@inproceedings{Ip:1997:CCS,
opteditor = {},
optpostscript = {},
optnote = {},
optorganization = {},
author = {Ip, Horace H. S. and Wong, Helena T. F.},
optkey = {},
optannote = {},
optseries = {},
address = IEEEAdr,
localfile = {papers/Ip.1997.CCS.pdf},
optisbn = {},
publisher = IEEEPub,
optkeywords = {},
doi = {http://dx.doi.org/10.1109/CGI.1997.601261},
optmonth = {},
optciteseer = {},
opturl = {},
optcrossref = {},
optwww = {},
booktitle = {Proceedings of Computer Graphics International 1997 (CGI '97,
June 23--27, 1997, Hasselt and Diepenbeek, Belgium)},
optvolume = {},
optnumber = {},
abstract = {This paper proposes a novel methodology which allows calligraphic
writings to be synthesized realistically . Our approach models the
physical process of brush stroke creation and consists of three
separate aspects, namely, the physical geometry of the writing
brush, the dynamic movement, e.g. the position and orientation, of
the brush along the stroke trajectory, and the amount of ink
absorbed in the brush bundle as well as the ink depositing
process. By controlling these physical parameters associated with
the writing process, very realistic appearance of calligraphic
writings can be generated. In particular, the aesthetic features
commonly associated with calligraphy, such as the varying widths
of a stroke, the impression of physical rubbing between the brush
and the underlying paper, the varying shades of grey caused by
different degrees of ink content in the brush, and the black and
white trails created by fast movement of a drying brush can be
simulated. This is the first time when a physic-based model of a
brush is used to synthesize calligraphic writings and the model
has been implemented on a PC-based platform.},
title = {{C}alligraphic {C}haracter {S}ynthesis using a {B}rush {M}odel},
year = {1997},
pages = {13--21},
}
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