FORERUNNER HIGH SPEED INSPECTION ROBOT

FORERUNNER HIGH SPEED INSPECTION ROBOT

UNMANNED GROUND VEHICLES

 

RE2's High-Speed Inspection Robot (ForeRunner RDV) is an R&D robotic platform.
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HSIR - High-Speed Inspection Robot

The goals of the baseline High Speed Inspection Robot (HSIR) SBIR Program were to develop a novel robotic vehicle with high-speed capability, near-omnidirectional maneuverability, and precise controllability at all speeds; to develop a modular payload capability, including a manipulator payload; and to investigate coordinated motion of the robot base and the manipulator. The ForeRunner RDV vehicle, which was developed under this program, met all of these goals, with the ability to drive at speeds of up to 25 miles per hour, to maneuver precisely at high and low speeds, including the ability to turn in place, and to perform hands-on inspection using the manipulator. HSIR is a Phase II SBIR project with the U.S. Army Tank Automotive Research, Development and Engineering Center (TARDEC).

HSIR was selected for additional funding to further develop the HSIR design to enhance and harden the vehicle. This includes meeting the environmental conditions encountered during missions, reducing the size and weight, and enhancing the capability of the vehicle, including the capabilities of the manipulator payload.


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HST - High-Speed Teleoperation

The High-Speed Teleoperation (HST) program upgraded the High Speed Inspection Robot (HSIR) with stronger suspension components, more powerful computing, and modified the interface for computer control to support a research program at CMU’s National Robotics Engineering Center (NREC) which was developing assistive technologies for teleoperation of high speed robotic vehicles.

 

DID YOU KNOW?

The RE2 ForeRunner Excelled at JIEDDO’s Robotics Counter-IED Challenge

JIEDDO officially released Robotics Challenge results. “RE2, Inc.’s ForeRunner Unmanned Ground Vehicle — known as a UGV — was the dismounted class winner in the endurance challenge, which measured speed and freedom of maneuverability of both mounted and dismounted support robots.”