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C. New (1993)
The Use of Throughput Efficiency as a Key Performance Measure for the New Manufacturing EraThe International Journal of Logistics Management, 4
(2009)
Total Flow Management
G. Neavill (1985)
Publishers Weekly Yearbook: News, Analyses and Trends in the Book Industry.The Library Quarterly, 55
V. M. (2016)
Constructs of quality in higher education servicesInternational Journal of Productivity and Performance Management, 65
C. New (1974)
Production Funnels: A New Tool for Operations AnalysisManagement Decision, 12
R. Barnes (1968)
Motion and Time Study: Design and Measurement of Work
C. Hicks, O. Heidrich, T. McGovern, T. Donnelly (2004)
A functional model of supply chains and wasteInternational Journal of Production Economics, 89
S. Dashkovskiy, H. Karimi, M. Kosmykov (2013)
Production Planning & Control : The Management of Operations
M.A.A. Nogueira (2010)
Implementation of lean production management: a case study (in Portuguese)
J. Dinis-Carvalho, F. Moreira, S. Bragança, Eric Costa, A. Alves, R. Sousa (2014)
Waste identification diagramsProduction Planning & Control, 26
I. Serrano, C. Ochoa, R. Castro (2008)
Evaluation of value stream mapping in manufacturing system redesignInternational Journal of Production Research, 46
Taiichi Ohno (1988)
Toyota Production System : Beyond Large-Scale Production
Fawaz Abdulmalek, J. Rajgopal (2007)
Analyzing the benefits of lean manufacturing and value stream mapping via simulation: A process sector case studyInternational Journal of Production Economics, 107
(1947)
ASME standard; operation and flow process charts
Bhim Singh, S. Garg, Surrender Sharma (2011)
Value stream mapping: literature review and implications for Indian industryThe International Journal of Advanced Manufacturing Technology, 53
D. Tapping (2002)
Value Stream Management: Eight Steps to Planning, Mapping, and Sustaining Lean Improvements
Shradha Gupta, Monica Sharma, V. M. (2016)
Lean services: a systematic reviewInternational Journal of Productivity and Performance Management, 65
B. Kemper, J. Mast, M. Mandjes (2010)
Modeling process flow using diagramsQuality and Reliability Engineering International, 26
D. Carvalho, L. Guimarães, F. Moreira, J. Rodrigues, R. Lima (2014)
Waste identification diagrams with OEE data
J. Forrester (2012)
Industrial Dynamics: A Major Breakthrough for Decision Makers
J. Kidd, Y. Monden (1993)
Toyota Production SystemJournal of the Operational Research Society, 46
W. Neumann, L. Medbo (2010)
Ergonomic and technical aspects in the redesign of material supply systems: Big boxes vs. narrow binsInternational Journal of Industrial Ergonomics, 40
U. Teichgräber, M. Bucourt (2012)
Applying value stream mapping techniques to eliminate non-value-added waste for the procurement of endovascular stents.European journal of radiology, 81 1
Muhammad al-Ashraf (2012)
Production Flow Analysis through Value Stream Mapping: A Lean Manufacturing Process Case StudyProcedia Engineering, 41
V. Hunt (1996)
Process Mapping: How to Reengineer Your Business Processes
P. Hines, Nick Rich (1997)
The seven value stream mapping toolsInternational Journal of Operations & Production Management, 17
Y. Sugimori, K. Kusunoki, F. Cho, S. Uchikawa (1977)
Toyota production system and Kanban system Materialization of just-in-time and respect-for-human systemInternational Journal of Production Research, 15
Lu Xinyu, L. Jian (2009)
Research on the integration of the methods of enterprise value stream and material flow — Based on the theory of lean production and circular economy2009 16th International Conference on Industrial Engineering and Engineering Management
J. Little (1961)
A Proof for the Queuing Formula: L = λWOperations Research, 9
J.C. Sá (2010)
Model for Analysis and Diagnosis of Production Units (in Portuguese)
Y. Lian, H. Landeghem (2007)
Analysing the effects of Lean manufacturing using a value stream mapping-based simulation generatorInternational Journal of Production Research, 45
新郷 重夫, A. Dillon (1989)
A study of the Toyota production system from an industrial engineering viewpoint
(2010)
Model for Analysis and Diagnosis of Production Units
L. Miles (1961)
Techniques Of Value Analysis And Engineering
(2010)
Implementation of Lean Production Management: a Case
(1999)
Learning to see: value stream mapping to add value and eliminate muda
(1992)
Towards Integral Logistics Structure – Developing Customer-Oriented Goods Flows
The purpose of this paper is to compare the well-known value stream mapping (VSM) with a recent tool named waste identification diagram (WID), regarding the capacity of information representation and easiness of interpretation.Design/methodology/approachThe work begins with a brief literature review comparing the main tools for representation of production units, with special emphasis on VSM and WID, in terms of ability to identify several types of waste. Then, the authors developed the VSM and the WID of a specific production unit and after that several groups composed by students of Industrial Engineering (IE) and/or professionals from industry were asked to analyse/interpret only one of these diagrams. Finally, a questionnaire with closed and open questions was applied to the groups to evaluate the analysed tool.FindingsIn general, the results revealed that WID is more effective than VSM and participants recognized that most of the WID elements are relevant. Specifically, a measure coined overall effectiveness was applied (based on the response time and percentage of correct interpretations), indicating a clear advantage of WID (22 per cent of correct interpretations per minute) compared to VSM (9 per cent of correct interpretations per minute). The main drawback pointed to the WID is the lack of representation of the information flow.Originality/valueThis work contributes to the IE field by revealing WID as a new promising graphical tool for representation of production units, especially in terms of identification/quantification of wastes. The tool was quantitative and qualitatively evaluated by persons both from academia and industry.
International Journal of Lean Six Sigma – Emerald Publishing
Published: Aug 14, 2019
Keywords: Lean manufacturing; Questionnaires; Production improvement; Value stream mapping; Production performance measurement; Waste identification diagram; Value analysis
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