Human-Inspired Eigenmovement Concept Provides Coupling-Free Sensorimotor Control in Humanoid Robot

0468333 - ÚI 2018 RIV CH eng J - Článek v odborném periodiku
Alexandrov, A.V. - Lippi, V. - Mergner, T. - Frolov, A. A. - Hettich, G. - Húsek, Dušan
Human-Inspired Eigenmovement Concept Provides Coupling-Free Sensorimotor Control in Humanoid Robot.
Frontiers in Computational Neuroscience. Roč. 11, 25 April (2017), č. článku 22. E-ISSN 1662-5188
Institucionální podpora: RVO:67985807
Klíčová slova: human sensorimotor system * neuromechanics * biorobotics * motor control * eigenmovements
Obor OECD: Robotics and automatic control
Impakt faktor: 2.073, rok: 2017

Control of a multi-body system in both robots and humans may face the problem of destabilizing dynamic coupling effects arising between linked body segments. The state of the art solutions in robotics are full state feedback controllers. For human hip-ankle coordination, a more parsimonious and theoretically stable alternative to the robotics solution has been suggested in terms of the Eigenmovement (EM) control. Eigenmovements are kinematic synergies designed to describe the multi DoF system, and its control, with a set of independent, and hence coupling-free, scalar equations. This paper investigates whether the EM alternative shows ”real-world robustness” against noisy and inaccurate sensors, mechanical non-linearities such as dead zones, and human-like feedback time delays when controlling hip-ankle movements of a balancing humanoid robot. The EM concept and the EM controller are introduced, the robot’s dynamics are identified using a biomechanical approach, and robot tests are performed in a human posture control laboratory. The tests show that the EM controller provides stable control of the robot with proactive (”voluntary”) movements and reactive balancing of stance during support surface tilts and translations. Although a preliminary robot-human comparison reveals similarities and differences, we conclude (i) the Eigenmovement concept is a valid candidate when different concepts of human sensorimotor control are considered, and (ii) that human-inspired robot experiments may help to decide in future the choice among the candidates and to improve the design of humanoid robots and robotic rehabilitation devices.
Trvalý link: http://hdl.handle.net/11104/0266230