[1. KISS, I., CIOATA, V. G., ALEXA, V., RATIU, S. A. 2011. Technological behaviour and interpretations in some multidisciplinary approaches. Annals of the Faculty of Engineering Hunedoara - International Journal of Engineering, 9(4), pp. 203-206.]Search in Google Scholar
[2. AVORNICULUI, M.-C., KOVÁCS, GY. 2010. Implementing enterprise resource planning, the case of small and medium-sized enterprises in Romania. Forumul Economic, 13(97), pp. 77-88.]Search in Google Scholar
[3. GUBÁN, M., GUBÁN, Á. 2012. Production scheduling with genetic algorithm. Advanced Logistic Systems: Theory and Practice, 6(1), pp. 33-44.]Search in Google Scholar
[4. TELEK, P., 2010. Operation strategies for delivery models of regional logistic networks. Advanced Logistic Systems –Theory and Practice, 4, pp. 33-40.]Search in Google Scholar
[5. MERKURYEV, Y., MERKURYEVA, G., PIERA, M. Á., GUASCH, A. (ed.), 2009. Simulation-Based Case Studies in Logistics. Springer. ISBN 978-1-84882-186-6.10.1007/978-1-84882-187-3]Search in Google Scholar
[6. GUBÁN, M., KOVÁCS, GY. KOT. S. 2017. Simulation of complex logistical service processes. Management and production engineering review, 8(2), pp. 19-29.]Search in Google Scholar
[7. TAMÁS, P., KOVÁCS, GY. 2015. Simulation methods in Logistics. Memooc on-line course, Institute of Logistics, University of Miskolc, http://www.memooc.hu/courses//course-v1:UniMiskolc+IT.L1.SYMULATIONS.0.E+2015_T1/about]Search in Google Scholar
[8. TAMÁS, P. 2016. Application of simulation modeling for formation of pull-principled production control system. Journal of production Engineering, 19, pp. 99-102.]Search in Google Scholar
[9. HOLWEG M. 2007. The genealogy of lean production. Journal of Operations Management, 25(2), pp. 420-437.]Search in Google Scholar
[10. FULLERTON R. R., MCWATTERS C. S., FAWSON C. 2003. An examination of the relationships between JIT and financial performance. Journal of Operations Management, 21(4), pp. 383-404.]Search in Google Scholar
[11. FAWAZ A. A., JAYANT R. 2007. Analyzing the benefits of lean manufacturing and value stream mapping via simulation: A process sector case study. International Journal of Production Economics, 107, pp. 223-236.]Search in Google Scholar
[12. KOSTAL P., VELISEK K. Flexible manufacturing system. World Academy of Science, Engineering and Technology, 77, pp. 825-829.]Search in Google Scholar
[13. LIKER J. K., LAMB T. 2000. Lean Manufacturing Principles Guide DRAFT. Version 0.5. University of Michigan.10.21236/ADA450192]Search in Google Scholar
[14. KOSTAL, P., KISS, I., KERAK, P. 2011. The intelligent fixture at flexible manufacturing. Annals of the Faculty of Engineering Hunedoara – International journal of Engineering, 9 (1), pp. 197-200.]Search in Google Scholar
[15. WOMACK J. P., JONES D. T. 1996. Lean Thinking: Banish Waste and Create Wealth in Your Corporation. New York: Simon & Schuster.10.1038/sj.jors.2600967]Search in Google Scholar
[16. KOVÁCS, GY. KOT, S. 2017. Facility layout redesign for efficiency improvement and cost reduction. Journal of Applied Mathematics and Computational Mechanics, 16(1), pp. 63-74.]Search in Google Scholar
[17. NAIK, B. S., KALLURKAR, S. 2016. A Literature review on efficient plant layout design. International Journal of Industrial Engineering Research and Development, 7(2), pp. 43-51.]Search in Google Scholar
[18. TOMPKINS, J. A., WHITE, J. A., BOZER, Y. A., TANCHOCO, J. M. A. 2010. Facilities Planning. New York: John Wiley & Sons Inc.]Search in Google Scholar
[19. CSELÉNYI, J., ILLÉS, B., 2006. Planning and controlling of material flow systems. (in Hungarian), Textbook, Miskolci Egyetemi Kiadó.]Search in Google Scholar
[20. ZHANG, M., BATTA, R., NAGI, R. 2009. Designing manufacturing facility layouts to mitigate congestion. http://www.acsu.buffalo.edu/~batta/designing.pdf, downloaded: 02.09.2017.]Search in Google Scholar
[21. TELEK, P. 2013. Equipment preselection for integrated design of materials handling systems. Advanced Logistic Systems –Theory and Practice, 7(2), pp. 57-66.]Search in Google Scholar
[22. RIYAD, H., KAMRUZZAMAN, R., SUBRATA, T. 2014. Increasing productivity through facility layout improvement using systematic layout planning pattern theory. Global Journal of Researches in Engineering: J - General Engineering, 14(7), pp. 1-7.]Search in Google Scholar