Theoretical Aspect of Assembly

1. ADAMCZAK, S., KOMORNICZAK, J., KORCIPA, S., 1994. Ćwiczenia rachunkowe z metrologii dcugości i kata. (Exercises in metrologydimensions chains) Kielce: Politechnika Świetokrzyska.Search in Google Scholar

2. VÁCLAV, Š., 2012. Vybrané state z teórie montáže. (Selected chapters form the theory of assembly). Habilitation thesis. Trnava: UVTE, MTF, STU v Bratislave. 104 p.Search in Google Scholar

3. JANČAROVÁ, V., ROSICKÝ, A., 1992. Úvod do systémových vĕd. (Introduction into system sciences). Praha: VŠE.Search in Google Scholar

4. WARNECKE, H. J., LÖHR, H. G., KEINER, W., 1975. Montagetechnik – Schwerpunt der Rationalisierung. (Technology of assembly - the rationalization of center of gravity). Mainz: Otto Krauskopf. Verlag GmbH.Search in Google Scholar

5. JURKO, J., PANDA, A., 2008. Výrobný proces – montáž a demontáž v strojárstve. (Production process – assembly as deassembly in engineering. Košice: TUKE.Search in Google Scholar

6. HUA, S.J., KOB, J., WEYANDC, L., ELMARAGHYD, H.A., LIENE, T.K., KORENA, Y., BLEYC, H., CHRYSSOLOURISF G., NASRG, N., SHPITALNIH, M., 2011. Assembly system design and operations for product variety. CIRP Annals - Manufacturing Technology, 60(2), pp. 715-733.10.1016/j.cirp.2011.05.004Search in Google Scholar

7. VÁCLAV, Š., 2013. Theoretical Aspect of Assembly. Köthen: Hochschule Anhalt. 103 p. ISBN 978-3-86011-065-2.Search in Google Scholar

8. VÁCLAV, Š., 2011. Objective method for assembly. Köthen: Hochschule Anhalt. 102 p. ISBN 978-3-86011-044-7.Search in Google Scholar

9. LEVIN, A.A., 1958. Nekotoryje voprosy analiza strukturnych schem automatičeskych linij. Stanki i instrument (Some aspects of analysis of structural schemes of assembly lines). Stanki i instrument. (Machines and instuments), 3.Search in Google Scholar

10. SCHOLZ-REITER, B., FREITAG, M., 2007. Autonomous Processes in Assembly Systems. CIRP Annals - Manufacturing Technology, 56(2), pp. 712-729.10.1016/j.cirp.2007.10.002Search in Google Scholar

11. BOOTHROYD, G., 2001. Why DFM? Journal Design Engineering, London: September, pp. 15-16.Search in Google Scholar

12. HUANG, G.Q., MAK, K.L., 1999. Design for manufacture and assembly on the Internet. Computers in Industry, 38(1), pp.17-30.10.1016/S0166-3615(98)00105-5Search in Google Scholar

13. HUMÁR. A. Technologie montáže. (Technology of assembly.) [on-line]. [cit. 2006-06-11]. Available on the Internet: < http://www.fme.vutbr.cz/prdetail.html?pid=919>Search in Google Scholar

14. VALENTOVIČ, E., 1999. Technológia montáže. (Technology of assembly). Textbook. STU Bratislava.Search in Google Scholar

15. VDI Richtlinien 3237Search in Google Scholar

16. SENDERSKÁ, K., KOVÁČ, J., MADARÁSZ, L., ANDOGA, R., 2005. The assembly technology process and part-feeding model. In: SAMI 2005, 3-th Slovakian-Hungarian joint symposium on applied machine intelligence, pp. 415-423. ISBN 963-7154-35-3.Search in Google Scholar

17. KAHAN, T., BUKCHIN, Y., MENASS, A R., BEN-GAL, I., 2009. Backup strategy for robots’ failures in an automotive assembly system. International Journal of Production Economics, 120(2), pp. 315-326.10.1016/j.ijpe.2007.09.015Search in Google Scholar

18. ALTIPARMAK, F., DENGIZ, B., BULGAK, A. A., 2007. Buffer allocation and performance modeling in asynchronous assembly system operations: An artificial neural network metamodeling approach. Applied Soft Computing, 7(3), pp. 946-956.10.1016/j.asoc.2006.06.002Search in Google Scholar

19. TAKATA, S., HIRANO, T., 2011. Human and robot allocation method for hybrid assembly system. CIRP Annals - Manufacturing Technology, 60(1), pp. 9-12.10.1016/j.cirp.2011.03.128Search in Google Scholar

20. ANDREANSEN, M. M., AHM, T., 1998. Flexible Assembly Systems. New York: Springer–Verlag IFS.Search in Google Scholar

21. ZHUANGA, L., WONGB, Y.S., FUHB, J.Y.H., YEEB, C.Y., 1998. On the role of a queueing network model in the design of a complex assembly system. Robotics and Computer-Integrated Manufacturing, 14(2), pp. 153-161.10.1016/S0736-5845(97)00023-9Search in Google Scholar

22. DAABUB, A.M., ABDALLA, H.S., 1999. A computer-based intelligent system for Design for Assembly. Computers & Industrial Engineering, 37(1-2), pp. 111-115.10.1016/S0360-8352(99)00034-0Search in Google Scholar

23. BRYCHTA, J., 2003. Výrobní stroje obráběcí. (Machining machine tools). Ostrava: VŠB-TU Ostrava, 150 p. ISBN 80-248-0237-6.Search in Google Scholar

24. HAVRILA, M, 1997. Automatizovaná montáž. (Automated assembly). Prešov: FVT Prešov, 128 p. ISBN 80-7099-292-1.Search in Google Scholar

25. KOLOC, Z., VÁCLAVÍK, M., 1988. Vačkové mechanizmy. (Camshaft mechanisms). SNTL, Alfa Prague.Search in Google Scholar

26. VÁCLAV, Š., 2005. Objektívna metóda pre montáž. (Objective method for assembly). Dissertation thesis, Trnava: STU, MTF.Search in Google Scholar