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Robot Balances on a Single Spherical Wheel

Posted by ryuzaki0 on from the so-robots-can-unicycle-then dept.

dalangalma writes "Researchers at Carnegie Mellon University's Robotics Institute have developed a new kind of robot called the Ballbot that balances on a steel ball. Using a mechanism similar to a ball mouse, the Ballbot uses rollers to drive its single, spherical wheel and balance in place or glide around the room. The promise of such dynamically stable robots is that they can be much taller without having to have a wide base, making them much more suitable for working with humans. They are also much more agile, since they can be pushed out of the way easily without falling over. You can read the press release or check out the project's web page when it recovers from traffic."

11 of 211 comments (clear)

  1. translation by McDrewbie · · Score: 5, Insightful

    "single spherical wheel" = a ball

  2. Segway on a ball! by toybuilder · · Score: 1, Insightful

    Cool! I'd love to see if they can adapt this to a Segway-like transporter!

  3. How is this "much more suitable"? by SuperBanana · · Score: 4, Insightful

    The promise of such dynamically stable robots is that they can be much taller without having to have a wide base, making them much more suitable for working with humans

    Huh? How does thinner = autmatically "much more suitable"? I just don't get it. We're used to working with people, and that extends to their personal space, which is substantially larger than the person. Who says that human/robot 'synergy' has anything to do with how fat the robot is?

    Nevermind that all that active movement to keep standing upright means lots of battery drain, and irritating/distracting movement to said humans. We find coworkers that tap pens on their desks annoying, but they think this will 'fly'?

    Oh, when the battery runs out of juice, or a motor (or its controller) goes dead- hilarity ensues...

    --
    Please help metamoderate.
    1. Re:How is this "much more suitable"? by Idarubicin · · Score: 2, Insightful
      Huh? How does thinner = autmatically "much more suitable"? I just don't get it. We're used to working with people, and that extends to their personal space, which is substantially larger than the person. Who says that human/robot 'synergy' has anything to do with how fat the robot is?
      Find a wheelchair. Try to navigate through your daily routine. Ever notice how most human spaces aren't designed for a wide chassis? Imagine if ''everybody'' was in a wheelchair. Try passing the 'slow walker' (you know who I'm talking about) in the hallway without running into the guy coming the other way. Tall and skinny--in other words, more human-shaped--is an advantage in working with humans, because humans work in human-shaped places.

      For that matter, you're less likely to trip over a robot that's five feet tall than one that's two feet tall; tall robots are easier to see. Wide, low robots would be a nuisance to work with. It would be like having dozens of short, fat children always getting in the way.

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      ~Idarubicin
  4. supermarket shopping cart syndrome by zogger · · Score: 2, Insightful

    first wad of gum that thing rolls over might bring it to a stop, or make it list to port or something ->
    roll THUNK roll THUNK. And stairs? Or going outside?

      I like old school, traditional sci fi robots, humanoid looking, bipedal walking type. If they need to get fancy, drop in the jackie chan mod chip or something.

  5. Re:meet the new dalek by Kennric · · Score: 4, Insightful

    With a suitable suspension I don't see why they would not do fine on stairs. If the balancing algorithm is good, it should recover fine on each step. A little laser rangefinding could even allow it to know it was going down stairs and adjust accordingly. Certainly a dynamicly balanced bot would fair better than a 4-wheeler going down the same stairs. If I can ride a motorcyle down the stairs, my new robotic biroid overlords should not have a problem.

  6. Very nice by Animats · · Score: 5, Insightful

    That's a nice system. There are some annoying limitations, though. It's tough to change the orientation of the robot, although you can handle that if you have a rotational joint further up so you can rotate the torso. Small diameter balls have the same problems as small diameter wheels - it's easy to get stuck in small depressions. That's why the Segway has such big wheels. And driving a sphere is always a tough problem mechanically. Most of the solutions have trouble with dirt accumulating on the drive wheels, which is why optical mice have replaced ball mice. It's possible to build a spherical electric motor, and that might be the way to go if this concept turns out to be useful.

    It's good to see all this activity in self-balancing systems again, having worked on this around 1994-1995, and seen others working on it in the 1980s. Today, you can buy so much of what you need off the shelf, like good INS units. We used to waste too much time building custom stuff.

  7. Re:meet the new dalek by miro+f · · Score: 3, Insightful

    yes but can you get them to go UP the stairs?

    --
    being vague is almost as cool as doing that other thing...
  8. Re:meet the new dalek by Mr.+Freeman · · Score: 3, Insightful

    Yeah, but try going UP the stairs. That's a bit more of a problem.

    --
    -1 disagree is not a modifier for a reason. -1 troll, flaimbait, redundant, overrated are NOT acceptable substitutes.
  9. Amazing. by tomato · · Score: 2, Insightful

    This is the first time I've posted to Slashdot in nearly 5 years.

    That robot in the videos is truly amazing - graceful, simple, and harmonious.

    This is what we need - systems that co-operate with humans, can be pushed around, and stick to their own personal space.

    We need more beauty and grace in the world, not less.

    I work in technology, but I also study feng shui, and that robot has it in abundance.

  10. Re:Ooops by tomhudson · · Score: 2, Insightful

    FTFA: "Ballbot has an onboard computer that reads balance information from its internal sensors, activating rollers that mobilize the ball on which it moves -- a system that is essentially an inverse mouse-ball drive. When Ballbot is not in operation, it stands in place on three retractable legs."

    One word: lint. This sucker will fall down as soon as the rollers get clogged up, same as your mouse stops working.

    Or try spilling some oil from your salad on the ground. Or leave a few pieces of duct tape, sticky side up, lying around,

    I'll welcome our robot overlords to follow me ... down this flight of stairs, you motherf*ckers! :-)

    "Hollis is working to prove that dynamically stable robots like Ballbot can outperform their static counterparts."

    Humans are also dynamically stable. Even when we're standing still, we're dynamically balanced, as muscles alternately contract and release to maintain our balance. He doesn't have to "prove" this - its something evolution worked out long ago.