BibTex RIS Kaynak Göster

BDT/BDİ UYGULAMALARI İÇİN BİLGİSAYAR DESTEKLİ PARÇA TANIMA YAKLAŞIMININ GELİŞTİRİLMESİ

Yıl 2007, Cilt: 22 Sayı: 2, 0 - , 15.02.2013

Öz

3 boyutlu BDT (Bilgisayar Destekli Tasarım) modellerinden imalat bilgilerinin otomatik çıkarımı BDT/BDİ(Bilgisayar Destekli İmalat)’ın entegrasyonu için önemli bir çalışma alanıdır. Bu makalede, BDT/BDİentegrasyonunu desteklemek için uzman sistem tabanlı bir parça tanıma yaklaşımı geliştirilmiştir. Sisteme girdiolarak 3 boyutlu BDT modellerinin STEP (Standard for the Exchange of Product Model Data) dosyasıkullanılmıştır. Her bir yüzeye ait komşu yüzeyler ve nitelikler STEP dosyasından çıkarılarak matematiksel birmodelde (YKİM- Yüzey Komşuluk İlişki Matrisi) temsil edilmiştir. Aynı zamanda, Windows tabanlı bir yazımeditörü kullanılarak bilgi tabanı oluşturulmuş ve bilgi tabanı için bir kural yazma formatı geliştirilmiştir. YKİMve bilgi tabanında temsil edilen geometrik ve topolojik bilgi karşılaştırılarak parçalar tanınmıştır. Parça tanımaalgoritması işlem planlama, grup teknolojisi gibi birçok BDT/BDİ uygulaması için uygulanabilirdir.Algoritmanın verimliliği ve kapasitesini göstermek için yaklaşım karmaşık parçalara sahip olan otomobil motorparçalarına uygulanmıştır.

Kaynakça

  • Gülesin, M., Jones, R.M., “Face oriented
  • neighbouring graph (FONG): a part representing
  • scheme for process planning”, Computer
  • Integrated Manufacturing Systems, Cilt 7, No
  • , 213-218, 1994.
  • Dereli, T., Filiz, İ.H., “A note on the use of STEP
  • for interfacing design to process planning”,
  • Computer Aided Design, Cilt 34, 1075-1085,
  • -
  • Bhandarkar, M.P., Nagi, R., “STEP-based feature
  • extraction from STEP geometry for agile
  • manufacturing”, Computers in Industry, Cilt
  • , 3-24, 2000.
  • Han, J.H., Kang, M., Choi, H., “STEP-based
  • feature recognition for manufacturing cost
  • optimization”, Computer Aided Design, Cilt
  • , pp. 671-686, 2001.
  • Qamhiyah, A.Z., Venter, R.D., Benhabib, B.,
  • “Geometric reasoning for the extraction of form
  • features”, Computer Aided Design, Cilt 28, No
  • , 887-903, 1996.
  • Gao, S., Shah, J.J., “Automatic recognition of
  • interacting machining features based on minimal
  • condition subgraph”, Computer Aided Design,
  • Cilt 30, No 9, 727-739 ,1998.
  • Falcidieno, B., Giannini, F., “Automatic
  • recognition and representation of shape based
  • features in a geometric modeling system”,
  • Computer Vision, Graphics and Image
  • Processing, Cilt 48, 93-123, 1989.
  • Gavankar, P., Henderson, M.R., “Graph-based
  • extraction of protrusions and depressions from
  • boundary representations”, Computer Aided
  • Design, Cilt 22, No 7, 442-450, 1990.
  • Chuang, S.H., Henderson, M.R., “Threedimensional
  • shape pattern recognition using
  • vertex classification and vertex-edge graphs”,
  • Computer Aided Design, Cilt 22, No 6, 377-
  • , 1990.
  • Huang, Z., Yip-Hoi, D., “High-level feature
  • recognition using feature relationship graphs”,
  • Computer Aided Design, Cilt 34, 561-582,
  • -
  • Pal, P., Kumar, A., “A hybrid approach for
  • identification of 3D features from CAD database
  • for manufacturing support”, International
  • Journal of Machine Tools & Manufacture,
  • Cilt 42, 221-228, 2002.
  • Pal, P., Tigga, A.M., Kumar, A., “A strategy for
  • machining interacting features using spatial
  • reasoning”, International Journal of Machine
  • Tools & Manufacture, Cilt 45, 269-278, 2005.
  • Rezayat, M., “Midsurface abstraction from 3D
  • solid models: general theory and applications”,
  • Computer Aided Design, Cilt 26, No 11, 905-
  • , 1996.
  • Lockett, H.L., Guenov, M.D., “Graph-based
  • feature recognition for injection moulding based
  • on a mid-surface approach”, Computer-Aided
  • Design, Cilt 37, 251-262, 2005.
  • Mehalawi, M., Miller, R.A., “A database system
  • of mechanical components based on geometric
  • and topological similarity. Part I:
  • re+presentation”, Computer Aided Design, Cilt
  • , 83-94, 2003.
  • Mehalawi, M., Miller, R.A., “A database system
  • of mechanical components based on geometric
  • and topological similarity. Part II: indexing,
  • retrieval, matching and similarity assessment”,
  • Computer Aided Design, Cilt 35, 95-105, 2003.
  • Candadai, A., Herrman, J.W., Minis, I.,
  • “Applications of group technology in distributed
  • manufacturing”, Journal of Intelligent
  • Manufacturing, Cilt 7, 271-291, 1996.
  • Lee, J.Y., Kim, K., “Generating alternative
  • interpretations of machining features”,
  • International Journal of Advanced
  • Manufacturing Technology, Cilt 15, 38-48,
  • -
  • Lee, J.Y., Kim, K., “A feature-based approach to
  • extracting machining features”, Computer
  • Aided Design, Cilt 30, No 13, 1019-1035, 1998.
  • Prabhu, B.S., Pande, S.S., “Intelligent
  • interpretation of CADD drawings”, Computers
  • & Graphics, Cilt 23, 25-44, 1999.
  • Prabhu, B.S., Biswas, S., Pande, S.S., “Intelligent
  • system for extraction of product data from
  • CADD models”, Computers in Industry, Cilt
  • , 79-95, 2001.
Yıl 2007, Cilt: 22 Sayı: 2, 0 - , 15.02.2013

Öz

Kaynakça

  • Gülesin, M., Jones, R.M., “Face oriented
  • neighbouring graph (FONG): a part representing
  • scheme for process planning”, Computer
  • Integrated Manufacturing Systems, Cilt 7, No
  • , 213-218, 1994.
  • Dereli, T., Filiz, İ.H., “A note on the use of STEP
  • for interfacing design to process planning”,
  • Computer Aided Design, Cilt 34, 1075-1085,
  • -
  • Bhandarkar, M.P., Nagi, R., “STEP-based feature
  • extraction from STEP geometry for agile
  • manufacturing”, Computers in Industry, Cilt
  • , 3-24, 2000.
  • Han, J.H., Kang, M., Choi, H., “STEP-based
  • feature recognition for manufacturing cost
  • optimization”, Computer Aided Design, Cilt
  • , pp. 671-686, 2001.
  • Qamhiyah, A.Z., Venter, R.D., Benhabib, B.,
  • “Geometric reasoning for the extraction of form
  • features”, Computer Aided Design, Cilt 28, No
  • , 887-903, 1996.
  • Gao, S., Shah, J.J., “Automatic recognition of
  • interacting machining features based on minimal
  • condition subgraph”, Computer Aided Design,
  • Cilt 30, No 9, 727-739 ,1998.
  • Falcidieno, B., Giannini, F., “Automatic
  • recognition and representation of shape based
  • features in a geometric modeling system”,
  • Computer Vision, Graphics and Image
  • Processing, Cilt 48, 93-123, 1989.
  • Gavankar, P., Henderson, M.R., “Graph-based
  • extraction of protrusions and depressions from
  • boundary representations”, Computer Aided
  • Design, Cilt 22, No 7, 442-450, 1990.
  • Chuang, S.H., Henderson, M.R., “Threedimensional
  • shape pattern recognition using
  • vertex classification and vertex-edge graphs”,
  • Computer Aided Design, Cilt 22, No 6, 377-
  • , 1990.
  • Huang, Z., Yip-Hoi, D., “High-level feature
  • recognition using feature relationship graphs”,
  • Computer Aided Design, Cilt 34, 561-582,
  • -
  • Pal, P., Kumar, A., “A hybrid approach for
  • identification of 3D features from CAD database
  • for manufacturing support”, International
  • Journal of Machine Tools & Manufacture,
  • Cilt 42, 221-228, 2002.
  • Pal, P., Tigga, A.M., Kumar, A., “A strategy for
  • machining interacting features using spatial
  • reasoning”, International Journal of Machine
  • Tools & Manufacture, Cilt 45, 269-278, 2005.
  • Rezayat, M., “Midsurface abstraction from 3D
  • solid models: general theory and applications”,
  • Computer Aided Design, Cilt 26, No 11, 905-
  • , 1996.
  • Lockett, H.L., Guenov, M.D., “Graph-based
  • feature recognition for injection moulding based
  • on a mid-surface approach”, Computer-Aided
  • Design, Cilt 37, 251-262, 2005.
  • Mehalawi, M., Miller, R.A., “A database system
  • of mechanical components based on geometric
  • and topological similarity. Part I:
  • re+presentation”, Computer Aided Design, Cilt
  • , 83-94, 2003.
  • Mehalawi, M., Miller, R.A., “A database system
  • of mechanical components based on geometric
  • and topological similarity. Part II: indexing,
  • retrieval, matching and similarity assessment”,
  • Computer Aided Design, Cilt 35, 95-105, 2003.
  • Candadai, A., Herrman, J.W., Minis, I.,
  • “Applications of group technology in distributed
  • manufacturing”, Journal of Intelligent
  • Manufacturing, Cilt 7, 271-291, 1996.
  • Lee, J.Y., Kim, K., “Generating alternative
  • interpretations of machining features”,
  • International Journal of Advanced
  • Manufacturing Technology, Cilt 15, 38-48,
  • -
  • Lee, J.Y., Kim, K., “A feature-based approach to
  • extracting machining features”, Computer
  • Aided Design, Cilt 30, No 13, 1019-1035, 1998.
  • Prabhu, B.S., Pande, S.S., “Intelligent
  • interpretation of CADD drawings”, Computers
  • & Graphics, Cilt 23, 25-44, 1999.
  • Prabhu, B.S., Biswas, S., Pande, S.S., “Intelligent
  • system for extraction of product data from
  • CADD models”, Computers in Industry, Cilt
  • , 79-95, 2001.
Toplam 89 adet kaynakça vardır.

Ayrıntılar

Birincil Dil Türkçe
Bölüm Makaleler
Yazarlar

Adem Çiçek Bu kişi benim

Mahmut Gülesin Bu kişi benim

Yayımlanma Tarihi 15 Şubat 2013
Gönderilme Tarihi 15 Şubat 2013
Yayımlandığı Sayı Yıl 2007 Cilt: 22 Sayı: 2

Kaynak Göster

APA Çiçek, A., & Gülesin, M. (2013). BDT/BDİ UYGULAMALARI İÇİN BİLGİSAYAR DESTEKLİ PARÇA TANIMA YAKLAŞIMININ GELİŞTİRİLMESİ. Gazi Üniversitesi Mühendislik Mimarlık Fakültesi Dergisi, 22(2).
AMA Çiçek A, Gülesin M. BDT/BDİ UYGULAMALARI İÇİN BİLGİSAYAR DESTEKLİ PARÇA TANIMA YAKLAŞIMININ GELİŞTİRİLMESİ. GUMMFD. Mart 2013;22(2).
Chicago Çiçek, Adem, ve Mahmut Gülesin. “BDT/BDİ UYGULAMALARI İÇİN BİLGİSAYAR DESTEKLİ PARÇA TANIMA YAKLAŞIMININ GELİŞTİRİLMESİ”. Gazi Üniversitesi Mühendislik Mimarlık Fakültesi Dergisi 22, sy. 2 (Mart 2013).
EndNote Çiçek A, Gülesin M (01 Mart 2013) BDT/BDİ UYGULAMALARI İÇİN BİLGİSAYAR DESTEKLİ PARÇA TANIMA YAKLAŞIMININ GELİŞTİRİLMESİ. Gazi Üniversitesi Mühendislik Mimarlık Fakültesi Dergisi 22 2
IEEE A. Çiçek ve M. Gülesin, “BDT/BDİ UYGULAMALARI İÇİN BİLGİSAYAR DESTEKLİ PARÇA TANIMA YAKLAŞIMININ GELİŞTİRİLMESİ”, GUMMFD, c. 22, sy. 2, 2013.
ISNAD Çiçek, Adem - Gülesin, Mahmut. “BDT/BDİ UYGULAMALARI İÇİN BİLGİSAYAR DESTEKLİ PARÇA TANIMA YAKLAŞIMININ GELİŞTİRİLMESİ”. Gazi Üniversitesi Mühendislik Mimarlık Fakültesi Dergisi 22/2 (Mart 2013).
JAMA Çiçek A, Gülesin M. BDT/BDİ UYGULAMALARI İÇİN BİLGİSAYAR DESTEKLİ PARÇA TANIMA YAKLAŞIMININ GELİŞTİRİLMESİ. GUMMFD. 2013;22.
MLA Çiçek, Adem ve Mahmut Gülesin. “BDT/BDİ UYGULAMALARI İÇİN BİLGİSAYAR DESTEKLİ PARÇA TANIMA YAKLAŞIMININ GELİŞTİRİLMESİ”. Gazi Üniversitesi Mühendislik Mimarlık Fakültesi Dergisi, c. 22, sy. 2, 2013.
Vancouver Çiçek A, Gülesin M. BDT/BDİ UYGULAMALARI İÇİN BİLGİSAYAR DESTEKLİ PARÇA TANIMA YAKLAŞIMININ GELİŞTİRİLMESİ. GUMMFD. 2013;22(2).