@inproceedings{80754cb7f8674d1a81a8e7ea9de72b8e,
title = "Moving Mesh Methods for Computational Fluid Dynamics",
abstract = "In this paper we will discuss a class of adaptive grid methods called moving mesh method (MMM). Some recent progress of the moving mesh methods will be reviewed. In particular, we review their applications to computational fluid dynamics.",
keywords = "Moving mesh methods, computational fluid dynamics, partial differential equation",
author = "Tao Tang",
note = "Funding information: I wish to thank my collaborators Dr. R. Li, Prof. H.-Z. Tang and Prof. Pingwen Zhang of Peking University, Dr. B. Azarenok of Russian Academy of Sciences, and Prof. Wenbin Liu of the University of Kent. Special thanks are due to my graduate students Z.-R. Zhang, Yana Di and Z.-J. Tan for their contributions to this project. I would also like to acknowledge valuable comments made by Arthur van Dam, Ruo Li, Paul Zegeling and Zhengru Zhang. The research of the author was partially supported by Hong Kong Research Grants Council (RGC HKBU2044/00P, 2083/01P, 2045/02P), Hong Kong Baptist University (FRG FRG/01-02/II-01, FRG/00-01/II-08, FRG/ 98-99/II-14), and International Research Team on Complex System, Chinese Academy of Sciences. Publisher copyright: {\textcopyright} 2005 by the American Mathematical Society.; The International Conference on Recent Advances in Adaptive Computation ; Conference date: 24-05-2004 Through 28-05-2004",
year = "2005",
doi = "10.1090/conm/383",
language = "English",
isbn = "9780821836620",
series = "Contemporary Mathematics",
publisher = "American Mathematical Society",
pages = "141–173",
editor = "Shi, {Z. C.} and Z. Chen and Tang, {T. } and D. Yu",
booktitle = "Recent Advances in Adaptive Computation",
address = "United States",
}