Tumbleweed Invasion
Uploaded on Oct 31, 2007
We came across this unbelieveable scene one day as we were out for a drive in the Mojave Desert.
Spherical Rolling Robot
Published on May 23, 2013
I designed this robot for my senior thesis project. It's RC controlled, tops out at about 6 mph, and is a lot of fun! Hopefully some form of closed loop feedback system or dampening system will be added in to get rid of some of the wobble, and to make it easier to drive.
Velocity Control of a Cylindrical Rolling Robot by Surface-Morphing
Published on Oct 1, 2015
A rolling robot is developed that possesses a cylindrically-shaped, elliptical outer surface with the ability to change its shape as it rolls, resulting in a gravity powered torque imbalance that moves the robot along faster or brakes its motion. Roll trials demonstrate that when the robot is given a set of advantageous initial conditions, it is able to accelerate from rest, maintain constant average velocity and brake its motion in order to follow a desired velocity profile with significant accuracy.
Mine Kafon | Callum Cooper
October 21, 2012
MINE KAFON is a 5th place Winner in the $200,000 GE FOCUS FORWARD Filmmaker Competition. Watch the winners at focusforwardfilms.com/winners.
A short documentary portrait on a designer who has created a low cost solution to landmine clearance.
Mine sweeper
Uploaded on Aug 10, 2011
"Watch a Tumbleweed-Like ‘Mine Exploder’ Absorb a Blast"During his childhood in Afghanistan, Massoud Hassani would make toys to be blown by the wind. Sometimes they would end up in a minefield, where he could not retrieve them. Now Massoud's wind-powered creations are re-designed specifically for clearing minefields.
by Liz Stinson
March 5, 2013
Development of a deformation-driven rolling robot with a soft outer shell
Published on Jun 15, 2017
We developed a mobile robot that rolls by the active deformation of the soft outer shell. The robot has a wire drive module and soft outer shell that are joined only by prestressed wires. The soft shell and wire drive help to achieve a tough, low-cost, and lightweight design.
For more detail, see the conference paper:
Yoichi Masuda and Masato Ishikawa, "Development of a Deformation-driven Rolling Robot with a Soft Outer Shell", IEEE International Conference on Advanced Intelligent Mechatronics (AIM2017)
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