한국CDE학회논문집 (Korean Journal of Computational Design and Engineering)

  • 제9권1호
  • /
  • Pages.51-61
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  • 2004
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  • 2508-4003(pISSN)
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  • 2508-402X(eISSN)
한국CDE학회 (Society for Computational Design and Engineering)
권호 표지

계층적 특징형상 정보에 기반한 부품 유사성 평가 방법: Part 2 - 절삭가공 특징형상 분할방식 이용

Part Similarity Assessment Method Based on Hierarchical Feature Decomposition: Part 2 - Using Negative Feature Decomposition

  • 김용세 (성균관대학교 기계공학부) ;
  • 강병구 (성균관대학교 기계공학) ;
  • 정용희 (성균관대학교 기계공학부)
  • 발행 : 2004.03.01
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초록

Mechanical parts are often grouped into part families based on the similarity of their shapes, to support efficient manufacturing process planning and design modification. The 2-part sequence papers present similarity assessment techniques to support part family classification for machined parts. These exploit the multiple feature decompositions obtained by the feature recognition method using convex decomposition. Convex decomposition provides a hierarchical volumetric representation of a part, organized in an outside-in hierarchy. It provides local accessibility directions, which supports abstract and qualitative similarity assessment. It is converted to a Form Feature Decomposition (FFD), which represents a part using form features intrinsic to the shape of the part. This supports abstract and qualitative similarity assessment using positive feature volumes.. FFD is converted to Negative Feature Decomposition (NFD), which represents a part as a base component and negative machining features. This supports a detailed, quantitative similarity assessment technique that measures the similarity between machined parts and associated machining processes implied by two parts' NFDs. Features of the NFD are organized into branch groups to capture the NFD hierarchy and feature interrelations. Branch groups of two parts' NFDs are matched to obtain pairs, and then features within each pair of branch groups are compared, exploiting feature type, size, machining direction, and other information relevant to machining processes. This paper, the second one of the two companion papers, describes the similarity assessment method using NFD.

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참고문헌

  1. ASME Journal of Computing and Information Science in Engineering v.1 no.3 Feature Based Shape Similarity Measurement for Retrieval of Mechanical Parts Ramesh,M.;Yip-Hoi,D.;Dutta,D. https://doi.org/10.1115/1.1412456
  2. Proc. 4th ACM Symposium on Solid Modeling and Applications Feature Based Similarity Assessment of Solid Models Elison,A.;Nau,D.;Regli,W.C.
  3. International Conference on Shape Modeling and Applications Machining Feature-Based Comparison of Mechanical parts Cicirello,V.A.;Regli,W.C.
  4. Ph. D. Thesis, Stanford University Convex Decomposition and Solid Geometric Modeling Kim,Y.S.
  5. 한국 CAD/CAN 학회 논문집 v.9 no.1 계층적 특징형상 정보에 기반한 부품 유사성 평가 방법: Part 1 - 볼록입체 분할방식 및 특징형상 분할방식 이용 김용세;강병구;정용희
  6. Computer-aided Design v.24 no.3 Recognition of Form Features Using Convex Decomposition Kim,Y.S. https://doi.org/10.1016/0010-4485(92)90027-8
  7. Computer-Aided Design v.26 no.6 Geometric Reasoning for Machining Features Using Convex Decomposition Waco,D.;Kim,Y.S. https://doi.org/10.1016/0010-4485(94)90069-8
  8. 한국 CAD/CAM 학회 학술 발표회 논문집 FAPPS(Feature based Automatic Process Planning System) 개발 노형민;박면웅;하성도;이충수;박재민;김재관;박병태;황인식;이교일;공상훈;김용세;Eric Wang
  9. International Journal of Production Research v.39 no.10 Geometry-Based Machining Precedence Reasoning for Feature-Based process Planning Kim,Y.S.;Wang,E.;Rho,H.M. https://doi.org/10.1080/00207540110038513