Behensky, J. A., Janet Roe, M. S. & Bolton, R. Lean Sigma – Will it work for Healthcare? FOCUS: Organizational Improvement/Project Management. Journal of Healthcare Information Management, 19 (1): 39-44, (2005).
Berwick, D.M. Continuous improvement as an ideal in health care. New England Journal Medicine, (320): 53–56, (1989).
Burchart – Korol D., Furman J. Kaizen jako strategia zwiększania konkurencyjności przedsiębiorstw hutniczych , Hutnik, Nr 2, s. 158-162, (2009).
Dickson E.D., Zlatko A., Vetterick D., Eller A
, 15, pp. 23-26, DOI: 10.30657/pea.2017.15.06.
Brad, S., Murar, M. and Brad, E. (2016) Methodology for Lean Design of Disruptive Innovations. Procedia CIRP, 50, pp. 153-159, DOI: 10.1016/j.procir.2016.04.204.
Cheser, R. (1994). Kaizen is more then continuous improvement. Quality Progress, 27 (4), pp. 23-26.
Chiarini, A. (2017). An adaptation of the EOQ formula for JIT quasi-pull system production. Production Planning & Control, 28 (2), pp. 123-130.
Dombrowski, U. and Mielke, T. (2014). Lean Leadership
Lean Management is currently one of the best-known and is the most widely used management concepts in production enterprises. Lean creates such a culture of work in an organization that makes all participants in the organization interested in raising the level of quality, reducing costs and delivery time. However, there is no information about the influence of lean tools on the level of safety in production organizations. The paper presents the influence of five lean tools on the safety level by the example of metal manufacturing organization. The number of potentially dangerous situations and the number of accidents were taken as the measure of safety level. The obtained results indicates that the most important for the safety level is 5S, TPM while Kaizen, Poka-Yoka and VSM are smaller. The paper aims to broaden the knowledge about the dependence of the use of lean tools on the level of occupational safety.
enablers for the successful implementation of kaizen in China. International Journal of Quality and Reliability Management, 34 (4), pp. 549-568.
Moaveni, S., Banihashem, S. Y., & Mojtahedi, M. (2019). A conceptual model for a safety-based theory of lean construction. Buildings, 9 (23), doi: 10.3390/buildings9010023.
Nikakhtar, A., Hosseini, A. A., Wong, K. Y., & Zavichi, A. (2015). Application of lean construction principles to reduce construction process waste using computer simulation: A case study. International Journal of Services and Operations
1. WITKOWSKI, K. Quality of service in logistics. In: Nové trendy v manažérstve kvality: 4. ročník medzinárodného vedeckého seminára . Trnava: AlumniPress, 2011, pp. 285-289. ISBN: 978-80-8096-143-5
2. VIDOVÁ, H. Kaizen, áno či nie?. In: Trendy ekonomiky a managementu. (Trends economics and management) , 2010, p. 135-141. ISSN 1802-8527
3. SANIUK, S. Prototyping of acceptable variants of manufacturing networks. Transport & Logistics, 2011, iss. 9 spec., p. 286-293.
Lenka Pucikova, Paul Woolliscroft and Milos Cambal
Recent years have seen a lot of new management approaches for improving organizational performance such as: total quality management, flat organizations, empowerment, continuous improvement, reengineering, kaizen, team building, and so on. Business leaders today are forced to focus even more on the profitability of their business. During the last several years, companies have initiated Performance Management (PM) systems to improve the quality of their management. In many companies they have succeeded, but in quite a few they have failed. This article presents the importance of Human Resources Management (HRM) and employees as a key factor on success of the company. Authors report that people in organization are a key resource of performance of company. The aim of the article is to analyze literature review and findings of researches with the purpose of completing the PhD theses of authors.
The article presents experimental research that has been carried out on a marine, 4-stroke, 3-cylinder, turbocharged engine. During testing, the engine operated at a constant rotational speed of 750 rpm and a load from 0 kW to 280 kW. The engine was fuelled by diesel oil of known specification and loaded by electric generator with water resistance. The fuel consumption was measured during the engine operation with fuel nozzles with different geometries. The measurement of the fuel consumption was carried out using a weighing system that was designed, constructed, and manufactured by the “KAIZEN” scientific research team at the Faculty of Mechanical Engineering at the Gdynia Maritime University. The results of measurements show changes in the fuel consumption by the engine with the geometry of the injected fuel spray. The research facility is Sulzer’s 3-cylinder, 4-stroke, turbocharged AL25/30 piston engine. The fuel system consists of Bosch injection pumps controlled by a rotation speed regulator. Fuel injectors are centrally located in the cylinder heads of the engine.
satisfaction using Kaizen: a case study of Imperial Tobacco Company (ITC). Journal of Advances in Management Research, 16(3), pp. 277-293.
Fraś, J., Gołębiowski, M. and Bielaw, A. (2006). Podstawy zarządzania jakością w przedsiębiorstwie. Szczecin: Uniwersytet Szczeciński, Rozprawy i Studia, T.(DCXCIX) 625.
Gawlik, J. and Kietbus, A. (2008). Metody i narzędzia w analizie jakości wyrobów. Kraków: Politechnika Krakowska im. Tadeusza Kościuszki.
Gudanowska, A. E. and Olszewska, A. M. (2014). Techniki projakościowe wykorzystywane w podlaskich przedsiębiorstwach
 G. Jacobson, N. McCoin, R. Lescallette, S. Russ, C Slovis. Kaizen: A method of process improvement in the emergency department. Academy Emergency Medicine 16 (12): 2009, pp. 1341-1349.
 Z. Lin, Z. Yu, L. Zhang, Performance outcomes of balanced scorecard application in hospital administration in China. China Economic Review 30, 2014, pp. 1-15.
 R. Lueg, Strategy maps: the essential link between the balanced scorecard and action. Journal of Business Strategy 36, 2015. pp. 34-40.
 P. M. Madhani. Six Sigma Deployment in Sales and