Refactoring Space Exploration with Soft Machines - Vytas SunSpiral (SETI...
Μετάδοση με ζωντανή ροή στις 4 Μαρ 2014
Vytas SunSprial, NASA Ames/Stinger Ghaffrian
To understand how we control motion, we need to understand the physical
mechanism being moved. Emerging theories of vertebrate physiology are
overturning the traditional bone-centric model of the body in favor of a
"tensegrity" model, in which the primary load paths are in the continuous
tension network of the soft tissues. In this talk, I will discuss research
and development at NASA Ames into dynamic tensegrity robots and how these
"soft machines" may be controlled through biologically inspired methods.
Along the way, I will talk about how the unique properties of tensegrity
robots may enable new methods of planetary landing and exploration.
To understand how we control motion, we need to understand the physical
mechanism being moved. Emerging theories of vertebrate physiology are
overturning the traditional bone-centric model of the body in favor of a
"tensegrity" model, in which the primary load paths are in the continuous
tension network of the soft tissues. In this talk, I will discuss research
and development at NASA Ames into dynamic tensegrity robots and how these
"soft machines" may be controlled through biologically inspired methods.
Along the way, I will talk about how the unique properties of tensegrity
robots may enable new methods of planetary landing and exploration.
ANAΡΤΗΣΗ ΑΠΟ ΤΟ YOUTUBE 5/3/2014
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