A new human-like walking for the humanoid robot Romeo

A new human-like walking for the humanoid robot Romeo

This paper seeks to define the anthropomorphic walking motion for the humanoid robot Romeo . The main characteristics of the lower and upper limb motions of the human being during walking are adapted to Romeo taking into account its kinematics and its motor power. The proposed walking includes start...

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Veröffentlicht in:Multibody system dynamics 2021-12, Vol.53 (4), p.411-434
Hauptverfasser: Kalouguine, A., De-León-Gómez, V., Chevallereau, C., Dalibard, S., Aoustin, Y.
Format: Artikel
Sprache:eng
Schlagworte:
Automatic
Automotive Engineering
Boundary value problems
Computer Science
Control
Dynamical Systems
Electrical Engineering
Engineering
Engineering Sciences
Humanoid
Kinematics
Mechanical Engineering
Optimization
Robot dynamics
Robotics
Vibration
Walking
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Beschreibung
Zusammenfassung:This paper seeks to define the anthropomorphic walking motion for the humanoid robot Romeo . The main characteristics of the lower and upper limb motions of the human being during walking are adapted to Romeo taking into account its kinematics and its motor power. The proposed walking includes starting, periodic and stopping motions. A boundary value problem is stated and solved to define each of these three movements, which are composed of single and double support phases. The trajectory of the zero moment point ( ZMP ) is explicitly defined as a function of time. Thanks to the Essential model , the two horizontal coordinates of the center of mass ( CoM ) are adapted to the desired ZMP trajectory and joint movements of Romeo . Numerical results show the efficiency of our strategy to design human-like walking for Romeo .
ISSN:1384-5640
1573-272X
DOI:10.1007/s11044-021-09805-w