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Hybrid cellular-functional modeling of heterogeneous objects

Authors: Adzhiev, V., Kartasheva, E., Kunii, T., Pasko, A. and Schmitt, B.

Journal: Journal of Computing and Information Science in Engineering

Volume: 2

Issue: 4

Pages: 312-322

ISSN: 1530-9827

DOI: 10.1115/1.1559580

Abstract:

An approach to modeling heterogeneous objects as multidimensional point sets with multiple attributes (hypervolumes) is presented. Attributes given at each point represent object properties of arbitrary nature (material, physical, etc.). A proposed theoretical framework is based on a hybrid model of geometry and attributes combining a cellular representation and a functionally based constructive representation of dimensionally nonhomogeneous entities. Hypervolume model components such as objects, operations and relations are introduced and outlined. We present examples of modeling a multi-layer geological structure with cavities and wells, time-dependent adaptive mesh generation, and conversion of a 3D implicit complex to the cellular representation. © 2002 by ASME.

Source: Scopus

Hybrid cellular functional modeling of heterogeneous objects

Authors: Adzhiev, V., Kartasheva, E., Kunii, T.L., Pasko, A. and Schmitt, B.

Journal: Journal of Computing and Information Science in Engineering

Volume: 2

Pages: 312-322

ISSN: 1530-9827

DOI: 10.1115/1.1559580

Abstract:

An approach to modeling heterogeneous objects as multidimensional point sets with multiple attributes (hypervolumes) is presented. Attributes given at each point represent object properties of arbitrary nature (material, physical, etc.). A proposed theoretical framework is based on a hybrid model of geometry and attributes combining a cellular representation and a functionally based constructive representation of dimensionally non-homogeneous entities. Hypervolume model components such as objects, operations and relations are introduced and outlined. We present examples of modeling a multi-layer geological structure with cavities and wells, time-dependent adaptive mesh generation, and conversion of a 3D implicit complex to the cellular representation.

http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=JCISB6000002000004000312000001&idtype=cvips&gifs=Yes

Source: Manual

Preferred by: Valery Adzhiev

Hybrid Cellular-functional Modeling of Heterogeneous Objects.

Authors: Adzhiev, V., Kartasheva, E., Kunii, T.L., Pasko, A.A. and Schmitt, B.

Journal: J. Comput. Inf. Sci. Eng.

Volume: 2

Pages: 312-322

Source: DBLP