论文信息 - Automated domain decomposition for computational fluid dynamics

Automated domain decomposition for computational fluid dynamics

Abstract Automation of flow-field zoning in two-dimensions is an important step towards easing the three-dimensional grid generation bottleneck in computational fluid dynamics. A knowledge-based approach works well, but several aspects of flow-field zoning make the use of such an approach challenging. A proposed model and language to describe the process of zoning a flow field are presented, followed by a discussion of the implementation of EZGrid, a knowledge-based two-dimensional (2-D) flow-field zoner. Results are shown for representative 2-D aerodynamic configurations. Finally, an approach to the evaluation of flow-field zonings is described and used to compare the performance of EZGrid with that of a human expert.

Alison Andrews Vogel

[1] Dean R. Chapman,et al. Trends and pacing items in computational aerodynamics , 1981 .

[2] J L Steger,et al. Three Dimensional Grid Generation for Complex Configurations - Recent Progress , 1988 .

[3] Frederick Hayes-Roth,et al. Knowledge-Based Expert Systems , 1984, Computer.

[4] Paul Kutler,et al. A perspective of computational fluid dynamics , 1986 .

[5] M. Rai. A conservative treatment of zonal boundaries for Euler equation calculations , 1986 .

[6] M. Brady,et al. Smoothed Local Symmetries and Their Implementation , 1984 .

[7] Judea Pearl,et al. Heuristics : intelligent search strategies for computer problem solving , 1984 .

[8] Paul Kutler,et al. Status of computational fluid dynamics in the United States , 1987 .

[9] A. A. Vogel. A knowledge-based approach to automated flow field zoning for computational fluid dynamics , 1989 .

[10] Alison E. Andrews,et al. Progress and challenges in the application of artificial intelligence to computational fluid dynamics , 1987 .