LOCOMOTION
The Influence of ground inclination on the energy efficiency of a bipedal walking robot
Yinnan Luo, Ulrich J. Römer, Alexander Fidlin
- Year
- 2021
- Citations
- 3
- Access
- Open access
Abstract
Abstract One of the major tasks in developing bipedal walking robots is to improve energy efficiency of their locomotion. In this paper a method for extending this research by considering ground inclinations is introduced. The investigated robot is driven by electric motors in its revolute joints. Robot's gaits for different walking speeds are generated via numerical optimization, minimizing energy consumption during locomotion. Energy efficiency can be increased for differently inclined grounds where the robot utilizes its natural dynamics and gravity.
Keywords
RobotRevolute jointRobot locomotionEnergy consumptionEfficient energy useComputer scienceEnergy (signal processing)SimulationControl theory (sociology)Center of gravity
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