Fundamentals of Six-Sigma: Quality Engineering and Management

Course Overview

This course, Fundamentals of Six-Sigma: Quality Engineering and Management, provides an overview of the principles and techniques of quality engineering and management. It covers the statistical basics needed for a Six-Sigma Green Belt certification, following the well-known process-improvement cycle: Define, Measure, Analyze, Improve, and Control. The most important quality methods and techniques are taught, including sampling, statistical process control, process capability, regression analysis, and design of experiments. Quality management is examined, from the viewpoint of quality incorporated into product design, measuring and controlling quality in production and improving quality, using interactive, guided projects and case studies. The course closes with the presentation of a full Six-Sigma project. Participants will gain the fundamentals for a Six-Sigma Green Belt in a manageable and positive learning environment, along with the chance to discuss with staff and fellow learners worldwide.

[Applications]
Upon completion of this course, participants are encouraged to apply the concepts and tools learned to their own organizations. They should be able to identify areas of improvement and develop strategies to improve quality and reduce costs. Participants should also be able to develop and implement Six-Sigma projects and use the tools and techniques to measure and analyze process performance. Finally, participants should be able to use the knowledge gained to develop and implement quality management systems.

[Career Paths]
Recommended career paths for learners of this course include:

1. Quality Engineer: Quality Engineers are responsible for ensuring that products meet quality standards and customer requirements. They use a variety of tools and techniques to identify and address quality issues, such as statistical process control, process capability, and design of experiments. Quality Engineers also develop and implement quality management systems, and work with suppliers to ensure that materials and components meet quality requirements. This role is becoming increasingly important as organizations strive to improve their processes and products.

2. Quality Manager: Quality Managers are responsible for overseeing the quality of products and services within an organization. They develop and implement quality assurance systems, monitor performance, and ensure that quality standards are met. Quality Managers also work with suppliers to ensure that materials and components meet quality requirements. This role is becoming increasingly important as organizations strive to improve their processes and products.

3. Quality Assurance Analyst: Quality Assurance Analysts are responsible for ensuring that products meet quality standards and customer requirements. They use a variety of tools and techniques to identify and address quality issues, such as statistical process control, process capability, and design of experiments. Quality Assurance Analysts also develop and implement quality management systems, and work with suppliers to ensure that materials and components meet quality requirements. This role is becoming increasingly important as organizations strive to improve their processes and products.

4. Quality Control Technician: Quality Control Technicians are responsible for ensuring that products meet quality standards and customer requirements. They use a variety of tools and techniques to identify and address quality issues, such as statistical process control, process capability, and design of experiments. Quality Control Technicians also develop and implement quality management systems, and work with suppliers to ensure that materials and components meet quality requirements. This role is becoming increasingly important as organizations strive to improve their processes and products.

[Education Paths]
Recommended Degree Paths:

1. Bachelor of Science in Quality Engineering: This degree program provides students with the knowledge and skills necessary to understand and apply quality engineering principles and techniques. Students learn how to design, develop, and implement quality systems, as well as how to analyze and improve processes. The program also covers topics such as quality management, statistical process control, and design of experiments. This degree is becoming increasingly popular as organizations strive to improve their quality systems and processes.

2. Master of Science in Quality Management: This degree program focuses on the management of quality systems and processes. Students learn how to develop and implement quality management systems, as well as how to analyze and improve processes. The program also covers topics such as quality assurance, quality control, and quality improvement. This degree is becoming increasingly popular as organizations strive to improve their quality systems and processes.

3. Master of Science in Six Sigma: This degree program focuses on the application of Six Sigma principles and techniques to improve processes and systems. Students learn how to design, develop, and implement Six Sigma projects, as well as how to analyze and improve processes. The program also covers topics such as quality management, statistical process control, and design of experiments. This degree is becoming increasingly popular as organizations strive to improve their quality systems and processes.

4. Doctor of Philosophy in Quality Engineering: This degree program focuses on the research and development of quality engineering principles and techniques. Students learn how to design, develop, and implement quality systems, as well as how to analyze and improve processes. The program also covers topics such as quality management, statistical process control, and design of experiments. This degree is becoming increasingly popular as organizations strive to improve their quality systems and processes.