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There are many criticisms for the association between the Six Sigma concept and the two statistical metrics associated to 6σ processes: 1.5σ shift for maximum deviation and 3.4 PPM non-conformities for the long-term performance. As a result, the paper aims to carry out an analysis of this problem, and the first result obtained is that a stable proc...
The health issue related to Musculoskeletal Disorders (MSDs) faced by manufacturing industries’ workers affects the work quality and productivity, commonly due to the tasks performed with unsuitable posture. This study was carried out to assess the level of Ergonomics Risk Factors (ERFs) among shop-floor workers in a coffee manufacturing company, l...
Six Sigma is a disciplined, data-driven approach and methodology for eliminating defects in any process-from manufacturing to trading, and from product to service. There is a lot of interest in deploying Six Sigma to sales and marketing to reduce the uncertainty inherent in it. Many organisations such as 3M, Allied Signal, Dell, HSBC, Johnson & Joh...
The company's commitment to implement Six Sigma has been said to fail, as a quality management strategies, as expected to lead to continuous improvement. This study has its objective to identify the use of Six Sigma as a tool to improve cost management strategies in the production of LED (light emitting diode) on PT TMJ. It uses a case study approa...
The study was conducted at the Attendant Console at one of the Hospitals in India. The call operations process at the Attendant Console was considered for the same. The Six Sigma technique is applied at the Hospital level for improving the effectiveness of the call operations. It is achieved by reducing the number of returned calls and the holding...
Citations
... 2020 International Conference on Management, Business, and Information China University of Technology, Taipei, Taiwan Figure 4: Areas under normal distribution curve for Six Sigma method [16]. The six sigma method measure the error of a process, then analyzes the error to determine the main problem, then it improves the process by solving it and then controls the process as to secure no such problem does not occur in the future and if it does it will quickly remove it. ...
Today's globalization is faced by the challenge to meet the continuously growing worldwide demand for capital and consumer goods while maintaining low cost and high quality. Thus, the industries must be ready to adapt to different changes, industries must be sustainable, flexible. Nowadays industries are current at the third stage of industrialization industry 3.0) and are advancing toward the fourth Industrial Revolution, which is also known as Industry 4.0. The main key to achieve next-generation advanced manufacturing is the Internet of Things (IoT). IoT helps to create a connection between different automated devices within the industry through the internet in a local or global network. The automated devices can be given command also through the internet. The automated system can provide various errors that occur within the system. These errors can be evaluated, solved, and can be used to improve the quality of the goods through the six-sigma management method. This paper reviews the improvement of Industry 4.0 from industry 3.0 and how the six-sigma management system proves the quality and decreases the cost.
The world has taken the word "construction" as nation developing phenomena. The country's economic and social development depends upon its rate of productive construction. The productivity is acquired if time and quality of construction has taken into consideration. There were various methods of increasing the construction productivity such as Project Management Technique-Critical Path Method, Program Evaluation and Review Technique etc. These techniques somehow increased the construction efficiency but it didn't obtain the required expectation. Thus, Six-Sigma-as a philosophy, which was considered in this paper. The five phases of Six-Sigma will provide the systematic way to increase the efficiency. Define(D), Measure(M), Analyze(A), Improve(I) and Control(C) are the five phases of Six Sigma. The paper is based on two work portions, one with questionnaire and other is practical use of Six Sigma in construction industry. The questionnaire was sent to 100 individuals out of which only 60 questionnaires were retrieved. The obtained questionnaire was evaluated with the RII (Relative Importance Index) method. The case study in which six-sigma was used is of internal tiling work for a residential building. The flat was of 2BHK and 2 numbers of flat were observed. The initial tiling work was evaluated without any direction and the sigma level was 2.08. After applying the Six Sigma Concept, the obtained level was 3.7. Hence, this research paper demonstrate that Six-Sigma is able to optimize and improve time and quality of construction projects.
