This comprehensive paper introduces a model for improving the grasp strength of multi-suction-cup grippers, addressing challenges in heavy object manipulation. It presents new constraints for trajectory planning and optimization, solves load distribution issues with a quadratic program, and validates the model through experimental results.
Highlighting Our Entry in the XPrize Wildfire Competition
New Course on Design of Human Centered Robots
Check out this video reel of the projects of Prof. Sentis’ new graduate class Design of Human Centered Robots, taught this past Spring semester. Every robot and system shown in this video is built from scratch. We are very impressed by the students creativity and skills. The arm, reinforced with carbon fiber, includes custom-built cycloidal gears inspired by Haddington Dynamics. And the dexterous hand? Although it’s a replica of an open source design, the 3D printing and assembly by the students are absolutely mind-boggling! Hand blueprints by https://robotnanohand.com, arm design inspired by Haddington Dynamics.
Summary of ICRA 2024 Participation
We had a great time at ICRA 2024. Jeeeun Lee presented a very nice paper on Jerk Constrained Time Optimal Path Planning and Control:
We also planned activities for our IEEE Technical Committee on Whole-Body Control:
And finally, current and past HCRL students got together in Yokohama during the conference:
NSF GCR: Community Embedded Robotics New Website
New Dataset for Human-Robot Encounters
Wondering how people feel around robots in human environments?
Check out a preprint of our latest collaborative work on stress response of people to walking robots using physiological sensors and survey analysis.