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Trajectory Tracking Based on Adaptive Sliding Mode Control for Agricultural Tractor

Chengqiang Yin, Shourui Wang, Xiaowei Li, Guanhao Yuan, Chao Jiang

2020IEEE Access39 citationsDOIOpen Access PDF

Abstract

Trajectory tracking is one of the key technologies for high-precision agriculture and has been the research focus by a large number of academics. In order to design a simple trajectory tracking control scheme, an adaptive sliding mode control based on lateral deviation is proposed. To reduce the chattering phenomenon, an adjustable parameter associated with the sliding surface and system error is introduced, by which the forward gain value can be regulated with the state change. According to the established tractor model, the desired front wheel angle can be obtained as the output of the sliding mode controller. A modified Smith predictor structure based two degree of freedom control scheme is designed to follow the desired front wheel angle. The effectiveness of the designed trajectory tracking control system is demonstrated by simulations, especially the performance of preventing chattering phenomenon.

Topics & Concepts

Control theory (sociology)TrajectorySliding mode controlTractorTracking (education)Controller (irrigation)Computer scienceTracking errorMode (computer interface)Focus (optics)Control engineeringControl (management)EngineeringArtificial intelligenceNonlinear systemPhysicsAutomotive engineeringOperating systemAgronomyBiologyPedagogyOpticsAstronomyQuantum mechanicsPsychologySoil Mechanics and Vehicle DynamicsControl and Dynamics of Mobile RobotsAgricultural Engineering and Mechanization
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