A Novel Endocrine Composite Fuzzy Control Strategy of Electromagnetic Hybrid Suspension

Kou, Farong; Jing, Qiangqiang; Gao, Yawei; Wu, Jing

doi:10.1109/access.2020.3039845

Cited by 5 publications

(2 citation statements)

References 27 publications

(26 reference statements)

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“…The gravitational search algorithm optimizes the control parameters to reduce the acceleration of the body, the relative displacement between the tires and the sprung mass. To improve the control effect of the electromagnetic energy regenerative suspension based on the fuzzy control strategy, Kou et al [209] designed a novel endocrine compound fuzzy control strategy, as shown in Fig. 27.…”

Section: Fuzzy Controlmentioning

confidence: 99%

A Review of Electromagnetic Energy Regenerative Suspension System & Key Technologies

Fu¹,

Lu²,

Ge³

et al. 2023

Computer Modeling in Engineering &Amp; Sciences

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The active suspension has undoubtedly improved the performance of the vehicle, however, the trend of "lowcarbonization, intelligence, and informationization" in the automotive industry has put forward higher and more urgent requirements for the suspension system. The automotive industry and researchers favor active energy regeneration suspension technology with safety, comfort, and high energy regenerative efficiency. In this paper, we review the research progress of the structure form, optimization method, and control strategy of electromagnetic energy regenerative suspension. Specifically, comparing the pros and cons of the existing technology in solving the contradiction between dynamic performance and energy regeneration. In addition, the development trend of electromagnetic energy regenerative suspension in the field of structure form, optimization method, and control technology prospects.

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Section: Fuzzy Controlmentioning

confidence: 99%

A Review of Electromagnetic Energy Regenerative Suspension System & Key Technologies

Fu¹,

Lu²,

Ge³

et al. 2023

Computer Modeling in Engineering &Amp; Sciences

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show abstract

“…e parameters of the polynomial model for the solenoid valve shock absorber are obtained by regression analysis method, and the polynomial coefficients are shown in Table 1 [27]. en the polynomial model of the solenoid valve shock absorber is obtained by taking the identified parameter results into equation (10).…”

Section: Test Modeling Of the Solenoid Valve Shock Absorbermentioning

confidence: 99%

Active Fault-Tolerant Control Based on the Fault of Electromagnetic Hybrid Active Suspension

Kou

Gao

et al. 2021

Shock and Vibration

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In order to improve the ride comfort and handling stability of the vehicle and realize the recovery of vibration energy, an electromagnetic linear hybrid suspension actuator composed of linear motor and solenoid valve shock absorber is proposed. At the same time, a fault diagnosis and fault-tolerant control strategy is designed to solve the system instability caused by the fault of electromagnetic hybrid active suspension. The 1/4 vehicle two-degree-of freedom suspension model, the linear motor mathematical model, and the solenoid valve shock absorber test model are established. In this paper, the fuzzy sliding mode controller is used as the controller and the unknown input observer is used to estimate the state of the suspension. According to the residual obtained from the unknown input observer and compared with the residual threshold, the suspension fault is determined. In the case of fault, the fuzzy sliding mode controller is used to compensate the force and realize the suspension fault-tolerant control. The performance of the suspension is simulated on random road and bumped road, respectively. The simulation results show that the fault-tolerant control effect of the three performance indexes of the suspension is good, and the ride comfort and safety of the suspension are improved. Finally, the bench test is carried out, and the test results show that in the fault-tolerant control state, the root mean square value of the sprung mass acceleration is reduced by 31.69% compared with the fault state and the dynamic performance of the suspension is improved.

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Vibration analysis and control of semi-active suspension system based on continuous damping control shock absorber

Xu,

Xie,

Zhou

et al. 2023

J Braz. Soc. Mech. Sci. Eng.

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A Novel Endocrine Composite Fuzzy Control Strategy of Electromagnetic Hybrid Suspension

Cited by 5 publications

References 27 publications

A Review of Electromagnetic Energy Regenerative Suspension System & Key Technologies

A Review of Electromagnetic Energy Regenerative Suspension System & Key Technologies

Active Fault-Tolerant Control Based on the Fault of Electromagnetic Hybrid Active Suspension

Vibration analysis and control of semi-active suspension system based on continuous damping control shock absorber

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