From Gizmag:

A team at the Robotics Lab at the Illinois Institute of Technology (IIT) has come up with another take on the caged flying robots like the spherical air vehicle developed by Japan’s Ministry of Defense (JMD) and the more recent Kyosho Space Ball. However, instead of a spherical shape, the the outer protective cage of the HyTAQ (Hybrid Terrestrial and Aerial Quadrotor) is cylindrical and is attached to the quadrotor via a shaft connected by two rotating joints, thereby providing the HyTAQ with the ability to fly or roll over the ground.

With the quadrotors providing thrust for both aerial and terrestrial locomotion, there's no requirement for additional actuators that would increase the weight of the system. When on the ground, the rolling cage means the robot only needs to overcome rolling resistance to move forward, and when it encounters an obstacle to difficult to roll over, it can simply take to the air to jump over it.

The developers say the robot’s hybrid nature makes it much more energy efficient than aerial-only systems, with the ability to operate almost six times as long and travel a distance four times greater than such systems. Experiments conducted by the team showed that for aerial-only travel, its battery lasted five minutes and it traveled 1,969 ft (600 m), but rolling over a smooth surface saw its endurance extend to 27 minutes and the distance traveled increase to 7,874 ft (2,400 m).

The cage itself is constructed out of polycarbonate and carbon fiber making it both flexible and strong enough to withstand crashing. The development team has tested the HyTAQ’s ground performance over various types of terrain, including flat indoor surfaces and sand and grass outdoors. The ground locomotion capabilities also allow the robot to move when it’s too windy for flight.

Like its spherical kin, the reconnaissance and search and rescue potential of the camera-equipped robot are obvious and the team is now in the process of patenting the design and hopes to attract commercial interest.

The HyTAQ robot can be seen in action in the following video.

Views: 2677

Comment by Dave Wicks on November 28, 2012 at 10:41pm
Very cool! I want one!
Comment by Jiro Hattori on November 28, 2012 at 10:58pm

Perfect protection cage for adjustment of PID :-)

Comment by Tom Kopp on November 29, 2012 at 12:33am

Nice anti "break the bank" in repairs, roll cage there. lol

Comment by OpticalFlow on November 29, 2012 at 1:28am

They should call it the "tumbleweed"

Comment by Cliff-E on November 29, 2012 at 11:48am

Looks like aerial flight is not ideal--a spinning mass sure makes things unstable for a hover... They need a servo lockout mechanism.

Sure looks strong from the bouncing though.


Moderator
Comment by Mark Harrison on November 29, 2012 at 12:46pm

What is a planar bearing?

Comment by Darren on November 29, 2012 at 3:56pm

too bad its not a sphere, i can imagine before it takes off, it should balance itself

I've always wanted to try a quad suspended within a hoberman sphere.... ;)

Comment by Taylor Davis on November 29, 2012 at 7:36pm
Simply awesome!
Comment by Tim Wilkin on November 29, 2012 at 10:31pm

Rolling along the ground... mmm, can anyone say, "sticks and stones may break my props, but walls will never hurt me"!?


Developer
Comment by Marco Robustini on December 1, 2012 at 3:29am

I really want one for all my future tests... :-)

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