American Psychological Association 6th edition

Ping, Y., Xu, H., Song, L., Chen, J., Zhang, Z., & Hu, Y. (2025). Research on Acceleration Methods for Hydrodynamic Models Integrating a Dynamic Grid System, Local Time Stepping, and GPU Parallel Computing. Water (20734441), 17(18), 2662-2674. https://doi.org/10.3390/w17182662

ISO-690 (author-date, English)

PING, Yang, XU, Hao, SONG, Lixiang, CHEN, Jie, ZHANG, Zhenzhou und HU, Yuying, 2025. Research on Acceleration Methods for Hydrodynamic Models Integrating a Dynamic Grid System, Local Time Stepping, and GPU Parallel Computing. Water (20734441). 15 September 2025. Vol. 17, no. 18, p. 2662-2674. DOI 10.3390/w17182662.

Modern Language Association 9th edition

Ping, Y., H. Xu, L. Song, J. Chen, Z. Zhang, und Y. Hu. „Research on Acceleration Methods for Hydrodynamic Models Integrating a Dynamic Grid System, Local Time Stepping, and GPU Parallel Computing.“. Water (20734441), Bd. 17, Nr. 18, September 2025, S. 2662-74, https://doi.org/10.3390/w17182662.

Mohr Siebeck - Recht (Deutsch - Österreich)

Ping, Yang/Xu, Hao/Song, Lixiang/Chen, Jie/Zhang, Zhenzhou/Hu, Yuying: Research on Acceleration Methods for Hydrodynamic Models Integrating a Dynamic Grid System, Local Time Stepping, and GPU Parallel Computing., Water (20734441) 2025, 2662-2674.

Emerald - Harvard

Ping, Y., Xu, H., Song, L., Chen, J., Zhang, Z. und Hu, Y. (2025), „Research on Acceleration Methods for Hydrodynamic Models Integrating a Dynamic Grid System, Local Time Stepping, and GPU Parallel Computing.“, Water (20734441), Vol. 17 No. 18, S. 2662-2674.

Achtung: Diese Zitate sind unter Umständen nicht zu 100% korrekt.