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Published on May 16, 2017
We have developed a computationally efficient trajectory generator for fully actuated multirotor vehicles, i.e. vehicles that can independently control their position and attitude. The trajectory generator is capable of generating approximately 500'000 trajectories per second that guide the multirotor vehicle from any initial state, i.e. position, velocity and attitude, to any desired final state in a given time. In this video, we show an example application that requires the evaluation of a large number of trajectories in real time. For more details, please refer to the research paper "Computationally Efficient Trajectory Generation for Fully Actuated Multirotor Vehiccles", IEEE Transactions on Robotics, 2018: http://flyingmachinearena.org/wp-cont...
* Multirotor vehicle The multirotor vehicle used in the demonstration is an omni-directional eight-rotor vehicle. Its unique actuator configuration gives it full force and torque authority in all three dimensions, allowing it to fly novel maneuvers. For more details, please refer to the Youtube video or the research paper: - "The Omnicopter": https://youtu.be/sIi80LMLJSY - "Design, Modeling and Control of an Omni-Directional Aerial Vehicle", IEEE International Conference on Robotics and Automation (ICRA), 2016: http://flyingmachinearena.org/wp-cont....
* Researchers Dario Brescianini and Raffaello D'Andrea Institute for Dynamic Systems and Control (IDSC), ETH Zurich, Switzerland - http://www.idsc.ethz.ch
* Acknowledgements This work is supported by and builds upon prior contributions by numerous collaborators in the Flying Machine Arena project. See http://www.flyingmachinearena.org/people. This research was supported by the Swiss National Science Foundation (SNSF).