2014
DOI: 10.1002/rob.21558
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Human‐robot Teaming for Rescue Missions: Team ViGIR's Approach to the 2013 DARPA Robotics Challenge Trials

Abstract: Team ViGIR entered the 2013 DARPA Robotics Challenge (DRC) with a focus on developing software to enable an operator to guide a humanoid robot through the series of challenge tasks emulating disaster response scenarios. The overarching philosophy was to make our operators full team members and not just mere supervisors. We designed our operator control station (OCS) to allow multiple operators to request and share information as needed to maintain situational awareness under bandwidth constraints, while direct… Show more

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Cited by 66 publications
(45 citation statements)
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“…In [8], [26], a real-time optimization-based state estimation system was introduced for the ATLAS humanoids robot, where stereo fusion was used for planning locomotion on rough planar terrain, by extracting planar contact surfaces for navigation. In a different direction, a graph-based footstep planner was used in [27], [28], [29], using LiDAR/range environment data. Human supervision [30] was mostly necessary for adaptations in the foothold poses.…”
Section: Related Workmentioning
confidence: 99%
“…In [8], [26], a real-time optimization-based state estimation system was introduced for the ATLAS humanoids robot, where stereo fusion was used for planning locomotion on rough planar terrain, by extracting planar contact surfaces for navigation. In a different direction, a graph-based footstep planner was used in [27], [28], [29], using LiDAR/range environment data. Human supervision [30] was mostly necessary for adaptations in the foothold poses.…”
Section: Related Workmentioning
confidence: 99%
“…This not only provided a path for rapidly introducing functionality, but it also provided a baseline to compare novel research and identify areas on which to focus future efforts. This approach relied on collaboration with Team ViGIR, a Track B entry in the DRC headquartered local to Team VALOR, who developed software with the explicit goal of open‐sourcing the results (Kohlbrecher et al., ). Software packages shared between the teams benefited from additional testing with differing hardware configurations, with more manpower available for improving reliability and developing novel algorithms.…”
Section: Software Architecturementioning
confidence: 99%
“…Focus actuator adopt cross slide since the balance device, the counterweight in cross above the sliding table is shown in figure 3 for cross sliding table design in this paper, through respectively under the two layers of sports organizations of transverse and longitudinal movement of balancing mechanism into horizontal and vertical motion mechanism of cross arrangement, respectively through screw nut lieutenant motor rotation movement into linear motion, and through the linear guide and implementation guide bearing longitudinal and lateral institutions adopt stepper motor driver, the difference is horizontal screw through the coupling and reducer shaft directly connected to transmit power, while the vertical organization adopted a pair of synchronous belt wheel transfer the power of the motor through reducer output to the screw [8][9][10]. The high picking driving wheels of the vehicle 1 left rear wheel 2 and the right rear wheel 3 installation force transducer to detect each wheel axle load on the vehicle chassis unit installed below the center of gravity of self-balancing device 4 when the operator loading and unloading the goods at 5, and 6 respectively three pressure sensors detect driving wheel 1 left rear wheel 2 and the right rear wheel load three signal of 1 F , 2 F and 3 F , acquisition of signal through conditioning after feedback to the controller, when the vehicles before and after loading 3 2 1 F F F exceed one intended scope, weight in motion control unit will control longitudinal step-motor drive counterweight to the corresponding direction, until after the front wheel load ratio back to safe scope; Similarly, when two axis loading ratio 3 2 F F exceed the scope , weight in motion control unit will control horizontal stepper motor drive counterweight to the corresponding direction.…”
Section: The Device Of Gravity Center Self-balancingmentioning
confidence: 99%