Quad-rotor unmanned aerial vehicle reinforcement learning nonlinear attitude control method

A four-rotor UAV, reinforcement learning technology, applied in attitude control, non-electric variable control, vehicle position/route/altitude control, etc., can solve the problem of insufficient generalization ability of the controller

Active Publication Date: 2021-02-12
TIANJIN UNIV
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AI Technical Summary

Problems solved by technology

The invention considers the unmodeled part in the dynamics model of the quadrotor UAV, and uses the reinforcement learning method and the multivariable super-twisting algorithm to carry out online training for the quadrotor UAV to solve the problem of insufficient generalization ability of the controller

Method used

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  • Quad-rotor unmanned aerial vehicle reinforcement learning nonlinear attitude control method
  • Quad-rotor unmanned aerial vehicle reinforcement learning nonlinear attitude control method
  • Quad-rotor unmanned aerial vehicle reinforcement learning nonlinear attitude control method

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Embodiment Construction

[0084] The technical scheme adopted by the present invention is: establish a kind of quadrotor unmanned aerial vehicle dynamics model including the unmodeled part of the system, and design the corresponding reinforcement learning nonlinear attitude controller, including the following steps:

[0085] First, a dynamic model of the quadrotor UAV needs to be established. figure 1 It is a schematic diagram of the quadrotor UAV system used in this paper. In the present invention, the unmanned aerial vehicle is an X-shaped four-rotor unmanned aerial vehicle, and adopts the Newton-Euler method to establish the dynamic model of the four-rotor unmanned aerial vehicle, and the expression is as follows:

[0086]

[0087] The variables in formula (1) are defined as follows: M(η) represents the inertia matrix, represents the Coriolis and centrifugal force matrices, Represents the rotational damping coefficient matrix, where K 1 、K 2 and K 3 are all unknown constants. Δ(η) repre...

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Abstract

The invention relates to a quad-rotor unmanned aerial vehicle reinforcement learning nonlinear attitude control method, and aims to solve a problem of quad-rotor unmanned aerial vehicle attitude control of a quad-rotor unmanned aerial vehicle dynamical model with an unmodeled part; and a reinforcement learning controller based on an execution-evaluation neural network is designed for estimating the unmodeled part of the model. And meanwhile, a nonlinear robust controller based on multivariable super-twisting is designed, so that stable attitude control of the quadrotor unmanned aerial vehicleis realized.

Description

technical field [0001] The invention relates to the precise attitude control of a quadrotor UAV. Aiming at the influence of the unmodeled part of the quadrotor UAV system dynamics model on the system control performance, and the dependence of the control method based on the system dynamics model on the accurate model, a control algorithm based on reinforcement learning and second-order sliding mode is proposed The nonlinear attitude controller of the UAV achieves the result of finite time convergence of the UAV attitude control error. Specifically, it relates to a finite-time convergent attitude control method for a quadrotor UAV. Background technique [0002] Traditional linear control algorithms, such as PID algorithm and LQR algorithm, have been widely used in quadrotor UAVs. However, the linear control algorithm only ensures that the system has a good control effect in the state near the equilibrium point, and it is difficult to achieve satisfactory results in dealing ...

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G05D1/08
CPCG05D1/0825
Inventor 鲜斌张诗婧
Owner TIANJIN UNIV
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