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MONTAJ PLANLAMA YAKLAŞIMLARI ÜZERİNE BİR ARAŞTIRMA

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

Öz

Bilgisayar destekli montaj planlama, montaj işleminin optimize edilmesinde önemli bir rol oynamaktadır. Bunedenle, montaj planlama alanında birçok araştırma yapılmış ve çeşitli montaj planlama yaklaşımlarıgeliştirilmiştir. Bu montaj planlama yaklaşımları ile hem tüm olası montaj sıraları hem de en uygun montaj sırasıbilgisayar destekli olarak elde edilerek montaj zamanı en aza indirilmiştir. Bu makalede montaj planlamayaklaşımları tartışılmış ve kullanılan yöntemlere göre sınıflandırılmıştır.

Kaynakça

  • Arieh, D.B., Kramer, B., “Computer aided
  • process planning for assembly: generation of
  • assembly operations sequence”, International
  • Journal of Production Research, Vol. 32, No.
  • , 643-656, 1994.
  • Baldwin, D.F., Abel, T.E., Lui, M.C.M., De
  • Fazio, T.L., Whitney, D.E., “An Integrated
  • Computer Aid for Generating and Evaluating
  • Assembly Sequences for Mechanical Products”,
  • IEEE Transactions on Robotics and
  • Automation, Vol. 7, No. l, 78-94, 1991.
  • Chakrabarty, S., Wolter, J., “A Structure-
  • Oriented Approach to Assembly Sequence
  • Planning”, IEEE Transactions on Robotics and
  • Automation, Vol. 13, No. l, 14-29, 1997.
  • Zorc, S., Noe, D., “Efficient Derivation of the
  • Optimum Assembly Sequence from Product
  • Description”, Cybernetics and Systems, Vol.
  • , 159-179, 1998.
  • Ko, H., Lee, K., “Automatic Assembling
  • Procedure Generation from Mating Conditions”,
  • Computer Aided Design, Vol. 19, No. l, 3-10,
  • -
  • Gu, P., Yan, X., “CAD-Directed Automatic
  • Assembly Sequence Planning”, International
  • Journal of Production Research, Vol. 33, No.
  • , 3069-3100, 1995.
  • De Mello, L.S., Sanderson, A.C., “And/Or Graph
  • Representation of Assembly Plans”, IEEE
  • Transactions on Robotics and Automation,
  • Vol. 6, No. 2, 188-199, 1990.
  • Niu, X., Ding, H., Xiong, Y., “A Hierarchical
  • Approach to Generating Precedence Graphs for
  • Assembly Planning”, International Journal of
  • Machine Tools & Manufacture, Vol. 43, 1473-
  • , 2003.
  • Börklü, H. R., Sinanoğlu, C., “Bilgisayar destekli
  • montaj sırası planlamada yön graf temsili ve bir
  • örnek çalışma”, Politeknik Dergisi, Cilt 4, Sayı
  • , Sayfa 1-11, 2001.
  • Chao, P.Y., Chen, T.T., “Analysis of Assembly
  • Through Product Configuration”, Computers in
  • Industry, Vol. 44, 189-203, 2001.
  • Werling, G., Wild, H., “HOM-A Hybrid Object
  • Model for Automatic Assembly Planning”,
  • Journal of Intelligent Manufacturing, Vol. 5,
  • -163, 1994.
  • Eng, T.H., Ling, Z.K., Olson, W., McLean, C.,
  • “Feature-Based Assembly Modeling and
  • Sequence Generation”, Computers & Industrial
  • Engineering, Vol. 36, 17-33, 1999.
  • Van Holland, W., Bronsvoort, W.F., “Assembly
  • Features in Modeling and Planning”, Robotics
  • and Computer Integrated Manufacturing, Vol.
  • , 277-294, 2000.
  • Mascle, C., “Feature-Based Assembly Model for
  • Integration in Computer Aided Assembly”,
  • Robotics and Computer Integrated
  • Manufacturing, Vol. 18, 373-378, 2002.
  • Zha, X. F., Du, H., “A PDES/STEP-based model
  • and system for concurrent integrated design and assembly planning”, Computer Aided Design,
  • Vol. 34, pp. 1087-1110, 2002.
  • Latombe, J. C., Wilson, R. H., Cazals, F.,
  • “Assembly sequencing with toleranced parts”,
  • Computer Aided Design, Vol. 29, No. 2, pp.
  • -174, 1996.
  • Lee, Y.Q., Kumara, S.R,T., “A Scheme for
  • Mechanical Assembly Design and Assembly Line
  • Layout Conceptualization”, Computers &
  • Indııstrial Engineering, Vol. 27, No. 1-4, 261-
  • , 1994.
  • Dini, G., Santochi, M., “Automated Sequencing
  • and Subassembly Detection in Assembly
  • Planning”, Annals of the CIRP, Vol. 41/1, 1-4,
  • -
  • Dilipak, H., Bilgisayar destekli montaj
  • aşamalarının teşhisi ve montaj sınırlamalarına
  • dayalı optimizasyonu, Doktora Tezi, Gazi
  • Üniversitesi Fen Bilimleri Enstitüsü, 2001.
  • Dilipak, H., Özdemir, A., “Bilgisayar Destekli
  • Montaj: Bölüm 1-Temas ve Hareket
  • Fonksiyonlarının CAD Ortamında Otomatik
  • Oluşturulması”, Politeknik Dergisi, Cilt: 3, Sayı:
  • , 71-80, 2000.
  • Dilipak, H., Özdemir, A., “Bilgisayar Destekli
  • Montaj: Bölüm 2- Montaj Sıralarının Otomatik
  • Belirlenmesi”, Politeknik Dergisi, Cilt: 4, Sayı:
  • l, 13-22, 2001.
  • Zhang, Y.Z., Ni, J., Lin, Z.Q., Lai, X.M.,
  • “Automated Sequencing and Subassembly
  • Detection in Automobile Body Assembly
  • Planning”, Journal of Materials Processing
  • Technology, Vol. 129, 490-494, 2002.
  • Gottipolu, R. B., Ghosh, K., “Representation and
  • selection of assembly sequences in a computer
  • aided assembly process planning”, International
  • Journal of Production Research,Vol. 35, No.
  • , pp. 3447-3465, 1997.
  • Schmidt, L.C., Jackman, J., “Evaluating
  • Assembly Sequences for Automatic Assembly
  • Systems”, IIE Transactions, Vol. 27, 23-31,
  • -
  • Lazzerini B., Marcelloni, F., “A Genetic
  • Algorithm for Generating Optimum Assembly
  • Plans”, Artificial Intelligence in Engineering,
  • Vol. 14, 319-329, 2000.
  • Hong, D.S., Cho, H.S., “A Genetic-Algorithm-
  • Based Approach to the Generation of Robotic
  • Assembly Sequences”, Control Engineering
  • Practice, Vol. 7, 151-159, 1999.
  • Smith, G. C., Smith, S. S. F., “An enhanced
  • genetic algorithm for automated assembly
  • planning”, Robotics and Computer Integrated
  • Manufacturing, Vol. 18, pp. 355-364, 2002.
  • Smith, S.S.F., “Using Multiple Genetic Operators
  • to Reduce Premature Convergence in Genetic
  • Assembly Planning”, Computers in Industry,
  • Vol. 54, 35-49, 2004.
  • De Fazio, T.L., Whitney, D.E., “Simplified
  • Generation of All Mechanical Assembly
  • Sequences”, IEEE Transactions on Robotics
  • and Automation, Vol. RA-3, No. 6, 640-658,
  • -
  • Steven, H., Lai, Y., “KBDA-A Knowledge Based
  • Design System for Assembly”, Computers &
  • Industrial Engineering, Vol. 25, No. 1-4, 585-
  • , 1993.
  • Zha, X.F., Du, H.J., Qiu, J.H., “Knowledge
  • Based Approach and System for Assembly
  • Oriented Design, Part II: The System
  • Implementation”, Engineering Applications of
  • Artificial Intelligence, Vol. 14, 239-254, 2001.
  • Seo, Y., Sheen, D., Kim, T., “Block assembly
  • planning in shipbuilding using case-based
  • reasoning”, Expert Systems with Applications,
  • Vol. 32, pp. 245–253, 2007.
  • Dong, T.,Tong, R., Zhang, L., Dong, J., “A
  • collaborative approach to assembly sequence
  • planning”, Advanced Engineering Informatics,
  • Vol. 19, pp. 155–168, 2005.
Yıl 2007, Cilt: 22 Sayı: 2, 0 - , 15.02.2013

Öz

Kaynakça

  • Arieh, D.B., Kramer, B., “Computer aided
  • process planning for assembly: generation of
  • assembly operations sequence”, International
  • Journal of Production Research, Vol. 32, No.
  • , 643-656, 1994.
  • Baldwin, D.F., Abel, T.E., Lui, M.C.M., De
  • Fazio, T.L., Whitney, D.E., “An Integrated
  • Computer Aid for Generating and Evaluating
  • Assembly Sequences for Mechanical Products”,
  • IEEE Transactions on Robotics and
  • Automation, Vol. 7, No. l, 78-94, 1991.
  • Chakrabarty, S., Wolter, J., “A Structure-
  • Oriented Approach to Assembly Sequence
  • Planning”, IEEE Transactions on Robotics and
  • Automation, Vol. 13, No. l, 14-29, 1997.
  • Zorc, S., Noe, D., “Efficient Derivation of the
  • Optimum Assembly Sequence from Product
  • Description”, Cybernetics and Systems, Vol.
  • , 159-179, 1998.
  • Ko, H., Lee, K., “Automatic Assembling
  • Procedure Generation from Mating Conditions”,
  • Computer Aided Design, Vol. 19, No. l, 3-10,
  • -
  • Gu, P., Yan, X., “CAD-Directed Automatic
  • Assembly Sequence Planning”, International
  • Journal of Production Research, Vol. 33, No.
  • , 3069-3100, 1995.
  • De Mello, L.S., Sanderson, A.C., “And/Or Graph
  • Representation of Assembly Plans”, IEEE
  • Transactions on Robotics and Automation,
  • Vol. 6, No. 2, 188-199, 1990.
  • Niu, X., Ding, H., Xiong, Y., “A Hierarchical
  • Approach to Generating Precedence Graphs for
  • Assembly Planning”, International Journal of
  • Machine Tools & Manufacture, Vol. 43, 1473-
  • , 2003.
  • Börklü, H. R., Sinanoğlu, C., “Bilgisayar destekli
  • montaj sırası planlamada yön graf temsili ve bir
  • örnek çalışma”, Politeknik Dergisi, Cilt 4, Sayı
  • , Sayfa 1-11, 2001.
  • Chao, P.Y., Chen, T.T., “Analysis of Assembly
  • Through Product Configuration”, Computers in
  • Industry, Vol. 44, 189-203, 2001.
  • Werling, G., Wild, H., “HOM-A Hybrid Object
  • Model for Automatic Assembly Planning”,
  • Journal of Intelligent Manufacturing, Vol. 5,
  • -163, 1994.
  • Eng, T.H., Ling, Z.K., Olson, W., McLean, C.,
  • “Feature-Based Assembly Modeling and
  • Sequence Generation”, Computers & Industrial
  • Engineering, Vol. 36, 17-33, 1999.
  • Van Holland, W., Bronsvoort, W.F., “Assembly
  • Features in Modeling and Planning”, Robotics
  • and Computer Integrated Manufacturing, Vol.
  • , 277-294, 2000.
  • Mascle, C., “Feature-Based Assembly Model for
  • Integration in Computer Aided Assembly”,
  • Robotics and Computer Integrated
  • Manufacturing, Vol. 18, 373-378, 2002.
  • Zha, X. F., Du, H., “A PDES/STEP-based model
  • and system for concurrent integrated design and assembly planning”, Computer Aided Design,
  • Vol. 34, pp. 1087-1110, 2002.
  • Latombe, J. C., Wilson, R. H., Cazals, F.,
  • “Assembly sequencing with toleranced parts”,
  • Computer Aided Design, Vol. 29, No. 2, pp.
  • -174, 1996.
  • Lee, Y.Q., Kumara, S.R,T., “A Scheme for
  • Mechanical Assembly Design and Assembly Line
  • Layout Conceptualization”, Computers &
  • Indııstrial Engineering, Vol. 27, No. 1-4, 261-
  • , 1994.
  • Dini, G., Santochi, M., “Automated Sequencing
  • and Subassembly Detection in Assembly
  • Planning”, Annals of the CIRP, Vol. 41/1, 1-4,
  • -
  • Dilipak, H., Bilgisayar destekli montaj
  • aşamalarının teşhisi ve montaj sınırlamalarına
  • dayalı optimizasyonu, Doktora Tezi, Gazi
  • Üniversitesi Fen Bilimleri Enstitüsü, 2001.
  • Dilipak, H., Özdemir, A., “Bilgisayar Destekli
  • Montaj: Bölüm 1-Temas ve Hareket
  • Fonksiyonlarının CAD Ortamında Otomatik
  • Oluşturulması”, Politeknik Dergisi, Cilt: 3, Sayı:
  • , 71-80, 2000.
  • Dilipak, H., Özdemir, A., “Bilgisayar Destekli
  • Montaj: Bölüm 2- Montaj Sıralarının Otomatik
  • Belirlenmesi”, Politeknik Dergisi, Cilt: 4, Sayı:
  • l, 13-22, 2001.
  • Zhang, Y.Z., Ni, J., Lin, Z.Q., Lai, X.M.,
  • “Automated Sequencing and Subassembly
  • Detection in Automobile Body Assembly
  • Planning”, Journal of Materials Processing
  • Technology, Vol. 129, 490-494, 2002.
  • Gottipolu, R. B., Ghosh, K., “Representation and
  • selection of assembly sequences in a computer
  • aided assembly process planning”, International
  • Journal of Production Research,Vol. 35, No.
  • , pp. 3447-3465, 1997.
  • Schmidt, L.C., Jackman, J., “Evaluating
  • Assembly Sequences for Automatic Assembly
  • Systems”, IIE Transactions, Vol. 27, 23-31,
  • -
  • Lazzerini B., Marcelloni, F., “A Genetic
  • Algorithm for Generating Optimum Assembly
  • Plans”, Artificial Intelligence in Engineering,
  • Vol. 14, 319-329, 2000.
  • Hong, D.S., Cho, H.S., “A Genetic-Algorithm-
  • Based Approach to the Generation of Robotic
  • Assembly Sequences”, Control Engineering
  • Practice, Vol. 7, 151-159, 1999.
  • Smith, G. C., Smith, S. S. F., “An enhanced
  • genetic algorithm for automated assembly
  • planning”, Robotics and Computer Integrated
  • Manufacturing, Vol. 18, pp. 355-364, 2002.
  • Smith, S.S.F., “Using Multiple Genetic Operators
  • to Reduce Premature Convergence in Genetic
  • Assembly Planning”, Computers in Industry,
  • Vol. 54, 35-49, 2004.
  • De Fazio, T.L., Whitney, D.E., “Simplified
  • Generation of All Mechanical Assembly
  • Sequences”, IEEE Transactions on Robotics
  • and Automation, Vol. RA-3, No. 6, 640-658,
  • -
  • Steven, H., Lai, Y., “KBDA-A Knowledge Based
  • Design System for Assembly”, Computers &
  • Industrial Engineering, Vol. 25, No. 1-4, 585-
  • , 1993.
  • Zha, X.F., Du, H.J., Qiu, J.H., “Knowledge
  • Based Approach and System for Assembly
  • Oriented Design, Part II: The System
  • Implementation”, Engineering Applications of
  • Artificial Intelligence, Vol. 14, 239-254, 2001.
  • Seo, Y., Sheen, D., Kim, T., “Block assembly
  • planning in shipbuilding using case-based
  • reasoning”, Expert Systems with Applications,
  • Vol. 32, pp. 245–253, 2007.
  • Dong, T.,Tong, R., Zhang, L., Dong, J., “A
  • collaborative approach to assembly sequence
  • planning”, Advanced Engineering Informatics,
  • Vol. 19, pp. 155–168, 2005.
Toplam 140 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). MONTAJ PLANLAMA YAKLAŞIMLARI ÜZERİNE BİR ARAŞTIRMA. Gazi Üniversitesi Mühendislik Mimarlık Fakültesi Dergisi, 22(2).
AMA Çiçek A, Gülesin M. MONTAJ PLANLAMA YAKLAŞIMLARI ÜZERİNE BİR ARAŞTIRMA. GUMMFD. Mart 2013;22(2).
Chicago Çiçek, Adem, ve Mahmut Gülesin. “MONTAJ PLANLAMA YAKLAŞIMLARI ÜZERİNE BİR ARAŞTIRMA”. Gazi Üniversitesi Mühendislik Mimarlık Fakültesi Dergisi 22, sy. 2 (Mart 2013).
EndNote Çiçek A, Gülesin M (01 Mart 2013) MONTAJ PLANLAMA YAKLAŞIMLARI ÜZERİNE BİR ARAŞTIRMA. Gazi Üniversitesi Mühendislik Mimarlık Fakültesi Dergisi 22 2
IEEE A. Çiçek ve M. Gülesin, “MONTAJ PLANLAMA YAKLAŞIMLARI ÜZERİNE BİR ARAŞTIRMA”, GUMMFD, c. 22, sy. 2, 2013.
ISNAD Çiçek, Adem - Gülesin, Mahmut. “MONTAJ PLANLAMA YAKLAŞIMLARI ÜZERİNE BİR ARAŞTIRMA”. Gazi Üniversitesi Mühendislik Mimarlık Fakültesi Dergisi 22/2 (Mart 2013).
JAMA Çiçek A, Gülesin M. MONTAJ PLANLAMA YAKLAŞIMLARI ÜZERİNE BİR ARAŞTIRMA. GUMMFD. 2013;22.
MLA Çiçek, Adem ve Mahmut Gülesin. “MONTAJ PLANLAMA YAKLAŞIMLARI ÜZERİNE BİR ARAŞTIRMA”. Gazi Üniversitesi Mühendislik Mimarlık Fakültesi Dergisi, c. 22, sy. 2, 2013.
Vancouver Çiçek A, Gülesin M. MONTAJ PLANLAMA YAKLAŞIMLARI ÜZERİNE BİR ARAŞTIRMA. GUMMFD. 2013;22(2).