A novel distributed architecture for UAV indoor navigation | Zendy

Yuntian Li | Zendy; Matteo Scanavino | Zendy; Elisa Capello | Zendy; Fabrizio Dabbene | Zendy; Giorgio Guglieri | Zendy; Andrea Vilardi | Zendy

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A novel distributed architecture for UAV indoor navigation

Author(s) -

Yuntian Li,

Matteo Scanavino,

Elisa Capello,

Fabrizio Dabbene,

Giorgio Guglieri,

Andrea Vilardi

Publication year - 2018

Publication title -

transportation research procedia

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.657

H-Index - 40

eISSN - 2352-1465

pISSN - 2352-1457

DOI - 10.1016/j.trpro.2018.12.003

Subject(s) - architecture , computer science , software , real time computing , focus (optics) , controller (irrigation) , navigation system , systems architecture , software architecture , embedded system , simulation , art , agronomy , physics , optics , visual arts , biology , programming language

In the last decade, different indoor flight navigation systems for small Unmanned Aerial Vehicles (UAVs) have been investigated, with a special focus on different configurations and on sensor technologies. The main idea of this paper is to propose a distributed Guidance Navigation and Control (GNC) system architecture, based on Robotic Operation System (ROS) for light weight UAV autonomous indoor flight. The proposed framework is shown to be more robust and flexible than common configurations. A flight controller and companion computer running ROS for control and navigation are also included in the section. Both hardware and software diagrams are given to show the complete architecture. Further works will be based on the experimental validation of the proposed configuration by indoor flight tests.

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