American Journal of Mechanical Engineering
ISSN (Print): 2328-4102 ISSN (Online): 2328-4110 Website: http://www.sciepub.com/journal/ajme Editor-in-chief: Kambiz Ebrahimi, Dr. SRINIVASA VENKATESHAPPA CHIKKOL
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American Journal of Mechanical Engineering. 2015, 3(6), 170-174
DOI: 10.12691/ajme-3-6-3
Open AccessArticle

Optimization of Manufacturing Processes on the Platform of PLM Systems

Seminsky Jaroslav1, and Rudy Vladimír2

1Technical University of Kosice, Faculty of Mechanical Engineering, Department of Automation, Control and Human-Machines Interactions, Letna 9, 04200 Kosice, Slovak Republic

2Technical University of Kosice, Faculty of Mechanical Engineering, Department of Industrial Engineering and Management, Letna 9, 04200 Kosice, Slovak Republic

Pub. Date: December 17, 2015

Cite this paper:
Seminsky Jaroslav and Rudy Vladimír. Optimization of Manufacturing Processes on the Platform of PLM Systems. American Journal of Mechanical Engineering. 2015; 3(6):170-174. doi: 10.12691/ajme-3-6-3

Abstract

The aim of this paper is to highlight the current trends in the development of tools for support of the manufacturing systems designing (creation). Current approaches of digital representations of real manufacturing, which show the manufacturing processes in a virtual environment, have strong potential to improve the quality of the final projects. The term PLM (Product Lifecycle Management) environment in the design process called comprehensive solution to the management of all product data, process changes associated with the product structure and product configurations and product development projects and has subsequently production projects. Modeling and simulation is a powerful innovative tool. Virtual / Digital Commissioning represents modern methods of a set of tools for programming of control systems, manufacturing systems and lines using a realistic virtual environment.

Keywords:
manufacturing FMS designing CAD PLM

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References:

[1]  Katalinic, B., “Globalisation and Technology: New Possibilities and Risk Factors”; In: “Annals of DAAAM for 2003 & Proceedings of the 14th International DAAAM Symposium”, p. 205-210, (2003).
 
[2]  Tichkiewitch, S., Brissaud, D. (Eds.), Methods and Tools for Co-operative and Integrated Design.
 
[3]  Marčan, P., Rofár, J. and Mičieta, B., New approach in the design of industrial robotic systems. Nové prístupy v návrhu priemyselných robotických systémov. In: InvEnt 2014: industrial engineering - navigating the future: proceedings of the international conference: 18.6.-20.6.2014, Korňa. - Žilina: University of Žilina, 2014. p. 136-139.
 
[4]  Stark, J., Product Lifecycle Management: 21st century Paradigm for Product Realisation.
 
[5]  Stark, J., Global Product: Strategy, Product Lifecycle Management and the Billion Customer Question.
 
[6]  Gérer, A., PLM rieši mnohé neduhy výrobných podnikov a navyše šetrí náklady. In: ATP Journal 11/2014 p.4-5.
 
[7]  Fabian, M., Spišák, E., Navrhování a výroba s pomocí CA.. technologií. 1. vyd - Brno : CCB – 2009.
 
[8]  Spišák, E., Fabian, M., Strojárske technológie s CAx podporou. 1. vyd - Košice : elfa - 2010.
 
[9]  Fedorko, G., Fabian, M., Ižol, P., Automatization of production for 3D models of forms for shell moulds by using of basic modules of Catia V5. In: Metalurgia international. Vol. 18, no. 9/2013, p. 72-75.
 
[10]  Svetlík, J., Baron, P., Dobránsky, J., Kočiško, M., Implementation of computer system for support of technological preparation of production for technologies of surface processing. 13th International Conference on Industrial, Service and Humanoid Robotics, ROBTEP 2014; Strbske Pleso; Slovakia; 15 May 2014 through 17 May 2014. In: Applied Mechanics and Materials. Volume 613, 2014, Pages 418-425.
 
[11]  Tóthová, M., Piteľ, J., Simulation of actuator dynamics based on geometric model of pneumatic artificial muscle, Proceedings of 11th International Symposium on Intelligent Systems and Informatics (SISY 2013), Subotica: IEEE, 2013, pp. 233-237, (2013).
 
[12]  Piteľ, J., Tóthová, M., Dynamics of pneumatic muscle actuator: measurement and modeling. Proceedings of 15th International Carpathian Control Conference (ICCC 2014), Velké Karlovice, May 28-30, Danvers: IEEE, 2014, pp. 432-436, (2014).
 
[13]  Tóthová, M., Piteľ, J. and Mižáková, J., Electro-pneumatic robot actuator with artificial muscles and state feedback, Applied Mechanics and Materials Vol. 460, 2014, pp. 23-31. (2014).
 
[14]  Daneshjo, N., Computers Modeling and Simulation. In: Advanced Materials Research. Vol. 463-464, 2012, p. 1102-1105.
 
[15]  Daneshjo, N., Korba, P., Vargová, R. and Tahzib, B., Application of 3D modeling and simulation using modular components. In.: Applied Mechanics and Materials. Volume 389, 2013, Pages 957-962. International Conference on Mechatronic Systems and Materials Application, ICMSMA 2013; Guangzhou; China; 26 June 2013 through 27 June 2013.
 
[16]  Hrubaník, P. and Rofár, J.: OPC in SCADA/HMI application for modular quality control system. In: TRANSCOM 2013: 10-th European conference of young research and scientific workers: Žilina, June 24-26, 2013, Slovak Republic. - Žilina: University of Žilina, 2013. p. 131-134.
 
[17]  Seminsky, J., Present trends in designing of technical systems. In: Applied Mechanics and Materials. Volume 460, 2014, Pages 73-80.