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= Summary =
 
= Summary =
  
This article deals with the benefits of using elastic soft Robots. For now, the approaches to create them are made by inspiration from nature but with their high elasticity it's really hard to control them. So it's necessary to know how to modelize their movement and that's what the article explain with the Finite Element Method ( FEM ) in order to model the deformations that are the cause of a mechanical coupling.  
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This article deals with the benefits of using elastic soft Robots. For now, the approaches to create them are made by inspiration from nature but with their high elasticity it's really hard to control them.<br /> So it's necessary to know how to modelize their movement and that's what the article explain with the Finite Element Method ( FEM ) in order to model the deformations that are the cause of a mechanical coupling.  
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So, in first the author insist on the difficulty to anticipate the movement because of the infinite number of degrees of freedom, and also on the several advances made on this subject by other scientists. But to control a soft robot he explains that we need a real-time computation and than to algorithms adapted to GPU, the computation time can be reduced.
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So, in first the author insist on the difficulty to anticipate the movement because of the infinite number of degrees of freedom, and also on the several advances made on this subject by other scientists.<br /> But to control a soft robot he explains that we need a real-time computation and thanks to algorithms adapted to GPU, the computation time can be reduced.
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After that he explains the principle of the FEM. Before everything he needed to know the constitutive law of the soft material by making stress-strain response under tension experiments
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After that he explains the principle of the FEM. Before everything he needed to know the constitutive law of the soft material by making stress-strain response under tension experiments and he found with a linear regression that the strain/stress ratio is approximatively linear that will reduce the time of online execution of the FEM.
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But when he assembled the possible rotation in the model is no more linear but it's still possible to compute it with an C++ implementation thanks to the open-source framework SOFA.
  
 
= Main contribution =
 
= Main contribution =
 
= Applications =
 
= Applications =

Version du 10 juin 2016 à 20:47

Summary

This article deals with the benefits of using elastic soft Robots. For now, the approaches to create them are made by inspiration from nature but with their high elasticity it's really hard to control them.
So it's necessary to know how to modelize their movement and that's what the article explain with the Finite Element Method ( FEM ) in order to model the deformations that are the cause of a mechanical coupling.

So, in first the author insist on the difficulty to anticipate the movement because of the infinite number of degrees of freedom, and also on the several advances made on this subject by other scientists.
But to control a soft robot he explains that we need a real-time computation and thanks to algorithms adapted to GPU, the computation time can be reduced.

After that he explains the principle of the FEM. Before everything he needed to know the constitutive law of the soft material by making stress-strain response under tension experiments and he found with a linear regression that the strain/stress ratio is approximatively linear that will reduce the time of online execution of the FEM. But when he assembled the possible rotation in the model is no more linear but it's still possible to compute it with an C++ implementation thanks to the open-source framework SOFA.

Main contribution

Applications