Intro to Six Sigma 171
Intro to Six Sigma provides a comprehensive introduction to the goals, methods, and tools used during Six Sigma initiatives. This class discusses the different roles in a Six Sigma team, DMAIC steps, and how to identify variation. Intro to Six Sigma also covers the tools practitioners use to track and analyze data, such as Pareto charts, frequency distribution charts, and run charts.
Unlike some quality initiatives, Six Sigma offers tangible, measurable methods to gage a project's success. This class gives new practitioners the foundational knowledge needed to support a Six Sigma project by introducing them to key terminology and important data analysis tools.
Number of Lessons 18
- What Is Six Sigma?
- Choosing a Target Problem
- Identifying Critical to Quality
- Six Sigma Review
- Six Sigma Roles and Responsibilities
- Six Sigma Process Improvement Method: DMAIC
- 5 Ms and 1 P
- Root Cause Analysis
- Six Sigma Practices Review
- The Importance of Data
- Types of Data
- Gathering Data
- Data Analysis and Tools: Pie Charts and Pareto Charts
- Data Analysis Tools: Frequency Distribution Charts
- Data Analysis Tools: Run Charts
- Six Sigma Charts Review
- Implementing Six Sigma
- Define Six Sigma.
- Describe how Six Sigma practitioners choose a target problem.
- Describe the factors that impact CTQ.
- Identify the roles and responsibilities of Six Sigma team members.
- Identify the steps in DMAIC.
- Identify the main factors that lead to process problems.
- Define root cause analysis.
- Define common cause variation and special cause variation.
- Describe the importance of data for Six Sigma projects.
- Distinguish between discrete data and continuous data.
- Describe common data gathering methods.
- Describe pie charts and Pareto charts.
- Describe frequency distribution charts.
- Describe run charts.
- Distinguish between Six Sigma and lean initiatives.
5 Ms and 1 P
An expression identifying the six major factors most likely to be the source of problems. These factors are machines, materials, methods, Mother Nature, measurement, and people.
Data that represents a characteristic or individual count. Attribute data, also known as discrete data, cannot be added or subtracted from other attribute data sets.
A graph of continuous data characterized by a high center, tapered sides, and flared edges. A bell curve reflects conditions that exhibit natural variation.
BB. A Six Sigma practitioner with the most training who acts as the project leader. Black belts work full time on projects and coach lower-level team members.
A Six Sigma designation for an executive or manager within a company who facilitates the project by providing the necessary resources.
A document that serves as a problem statement defining the Six Sigma project target. The charter is developed in the first DMAIC step.
common cause variation
A deviation that is normal and expected and that cannot be traced back to a single source. Common cause variation, also known as natural variation, does not cause a fundamental change in the process.
Data that can be measured on a scale and compared with other data. Continuous data, also known as variable data, can be added to or subtracted from other continuous data.
critical to quality
CTQ. Specific, measurable characteristics of a product or service that are identified by customers as necessary for their satisfaction. CTQ characteristics are the focus of Six Sigma projects.
The time that elapses from the beginning to the end of a process. Cycle time must match takt time in order for a manufacturer to meet customer demand.
Data that represents a characteristic or individual count. Discrete data, also known as attribute data, cannot be added or subtracted from other discrete data sets.
Six Sigma's five steps for process improvement. DMAIC stands for define, measure, analyze, improve, and control.
An outside organization or individual that receives a product or service from the company. External customers determine which product characteristics are critical to quality (CTQ).
frequency distribution charts
A chart that displays the number of occurrences in a continuous data set. Normal distribution on a frequency distribution chart will create a bell curve.
GB. A team member trained in Six Sigma who spends about 20% of his or her time on Six Sigma projects and about 80% on regular duties.
A department or individual within the company that relies on others to satisfy the external customer. For any cell, the next cell in a process is always the internal customer.
master black belt
MBB. A hands-on Six-Sigma practitioner who works closely with other members to set and carry out project goals. Master black belts work full time on projects and coach lower-level team members.
A chart that displays discrete data as sets of bars in ascending or descending order. Pareto charts support the Pareto principle, which states that for most events, approximately 80% of the effects result from 20% of the causes.
A circular chart that is divided into sections or 'slices' that represent a proportion of collected data. Pie charts show data as divided parts of a whole.
A graphical method of capturing the steps of a process. Process mapping can be performed before and after a process is improved.
A temporary designation for the person responsible for process design and performance. Green belts are sometimes considered process owners.
root cause analysis
A study to determine the cause of a problem. Root cause analysis involves collecting and analyzing data to find a problem's origin.
A graph that displays process performance data tracked over time. Most run charts best represent continuous data.
A management philosophy and process improvement method that uses data to identify problems and point to improvements. Six Sigma's goal is to reduce the number of defects to less than 3.4 defects per million opportunities, which is near perfection.
special cause variation
A deviation that causes an undesirable, fundamental change in a process. Special cause variations, also known as unnatural variations, can be traced back to a single source.
statistical process control
SPC. A method of measuring and controlling the processes that yield a product. In SPC, statistics are used to collect sample data and predict outcomes.
Any deviation from what is normal and consistent. Common cause variation is normal and expected, while special cause variation indicates a problem.
YB. A designation for other staff members who help with Six Sigma projects. Yellow belts are less involved in Six Sigma projects than green belts.
Factual information that is used for analysis and problem solving. Data is often in the form of values or numbers.
Factual information, usually in the form of numbers, that is used for analysis and problem solving. Data is used to find the root causes of process problems.