Research Article

Citations for "Neural Network-based Constant Current Control of Dynamic Wireless Power Supply System for Electric Vehicles"


Citation to this article as recorded by ASCI logo


Sun, Y., X. Lv, Z. Wang and C. Tang, 2012. A quasi sliding mode output control for inductively coupled power transfer system. Inform. Technol. J., 11: 1744-1750.
CrossRef  |  Direct Link  |  

Wang, Z.H., Y.P. Li, Y. Sun, C.S. Tang and X. Dai, 2013. An efficiency optimization strategy with segmented optimal frequency in the common inductive power transfer platform. Inform. Technol. J., 12: 1512-1521.
CrossRef  |  Direct Link  |  

Wu, Y., Y. Sun, Y. Tian, F. Yang and Y. Su, 2013. Study on voltage-stabilizing control of ICPT system. Inform. Technol. J., 12: 664-671.
CrossRef  |  Direct Link  |  

Zhang, L., Y. Sun, Z. Wang and C. Tang, 2013. Analysis of bifurcation phenomena of voltage-fed inductively coupled power transfer system varying with coupling coefficient. Inform. Technol. J., 12: 1176-1183.
CrossRef  |  Direct Link  |  

Zhijun Jian, Zhihui Wang, Ning Zhang, Siqing Fu, Bo Liu, Xin Hu 2014. An Approach of Input Power Control in ICPT System with Uncertainty Load Inform. Technol. J., 13: 789-794.
CrossRef  |  


Citation to this article as recorded by Crossref logo


Optimization of wireless power transfer using artificial neural network: A review
Microwave and Optical Technology Letters

Research on Dynamic Wireless Power Transmission Based on the Independent Control of Transmitter and Receiver
2018 IEEE International Power Electronics and Application Conference and Exposition (PEAC)

Services
Related Articles in ASCI
Search in Google Scholar
View Citation
Report Citation

 
©  2022 Science Alert. All Rights Reserved