Modeling for management and control integrated intelligent assembly system for mechanical products based on Internet of things

被引：0

作者：

Liu, Ming-Zhou ^{[1
]}

Ma, Jing ^{[1
]}

Zhao, Zhi-Biao ^{[2
]}

Wang, Qiang ^{[1
]}

Zhang, Miao ^{[1
]}

机构：

[1] School of Mechanical and Automotive Engineering, Hefei University of Technology, Hefei

[2] Norinco Group Planning and Research Institute, Beijing

来源：

Jisuanji Jicheng Zhizao Xitong/Computer Integrated Manufacturing Systems, CIMS | 2015年 / 21卷 / 03期

基金：

中国国家自然科学基金;

关键词：

Assembling process; Control and management integration; Intelligent assembly system; Internet of things; Petri net;

D O I：

10.13196/j.cims.2015.03.011

中图分类号：

学科分类号：

摘要：

Aiming at the realistic significance of Internet of Things (IoT) technology on the development of manufacturing system, with the object of constructing the interconnection perception and intelligent efficiency assembly system, the concept of Management and Control Integrated Intelligent Assembly System based on IoT (MCIIAS-IoT) was put forward based on analyzing the application mode of IoT technology in the mechanical product assembly system, aiming at. To solve the analysis and optimization problems of MCIIAS-IoT, Timed-based Colored Object-Oriented Petri Net (TCOPN) was adapted to abstract MCIIAS-IoT to some collections of objects, which were consisted of assembly units and functional modules. According to the process constraint and logical relations between each module and unit, the transitive relationship of messages for MCIIAS-IoT was determined. The communications between units and modules driven by message were achieved, and TCOPN model for MCIIAS-IoT was established. The knowledge rules were adopted to promote the ability of autonomy and decision-making for TCOPN model. A case study of the engine tightening process was presented to verify the feasibility and effectiveness of proposed modeling approach. ©, 2015, CIMS. All right reserved.

引用

页码：669 / 679

页数：10

共 11 条

[1] Zhang Y., Zhao X., Sun S., Et al., Network manufacturing and enterprise integration, Computer Integrated Manufacturing Systems, 18, 12, pp. 2634-2642, (2012)
[2] Jing Y., Wang X., Li W., Study on RFID-based quality tracking system for gearbox assembly line, Modern Scientific Instruments, 5, pp. 63-67, (2011)
[3] Liu W., Huang W., Sun D., Et al., Design and implementation of discrete manufacturing industry MES based on RFID technology, Computer Integrated Manufacturing Systems, 13, 10, pp. 1886-1890, (2007)
[4] Ye Y., Jia L., Model and simulation of train operation Petri net with objects, Journal of System Simulation, 14, 2, pp. 132-139, (2002)
[5] Wang L., Zhang Y., Application of object-oriented Petri net in manufacturing system modeling, Proceedings of 2011 International Conference on InformationTechnology, Computer Engineering and Management Sciences, 4, pp. 61-64, (2011)
[6] Villani E., Pascal J.C., Eigi P., Et al., A Petri net-based object-oriented approach for the modelling of hybrid productive systems, Nonlinear Analysis, 62, 8, pp. 1394-1418, (2005)
[7] Liu T., Fu W., Modeling of loading and unloading scheduling system based on object-oriented timed Petri net, Journal of System Simulation, 18, 3, pp. 537-541, (2006)
[8] Zhang J., Li Y., Rapid modeling method for aircraft assembly system based on relation-based object Petri net, Computer Integrated Manufacturing Systems, 16, 6, pp. 1195-1201, (2010)
[9] Meng X., Modeling of reconfigurable manufacturing systems based on colored timed object-oriented Petri nets, Journal of Manufacturing Systems, 29, 2-3, pp. 81-90, (2010)
[10] Yuan M., Bai Y., Li D., Modeling for reconfigurable assembly line based on ATCPN, Computer Integrated Manufacturing Systems, 14, 11, pp. 2142-2149, (2008)

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