Using next-generation tactile sensing technology and a multi-finger, electromechanical design, STARFISH will allow operators to locate, identify and neutralize hidden and visible explosive threats on land and underwater. STARFISH-enabled manipulators will be deployed on both ground-base and underwater robotic system to defeat explosive threats.

PITTSBURGH - May 20, 2019 - RE2 Robotics, leading developer of human-like robotic manipulator arms, announced today that the Company has received $3 million in funding from the Office of Naval Research to develop a dexterous, underwater robotic hand with tactile feedback. The program, called Strong Tactile mARitime hand for Feeling, Inspecting, Sensing and Handing (STARFISH), will create an advanced end-effector for mine countermeasures (MCM) and explosive ordnance disposal (EOD) missions for U.S. Naval expeditionary forces.

Using next-generation tactile sensing technology and a multi-finger, electromechanical design, STARFISH will allow operators to locate, identify and neutralize hidden and visible explosive threats on land and underwater. STARFISH-enabled manipulators will be deployed on both ground-base and underwater robotic system to defeat explosive threats.
"The development of STARFISH takes underwater robotic technology to the next level by providing operators with the ability to ‘feel' and sense the environment around them while remaining at a safe distance," said Jorgen Pedersen, president and CEO of RE2 Robotics. "The use of advanced tactile sensing and intelligent grasping will improve operational performance by removing operators from dangerous areas and allowing them to quickly and accurately respond to explosive threats."
RE2 will work with researchers at UCLA and the University of Washington to develop the hand, which will use state-of-the-art tactile skin and sensorized fingertips that are capable of sensing normal and shear forces. Operators will command the hand using information provided by external sensing, such as cameras, sonar or LIDAR, which will then be processed with machine-learning algorithms to assist the operator in manipulating the object.
"Tactile sensing at the end effector can provide a wealth of information about the environment to a robotic system and its operator," said Dr. Andrew Mor, RE2 principal investigator. "Using a rich network of sensing, machine learning and assisted manipulation, STARFISH will be able to perceive and then share its interpretation of the environment with the operator, allowing Naval expeditionary forces to manipulate and control the robot at human speed."

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About RE2 Robotics
RE2 Robotics develops human-like robotic manipulation systems for a variety of complex tasks and applications. We create robotic arms with human biomechanics in mind. RE2 creates interoperable robotic manipulator arms, intuitive controllers, and advanced autonomy solutions for robotic arms. For more information, please visit www.resquared.com or call 412.681.6382.