HumaBiMan

Benchmarking Humanoid Locomotion and Standing Performances during Dynamic Autonomous Bi-Manipulation of Objects

Main researcher: C. Balaguer

TEO caja

Description

The technical purpose of this project is to benchmark existing and new adaptive whole-body controllers developed for the humanoid robot TEO1,2. The development of these controllers is based on different bioinspired techniques such as axes Fractional-PID controllers and dynamically adaptative LIRM, that need rich experimental data to be improved. The target scenarios of this proposal are i) the standing moving surface testbed (COMTEST) and ii) the standing during manipulation among shelfs testbed. They provide the appropriate environment to improve the general whole-body stability control algorithms and to benchmark the performance in different situations during standing manipulation.

Entries:
Towards Fully Automated Tunnel Inspection: A Survey and Future Trends
31st International Symposium on Automation and Robotics in Construction and Mining (ISARC 2014), 2014, Sydney, Australia
R. Montero Juan G. Victores S. Martinez A. Jardon
Autonomous Robotic System with Tunnel Inspection Tool Positioning
Proceedings of the International Symposium on Automation and Robotics in Construction (ISARC), 2017, Taipei, Taiwan
E. Menéndez Juan G. Victores R. Montero

Entries:
Robocity2030 13th Workshop EU robotic projects results
chapter: The Robot-Spect EU Project: Autonomous Robotic Tunnel Inspection pages: 91 – 100. UC3M , ISBN: 978-84-608-4160-9, 2015
R. Montero Juan G. Victores E. Menéndez

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