Hybrid Control of PV-FC Electric Vehicle using Lyapunov based Theory

Hayat, S.; Ahmed, Sheeraz; Tanveer-ul-Haq,; Jan, Sadeeq; Qureshi, M. Talha; Najam, Zeeshan; Wadud, Zahid

doi:10.14569/ijacsa.2019.0101071

Cited by 2 publications

(2 citation statements)

References 30 publications

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“…Therefore, HESS has to be combined with renewable energy sources to overcome this problem. Another shortcoming in the literature is lack of consideration for energy losses and vehicle dynamic characteristics including braking and vehicle's mechanical transmission losses [9][10][11] which could greatly impact the overall operation of vehicular system.…”

Section: Introductionmentioning

confidence: 99%

Modeling and Experimental Investigation of Energy Management for Hybrid Electric Vehicle based on Variable Structure Control Strategy

Hamza,

Uneeb,

Saleem

et al. 2023

2023 IEEE International Conference on Energy Technologies for Future Grids (ETFG)

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The current study presents real-time modeling and non-linear controllers-based energy management system (EMS) for multi-energy hybrid Electric Vehicle (EV), where a detailed physics-based dynamic vehicle model has been considered. The main objective of the paper is to regulate the power flow, stabilize DC voltage for an EV driven by a brushless DC motor, and ensure effective power sharing in a hybrid electric system under complex driving circumstances. The approach is based on tracking the reference battery current by backstepping sliding mode control for optimal power distribution. Subsequently, Integral Sliding Mode Control based on barrier function (NBS-ISMC), and Fractional Order Terminal Sliding Mode Control (FOTSMC) are implemented to control the switching operation of converters for Photovoltaic (PV) and Ultra-capacitor (UC), respectively. Userdefined and practical standard drive cycles are selected to test the effectiveness of proposed reference current controllers. Real-time experimental validation of the proposed framework using the Speedgoat Performance Real-Time Target Machine will be included in the final paper.

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Section: Introductionmentioning

confidence: 99%

Modeling and Experimental Investigation of Energy Management for Hybrid Electric Vehicle based on Variable Structure Control Strategy

Hamza,

Uneeb,

Saleem

et al. 2023

2023 IEEE International Conference on Energy Technologies for Future Grids (ETFG)

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“…The research on inter-wheel torque control of the same axle mainly includes the design of differential structure [16][17][18], torque distribution control research, and simulation analysis [19,20]. The research on integrated control mainly focuses on the proposed control strategy and simulation analysis [21][22][23][24]. It has been proved that 4WD torque distribution control could effectively improve the traction, passing ability, and driving stability of the travel machinery.…”

Section: Introductionmentioning

confidence: 99%

Study on the Control of Torque Distribution of 4WD Corn Harvester Operation Drive

et al. 2021

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In response to the poor adaptability of existing harvesters to complex operating conditions in the field, this study took a three-row four-wheel-drive (4WD) corn harvester as the research object, designed a traveling transmission system layout, proposed a control strategy of driving torque distribution, simulated, and analyzed each of the four states of harvester drive wheels slippage. The results showed that under the driving wheels slipping condition, after applying torque control, the adjustment time was 43.3% shorter than that without control in the case of single wheel slipping, 11.1% shorter than that without control in the case of two wheels slipping on the same axle, 41.4% shorter than that without control in the case of two wheels slipping on different axles, and 36.6% shorter than that without control in the case of three driving wheels slipping. The application of drive torque distribution control could significantly improve the traction and passing ability of the corn harvesters during operation, as well as made the harvester travel more smoothly, thus improving the harvest quality. The drive torque distribution control can be applied not only to the three-row corn harvester, but also to other types of harvesters, and self-propelled agricultural machinery to enhance their adaptability, improving their operation quality. It has a significant reference value for the development of the driving system on walking agricultural machinery.

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Hybrid Control of PV-FC Electric Vehicle using Lyapunov based Theory

Cited by 2 publications

References 30 publications

Modeling and Experimental Investigation of Energy Management for Hybrid Electric Vehicle based on Variable Structure Control Strategy

Modeling and Experimental Investigation of Energy Management for Hybrid Electric Vehicle based on Variable Structure Control Strategy

Study on the Control of Torque Distribution of 4WD Corn Harvester Operation Drive

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