@proceedings {04278244642, title = {Cooperative manipulation between humans and teleoperated agents}, year = {2004}, note = {

Robonauts;Haptic feedback;Cooperative manipulation;

}, pages = {114 - 120}, address = {Chicago, IL, United States}, abstract = {

Robonaut is a humanoid robot designed by the Robotic Systems Technology Branch at NASA{\textquoteright}s Johnson Space Center in a collaborative effort with DARPA. This paper describes the implementation of haptic feedback into Robonaut. We conducted a cooperative manipulation task, inserting a flexible beam into an instrumented receptacle. This task was performed while both a human at the worksite and the teleoperated robot grasped the flexible beam simultaneously. Peak forces in the receptacle were consistently lower when the human operator was provided with kinesthetic force feedback in addition to other modalities of feedback such as gestures and voice commands. These findings are encouraging as the Dexterous Robotics Lab continues to implement force feedback into its teleoperator hardware architecture.

}, keywords = {Computer simulation, Feedback, Haptic interfaces, Human computer interaction, Robots, Statistical methods}, url = {http://dx.doi.org/10.1109/HAPTIC.2004.1287185}, attachments = {https://mahilab.rice.edu/sites/default/files/publications/glassmire2004haptics.pdf}, author = {John Glassmire and O{\textquoteright}Malley, M.K. and William Bluethmann and Robert O. Ambrose} } @article {03507772035, title = {Haptic feedback applications for robonaut}, journal = {Industrial Robot}, volume = {30}, number = {6}, year = {2003}, note = {Haptic feedback;Humanoid robot;Teleoperator;}, pages = {531 - 542}, abstract = {

Robonaut is a humanoid robot designed by the Robotic Systems Technology Branch at NASA{\textquoteright}s Johnson Space Center in a collaborative effort with Defense Advanced Research Projects Agency. This paper describes the implementation of haptic feedback into Robonaut and Robosim, the computer simulation of Robotonaut. In the first experiment, we measured the effects of varying feedback to a teleoperator during a handrail grasp task. Second, we conducted a teleoperated task, inserting a flexible beam into an instrumented receptable. In the third experiment, we used Robonaut to perform a two-arm task where a compliant ball was translated in the robot{\textquoteright}s workspace. The experimental results are encouraging as the Dexterous Robotics Lab continues to implement force feedback into its teleoperator hardware architecture.

}, keywords = {Computer control systems, Feedback control, Haptic interfaces, Robotics, Space applications, Telecontrol equipment}, url = {http://dx.doi.org/10.1108/01439910310506800}, attachments = {https://mahilab.rice.edu/sites/default/files/publications/IndustrialRobotO\%27Malley-Ambrose2003.pdf}, author = {O{\textquoteright}Malley, M.K. and Robert O. Ambrose} } @proceedings {70, title = {Simulated Bilateral Teleoperation of Robonaut}, year = {2003}, address = {Long Beach, CA}, attachments = {https://mahilab.rice.edu/sites/default/files/publications/70-PV2003_6272.pdf}, author = {O{\textquoteright}Malley, M.K. and Kelsey J. Hughes and D. F. Magruder and Robert O. Ambrose} }