Litcius/Paper detail

TAMS: development of a multipurpose three-arm aerial manipulator system

Hannibal Paul, Ryo Miyazaki, Robert Ladig, Kazuhiro Shimonomura

2020Advanced Robotics36 citationsDOIOpen Access PDF

Abstract

This paper describes the concept, design and realization of a novel manipulator system for a multirotor aerial robot. The proposed manipulator system consists of three robotic arms attached to a multirotor frame. To overcome the limited payload capabilities in multirotor aerial platforms, the same set of on-board manipulators are used to realize various tasks, primarily the manipulation or grasping of objects of various sizes. Furthermore, they can provide aid in complex navigation tasks by doing physical, contact-based obstacle avoidance and are able to act as adaptive landing gear in uneven terrain. The design requirements and the analysis to realize these tasks is discussed. The proposal is supported with the successful demonstration of these tasks using the aerial multi manipulator system in an outdoor environment.

Topics & Concepts

MultirotorPayload (computing)Obstacle avoidanceMobile manipulatorFrame (networking)ObstacleManipulator (device)Control engineeringComputer scienceRobotic armTerrainRealization (probability)EngineeringSimulationRobotArtificial intelligenceMobile robotMechanical engineeringAerospace engineeringBiologyMathematicsComputer networkPolitical scienceNetwork packetStatisticsEcologyLawRobotic Path Planning AlgorithmsRobotics and Sensor-Based LocalizationUnderwater Vehicles and Communication Systems
TAMS: development of a multipurpose three-arm aerial manipulator system | Litcius