Hopping robot based on free vibration of an elastic curved beam
No Thumbnail Available
Date
2011
Authors
Journal Title
Journal ISSN
Volume Title
Publisher
IEEE
Abstract
This study presents a novel approach to the design of low-cost and energy-efficient hopping robots, which makes use of free vibration of an elastic curved beam. We found that a hopping robot could benefit from an elastic curved beam in many ways such as low manufacturing cost, light body weight and small energy dissipation in mechanical interactions. A challenging problem of this design strategy, however, lies in harnessing the mechanical dynamics of free vibration in the elastic curved beam: because the free vibration is the outcome of coupled mechanical dynamics between actuation and mechanical structures, it is not trivial to systematically design mechanical structures and control architectures for stable locomotion. From this perspective, this paper investigates a case study of simple hopping robot to identify the design principles of mechanics and control. We developed a hopping robot consisting of an elastic curved beam and a small rotating mass, which was then modeled and analyzed in simulation. The experimental results show that the robot is capable of exhibiting stable hopping gait patterns by using a small actuation with no sensory feedback owing to the intrinsic stability of coupled mechanical dynamics. Furthermore, an additional analysis shows that, by exploiting free vibration of the elastic curved beam, cost of transport of the proposed hopping locomotion can be in the same rage of animals' locomotion including human running.
Description
Bu çalışma, 03-07 Temmuz 2011 tarihleri arasında Budapest[Macaristan]’da düzenlenen IEEE/ASME International Conference on Advanced Intelligent Mechatronics’da bildiri olarak sunulmuştur.
Keywords
Computer science, Engineering, Robotics, GAIT, Animals, Cost benefit analysis, Curved beams and girders, Dynamics, Energy dissipation, Energy efficiency, Industrial robots, Intelligent mechatronics, Intelligent robots, Machine design, Sensory feedback, Body weight, Control architecture, Curved beams, Design Principles, Design strategies, Energy efficient, Free vibration, Gait pattern, Hopping robots, Intrinsic stability, Manufacturing cost, Mechanical dynamics, Mechanical interactions, Mechanical structures, Rotating mass, Stable locomotion, Vibration analysis
Citation
Reis, M. vd. (2011). "Hopping robot based on free vibration of an elastic curved beam". 2011 IEEE/Asme International Conference on Advanced Intelligent Mechatronics (Aim), IEEE Asme International Conference On Advanced Intelligent Mechatronics, 892-897.