Intelligent Discrete Sliding Mode Predictive Fault-Tolerant Control Method for Multi-Delay Quad-Rotor UAV System Based on DIECOA

Yang, Pu; Zhang, Zhiqing; Geng, Huilin; Jiang, Bin; Hu, Xukai

doi:10.3390/aerospace9040207

Cited by 2 publications

(1 citation statement)

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“…The QBall 2 quadcopter is an innovative platform intended for scientific research to fly indoor using Optitrack Flex-3 cameras [13]. It has a strongly coupled dynamics and an external protective cage [13,14,15,16,17]. It was built by Quanser, a Canadian robot manufacturing company.…”

Section: Introductionmentioning

confidence: 99%

Sliding Mode Controller Based on the Sliding Mode Observer for a QBall 2+ Quadcopter with Experimental Validation

Daadi¹,

Boulebtinai²,

Derrouaoui³

et al. 2022

IJRCS

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This paper studies a particular Unmanned Aerial Vehicle (UAV), called QBall 2+ quadcopter. This vehicle is a complex system, non-linear, strongly coupled, and under-actuated. First, a non-linear model was developed to represent the dynamics of the studied drone. Once the latter is established, the linear model was used to obtain the best gains of the Proportional Integral Derivative (PID) controller. This controller was applied after on the non-linear model of the UAV. Moreover, a Sliding Mode Controller (SMC) based on Sliding Mode Observer (SMO) was designed for retrieving the system unknown variables. Through these latter, the QBall 2+ was controlled, taking into account the observer errors. The first contribution in this work is to implement the PID regulator on the QBall 2+ flight controller to validate the results obtained by simulation. Secondly, due to the limitations of the Flex 3 cameras, especially when the drone is outside their working environment, the sliding mode observer was implemented to replace the cameras in order to measure the states of the system considered in this work. Simulation results of the different applied controllers were displayed to evaluate their effectiveness.

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Section: Introductionmentioning

confidence: 99%