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Novel Drive Wheel System Based On Spinning Sphere

Posted by timothy on from the spin-do-not-sit dept.

An anonymous reader writes "A Bradley University student has built a mobile robot that uses a hemispherical omnidirectional gimbaled, or HOG, drive wheel. It consists of a black rubber hemisphere that rotates like a spinning top, with servos that can tilt it left and right and forwards and backwards. The HOG system delivers an amount of torque directly proportional to the tilt of the hemisphere, allowing the robot to move incredibly fast nearly instantaneously."

16 of 104 comments (clear)

  1. Needs a hard floor. by Animats · · Score: 4, Insightful

    It's a cute idea. It assumes a single point of contact with the ground, and thus requires a flat, hard floor. This is limiting.

    The various "omni-wheel" designs, with wheels composed of little wheels arranged around a big wheel, have a similar problem. The size of the little wheels, not the big one, determines the terrain-handling limits of the vehicle.

    1980s robots tried to do everything by wheel odometry. Back then, most of the software was too dumb to plan moves given steering limitations, so omnidirectional drives were popular. Robots got a lot better when people stopped building robots with complex wheels and no suspension, and went to more ordinary wheels with off-road type suspensions.

    1. Re:Needs a hard floor. by Interoperable · · Score: 3, Insightful

      Oh /., why must you be so negative? It doesn't have to be useful for every application in robotics to be extremely awesome.

      It only requires one motor rotating at a constant velocity and two actuators; that's hardly a complex wheel. The extreme simplicity should make it useful in a number of applications and hobbyist designs. It will, however, probably leave little rubber smudge marks on your floor.

      --
      So if this is the future...where's my jet pack?
    2. Re:Needs a hard floor. by NFN_NLN · · Score: 3, Insightful

      It's a cute idea. It assumes a single point of contact with the ground, and thus requires a flat, hard floor. This is limiting.

      You could add as many points of contact as you like as long as they are synchronized. Plus, I hear hill billies can slap chains on them for better traction in the mud.

    3. Re:Needs a hard floor. by Urkki · · Score: 3, Funny

      It's a cute idea. It assumes a single point of contact with the ground, and thus requires a flat, hard floor. This is limiting.

      Fortunately, there's a solution: one world, one people, one slab of asphalt!

    4. Re:Needs a hard floor. by timothyb89 · · Score: 4, Interesting

      It's a cute idea. It assumes a single point of contact with the ground, and thus requires a flat, hard floor. This is limiting.

      I've worked pretty extensively with mechanum wheels - essentially omniwheels with the smaller wheels at a 45 degree angle to the main wheel. Arranging four of them provides the same degrees of freedom as the example shown with two of these HOG wheels. Mechanum wheels work well and move quite fast, and I've yet to see a surface where they don't work - but they're costly, heavy, and wear quickly, not to mention the pretty enormous power requirements. Because of these limitations, for hobbyist robotics, they're simply not practical.

      For many of the smaller projects I've done, traditional drive systems were slow and not nearly as useful as an omnidirectional (3 DOF) system - and without the ability to easily use something like omniwheels or mechanum wheels due to various constraints, HOG wheels would be a godsend. They provide most of the benefits of the traditional omnidirectional drive systems with very few hitches - and you'd be surprised how often the hard and flat surface requirement isn't an issue (or, in many cases, applies to traditional drive systems as well).

  2. Re:Thats looks great by wagnerrp · · Score: 4, Funny

    Would you paint them blue, with a big pod on the back for a person to ride in?

  3. Not Novel by mentil · · Score: 3, Informative

    The video embedded in TFA contains the engineer who created this saying that it was invented about 100 years ago, but nothing came of it and the tech was forgotten. He did rediscover it independently, however.

    --
    Corruption is convincing someone that the selfless ideal is the same as their selfish ideal.
    1. Re:Not Novel by robot_love · · Score: 4, Funny

      Wait, so you're telling me he just re-invented the wheel?

      --
      .there is enough of everything for everyone.
  4. iRobot cars? by MrQuacker · · Score: 3, Interesting

    So, the funky cars they used in the iRobot movie with Will Smith, this re-invention now makes them possible? I am curious to know how well it works on rougher surfaces, like potholes, sand, or gravel.

  5. Cute toy by jklovanc · · Score: 3, Interesting

    It seems interesting but I have a few concerns (some have been stated in other posts but I would like to get them in one place).
    1. Uneven surfaces; With such a small surface contact it is easy to lose traction.
    2. Control. It seems that one can change direction at will but it seems difficult to do it accurately and more difficult to stop the device.
    3. Soft surfaces; if the hemisphere is going at a constant speed would it dig into a sift surface when stopped? Sure you can stop the motor but that means you would have the same acceleration characteristics of a conventional wheel.

    I would have liked to see it on bare concrete doing a slalom and stopping at a designated point.

  6. 1988 Toyota Olympic Ideas winner by poodlediagram · · Score: 5, Informative

    This has already been turned into a personal vehicle some years ago. It won the 1988 Toyota Olympic Ideas competition and ran on perpetually spinning Chinese woks. The best link I can find is

    http://books.google.com/books?id=1M3e82yGmZMC&pg=PA27&lpg=PA27#v=onepage&q&f=false

    Perhaps someone can find a better picture or video.

  7. Re:Awesome prototype! by Renraku · · Score: 3, Interesting

    Actually, I think this would be good for robots as they could adjust their parameters to counteract the bumps and stuff really quickly. Maybe a drive-by-wire system on a car where the computer does all the hard stuff and you just point the car where you want it to go.

    I could really see this being used in high speed robotics applications, imagine a ground-based sentry drone with this screaming down the road.

    --
    Job? I don't have time to get a job! Who will sit around and bitch about being broke and unemployed then?
  8. Re:gimbaledl ??? by maxwell+demon · · Score: 4, Funny

    A gimbaledl is a pivotedled supportedl that allows the rotationedl of an objectedl about a single axisedl. Isn't that obviousedl? :-)

    --
    The Tao of math: The numbers you can count are not the real numbers.
  9. Re:Awesome prototype! by nukenerd · · Score: 3, Interesting

    I don't get all this worry about accuracy and precision. Wheel/tyre wear and surface undulations only matter if you need to position this robot by dead reckoning. Dead reckoning is a bad idea anyway except in machine tool or laboratory applications.

    Get real. This type of drive system would be for applications like vacuuming floors and moving stuff in warehouses. Its positioning would be determined by external feedback, like lines on the floor in a warehouse or ultrasonic echoes from walls. Other factors would be irrelevant to positioning.

    As for the guys worrying about loss of contact and friction (someone raised "omni-wheel" designs, with wheels composed of little wheels arranged around a big wheel) what is the problem? In TFA' photo I see a three wheeler (one HOG wheel and two conventional idlers - though it could be developed to three HOG wheels only). How can a three-wheeler lose tyre contact ?

  10. Say this thing hits a curb by SmallFurryCreature · · Score: 3, Informative

    Spinning top, you ever played with these toys? What happened to them when they hit a curb like a book or something? Right, they bounce off. Why? Because all of sudden it gains traction with what can be thought of as a wheel.

    This ball wheel works as an infinite gear because by tilting it, the controller decides exactly how large a wheel (a ball is an infinite number of circles/wheels, each a bit smaller/larger then its neighbour, stacked on top of each other) contacts the floor. If the ball is spinning direction is parallel to the floor (if the ball doesn't deform) it wouldn't move because there is no forward motion. Tilt it and you are essentially making contact with an ever larger wheel. If the RPM remains the same, the larger the wheel the greater distance must be travelled. That it works is clear and predictable. It makes perfect sense.

    But a bump on the road would suddenly cause a far greater wheel to make contact, greater wheel means greater speed and BAM, you got a difficult to control vehicle.

    This thing doesn't just need a flat surface, it must also avoid any curbs. And what if it hits a crack in the surface, what if its gets grip on its on opposite sides of the spinning ball?

    Doesn't mean this won't have its uses but they will be limited.

    --

    MMO Quests are like orgasms:

    You may solo them, I prefer them in a group.

    1. Re:Say this thing hits a curb by nukenerd · · Score: 3, Interesting

      Yes, I understand the physics, but I was really countering some guys here who seem to think the wheel contact requires laboratory precision and are worrying about slight wear (needing computer compensation!!) and loss of contact (how???).

      I agree this drive system is never going to be an off-roader. Also, many posters here seem to be floating the idea of it being used for cars - forget it. But as I have said in aother post here, the ideal use for this drive is fork-lift truck type applications, where tight manoevering is required, and, incidentally, the floor is flat.

      But I don't think it will be as sensitive to undulations and kerbs as you and others seem to think. Most "bumps" in the floor/road are actually at quite small angles unless they are actual holes with rims. Also, a spinning top reacts violently (eg shoots across the room) when it hits the wall because its whole mass is spinning, so it has a lot of rotational momentum to be converted into linear momentum. However, this HOG vehicle has only a small proportion of its mass spinning, so contact with a kerb will probably just result in a nasty jolt and some rubber left behind. For warehouse use, just put guards around the wheels (as the prototype has).

      You are worried about cracks?! I think we are at cross purposes about the scale of this thing. I assume that the prototype is a model, but even then I do not know its scale. For real world use (eg the warehouse vehicle) I envisage HOG wheels being hemisperes of about 400mm diameter. You would have to find an extremely run-down warehouse to have cracks in the floor that big!