Litcius/Paper detail

Automatic T-Branch Travel of an Articulated Wheeled In-Pipe Inspection Robot Using Joint Angle Response to Environmental Changes

Atsushi Kakogawa, Kenya MURATA, Shugen Ma

2022IEEE Transactions on Industrial Electronics24 citationsDOIOpen Access PDF

Abstract

The present paper proposes an automatic T-branch travel method of an articulated wheeled in-pipe inspection robot, AIRo-5.2, using its joint angle response to environmental changes. The robot joints are composed of two passive elastic joints with torsional springs and a single active joint using a polyurethane-based series elastic actuator (SEA). By switching from torque control to angle control of this SEA, the AIRo-5.2 can pass through vertical T-branches. However, the timing needed to switch them has not yet been defined, and thus it was necessary to train the operators. Therefore, a method that uses the middle joint angle change was proposed for automatic T-branch travel. To elucidate the phenomenon of this angle change and to determine the effects of a robot's mechanical parameters, a partial dynamic model was constructed when only the head link contact was released at a T-branch. Finally, the travel performance of our developed in-pipe robot was tested on 10 types of T-branches with different gravity directions. From the experiments, although the probability of completing the course was not 100% in all cases, the effectiveness of our proposed principle and algorithm for automatic T-branch travel was confirmed.

Topics & Concepts

RobotTorqueJoint (building)EngineeringActuatorComputer scienceSimulationControl theory (sociology)Structural engineeringArtificial intelligenceControl (management)PhysicsThermodynamicsSoft Robotics and ApplicationsRobot Manipulation and LearningProsthetics and Rehabilitation Robotics