Materials Requirement Planning with the Use of Activity Based Costing

[1] I. Kuric. “New methods and trends in product development and planning”, in Proc. of the 1st International Conference on Quality and Innovation in Engineering and Management, 2011, pp. 453-456.Search in Google Scholar

[2] J. Matuszek and A. Moczała. “The modelling and simulation method in computer aided co-operation”. Control and Cybernetics, vol. 39, 2010, pp. 117-131.Search in Google Scholar

[3] D. Plinta and M. Krajcovic. “Production system designing with the use of digital factory and augmented reality technologies”, in Proc. of the International Conference on Automation Advances in Intelligent Systems and Computing, vol. 350, 2015, pp. 187-196.10.1007/978-3-319-15796-2_19Search in Google Scholar

[4] P. Bubeník, F. Horák. “Knowledge-based systems to support production planning”. Technical gazette, vol. 21/3, 2014, pp. 505-509.Search in Google Scholar

[5] K. Dohn, A. Gumiński and A. Pawluś. “Supply processes in a machine-building enterprise concerning metallurgical products – case study”, in Proc. of the 24th International Conference on Metallurgy and Materials, 2015, pp. 1902-1907.Search in Google Scholar

[6] A. Burduk, K. Musial, J. Kochańska, D. Górnicka, A. Stetsenko. „Tabu Search and genetic algorithm for production process scheduling problem”. LOGFORUM, vol.15 (2), 2019, pp. 181-189.10.17270/J.LOG.2019.315Search in Google Scholar

[7] A. Saniuk, S. Saniuk and K. Witkowski. “Using activity based costing in the metalworking processes”, in Proc. of the 19th International Metallurgical and Materials Conference, 2011, pp. 1328-1333.Search in Google Scholar

[8] R.S. Kaplan and S.R. Anderson. “Time-driven activity-based costing”. Harvard Business School Press, 2004.10.2139/ssrn.485443Search in Google Scholar

[9] B. Skołud. “Market oriented approach to the production management on the operational level”, in Proc. of the ModTech International Conference, Advanced Materials Research, 2013, pp. 663-668.10.4028/www.scientific.net/AMR.837.663Search in Google Scholar

[10] M. Baron-Puda. “Methodology of determining optimal quantity and quality of human resources in unit and small batch production environment”. Zarządzanie Przedsiębiorstwem, vol. 3, 2013, pp. 2-14.Search in Google Scholar

[11] G. Ćwikła. “Real-time monitoring station for production systems”. Advanced Materials Research, vol.837, 2014, pp. 334-339.10.4028/www.scientific.net/AMR.837.334Search in Google Scholar

[12] A. Gola and A. Świć. “Computer-Aided Machine Tool Selection for Focused Flexibility Manufacturing Systems Using Economical Criteria”. Actual Problems of Economics, vol. 124, no. 10, 2011, pp. 383-389.Search in Google Scholar

[13] P.R. Jr. Murphy and D.F. Wood. “Contemporary Logistics”. Pearson, 2011.Search in Google Scholar

[14] G.M. Melega, S.A. de Araujo, R. Jans. “Classification and literature review of integrated lot-sizing and cutting stock problems”. European Journal of Operational Research, vol. 271 (1), 2018, pp. 1-19.10.1016/j.ejor.2018.01.002Search in Google Scholar

[15] D. Więcek and D. Więcek. “Production Costs of Machine Elements Estimated in the Design Phase”, Book Series: Advances in Intelligent Systems and Computing, Vol. 637, 2018, pp. 380-391.10.1007/978-3-319-64465-3_37Search in Google Scholar

[16] P. Grznár, M. Gregor, Š. Mozol, M. Krajčovič, L. Dulina, M. Gašo, M. Major. “A System to Determine the Optimal Work-in-Progress Inventory Stored in Interoperation Manufacturing Buffers”. Sustainability, vol. 11(14), 3949, 2019.10.3390/su11143949Search in Google Scholar

[17] M. Krajčovič, V. Hančinský, L. Dulina, P. Grznár, M. Gašo, J. Vaculík. “Parameter setting for a genetic algorithm layout planner as a toll of sustainable manufacturing”. Sustainability, vol. 11(7), 2019, pp. 1-26.10.3390/su11072083Search in Google Scholar

[18] D. Więcek. “Implementation of artificial intelligence in estimating prime costs of producing machine elements”. Advances in Manufacturing Science and Technology, vol. 37, no. 1, 2013, pp. 43-53.10.2478/amst-2013-0004Search in Google Scholar

[19] T. Gregor, M. Krajčovič and D. Więcek. “Smart connected Logistics”. Procedia Engineering, vol. 192, pp. 265-270, 2017.10.1016/j.proeng.2017.06.046Search in Google Scholar

[20] L. Gala, J. Basl. “ERP innovation based on requirements of social responsibility measurement and evaluation”. Schriftenreihe Informatik, vol. 41, 2013, pp. 149-156.Search in Google Scholar