Analysing the machines working time utilization for improvement purposes

Aalto, A., Goncalves, J., 2019. Linear system identification from ensemble snapshot observations, 58^th Conference on Decision and Control (CDC). 7554-7559, DOI: 10.1109/CDC40024.2019.9029334.10.1109/CDC40024.2019.9029334 Search in Google Scholar

Al-Saleh, K.S., 2011. Productivity Improvement of a Motor Vehicle Inspection Station Using Motion and Time Study Techniques, Journal of King Saud University - Engineering Sciences, 23, 33-41.10.1016/j.jksues.2010.01.001 Search in Google Scholar

Almeida, D., Ferreira, J., 2009. Analysis of the Methods Time Measurement (MTM) Methodology through its Application in Manufacturing Companies. 19^th International Conference on Flexible Automation and Intelligent Manufacturing (FAIM 2009), Middlesbrough, UK, DOI: 10.13140/RG.2.1.2826.1927 Search in Google Scholar

Akansel, M., Yagmahan, B., Emel, E., 2017. Determination of Standard Times for Process Improvement: A Case Study. Global Journal of Business, Economics and Management: Current Issues, 7, 62, DOI: 10.18844/gjbem.v7i1.140010.18844/gjbem.v7i1.1400 Search in Google Scholar

Anvari, F., Edwards, R., Starr, A., 2010. Evaluation of overall equipment effectiveness based on market, Journal of Quality in Maintenance Engineering, 16, 256-270, DOI: 10.1108/1355251101107290710.1108/13552511011072907 Search in Google Scholar

Baraniak, B., 2009. Work research methods, Academic and Professional Publishing House, Warsaw. (in Polish) Search in Google Scholar

Bartnicka, J., Kabiesz, P., Kaźmierczak, J., 2020. Standardization of human activities as the component of a workflow efficiency model – a research experiment from a meat producing plant, Production Engineering Archives, 26(2), 73-77, DOI: 10.30657/pea.2020.26.1510.30657/pea.2020.26.15 Search in Google Scholar

Bieda, J., Bieniok, H., 2011. Methods and techniques of testing and standardizing working time, In: Efficient management methods, H. Bieniok (Ed.), Warsaw, Placet (in Polish) Search in Google Scholar

Borkowski, S., Knop, K., Mielczarek, M., 2012. The Use of Six Sigma indicators for Measurement the Process Quality of Products’ Conformity Assessment in the Alternative Control, In: Quality Control as Process Improvement Factor, S. Borkowski, M. Konstanciak (Eds.), Oficyna Wydawnicza Stowarzyszenia Menedżerów Jakości i Produkcji, Częstochowa, 116-131. Search in Google Scholar

Brzeziśnki, S., Klimecka-Tatar D., 2016. Effect of the Changes in the Forming Metal Parameters on the Value Streams Flow and the Overall Equipment Effectiveness Coefficient, 25^th Anniversary International Conference on Metallurgy and Materials (METAL 2016), Ostrava, Tanger, 1750-1755. Search in Google Scholar

Chase, R.B., Aquilano, N.J., Jacobs, F.R., 2001. Operations Management for Competitive Advantage, McGraw-Hill. Search in Google Scholar

Cimino, A., Longo, F., Mirabelli, G., Papoff, E., 2008. MOST and MTM for work methods optimization: A real case study based on modeling & simulation, International Conference on Harbour, Maritime and Multimodal Logistics Modelling and Simulation, 1, 35-41. Search in Google Scholar

Czerwinska, K., Pacana, A., 2020. Analysis of the internal door technological process, Production Engineering Archives, 26(1), 25-29, DOI: 10.30657/pea.2020.26.0610.30657/pea.2020.26.06 Search in Google Scholar

Duran, C., Çetindere, A., Aksu, Y.E., 2015. Productivity Improvement by Work and Time Study Technique for Earth Energy-glass Manufacturing Company, Procedia Economics and Finance, 26, 109-113, DOI: 10.1016/S2212-5671(15)00887-410.1016/S2212-5671(15)00887-4 Search in Google Scholar

Fin, J., Vidor, G., Cecconello, I., de Campos Machado, V., 2017. Improvement based on standardized work: an implementation case study, Brazilian Journal of Operations & Production Management, 14, 388, DOI: 10.14488/BJOPM.2017.v14.n3.a1210.14488/BJOPM.2017.v14.n3.a12 Search in Google Scholar

Forsyth, P., 2004. Effective time management, Helion, Warsaw (in Polish) Search in Google Scholar

Ghongadi, T.D., Babu, S.S., Kulkarni, M.H., 2015. A Case Study on Operator Workload Balancing for Assembly Stations, International Journal of Engineering Sciences & Research Technology, 4(11), 369-375. Search in Google Scholar

Golden, L., 2012. The Effects of Working Time on Productivity and Firm Performance: a research synthesis paper, International Labour Office, Geneva. Search in Google Scholar

Grudzewski, W., 1966. Study of labour productivity reserves using the snapshot method, Państwowe Wydawnictwo Ekonomiczne, Warsaw. (in Polish) Search in Google Scholar

Ingaldi, M., Dziuba Sz. T., 2015. Modernity Evaluation of the Machines Used During Production Process of Metal Products, 24^th International Conference on Metallurgy and Materials (METAL 2015), Ostrava, Tanger, 1908-1914. Search in Google Scholar

Jagusiak-Kocik, M., Krynke, M., 2016. Analysis of Machines Effectiveness in the Company which Produces Electronic Equipment, Systems Supporting Production Engineering, 3(15), 79-86. Search in Google Scholar

Kardas, E., 2012. Evaluation of Efficiency of Working Time of Equipment in Blast Furnace Department, Journal of Achievements in Materials and Manufacturing Engineering, 55(2), 876-880. Search in Google Scholar

Kardas, E., Brzozova S., Pustejovska P., Jursova S., 2017. The Evaluation of Efficiency of the Use of Machine Working Time in the Industrial Company - Case Study, Management Systems in Production Engineering, 25(4), 241-245, DOI: 10.1515/mspe-2017-003410.1515/mspe-2017-0034 Search in Google Scholar

Krynke, M., Mielczarek, K., 2018. Applications of linear programming to optimize the cost-benefit criterion in production processes, MATEC Web of Conferences 183, DOI: 10.1051/matecconf/20181830400410.1051/matecconf/201818304004 Search in Google Scholar

Lan, S., Wang, X., Ma, L., 2009. Optimization of Assembly Line Based on Work Study, Industrial Engineering and Engineering Management, IE&EM ‘09,16^th International Conference, 4, 813-816.10.1109/ICIEEM.2009.5344476 Search in Google Scholar

Lawlor A., 1970. Technical aspects of supervision, Oxford, Pergamon Press. Search in Google Scholar

Kanawaty, G., 1992. Introduction to Work Study, 4^th (Revised) Edition, International Labour Office, Geneva. Search in Google Scholar

Kulkarni, P.P., Kshire, S.S., Chandratre, K.V., 2014. Productivity Improvement through Lean Deployment & Work Study Methods, International Journal of Research in Engineering and Technology, 3(2), 429-434.10.15623/ijret.2014.0302076 Search in Google Scholar

Knop, K., 2020. Indicating and analysis the interrelation between terms – visual: management, control, inspection and testing, Production Engineering Archives, 26(3), 110-121, DOI: 10.30657/pea.2020.26.2210.30657/pea.2020.26.22 Search in Google Scholar

Knop, K., Ulewicz R., 2019. Assessment of Technology, Technological Resources and Quality in the Manufacturing of Timber Products, 12^th International Scientific Conference WoodEMA 2019, Digitalisation and Circular Economy: Forestry and Forestry Based Industry Implications, Union of Scientists of Bulgaria, Sofia, 251-256. Search in Google Scholar

Krynke, M., Knop, K., Mielczarek, K., 2014. Using Overall Equipment Effectiveness Indicator to Measure the Level of Planned Production Time Usage of Sewing Machine, Production Engineering Archives, 5(4), 6-9.10.30657/pea.2014.05.02 Search in Google Scholar

Korkmaz, I., Alsu, E., Özceylan, E., Weber, G-W. 2020. Job analysis and time study in logistic activities: a case study in packing and loading processes, Central European Journal of Operations Research, 28, DOI: 10.1007/s10100-019-00624-110.1007/s10100-019-00624-1 Search in Google Scholar

Lockyer, K.G., Muhlemann, A., Oakland, J., 1992. Production and Operations Management, Financial Times Prentice Hall, Hoboken, NJ, USA. Search in Google Scholar

Mor, R.S., Bhardwaj, A., Singh, S., Sachdeva, A., 2019. Productivity gains through Standardization-of-Work: Case of Indian manufacturing industry, Journal of Manufacturing Technology Management, 30(6), 899-919, DOI: 10.1108/JMTM-07-2017-015110.1108/JMTM-07-2017-0151 Search in Google Scholar

Mor, R.S., Bhardwaj, A. Singh, S., 2018. Benchmarking the interactions among Performance Indicators in Dairy supply chain: An ISM approach, Benchmarking: An International Journal, 25(9), 3858-3881, DOI: 10.1108/BIJ-09-2017-025410.1108/BIJ-09-2017-0254 Search in Google Scholar

Morlock, F., Kreggenfeld, N., Louw, L., Kreimeier, D., Kuhlenkötter, B., 2017. Teaching Methods-Time Measurement (MTM) for Workplace Design in Learning Factories, Procedia Manufacturing, 9, 369-375, DOI: 10.1016/j.promfg.2017.04.03310.1016/j.promfg.2017.04.033 Search in Google Scholar

Mundel, M.E., 1973. Motion and time study principles and practices, Prentice-Hall, New Delhi. Search in Google Scholar

Niebel, B.W., Freivalds, A., 2003. Methods, standards and work design. McGraw-Hill, New York. Search in Google Scholar

Nesterak, J., Siudy, J., 2020. Automation of snapshot analysis in a manufacturing enterprise, Knowledge-economy-society. Socio-economic conditions of development of contemporary organizations. Chapter 12. TNOiK Organizer’s House, 163-174 (in Polish) Search in Google Scholar

Panasiuk, J., Kaczmarek, W., 2019. Robotization of production processes, PWN, Warsaw. Search in Google Scholar

Pisuchpen, R., Chansangar, W., 2014. Modifying Production Line for Productivity Improvement: A Case Study of Vision Lens Factory, Songklanakarin Journal of Science and Technology, 36(3), 345-357. Search in Google Scholar

Siwiec, D., Pacana, A., 2021. Method of improve the level of product quality, Production Engineering Archives, 27(1), 1-7, DOI: 10.30657/pea.2021.27.110.30657/pea.2021.27.1 Search in Google Scholar

Shikdara, A., Sawaqedb, N., 2004. Ergonomics, and occupational health and safety in the oil industry: a managers’ response, Computers & Industrial Engineering, 47, 223-232.10.1016/j.cie.2004.07.004 Search in Google Scholar

Stasiak-Betlejewska, R., 2018. The Machines Operation Effectiveness Analysis in Polish Industry Enterprise, Terotechnology 2017, A. Szczotok, J. Pietraszek, N. Radek (Eds.), Materials Research Forum LLC, Millersville. Search in Google Scholar

Stasiak-Betlejewska, R., Ulewicz, R., 2018. The Effectiveness of Selected Machinery and Equipment in the Woodworking Joinery, 9^th International Conference on the Path Forward for Wood Products: a Global Perspective, Baton Rouge, USA, WoodEMA, 149-156. Search in Google Scholar

Subramanian, A., 2008. Time Standards and Disability: A Work Measurement Perspective, International Journal of Industrial Engineering, 15, 113-121. Search in Google Scholar

Tippett, L.H.C., 1982. The Making of an Industrial Statistician. The Making of Statisticians, J. Gani (Eds.), New York, NY, Springer.10.1007/978-1-4613-8171-6_13 Search in Google Scholar

Ulewicz, R., Mazur, M. 2019. Economic aspects of robotization of production processes by example of a car semi-trailers manufacturer. Manu-fac-turing Technology, 19(6), 1054-1059.10.21062/ujep/417.2019/a/1213-2489/MT/19/6/1054 Search in Google Scholar

Ulewicz, R., Ulewicz, M., 2020. Problems in the Implementation of the Lean Concept in the Construction Industries, Proceedings of Advances in Resource-Saving Technologies and Materials in Civil and Environmental Engineering 2019, Z. Blikharskyy, P. Koszelnik, P. Mesaros (Eds.), Springer, Cham, 495-500.10.1007/978-3-030-27011-7_63 Search in Google Scholar

Ulewicz, R., Novy, F., 2019. Quality Management Systems in Special Processes, 13^th International Scientific Conference on Sustainable, Modern and Safe Transport (TRANSCOM 2019), University of Zilina, Zilina, 113-118.10.1016/j.trpro.2019.07.019 Search in Google Scholar

Waciskowska, M., 2011. Working time 2011. Practical solving of problems related to planning and settling working time, CH Beck, Warsaw. (in Polish) Search in Google Scholar