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VFH+ based shared control for remotely operated mobile robots

Pantelis Pappas, Manolis Chiou, Georgios-Theofanis Epsimos, Grigoris Nikolaou, Rustam Stolkin

202023 citationsDOIOpen Access PDF

Abstract

This paper addresses the problem of safe and efficient navigation in remotely controlled robots operating in hazardous and unstructured environments; or conducting other remote robotic tasks. A shared control method is presented which blends the commands from a VFH+ obstacle avoidance navigation module with the teleoperation commands provided by an operator via a joypad. The presented approach offers several advantages such as flexibility allowing for a straightforward adaptation of the controller's behaviour and easy integration with variable autonomy systems; as well as the ability to cope with dynamic environments. The advantages of the presented controller are demonstrated by an experimental evaluation in a disaster response scenario. More specifically, presented evidence show a clear performance increase in terms of safety and task completion time compared to a pure teleoperation approach, as well as an ability to cope with previously unobserved obstacles.

Topics & Concepts

TeleoperationFlexibility (engineering)Obstacle avoidanceTeleroboticsMobile robotTask (project management)Adaptation (eye)ObstacleRobotController (irrigation)Control engineeringComputer scienceEngineeringRemote controlControl (management)Real-time computingCollision avoidanceWorkspaceOperator (biology)Robot controlSimulationTask analysisControl systemRemote operationVariable (mathematics)Human–computer interactionEmbedded systemTrajectoryUnexpected eventsRobotic Path Planning AlgorithmsTeleoperation and Haptic SystemsRobot Manipulation and Learning
VFH+ based shared control for remotely operated mobile robots | Litcius