Hybrid cellular-functional modeling of heterogeneous objects

This source preferred by Alexander Pasko and Valery Adzhiev

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

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

Journal: Journal of Computing and Information Science in Engineering

Volume: 2

Pages: 312-322

ISSN: 1530-9827

DOI: 10.1115/1.1559580

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.

This data was imported from DBLP:

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

This data was imported from Scopus:

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

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.

The data on this page was last updated at 04:42 on November 20, 2017.