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OmniTread: A serpentine robot

Posted by samzenpus on from the crawl-anywhere dept.

karvind writes "Physorg is running a story about OmniTread: a serpentine robot designed to traverse extremely difficult terrain, such as the rubble of a collapsed building. The 26-pound robot is developed at the University of Michigan U-M College of Engineering. It moves by rolling, log-style, or by lifting its head or tail, inchworm-like, and muscling itself forward. Link to videos. Check out there other robots as well."

12 of 150 comments (clear)

  1. Clarification of how this works by MobyDisk · · Score: 4, Funny
    From the article:
    These treads prevent the snakebot from stalling or becoming stuck on rough terrain because, similar to a tire touching a road, t the treads propel the robot forward like a tire touching a road.
    Well, that sure made it clear!
  2. Spheres with tentacles are better by GAATTC · · Score: 5, Interesting

    From a comment posted below the article: "Arthur C. Clarke had it right --- spheres with tentacles; _that_ is the ultimate in agility and mobility, for robotic design. Plus, such units can easily link together to form a much greater whole, if required --- they could perform nearly *any* engineering, construction, or transportation task."

    1. Re:Spheres with tentacles are better by schwatoo · · Score: 4, Funny

      "Any sufficiently tentacled sphere is indistinguishable from the Great Cthulhu".

      --
      I have trouble with passwords among other things.
  3. Ooh, snake! A snake! by FlyByPC · · Score: 5, Funny

    Badgerbadgerbadger... (C'mon -- *someone* had to say it...)

    --
    Paleotechnologist and connoisseur of pretty shiny things.
  4. Memory Shape Alloys by TimeTraveler1884 · · Score: 4, Interesting

    I have always wondered why robotics engineering has not taken more approaches using memory-shape alloys. Mondo-tronics has a product called Muscle Wire that has carbon or graphite embedded in the alloy so that it heats up when an electric current is applied. This causes the Nitinol to contract as the alloy returns to its "memory" shape.

    Really the only thing I have seen using this form of memory-shape alloys is just for hobbyist projects, nothing serious. Granted there are some problems to overcome, such as duty cycles and heat dissipation. But most of these could be solved, I have looked into them. On larger scale projects the cost could be prohibitive though.

    The value as I see memory-shape alloys over motors, is that it is almost a solid-state actuator. There really is no moving parts that can wear, other than the alloy itself. And these memory-shape alloys have a very high force/weight ratio - thus making the bulk of most robotics not a function of locomotion.

  5. Obligatory bash.org quote by dracken · · Score: 4, Funny

    what does your robot do, sam
    it collects data about the surrounding environment, then discards it and drives into walls

    -Dracken

  6. Re:serpentine movement suggestion by ldm314 · · Score: 4, Insightful

    It is efficient in several ways:

    - Eliminates complicated gearing

    - Every part that can come in contact with a surface has full torque

    And when you are tethered to a cable anyways, and not run on battery power, you probably don't have to worry as much about efficiency.

  7. Slick. Wonder if.. by bunhed · · Score: 5, Funny

    you can program it in python?

  8. More like a caterpillar by SnowZero · · Score: 4, Informative

    This is more like a caterpillar than a snake. It uses tracks all over its body (like many small feet), rather than a serpentine motion to propel itself. Props though, as this seems far more practical than robots that actually try to move like snakes or inchworms.

    I've sat through many talks about modular robots that are supposed to be able to do everything, yet rarely do anything well at all (I come from a lab doing what I guess you'd call "specialized monolithic" robots). I think this robot is just specialized enough to be useful (using its treads). The walking snake like robots are normally agonizingly slow, but this robot moves at a reasonable speed for the type of applications you'd need it for. Also, tracks should scale up in speed reasonably well if needed.

  9. What about controls? by Statecraftsman · · Score: 4, Interesting
    That thing looks like you need more than a joystick. It'd be really great if they showed how many buttons they have on their control board. By my count the 5 segment version has 9 degrees of freedom. 1 for the front back and the other 8 for the 2 degrees of freedom for each joint.

    Also, does it know which way is up and readjust or do you have to figure that out after it rolls?

  10. Re:Purposes? by SnowZero · · Score: 5, Insightful

    That's exactly the kind of thing they want to use this type of robot for. They focus on rubble and similar terrain, because if it isn't hard to traverse, you might as well use wheels. Exploring mines and caves could be useful too, but urban search and rescue is a big topic now. After a disaster, you want to rescue people as fast as possible to save them, but the earlier after a collapse, the more dangerous it is for the rescuers who risk getting trapped themselves. Robots can be sent in immediately becuase you don't care much if you lose them.

  11. Snakebots are very fragile! by Quantum+Jim · · Score: 5, Interesting
    My friend Jer Romeiko builds these kinds of robots for a living. You can download some cool videos of snakebot action at his employer's web site (CMU).

    Snakebots are very fragile. Many times a section would break after a few hours demostration. Jer was working on making each section more modular and easier to build. Apparently the main goal of snakebots for many research labs are for providing demostrations (read: grantbots) and giving new grad students something to do. ;-)

    --
    It is impossible to enjoy idling thoroughly unless one has plenty of work to do.
    - Jerome Klapka Jerome