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CCRobot-IV-F: A Ducted-Fan-Driven Flying-Type Bridge-Stay-Cable Climbing Robot

Wenchao Zhang, Zhenliang Zheng, Xueqi Fu, Sarsenbek Hazken, Huaping Chen, Min Zhao, Ning Ding

20212021 IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS)14 citationsDOI

Abstract

A Flying-type cable climbing robot, CCRobot-IV-F, is presented in this paper. It is a climbing precursor of the fourth version of CCRobot, designed to surpass the abilities of previous robots with high climbing speed and obstacle-crossing capability. CCRobot-IV-F weighs less than 10 kg and a no-load speed of up to 4.5 m/s, which significantly exceeds that of other climbing robots. A dynamic model integrated with a cable-fixed coordinate system is developed, and a cascaded controller designed for stabilizing hover and climb with grippers, when a Global Positioning System and magnetometer are unavailable, is shown to work reliably in practice. Experimental results show that CCRobot-IV-F significantly improves the locomotive performance of CCRobot-IV, exhibiting fast speed, good payload capacity, and excellent obstacle-crossing capability. Moreover, CCRobot-IV-F is applied to a cable-stayed bridge in the field.

Topics & Concepts

ClimbPayload (computing)RobotClimbingObstacleSimulationBridge (graph theory)EngineeringComputer scienceAerospace engineeringStructural engineeringArtificial intelligencePolitical scienceNetwork packetLawMedicineInternal medicineComputer networkSoft Robotics and ApplicationsVibration and Dynamic AnalysisPower Line Inspection Robots
CCRobot-IV-F: A Ducted-Fan-Driven Flying-Type Bridge-Stay-Cable Climbing Robot | Litcius