Paper Info
Title
B-Rep Based Parallel Machining Simulation
Abstract
Boundary-representation (B-rep) solid modeller based machining simulations are employed in industry to avoid potential manufacturing failures and improve machiningefficiency before machining begins. The B-rep solid modeller maintains the state of the in-process stock exactly. However, the application of B-rep solid modellers to machining simulations is hindered by the complexity growth that occurs for a large number of tool-paths. In this paper, it is shown that by dividing the tool-paths into neighbour groups and working under practical 2 陆D machining assumptions, the number of neighbours to any tool-path is constant. Consequently, parallel processing effectively reduces wall clock running time for a large number of tool-paths.
Year
DOI
Venue
2005
10.1109/HPCS.2005.18
HPCS
Keywords
Field
DocType
solid modeller,complexity growth,parallel machining simulation,potential manufacturing failure,d machining assumption,parallel processing,large number,in-process stock,neighbour group,machining simulation,b-rep solid modeller,boundary representation,machining,machine tools,computational geometry,computational modeling,manufacturing industries,mechanical engineering,computer numerical control,solid modeling
Boundary representation,Numerical control,Division (mathematics),Computer science,Parallel processing,Computational geometry,Parallel computing,Mechanical engineering,Machining,Solid modeling,Machine tool
Conference
ISBN
Citations 
PageRank 
0-7695-2343-9
2
0.40
References 
Authors
3
2
Name
Order
Citations
PageRank
Robert V. Fleisig120.40
Allan D. Spence2132.99