Learning Flatness-Based Controller Using Neural Networks

ASME Letters in Dynamic Systems and Control Pub Date : 2020-04-08 DOI:10.1115/1.4046776

Hailin Ren, Jingyuan Qi, P. Ben-Tzvi

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Abstract

This paper presents a method to imitate flatness-based controllers for mobile robots using neural networks. Sample case studies for a unicycle mobile robot and an unmanned aerial vehicle (UAV) quadcopter are presented. The goals of this paper are to (1) train a neural network to approximate a previously designed flatness-based controller, which takes in the desired trajectories previously planned in the flatness space and robot states in a general state space, and (2) present a dynamic training approach to learn models with high-dimensional inputs. It is shown that a simple feedforward neural network could adequately compute the highly nonlinear state variables transformation from general state space to flatness space and replace the complicated designed heuristic to avoid singularities in the control law. This paper also presents a new dynamic training method for models with high-dimensional independent inputs, serving as a reference for learning models with a multitude of inputs. Training procedures and simulations are presented to show both the effectiveness of this novel training approach and the performance of the well-trained neural network.

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利用神经网络学习基于平面度的控制器

提出了一种基于神经网络的移动机器人平面度控制器仿真方法。给出了一种独轮车移动机器人和一种无人机(UAV)四轴飞行器的示例案例研究。本文的目标是:(1)训练神经网络来近似先前设计的基于平面度的控制器，该控制器采用先前在平面度空间中规划的期望轨迹和一般状态空间中的机器人状态;(2)提出一种动态训练方法来学习具有高维输入的模型。结果表明，一个简单的前馈神经网络可以充分地计算由一般状态空间到平面空间的高度非线性状态变量的转换，并取代设计复杂的启发式算法，避免控制律中的奇异性。本文还提出了一种新的高维独立输入模型的动态训练方法，为多输入模型的学习提供了参考。通过训练程序和仿真，证明了这种新型训练方法的有效性和训练好的神经网络的性能。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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ASME Letters in Dynamic Systems and Control

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