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Path Tracking of a 4WIS–4WID Agricultural Machinery Based on Variable Look-Ahead Distance

Lijun Xu, Yankun Yang, Qinhan Chen, Feng-Cheng Fu, Bihang Yang, Lijian Yao

2022Applied Sciences28 citationsDOIOpen Access PDF

Abstract

Aiming to solve the problem of the low path-tracking accuracy of mobile robots in agricultural environments, the authors of this paper propose a path-tracking method for agricultural machinery based on variable look-ahead distance. A kinematic model of the four wheel independent steering–four wheel independent drive (4WIS–4WID) structure based on pure pursuit was constructed to obtain the functional equation of the current position and the four-wheel steering angle. The fuzzy controller, which takes the lateral deviation and heading deviation as input and the look-ahead distance in a pure pursuit model as output, was designed to obtain the look-ahead distance that changes dynamically with the deviation of mobile agricultural machinery. The path-tracking performance of 4WIS–4WID agricultural machinery in three scenarios (1 m, −90°; 1 m, 0°; and 0 m, 90°) with different initial deviations was tested using a pure pursuit model based on a variable look-ahead distance. The obtained field test results showed an average deviation of 19.7 cm, an average tracking time of 5.1 s, an average stability distance of 203.9 cm, and a steady state deviation of 3.1 cm. The results showed that the proposed method presents a significant path-tracking performance advantage over a fixed look-ahead distance pure tracking model and can be a reference for high-quality path-tracking methods in automatic navigation research.

Topics & Concepts

Heading (navigation)Tracking (education)KinematicsControl theory (sociology)Path (computing)Position (finance)Standard deviationComputer scienceVariable (mathematics)MathematicsArtificial intelligenceEngineeringStatisticsControl (management)PhysicsAerospace engineeringPedagogyMathematical analysisClassical mechanicsPsychologyEconomicsProgramming languageFinanceSoil Mechanics and Vehicle DynamicsControl and Dynamics of Mobile RobotsRobotic Path Planning Algorithms
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