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基于预瞄追踪模型的农机导航路径跟踪控制方法 被引量:70

Path tracking control method of agricultural machine navigation based on aiming pursuit model
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摘要 农机导航系统的上线性能和复杂路面抗干扰能力影响着农田作业的质量和效率,为提高农机导航系统的上线速度、上线稳定性和对复杂路面的适应性,提出了一种预瞄追踪模型的农机导航路径跟踪控制方法。该方法实质是对农机运动学模型方法的改进,针对农机运动学模型小角度线性化算法中近似条件的缺点,采用预瞄追踪辅助直线引导农机快速稳定跟踪规划路径。该文参考农机运动学模型极点最优配置算法证明过程,分3步证明了该控制方法的可行性,并通过仿真和试验验证了该方法的有效性。仿真结果显示在不同的初始位置偏差和航向偏差条件下该方法都可以迅速消除偏差以稳定跟踪规划路径,位置偏差校正曲线平滑且超调量微小,说明预瞄追踪模型方法对提高农机导航系统的上线性能和抗干扰能力是有效的。田间试验结果:在初始航向偏差为0,初始位置偏差分别为0.5、1、1.5 m条件下,上线时间分别为6.8、8.2、9.4 s,上线距离分别为6.73、8.11、9.33 m,超调量分别为5.2、7.0、8.5 cm;颠簸不平旱地路面直线路径跟踪的最大误差不超过4.23 cm,误差绝对值的平均值为1 cm,标准差为1.25 cm。数据表明采用该文提出的控制方法具有良好的上线和直线路径跟踪效果,满足农业机械的导航作业要求。 Agricultural machine automatic navigation is one of the key technologies in precision agriculture technology system, the in-depth study is important in scientific research, application and social values. In this paper, we investigated the navigation problems in the application of the farm work, including slow on-line speed, bad on-line stability, and poor adaptability of bumpy complex road surface. These problems can be summarized as the speed and stability problems of track tracking in the case of large position deviation or large course deviation. Through the analysis of the work principle and control parameters function of the navigation, a conclusion is made that the correct speed and stability of the position deviation and course deviation of agricultural machinery can be improved by allocating the weight of the position deviation wheel angle decision quantity and course deviation wheel angle decision quantity reasonably. Then in this paper, we developed the navigation control algorithm based on the agricultural machine kinematics model and the pole optimal configuration theory. Because of the small angle linearization of course deviation angle and wheel angle during the deducing, the control law can achieve good control effect only in the ideal straight path tracking control with small position deviation, course deviation, and wheel angle. Based on this, a path tracking control method of aiming pursuit model for agricultural machine navigation was proposed aiming at improving the on-line speed, stability and adaptability to complex road surface of the automatic navigation system of agricultural machine. In this method, we selected a tracking target point on the planning path of agricultural machine ahead, and tracked the target point by controlling the steering wheel angle. The direction of the agricultural machine vehicle center point to the target point was called as the aiming course. The desired steering angle would be larger when the deviation was larger between the course of agricultural machine and the aiming course, with a rapid correction of aiming course deviation to achieve the goal of fast tracking the target path. On the other hand, the desired steering angle would be smaller when the deviation was smaller between the course of agricultural machine and the aiming course, with a stable tracking to aiming path to achieve the goal of stable tracking the target path. In this model, the steering wheel angle was designed to be K times of the aiming course deviation and K was called as control gain. The length of the projection of the agricultural machine vehicle center to the target point vector on the planning path was named as the preview distance. The control gain and the preview distance were two important parameters that affected the control effect of the model. In this paper, there were three steps to prove the feasibility of the method. The control gain K and the preview distance were set up by referring to the result of the pole optimal configuration method based on the kinematic model of agricultural machine. By comparing two methods formula, the position deviation wheel angle decision quantity had a linear relationship with the position deviation in the kinematics model method and the position deviation wheel angle decision quantity had an inverse tangent function relationship with the position deviation. The inverse tangent function relation was more beneficial to maintain proper weight of position deviation wheel angle decision quantity and course deviation wheel angle decision quantity that would make the path tracking control of agricultural machinery navigation more rapid and stable. Simulation analysis results of aiming pursuit model algorithm in different position and different course deviation showed that the proposed method had a fast and stable path tracking performance and good robustness and adaptability to the navigation path tracking. The test results of agricultural machine showed that the control method proposed in this paper had a good effect in the rapid responsibility and line tracking performance. In the case of 0.5, 1, 1.5 m initial position error, the on-line time was 6.8, 8.2, 9.4 s, respectively, the corresponding travelling distance was 6.73, 8.11 and 9.33 m, respectively and the corresponding overshoot was 5.2, 7.0, 8.5 cm, respectively. The maximum error of straight-line path tracking for bumpy uneven field was not more than 4.23 cm, the mean value of the absolute value of the error was 1 cm, and the standard deviation was 1.25 cm, which satisfied the operation requirements of agricultural machine.
作者 王辉 王桂民 罗锡文 张智刚 高阳 何杰 岳斌斌 Wang Hui;Wang Guimin;Luo Xiwen;Zhang Zhigang;Gao Yang;He Jie;Yue Binbin(Key Laboratory of Key Technology on Agricultural Machine and Equipment, Ministry of Education, South ChinaAgricultural University, Guangzhou 510642, China;LOVOL Heavy Industry Co., Ltd, Weifang 261206, China)
出处 《农业工程学报》 EI CAS CSCD 北大核心 2019年第4期11-19,共9页 Transactions of the Chinese Society of Agricultural Engineering
基金 国家重点研发计划项目(2017YFD0700400) 广东省科技计划项目(2016B020205003)
关键词 农业机械 模型 控制 上线 颠簸路面 路径跟踪 agricultural machinery models control on-line bumpy pavement path tracking
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