![Electronics | Free Full-Text | An Embedded Platform for Positioning and Obstacle Detection for Small Unmanned Aerial Vehicles Electronics | Free Full-Text | An Embedded Platform for Positioning and Obstacle Detection for Small Unmanned Aerial Vehicles](https://www.mdpi.com/electronics/electronics-09-01175/article_deploy/html/images/electronics-09-01175-g002.png)
Electronics | Free Full-Text | An Embedded Platform for Positioning and Obstacle Detection for Small Unmanned Aerial Vehicles
![Diseño de un sistema de generación y control de trayectorias para un cuatrirrotor Parrot AR.Drone 2.0 utilizando técnicas de Diseño de un sistema de generación y control de trayectorias para un cuatrirrotor Parrot AR.Drone 2.0 utilizando técnicas de](https://riunet.upv.es/bitstream/handle/10251/162120/TFM_comp_2_1600349387443148132989885581561.pdf.jpg?sequence=2&isAllowed=y)
Diseño de un sistema de generación y control de trayectorias para un cuatrirrotor Parrot AR.Drone 2.0 utilizando técnicas de
GitHub - darenlee/SimulinkARDroneTarget: Deploy MATLAB Simulink model automatically to Parrot AR Drone with Embedded Coder C code generation
![Comparación de Técnicas de Control Moderno (Observadores De Estado Vs Lqr) Implementadas Sobre un Ar Drone 2.0 Parrot - hdl:11349/4019 Comparación de Técnicas de Control Moderno (Observadores De Estado Vs Lqr) Implementadas Sobre un Ar Drone 2.0 Parrot - hdl:11349/4019](https://repository.udistrital.edu.co/bitstream/handle/11349/4019/ContrerasBernalCarlosAndres2016.pdf.jpg?sequence=11&isAllowed=y)
Comparación de Técnicas de Control Moderno (Observadores De Estado Vs Lqr) Implementadas Sobre un Ar Drone 2.0 Parrot - hdl:11349/4019
![Real-time trajectory tracking of an unmanned aerial vehicle using a self-tuning fuzzy proportional integral derivative controller - Batıkan E Demir, Raif Bayir, Fecir Duran, 2016 Real-time trajectory tracking of an unmanned aerial vehicle using a self-tuning fuzzy proportional integral derivative controller - Batıkan E Demir, Raif Bayir, Fecir Duran, 2016](https://journals.sagepub.com/cms/10.1177/1756829316675882/asset/images/large/10.1177_1756829316675882-fig4.jpeg)
Real-time trajectory tracking of an unmanned aerial vehicle using a self-tuning fuzzy proportional integral derivative controller - Batıkan E Demir, Raif Bayir, Fecir Duran, 2016
Design and implementation of a control of position system for the quadricopter AR. Drone 2.0 by Parrot
![PDF) Experimental Implementation of Fuzzy Vision-Based Tracking Control of Quad-Rotor | Lintu Roy - Academia.edu PDF) Experimental Implementation of Fuzzy Vision-Based Tracking Control of Quad-Rotor | Lintu Roy - Academia.edu](https://0.academia-photos.com/attachment_thumbnails/77846507/mini_magick20220101-11058-c8rnv5.png?1641050605)