Rescue

BEAR Gives Injured Soldiers a Smile

Tuesday, July 13th, 2010
BEAR by Vecna

BEAR by Vecna Robotics

The Battlefield Extraction-Assist Robot (BEAR) is a new robot for the US military intended to rescue wounded soldiers in an active battlefields. It has been developed by Vecna Robotics form in Cambridge, MA.

This robot is much stronger than the average humanoid robot. It can lift up to 500 lbs (~ 227 kg) with its two arms and travel on its quadruple track system in a variety of configurations.  As shown in the video below, it can travel very close to the ground (in order to avoid shots and pass through small apertures) or even balance itself on its two tracks in order to do natural eye-level human interaction.

Although its main mission is to rescue soldiers, it ca accomplish many other tasks, such as helping move ammunition around and other military menial tasks.

BEAR has been designed to be an enduring, strong, and … friendly platform. The friendliness is the rational behind the two little bear ears on the sides of the robot’s head. They are intended to calm and comfort the injured soldiers being rescued.

As of now, strength-wise, the BEAR can  kick any other humanoid robots shiny metal (or plastic) butt. The only major lacking feature is autonomy; It would be nice to see Vecna integrate PR2‘s open source code into the BEAR soon.

Via BotJunkie.

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    Robot Lizard Searches and Rescues, is a bit scary

    Tuesday, June 29th, 2010

    Georgia Tech has been developing a Lizard Robot that can bury itself under the sand (or a sand analogue) and navigate its way into hard to reach places. Very much like a sandfish, the robot is covered by a smooth skin (made out of sexy spandex) and can freely move its (aluminium) body segments in order to bury itself deep under the sand. Unlike the lovely lizard, the robot’s goal is not to escape the desert heat by seeking the freshness of the deeper soil. Its main task will be to rescue disaster survivors by wiggling itself into the rubble and searching for them. Once the target is found they are programmed to stay nearby and tell humans rescuers where to dig.

    In the video below (courtesy of New Scientist), the similarities between the robot and its animal counterpart are very nicely depicted. It is possible to see that the robot is not as swift as the sandfish…yet. The Gerorgia Tech researchers reassure us that they are going to improve the the sign in order to make it faster, and more flexible.

    We are looking forward to hear more about the project at the upcoming 2010 Robotics: Science and Systems conference in Zaragoza (Spain).

    Via Artificial Intelligence and Robotics

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      EMILY the life guard robot in Malibu

      Thursday, June 10th, 2010

      Emily

      Emily, for Emergency Integrated Lifesaving Lanyard, is a new life guard robot on Malibu beaches, ready to replace Pamela Anderson.

      The company Hydronalix specializes in marine robotics and is the manufacturer of it.

      This life guard robot is able to swim and save people from drowning 6 times faster than a human life guard. And as you can see on the photo below, the waves don’t really frighten it!

      E.M.I.L.Y. can reach the breakneck speed of 65 km/h and can even keep this pace up for 35 minutes.

      In patrol mode, the robot can move at a speed of 8 km/h for more than 8 hours.

      This robotic buoy only weighs 11 kg and is 1.37 meters long by 20 cm tall and 40 cm wide.

      In summary, a robot that combines both safety and response speed for rescue operations at sea and potential drownings.

      Hydronalix

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        Quince the Rescuer Robot

        Thursday, April 29th, 2010

        Quince

        Quince is a rescuer robot prototype ready to respond to natural catastrophes (earthquakes, landslides, etc.) or work in buildings which have been damaged following explosions (gas, for example), terrorist or biochemical attacks.

        This robot can go on practically any terrain thanks to its 4 independent tracked legs and its body which also provides traction.

        Quince is 65 cm long, 48 wide and 22.5 cm tall. It weighs 26.4 kg.

        The prototype has a wide-angle camera for vision, microphones and speakers, as well as sensors to move forward while evaluating the terrain.

        It moves at a speed of 1.6 m per second.

        Quince is even capable of going up and down stairs. It’s also resistant to water (watertight) and shocks (some patents are pending approval).

        Developed in Japan by the Chiba Institute of Technology and fuRo, this concept is intended to be on the market as soon as it’s completely finalised.

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