Litcius/Paper detail

Development of a Humanoid Shoulder Based on 3-Motor 3 Degrees-of-Freedom Coupled Tendon-Driven Joint Module

Wenyang Li, Yiwei Wang, Shunta Togo, Hiroshi Yokoi, Yinlai Jiang

2021IEEE Robotics and Automation Letters21 citationsDOI

Abstract

In this study, a new humanoid shoulder is developed using a coupled tendon-driven mechanism that consists of three motors to drive three degrees of freedom (DoFs). In the coupled tendon-driven mechanism, multiple motors simultaneously drive multiple joints with each joint driven by at least two motors coupled with tendons. The torque of a motor is redistributed to multiple joints in a certain proportion to improve the load capacity of the joints. The 3M3D (3-motor 3-DoF) coupled tendon-driven joint module is systematically analyzed and divided into four categories according to the torque transmission characteristics between the motors and the joints: fully routed motor-joint form, 1-unrouted motor-joint form, 2-unrouted motor-joint form, and 3-unrouted motor-joint form. The four categories were analyzed and compared with respect to the characteristics of the motor torque redistribution with different tendon routing forms. The 2-unrouted motor-joint form was adopted for the development of the 3-DoF shoulder joint. The problem of the coexistence of coupling and non-coupling in one joint is solved by introducing a 2-DoF rolling joint. The relationship between the angle and torque between the motors and joints was verified experimentally. The experimental results revealed that the 3M3D coupled tendon-driven shoulder realized torque enhancement effectively by tendon coupling, and the angle accuracy was sufficient as a humanoid shoulder.

Topics & Concepts

TorqueJoint (building)TendonShoulder jointMechanism (biology)Coupling (piping)Universal jointControl theory (sociology)Torque motorDegrees of freedom (physics and chemistry)Computer scienceEngineeringDirect torque controlMechanical engineeringPhysicsStructural engineeringAnatomyInduction motorArtificial intelligenceElectrical engineeringMedicineControl (management)VoltageThermodynamicsQuantum mechanicsProsthetics and Rehabilitation RoboticsMuscle activation and electromyography studiesRobot Manipulation and Learning