Litcius/Paper detail

TiltDrone: A Fully-Actuated Tilting Quadrotor Platform

Peter Zheng, Xinkai Tan, Başaran Bahadır Koçer, E. H. Yang, Mirko Kovač

2020IEEE Robotics and Automation Letters129 citationsDOIOpen Access PDF

Abstract

Multi-directional aerial platforms can fly in almost any orientation and direction, often maneuvering in ways their underactuated counterparts cannot match. A subset of multi-directional platforms is fully-actuated multirotors, where all six degrees of freedom are independently controlled without redundancies. Fully-actuated multirotors possess much greater freedom of movement than conventional multirotor drones, allowing them to perform complex sensing and manipulation tasks. While there has been comprehensive research on multi-directional multirotor control systems, the spectrum of hardware designs remains fragmented. This letter sets out the hardware design architecture of a fully-actuated quadrotor and its associated control framework. Following the novel platform design, a prototype was built to validate the control scheme and characterize the flight performance. The resulting quadrotor was shown in operation to be capable of holding a stationary hover at 30° incline, and track position commands by thrust vectoring [Video attachment: https://youtu.be/8HOQl_77CVg].

Topics & Concepts

MultirotorThrust vectoringUnderactuationComputer scienceDegrees of freedom (physics and chemistry)QuadcopterDroneControl engineeringScheme (mathematics)TrajectoryThrustControl theory (sociology)Control (management)EngineeringAerospace engineeringArtificial intelligenceMathematical analysisAstronomyBiologyMathematicsPhysicsGeneticsQuantum mechanicsUnderwater Vehicles and Communication SystemsAdaptive Control of Nonlinear SystemsRobotic Path Planning Algorithms