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Design of KAIST HOUND, a Quadruped Robot Platform for Fast and Efficient Locomotion with Mixed-Integer Nonlinear Optimization of a Gear Train

Young-Ha Shin, Seungwoo Hong, Sangyoung Woo, JongHun Choe, Harim Son, Gijeong Kim, Joon-Ha Kim, KangKyu Lee, Jemin Hwangbo, Hae-Won Park

20222022 International Conference on Robotics and Automation (ICRA)30 citationsDOI

Abstract

This paper introduces a design method for an efficient and agile quadruped robot. A mixed-integer optimization formulation including the number of gear teeth is derived to obtain the optimal gear ratio that minimizes cost for a running-trot with the target speed of 3 m/s. With the inclusion of integer constraints related to the number of gear teeth, detailed design considerations of gear trains can be included in the optimization process. Thermal dissipation of the motor controller is also taken into account in the optimization to consider heat generation during high-speed running. KAIST Hound, a 45 kg robot, designed with the obtained design parameters has successfully demonstrated a 3 m/s running-trot using a nonlinear model predictive controller (NMPC). Furthermore, the robot has proved its robustness by the demonstration of additional experiments such as 22° slope climbing, 3.2 km walking, and traversing a 35 cm obstacle.

Topics & Concepts

RobotControl theory (sociology)Gear trainRobustness (evolution)Nonlinear systemRobot locomotionTraverseNonlinear programmingComputer scienceEngineeringSimulationControl engineeringMechanical engineeringMobile robotRobot controlArtificial intelligencePhysicsGeographySpiral bevel gearQuantum mechanicsControl (management)ChemistryBiochemistryGeneGeodesyRobotic Locomotion and ControlProsthetics and Rehabilitation RoboticsSoil Mechanics and Vehicle Dynamics
Design of KAIST HOUND, a Quadruped Robot Platform for Fast and Efficient Locomotion with Mixed-Integer Nonlinear Optimization of a Gear Train | Litcius