Archive for the ‘Videos’ Category

Chroino

星期日, 一月 7th, 2007

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Chroino the robot Chroino the robot sitting

Chroino is a small humanoid robot with friendly appearance and sophisticated movements. A newly-developed outer covering that serves also as a frame is called a “monocoque frame” and is made of carbon and plastic, giving Chroino a friendly appearance, light weight and strong frame.

Using a new technology named SHIN-Walk, Chroino has the ability to walk more naturally than traditional robots that walk stiffly with constantly bent knees. The ability to walk naturally, similar to a human, have long been expected. Thanks to this latest advancement in technology developed by Robo Garage, SHIN-Walk allows Chroino to walk almost as smoothly as a human.

Chroino was created by Mr. Tomotaka Takahashi from Robo Garage, the only scientist involved in the entire development process – from the design to the production stage – to create this futuristic robot.

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Preview of beating heart surgery with the DaVinci robot

星期日, 十二月 17th, 2006

OR-Live.com, with technical assistance from Digital Media Services will present a Webcast of a Totally Endoscopic Coronary Artery Bypass on a beating heart using da Vinci robotic assistance, broadcast live from Alliance Hospital on September 26, 2006 at 6 p.m. (CST).

For this innovative procedure, Dr. Sudhir Srivastava, Cardiovascular and Thoracic Surgeon at Alliance Hospital, will use da Vinci, a breakthrough robotic system designed to transcend the limitations of both open surgery and laparoscopy, expanding the surgeon’s capabilities and offering patients a minimally invasive option for many complex procedures. With da Vinci surgery, patients can experience significantly less pain, less blood loss, a much quicker recovery and a faster return to normal daily activities

Manoi The Humanoid Robot

星期六, 十二月 16th, 2006

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YouTube link to: Manoi The Humanoid Robot

Dexter Learning Demos

星期一, 十二月 4th, 2006

Learning to Reach: From Manual Skill to Communicative Action

The following is a demonstration that it is possible for a robot configured to learn manual skills, with no direct support for communication, to learn the utility of an important communicative action – pointing. Ths achieved through the several stages:

  1. A ball is placed within the reachable workspace of the robot ALWAYS. Through exploration the robot discovers the appropriate sequence of primitive actions that leads to the rewarding tactile sensation. This process is analogus to the “motor babbling” stage during infant development.
  2. During this stage, objects are placed sometimes out-of-reach of the robot. This causes a noticable change in the previously learned policy’s transition dynamics. The robot autonomous adapts to this change by discovering the position of the object with respect to the success of a the “reach” action, thus learning a new policy (not to reach for out-of-reach objects) to increase its rate of reward.
  3. The dynamics of the environment is changed yet again during this stage – a human enters the scene and causes the out-of-reach object sometimes appear within reach of the robot when an indication of assistance request is observed through the robot’s actions. Again, the robot notice the change in the environmental dynamics and discovers the appropriate cues and corresponding optimal action sequence such that rate of reward can increase once again.

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YouTube link to: Stage 1: Learns to reach
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YouTube link to: Stage 2: Learns to differentiate reachable and non-reachable workspace
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YouTube link to: Learns to point to request for assistance in the presence of human-scale “objects”

Compared with the programming interface. this approach is a natural and intuitive way for programming the robot – through manipulation of environment and acting through common sense to induce the emergence of appropriate actions, including ones that are communicative: making this negotiation process intuitive enough such potentially even uninformed human subjects can go through.

Other Dexter Demonstrations
joint work with John Sweeney and Stephen Hart

  1. A simple task is demonstrated to Dexter through teleoperation. The robot infers intentions of the human operator by observing his actions. The task is replayed by Dexter in the end.
  2. The sorting task taught via teleoperation is replayed with previously learned implicit common sense knowledge incorporated. Dexter determines handedness intelligently given the position of the object and the target location, without being explicitly taught by the operator. Thus, saving much energe for the teleoperator.

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YouTube link to: First teach Dexter sorting via teleoperation, and then replays task with previously learned common sense knowledge
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YouTube link to: Dexter handling another sorting task using acquired common sense knowledge

Fun Stuffs

Related work

Look, ma, I am using my hands!

星期一, 十一月 20th, 2006

Make mouse selections, move objects on screen around with your hand. Hand motions are tracked using the CamShift algorithm using color histograms. A fun 2-hour project. :) Check out the result:

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YouTube link to: A hand-mouse interface