Discrete-time Sensorless Control Using new BS_SM Controller structure and VM_ SC MRAS Adaptive Speed Observer for The propulsion system of Ship

WSEAS TRANSACTIONS ON CIRCUITS AND SYSTEMS Pub Date : 2021-01-14 DOI:10.37394/23201.2020.19.28

Ngoc Thuy Pham

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引用次数: 1

Abstract

In this paper, a (BS_SM) new Backstepping_ Sliding mode controll structure combined with a (VM_SC_ MRAS) improved stator current MRAS based on adaptive speed observer using neuron network and sliding mode are proposed to sensorless vector control for The propulsion system of Ship. The design of the controller is based on new BS and SM sructure to improve its performance and robustness. VM_SC_ MRAS improved adaptive speed observer is proposed to estimate the speed of propeller. The combination of BS-SM controller with VM_SC_MRAS adaptive speed observer can compensate for the uncertainties caused by the machine parameter variations, measurement errors, and load disturbances, improving dynamic performance and enhancing the robustness of the SPIM drive system, perfect tuning of the speed reference values, fast response of the motor current and torque, high accuracy of speed regulation. The simulation results lead to the conclusion that the proposed system for the propulsion system of ship is feasible. The simulation results on a test ship propelled showed that the proposed control approach operates satisfactorily

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基于新型BS_SM控制器结构和VM_ SC MRAS自适应速度观测器的舰船推进系统离散无传感器控制

针对船舶推进系统的无传感器矢量控制，提出了一种基于自适应速度观测器的(BS_SM)新型Backstepping_滑模控制结构和一种基于自适应速度观测器的(VM_SC_ MRAS)改进的定子电流MRAS控制结构。为了提高控制器的性能和鲁棒性，设计了基于新的BS和SM结构的控制器。提出了一种改进的VM_SC_ MRAS自适应航速观测器来估计螺旋桨航速。BS-SM控制器与VM_SC_MRAS自适应速度观测器相结合，可以补偿机床参数变化、测量误差和负载扰动带来的不确定性，改善了SPIM驱动系统的动态性能，增强了系统的鲁棒性，速度参考值的整定完美，电机电流和转矩响应快，调速精度高。仿真结果表明，该系统在舰船推进系统中是可行的。仿真结果表明，所提出的控制方法运行良好

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WSEAS TRANSACTIONS ON CIRCUITS AND SYSTEMS

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