3D Robotics

From Diginfo.tv. Those are the gnarliest motion capture dot-holders I've ever seen. Why out on sticks? A commentor says they're using a motion capture system that's just a fraction of the cost of a Vicon. Anybody know anything about that? (Maybe someone who can read Japanese and can navigate the Chiba U website) 

The Nonami Group at Chiba University is developing drone robots for information gathering, and the group has demonstrated four multi-rotor helicopters, flying in formation using image processing.

"The cameras capture the markers, and send all the images to the host computer, which calculates the position and attitude. Positioning can be done to within 1 mm. The control frequency is 100 Hz, so position and attitude are calculated every 10 ms, to prevent collisions."

Each helicopter weighs 300g, and can carry a payload of 500 g. Currently, each has a 250 g battery, so they can carry cameras and other devices totaling 250 g.

"The current demonstration is an attraction, so it might be even more fun to have ten of these flying. Also, when they're actually gathering information outdoors, the more there are, the faster they can obtain information. So we're thinking of using formation flight with a commercial version."

"It's very difficult to create mathematical models for this type of drone. But we do quite rigorous modeling, with strong nonlinearity; that makes the models complicated. But we've designed a controller to match that complexity, and we're verifying that the drones can actually fly in a stable manner."

"On July 5, we took part in an emergency drill by the Police Department. The scenario was an explosion at a chemical plant. Our mission was to find out if people were on site, and return. We succeeded very well, and the Police Department said they'd like to introduce this system. It could also have lots of other applications. For example, it could be used to monitor volcanic eruptions, or to inspect power lines."

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  • Developer

    I actually managed to meet up with professor Nonami and saw the system in action.  Without a vision system like this it's hard to be completely sure if you've got your attitude solution correct or not.  I'm not personally in the market for one at the moment but maybe some others are.

  • An older thread, but its worth having the group know.  That is an OptiTrack system... we have dozens in use with older cameras like the ones shown, but we've also developed two brand new lines that are well suited for precision tracking of drones - and at prices that are indeed a fraction of the cost of Vicon.  (I was Vicon's CEO for 8 years :)

    If you're interested - I'd be happy to extrapolate.

    Brian

  • Developer

    I might try and ping that professor and try and get more details..

     

    BTW, for those people based in Japan who might be drawn in particular to this thread, there is now a japanDrones store and a Japan ArduCopter Group here on DIYDrones.  Hattori-san and I are thinking about organising some get togethers..

    Pixhawk,lightware【Ardupilotオープンソースフライトコントローラー、センサー等の販売】Japandrones株式会社
    フライトコントローラーオートパイロットのPixhawk2や各種センサーを用いて独自のAI技術開発を開発費の掛からないArdupilotオープンソースで行うことが可能です。自作ドローン、飛行機、ローバー、サブマリーンに使用可能です。
  • Some of my old lab colleagues developed open-source ROS drivers for OptiTrack

     

    Yep, we're using it and they are directly swappable with the ROS vicon plugins. And we have the same optitrack stuff--you'll need more cameras to match the Vicon system in precision, so the price in the end is around 20% less, which is significant in some applications (not miiltary, but likely for local police).

    I like how the sales pitch portion goes:

    "We did a chemical plant emergency,"..... "and volcanic eruptions and powerlines". Yeah, try putting a motion capture system around those environments. Heck optitrack doesn't work much outdoors, mind that how could one set up & calibrate an ad-hoc system... (and Vicon just release their new outdoor cameras in Dec).

    From the video: 

    Choice of motors look very interesting.

    Looks like a custom PCB.

    And as usual: zipties... FTW.

  • As many folks in the comments confirm, they're likely using an OptiTrack system.  These have become fairly popular in academia as a low-cost vicon alternative -- 1/5th to 1/10th the cost with respectable resolution and update rates. In fact... my old lab (Healthcare Robotics Lab at Georgia Tech) had one or two OptiTrak systems set up for non-UAV work...

    Some of my old lab colleagues developed open-source ROS drivers for OptiTrack.  I meant to write about it shortly after the "Honesty in Robot Videos" post on Hizook, where I got all riled up about researchers not disclosing the use of Vicon... but I got distracted by startup efforts.  Since I'll be back in Atlanta this weekend, perhaps I can lean my former labmates to contribute a Hizook article about OptiTrack (installation, setup, specs, settings, opensource drivers, etc).  I'll be sure to tell them that y'all are interested -- that might provide a little added motivation.  ;-)

    PS -- I just heard back from my former labmates.  They said they'll help with a writeup. Expect an article about "(Sorta) Low-Cost Motion Capture Systems" on Hizook in the near future.

    ~Travis Deyle (from Hizook)

    Being Honest in Robot Videos: Motion Capture, Speedup Rates, and Teleoperation | Hizook
  • This development is done by Nonami Control of Robotics Lab. Their website is here. http://mec2.tm.chiba-u.jp/~nonami/english/index_e.html The other videos are here. http://mec2.tm.chiba-u.jp/monograph/contents.html

  • Yes, they look like Optitrack V100 USB cameras. We are using the same motion tracking system in our project AIRobots. If you are interested this is the Optitrack system we use in Bologna: https://www.youtube.com/watch?v=--vr2c0Y4N8&list=UUBJztkDpUopwwP...  

  • It's the chopstick system.  The American version uses forks.

  • Definitely looks like OptiTrack. I suspect the sticks are arranged to keep the drones uniquely identifiable within the capture volume, and the gnarly look is due to spreading the markers apart for more accurate readings and less occlusion risk.

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