Collaborative Process Planning and Management Oriented Network-based Manufacture
Author(s):
Y. Y. Su*, H. Dong, D. Liang, & T. R. Zhang
Affiliation(s):
ABSTRACT: Process planning of manufacturing enterprises is a kind of complicated process of knowledge-intensive, enterprises and team cooperative work. It requires to combine collaboration technology with process planning, namely collaborative process planning, which is the inevitable trend of the development of process planning for enterprises. In the face of the demands of the enterprises, the structure of collaborative process planning is analyzed. In addition, workflow technology is applied into the process of process planning for the implementation of process management. Also the implementation methods of synchronous collaborative technology are studied , which include data exchange method, data communication method, session management, and concurrency control method, in order to realize collaborative process planning and management, and meet the requirements of enterprise process informatization.
Keywords : Computer supported cooperative work; Process planning; Workflow management; Implementation.
[2] J. M. Yong, W. M. Shen, and Y. Yang, “Special issue on computer-supported cooperative work: Techniques and applications”, Information Sciences, vol. 179, no. 15, pp. 2513-2514, 2009.
[3] H. Zha, W. M. van der Aalst, J. Wang, L. Wen, and J. Sun, “Verifying workflow processes: a transformation-based approach”, Software & Systems Modeling, vol. 10, no. 2, pp. 253-264, 2011.
[4] W. V. D. Aalst and K. V. Hee, “Workflow management: models, methods, and systems”, MIT Press, 2004.
[5] O. González, R. Casallas, and D. Deridder, “Monitoring and analysis concerns in workflow application: from conceptual specifications to concrete implementations”, International Journal of Cooperative Information Systems, vol. 20, no. 4, pp. 371-404, 2011.
[6] L. Zhen, Z. H. Jiang, and H. T. Song, “Distributed knowledge sharing for collaborative product development”, International Journal of Production Research, vol. 49, no. 10, pp. 2959-2976, 2011.
[7] D. N. Šormaz, J. Arumugam, R. S. Harihara, and C. Patel, “N neerukonda. integration of product design, process planning, scheduling, and FMS control using XML data representation”, Robotics and Computer-Integrated Manufacturing, vol. 26, no. 6, pp. 583-595, 2010.
[8] N. Zhao, Y. F. Shen, C. Mi, J. X. Wang, M. J. Xia, and X. Liang, “Vehicle-mounted task control dystem in container yard based on workflow engine”, Journal of Coastal Research, Special Issue. 73, pp. 220-227. doi: http://dx.doi.org/10.2112/SI73-039.1
[9] L. Yong, Z. L. Liu, and H. Y. Liao, “Improving the performance of GIS polygon overlay computation with MapReduce for spatial big data processing”, Cluster Computing-the Journal of Networks Software Tools and Applications, vol. 18, no. 2, pp. 507-516, 2015.