A Dynamic Assembly Modeling Method for Satellite Final Assembly Sequence Planning

Yuan Zhang; Kai Fu Zhang; Jian Feng Yu; Lei Zhao

doi:10.4028/www.scientific.net/AMR.156-157.332

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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 156-157A Dynamic Assembly Modeling Method for Satellite...

A Dynamic Assembly Modeling Method for Satellite Final Assembly Sequence Planning

Abstract:

To study the effect of assembly process information combining disassemble and assemble on satellite assembly sequence, this paper presents an object-oriented and assembly information integrated model, which is composed of static model and dynamic model. The feasibility determination based on Cut-set theory is presented and the construction algorithm of dynamic model is established by static model, the dynamic assembly model tree is obtained by analyzing in layers and verifying possible states using this algorithm, where the assembly model tree includes all the geometric feasible assembly sequences of satellite. Finally, this modeling method is verified by a satellite product.

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Advanced Manufacturing Technology, ICAMMP 2010

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Periodical:

Advanced Materials Research (Volumes 156-157)

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332-338

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.156-157.332

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Online since:

October 2010

Authors:

Yuan Zhang, Kai Fu Zhang, Jian Feng Yu, Lei Zhao

Keywords:

Assembly Model, Assembly Sequence Planning, Cut Set, Multi-Cross Tree

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References

[1] JING Shikai, GU Zhicai, LIU Jihong, YANG Haicheng. Product assembly design based on semantics reasoning[J]. Computer Integrated Manufacturing Systems. 2010, 5, (16): 949-955.

Google Scholar

[2] SHARAFAT A R, MAROUZI O R. A novel and efficient algorithm for scanning all minimal cutsets of a graph[J]. Iranian Journal of Science & Technology, 2006, 30 (B6): 749-761.

Google Scholar

[3] ZHOU Xiao Ming. Assembly modeling for assembly sequence planning [J]. Computer Integrated Manufacturing Systems. 2007, 12, (13): 2366-2372.

Google Scholar

[4] CHANG Zhiyong. Research and implement of aeroengine digital assembly system[J] Digital Military Industry, 2007(5): 54-57.

Google Scholar

[5] LIU Jihong, WANG yong, GU Zhicai. Assembly sequences planning based on PSO algorithm[C]/ Proceedings of ASME 2008 International Design Engineering Technical Conferences & Computer and Information in Engineering Conference. New York,N. Y, USA: ASEM, (2008).

Google Scholar

[6] Mello L S H de，Sanderson A C. A correct and complete algorithm for the generation of mechanical assembly sequences. IEEE transaction on Robotics and Automantion, 1991, 7(2): 228-240.

DOI: 10.1109/70.75905

Google Scholar

[7] Sodhi R, Turner J U. Towards modeling of assemblies for product design. Computer-Aided Design, 1994, 26(2): 85-97.

DOI: 10.1016/0010-4485(94)90029-9

Google Scholar

[8] Lee K, Gossard D C. A hierarchical data structures for representing assemblies: part I. Computer-Aided Design, 1985, 17(1): 15-19.

DOI: 10.1016/0010-4485(85)90005-3

Google Scholar