Abstract
The idea of modelling the manufacturing activities is presented in the paper. The main goal was to realise the procedure of machining process plan generation using semi-generative method of CAPP system build. This method requires to use the expert system. The manufacturing knowledge is determine by machining process plan template, in the form of hierarchical networks, and production rules where the definition of manufacturing activities is mandatory. Moreover the classification and formal description of manufacturing activities is also included. This formalization let us to define manufacturing capabilities of manufacturing system resources and is also used in workpiece features identification and transformation. The new definition of machining process as an ordered set of activities is introduced. During the machining process the intermediate states of workpiece are generated. Also the manufacturing system model in the form of objects and vector of its state is given. The described activities cause the intended discrete change of manufacturing system and workpiece state.
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Duda, J., Habel, J., Kwatera, M., Samek, A.: Data base with open architecture for defining manufacturing system capabilities. In: Proceedings of 9th FAIM International Conference, pp. 1083–1094 (1999)
Duda, J., Habel, J., Pobożniak, J.: Repository of knowledge for manufacturing process planning. In: Proceedings of 15th FAIM International Conference, pp. 171–178 (2005)
Maraghy, E.: Evolution and future perspectives of CAPP. Ann. CIRP 42(2), 739–751 (1993)
Habel, J.: Manufacturing system resources modelling for CAx systems. In: Weiss, Z. (ed.) Virtual Design and Automation, New Trends In Collaborative Product Design, pp. 391–398. Publishing House of PUT, Poznań (2005)
Habel, J.: The idea of integrated manufacturing process planning system. In: Proceedings of 16th FAIM International Conference, pp. 185–192 (2006)
Kumar, S.L.: State of the art-intense review on artificial intelligence systems application in process planning and manufacturing. Eng. Appl. Artif. Intell. 65, 294–329 (2017)
Pobożniak, J.: Interacting manufacturing features in CAPP systems. In: Advances in Manufacturing, pp. 249–258 (2018)
Chang, P.-T., Chang, C.-H.: An integrated artificial intelligent computer-aided process planning system. Int. J. Comput. Integr. Manuf. 13, 483–497 (2000)
The Dassault 3D Experience. http://www.3ds.com/products-services/3dexperience/
Acknowledgements
This work is a part of project called CyberTech, titled: “The expert system of machining process planning of aircraft components”. This project is realized within the “Innolot programme – innovations in aviation”, financed by Polish government.
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Duda, J., Habel, J. (2019). Manufacturing Activities Modelling for the Purpose of Machining Process Plan Generation. In: Burduk, A., Chlebus, E., Nowakowski, T., Tubis, A. (eds) Intelligent Systems in Production Engineering and Maintenance. ISPEM 2018. Advances in Intelligent Systems and Computing, vol 835. Springer, Cham. https://doi.org/10.1007/978-3-319-97490-3_21
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DOI: https://doi.org/10.1007/978-3-319-97490-3_21
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