficient method to model and simulate s...
Includes bibliographical references.This work presents an approach for modelling and computing the f...
International audienceIn this paper, we propose a strategy for the control of soft robots with visua...
Soft continuum manipulators have the advantage of being more compliant and having more degrees of fr...
Soft robots are interesting examples of hyper-redundancy in robotics. However, the nonlinear continu...
This work investigates the applicability of stiffness-based modelling in soft robotics manipulation....