The design steps are discussed in detail, and the global variable structure control of inverted pendulum model is also presented to demonstrate its effectiveness.
文中给出了详细设计步骤,并对倒立摆模型设计了全滑模控制器,仿真结果验证了其有效性。
Firstly, the simplified model of the single inverted pendulum system is analyzed, and then designed a digital optimal controller with integral function.
通过对单级倒立摆系统的简化模型分析,设计了带有积分环节的数字最优控制器。
The mathematical model of inverted pendulum system is built, and a controller is designed based on the pole placement method with full state feedback to make the inverted pendulum system work stably.
通过建立倒立摆系统的数学模型,应用状态反馈控制配置系统极点设计倒立摆系统的控制器,实现其状态反馈,从而使倒立摆系统稳定工作。
This paper build a model of hardware in the loop using MATLAB. The linear quadratic optimal control strategy is adopted to design a LQR controller of double inverted pendulum.
本文在MATLAB环境下建立了二级倒立摆的半物理实时仿真模型,并应用线性二次型最优控制策略,设计了一个二级倒立摆lQR控制器。
The training model of test simulation for car of inverted pendulum based on BP algorithm of artificial neural networks (ANN) is a BP network that has 4-input and 3-layer structure.
基于人工神经网络BP算法的倒立摆小车实验仿真训练模型,其倒立摆BP网络为4输入3层结构。
First of all, this thesis analyses the structure and mathematic model of Inverted pendulum system.
本文首先对倒立摆系统的结构和数学模型进行了分析、建模。
The contents of this paper consists of the design and realization of motion control model for the inverted pendulum servo system, modeling and emulating of the inverted pendulum.
本课题主要完成倒立摆伺服系统运动控制模块的设计和实现,对倒立摆系统进行建模和仿真,在此基础上完成了对单级倒立摆的稳定平衡控制。
Then the neural network based inverse model of the inverted pendulum is trained.
然后,以这些数据为基础训练倒立摆的神经网络逆模型;
The second strategy don't use mathematics model of inverted pendulum, make use of fuzzy theories to control swinging up automatically and the balance controlling directly.
第二种策略不利用倒立摆的数学模型,直接利用模糊控制对其进行自动起摆和平衡控制。
For the dynamic model of inverted pendulum system, adopted fuzzy control method, the T-S fuzzy controller based on the state feedback was designed.
针对倒立摆系统动态模型,采用模糊控制方法,设计基于状态反馈的T - S型模糊控制器。
The RBF-ARX model is used to build the global model of the single inverted pendulum system for representing the nonlinear dynamics.
针对直线一级倒立摆控制系统的非线性特性,采用RBF-ARX模型对倒立摆系统的全局非线性动态特性进行建模。
Movable equation of the inverted pendulum is derived, according to the dynamics analysis method of Lagrange. By system feasible approximation, an easily analytical math model is deduced.
基于拉格朗日动力学分析方法,推导出倒立摆的运动方程,在对系统进行可行的近似化处理后,得出了便于分析的数学模型。
For the inverted pendulum system with multi-variable and nonlinear characteristic, a double closed-loop cascade fuzzy control approach was put forward based on Takagi-Sugeno fuzzy model.
在对火电厂过热汽温控制对象特点分析基础上,保留串级控制抗内扰的性能,结合模糊控制动态特性好的特点,提出了一种复合模糊串级控制设计。
For the inverted pendulum system with multi-variable and nonlinear characteristic, a double closed-loop cascade fuzzy control approach was put forward based on Takagi-Sugeno fuzzy model.
在对火电厂过热汽温控制对象特点分析基础上,保留串级控制抗内扰的性能,结合模糊控制动态特性好的特点,提出了一种复合模糊串级控制设计。
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