Virtual-Sensor-Based Maximum-Likelihood Voting Approach for Fault-Tolerant Control of Electric Vehicle Powertrains

Tabbache B.; Benbouzid M.E.H.; Kheloui A.; Bourgeot J.

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Virtual-Sensor-Based Maximum-Likelihood Voting Approach for Fault-Tolerant Control of Electric Vehicle Powertrains

机译：电动汽车动力总成容错控制的基于虚拟传感器的最大似然投票方法

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摘要

This paper describes a sensor fault-tolerant control (FTC) for electric-vehicle (EV) powertrains. The proposed strategy deals with speed sensor failure detection and isolation within a reconfigurable induction-motor direct torque control (DTC) scheme. To increase the vehicle powertrain reliability regarding speed sensor failures, a maximum-likelihood voting (MLV) algorithm is adopted. It uses two virtual sensors [extended Kalman filter (EKF) and a Luenberger observer (LO)] and a speed sensor. Experiments on an induction-motor drive and simulations on an EV are carried out using a European urban and extraurban driving cycle to show that the proposed sensor FTC approach is effective and provides a simple configuration with high performance in terms of speed and torque responses.

机译：本文介绍了用于电动汽车（EV）动力总成的传感器容错控制（FTC）。所提出的策略在可重新配置的感应电动机直接转矩控制（DTC）方案中处理速度传感器故障的检测和隔离。为了提高有关速度传感器故障的车辆动力总成可靠性，采用了最大似然投票（MLV）算法。它使用两个虚拟传感器[扩展的卡尔曼滤波器（EKF）和Luenberger观测器（LO）]和一个速度传感器。使用欧洲城市和郊区驾驶周期进行了感应电动机驱动实验和电动汽车仿真，结果表明，所提出的传感器FTC方法是有效的，并且在速度和转矩响应方面提供了高性能的简单配置。

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来源
《IEEE Transactions on Vehicular Technology》 |2013年第3期|1075-1083|共9页
作者
Tabbache B.; Benbouzid M.E.H.; Kheloui A.; Bourgeot J.;
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作者单位

Univ. of Brest, Brest, France|c|;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
Electric vehicle (EV); Luenberger observer (LO); extended Kalman filter (EKF); fault-tolerant control (FTC); induction motor; maximum-likelihood voting (MLV); speed sensor failure;

机译：电动汽车（EV）;Luenberger观察器（LO）;扩展的卡尔曼滤波器（EKF）;容错控制（FTC）;感应电动机;最大似然投票（MLV）;速度传感器故障;

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2. A comprehensive overview of hybrid electric vehicle: Powertrain configurations, powertrain control techniques and electronic control units [J] . Kamil Çagatay Bayindir, Mehmet Ali Goezuekueçuek, Ahmet Teke Energy Conversion & Management . 2011,第2期

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3. New Approach for a Comprehensive Method for Urban Vehicle Concepts with Electric Powertrain and their Necessary Vehicle Structures [J] . Marco Münster, Michael Sch?ffer, Gerhard Kopp, Transportation Research Procedia . 2016,第12期

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5. A game theoretic approach to control of a hybrid electric vehicle powertrain. [D] . Soltis, Alan. 2004

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6. Fault-Tolerant Model Predictive Control Algorithm for Path Tracking of Autonomous Vehicle [O] . Keke Geng, Nikolai Alexandrovich Chulin, Ziwei Wang 2020

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7. DSP-Based Sensor Fault-Tolerant Control of Electric Vehicle Powertrains [O] . Tabbache, Bekheira, Benbouzid, Mohamed, Kheloui, Abdelaziz, 2011

机译：基于DSP的电动汽车动力总成传感器容错控制

Virtual-Sensor-Based Maximum-Likelihood Voting Approach for Fault-Tolerant Control of Electric Vehicle Powertrains

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