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@INCOLLECTION{dorettoS07chapter,
  author = {Doretto, G. and Soatto, S.},
  title = {From dynamic texture to dynamic shape and appearance models: {A}n
	overview},
  booktitle = {Handbook of texture analysis},
  publisher = {Imperial {C}ollege {P}ress},
  year = {2008},
  editor = {Mirmehdi, M. and Xie, X. and Suri, J.},
  chapter = {9},
  bib2html_pubtype = {Book Chapters},
  bib2html_rescat = {Dynamic Textures, Visual Motion Analysis, Shape and Appearance Modeling},
  abstract = {In modeling complex visual phenomena one can employ rich models that
	characterize the global statistics of images, or choose simple classes
	of models to represent the local statistics of a spatiotemporal “segment,”
	together with the partition of the data into such segments. Each
	segment could be characterized by certain statistical regularity
	properties in space and/or time. The former approach is often pursued
	in Computer Graphics, where a global model is necessary to capture
	effects such as mutual illumination or cast shadows. However, such
	models cannot be uniquely inferred as they are far more complex than
	the data, and one has to revert to a much simpler representation
	that, for instance, models the visual complexity of single segments
	in terms of statistical variability from a nominal model. In this
	chapter we do so by modeling the image variability of dynamic scenes
	through the joint temporal variation of shape and appearance. We
	describe how this framework can be specialized to Dynamic Texture
	models for both static and moving cameras. The characterization poses
	the problems of modeling, learning, and synthesis of video sequences
	that exhibit certain temporal regularity properties (such as sea-waves,
	smoke, foliage, talking faces, flags in wind, etc.), using tools
	from time series analysis, system identification theory, and finite
	element methods.},
  file = {dorettoS07chapter.pdf:doretto\\chapter\\dorettoS07chapter.pdf:PDF},
  owner = {doretto},
  pdf = {doretto\chapter\dorettoS07chapter.pdf},
  timestamp = {2007.01.19}
}