Giovanny Cuzco scite author profile

Purpose This paper aims to present a unified motion control scheme for quadcopters which not only solves the point stabilization and trajectory tracking problems but also the path following problem. Design/methodology/approach The control problem is solved based on the kinematic model of the unmanned aerial vehicles (UAV). Next, a dynamic compensation controller is considered through of a quadcopter-inner-loop system to independently track four velocity commands: forward, lateral, up/downward and heading rate. Stability and robustness of the whole control system are proved through the Lyapunov’s method. To evaluate the controller’s performance, a multi-user application which allows bilateral communication between a ground station and the Phantom 3 PRO quadrotor is developed. Findings The performance of the proposed unified controller is shown through real experiments for the different motion control objectives: point stabilization, trajectory tracking and path following. The experiments confirm the capability of the unified controller to solve different motion problems by an adequate selection of the control references. Originality/value This work proposes the design of three types of motion controllers, which can be switched to comply a task in outdoor. Based on the software development kit provided by the company DJI, an application to get and send data to the UAV is developed. By means of this application, the three tasks are tested and the robustness of the controllers is proved.

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Optimal Control Problem of a Differential Drive Robot

Recalde

Guevara

Cuzco

et al. 2020

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Immersive Virtual System for the Operation of Tourist Circuits

Acosta

Andaluz

Moreno

et al. 2019

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Giovanny Cuzco

Experimental Demonstration for Indoor Localization Based on AoA of Bluetooth 5.1 Using Software Defined Radio

Multi-user Industrial Training and Education Environment

Robot nonlinear control for Unmanned Aerial Vehicles’ multitasking

Optimal Control Problem of a Differential Drive Robot

Immersive Virtual System for the Operation of Tourist Circuits

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