摘要本论文对两轮自平衡智能车系统的建模、卡尔曼滤波算法以及电磁导引两轮自平衡智能车的控制算法做了较为详细的研究,对电磁导引两轮自平衡智能车系统进行建模,将卡尔曼滤波算法引入到两轮自平衡智能车的车模姿态测量中。为了提高车模电机的响应速度与控制精度,还引入了电机内环控制。结合所建立的系统数学模型及卡尔曼滤波器模型,对智能车系统的卡尔曼滤波算法、电机内环控制以及总系统进行了matlab仿真。最后将所设计的相关算法应用于实际平台进行测试以检验其有效性,实际调试结果表明,系统性能优良,显著提升了电磁导引两轮自平衡智能车的运行特性,并验证了所建立的系统数学模型及卡尔曼滤波器模型的正确性。6497
关键词 智能车 建模 卡尔曼滤波 电机内环控制 仿真
毕业设计说明书(论文)外文摘要Title Design and Realization of Intelligent Vehicle for The Seventh Freescale Cup Intelligent Vehicle Contest —— Research and Design of Control Algorithm
Abstract
According to the Seventh Freescale Cup Intelligent Vehicle Contest, through in-depth study of modeling the two wheel self-balancing intelligent vehicle system, Kalman filter algorithm, and the control algorithm of the electromagnetic guided two wheel self-balancing intelligent vehicle, modeling the electromagnetic guided two wheel self-balancing intelligent vehicle system, and Kalman filter algorithm is applied to the two wheel self-balancing intelligent vehicle in the measurement of car angle. In order to improve the response speed of the motor of car model and control accuracy, the motor inner control is applied to the system. According to the mathematical model of the system and the Kalman filter model, Kalman filter algorithm for the intelligent vehicle system, motor inner loop control algorithm and the whole system is simulated by matlab. Finally, the design of the algorithm is testified in the actual experiment platform to verify its effectiveness. The result shows that the performance of the system is good, the design of the algorithm significantly improve the operational characteristics of the electromagnetic guided two wheel self-balancing intelligent vehicle, and verified the correctness of the established mathematical model of the system and the Kalman filter model.
Keywords intelligent vehicle modeling Kalman filter motor inner control simulate
目 次
1 引言 1
1.1 课题研究背景及意义 1
1.2 国内外智能汽车研究现状 1
1.3 全国大学生智能车竞赛简介 3
1.4 本课题主要研究内容 4
2 电磁导引两轮自平衡智能车系统总体设计 7
2.1 电磁导引两轮自平衡智能车系统设计要求 7
2.2 电磁导引两轮自平衡智能车系统组成结构 7
2.3 电磁导引两轮自平衡智能车系统工作原理 8
2.4 本章小结 10
3 电磁导引两轮自平衡智能车系统数学模型的建立 11
3.1 后轮驱动系统建模 11
3.2 两轮自平衡智能车系统数学模型的建立 16
3.4 智能车系统自身稳定性和能控性的matlab仿真 22
3.5 本章小结 24
4 电磁导引两轮自平衡智能车直立控制 25
4.1 车模角度和角速度测量 25
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