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Six Sigma Tool Prepared by: Salah A. Al- Muaini Submitted to: Dr. Nabil AlSawalhi November 2014

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Six Sigma Tool Prepared by: Salah A. Al-MuainiSubmitted to: Dr. Nabil AlSawalhiNovember 2014

Overview about Six SigmaSix Sigma methodology is a recent subject,It was first put into implementation at Motorola in 1986,but it's now widely used by most large corporations.Def: Six Sigma is a process quality technique that focuses on reducing variation in the process and preventing deficiencies in the product. In a process that has achieved Six Sigma capability, the variation is small compared to the specification limits.Six Sigma is a measurement of goodness using a universal measurement scale.2Overview about Six SigmaSix Sigma means that, for a process to be capable at the Six Sigma level, the specification limits should be at least 6 from the average point. So, the total spread between the upper specification (control) limit and the lower specification (control) limit should be 12.

Sigma is measured in defects per million opportunities (DPMO).3Overview about Six SigmaThe distribution of data when using Six sigma can be illustrated in the following figure; 4

Figure 1. Overview about Six SigmaYield = percentage of itemswithout defects (%)Defects per million opportunitiesSigmalevel30.9690,000169.2308,000293.366,800399.46,210499.98320599.99973.46To reach a level of Three Sigma, you can only have 66,811 defects, given a million opportunities. A level of Five Sigma only allows 233 defects. Minimizing variation is a key focus of Six Sigma.5Overview about Six SigmaThe most critical issue in Six Sigma is to understand customers needs and requirements and to improve customers satisfaction. Six Sigma uses the concept of facts and data to drive better solutions.Six Sigma methodology also focuses on- Leadership principles- Integrated approach to improvement- Engaged teams- Analytic tool- Hard-coded improvements6Six Sigma roadmapSix Sigma roadmap can be illustrated in Figure

Figure 1. Six Sigma roadmap

7Leadership principalsThe Six Sigma methodology has four leadership principles. These are: 1. Align: Leadership should ensure that all improvement projects are in line with the organizations strategic goals.2. Mobilize: Leadership should enable teams to take action by providing clear direction, feasible scope, a definition of success, and rigorous reviews.3. Accelerate: Leadership should drive a project to rapid results through tight clock management, training as needed, and shorter deadlines.

8Leadership principals

4. Govern: Leadership must visibly sponsor projects and conduct regular and rigorous reviews to make critical midcourse corrections.

9Six Sigma team There are four types of teams:1. Black Belt2. Green Belt3. Breakthrough4. BlitzEach of the four teams characteristics and responsibilities will be demonstrated. 10Six Sigma team 1- Black Belt team: Black Belts are internal Six Sigma practitioners, skilled in the application of rigorous statistical methodologies, and they are crucial to the success of Six Sigma.The responsibilities of Black Belts are to:- Function as Team Leader on Black Belt projects- Integrate their functional discipline with statistical, project, and interpersonal skills- Serve as internal consultants- Tackle complex, high-impact improvement opportunities- Mentor and train Green Belts1111Six Sigma team 2- Green Belt team: Led by a Green Belt and comprised of nonexperts, Green Belt teams tackle less complex, high-impact process improvement projects.Green Belt responsibilities include- Acting as Team Leader on business improvements requiring less complex analysis- Adding their unique skills and experiences to the team- Working with the team to come up with inventive solutions- Performing basic statistical analysis- Conferring with a Black Belt as questions arise

12Six Sigma team 3- Breakthrough team: While creating simple processes, sophisticated statistical tools may not be needed. Breakthrough teams are typically used to define low-complexity, new processes.

4- Blitz team:Blitz teams are put in place to quickly execute improvements produced by other projects. These teams can also implement digitization for efficiency using a new analytic tool set.

13Six Sigma team For a typical Six Sigma project, four critical roles exist:1. Sponsor2. Champion3. Team Leader4. Team member14Analytical tool sets The following are the analytic tools used in Six Sigma projects:1- Ford Global 8D Tool,2- DMADV Tool,3- DMAIC Tool,4- DMADDD Tool.

15Analytical tool sets 1- Ford Global 8D Tool:D1: Establish the teamD2: Describe the problem What Problem Needs Solving?Who should help solve problem?How do we quantify symptoms?D3: Implement and verify containment How do we contain it?D4: Identify and verify root causes What is the root cause?D5: Choose and verify corrective action What is the permanent corrective action?16Analytical tool sets D6: Implement and validate permanent corrective action How do we implement?D7: Prevent recurrence How can we prevent this in future?D8: Congratulate the team Who should we reward?The Ford Global 8D Tool is primarily used to bring performance back to a previous level.17Analytical tool sets 2- DMADV Tool 1- DefineWhat is important? Define the project goals and customer deliverables (internal and external)2. MeasureWhat is needed? Measure and determine customer needs and specifications3. AnalyzeHow will we fulfill? Analyze process options and prioritize based on capabilities to satisfy customer requirements18Analytical tool sets 4. DesignHow do we build it? Design detailed processes capable of satisfying customer requirements5. VerifyHow do we know it will work?Verify design performance capabilityThe DMADV tool is used primarily for the invention and innovation of modified or new products, services, or process.

19Analytical tool sets 3- DMAIC Tool1- DefineWhat is important? Define the project goals and customer deliverables (internal and external)2- MeasureHow are we doing? Measure the process to determine current performance3- AnalyzeWhat is wrong? Analyze and determine the root causes of the defects

20Analytical tool sets 4. ImproveWhat needs to be done?Improve the process by permanently removing the defects5. ControlHow do we guarantee performance?Control the improved processs performance to ensure sustainable results

The DMAIC tool refers to a data-driven quality strategy and is used primarily for improvement of an existing product, service, or process.

21Analytical tool sets 4- DMADDD tool:1- DefineWhere must we be learner?Identify potential improvements2- MeasureWhats our baseline? Analog touch points3- AnalyzeWhere can we free capacity and improve yields?Task elimination and consolidated ops Value-added /non-value-added tasksFree capacity and yield22Analytical tool sets 4- DesignHow should we implement?Future state visionDefine specific projectsDefine drawdown timingDefine commercialization plans5- DrawdownHow do we eliminate parallel paths?Commercialize new processEliminate parallel pathThe DMADDD tool is primarily used to drive the cost out of a process by incorporating digitization improvements.

23Analytical tool sets The DMAIC processDMAIC stands for the following:1- Define opportunities2- Measure performance3- Analyze opportunity4- Improve performance5- Control performance24Analytical tool sets The DMAIC process1- Define opportunities (what is important?)The objective of this phase is - To identify and/or validate the improvement opportunities that will achieve the organizations goals and provide the largest payoff, develop the business process, define critical customer requirements, and prepare to function as an effective project team.25Analytical tool sets The DMAIC process2- Measure Performance (How Are We Doing?)The objectives of this phase are- To identify critical measures that are necessary to evaluate success or failure, meet critical customer requirements, and begin developing a methodology to effectively collect data to measure process performance.- To understand the elements of the Six Sigma calculation and establish baseline sigma for the processes the team is analyzing26Analytical tool sets The DMAIC processAnalytical tools used in measure phase: Histogram;

27Analytical tool sets The DMAIC processRun Charts;

28Analytical tool sets The DMAIC processScatter Diagrams;

29Analytical tool sets The DMAIC process Cause-and-effect Diagram;

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Analytical tool sets The DMAIC process3- Analyze Opportunity (What Is Wrong?)The objectives of this phase are-To stratify and analyze the opportunity to identify a specific problem and define an easily understood problem statement.- To identify and validate the root causes and thus the problem the team is focused on.- To determine true sources of variation and potential failure modes that lead to customer dissatisfaction.31Analytical tool sets The DMAIC processTools used in analyzing phase;- Correlation Coefficient- Regression Analysis32Analytical tool sets The DMAIC process4- Improve Performance (What Needs to Be Done?)The objectives of this phase are- To identify, evaluate, and select the right improvement solutions- To develop a change management approach to assist the organization in adapting to the changes introduced through solution implementation33Analytical tool sets The DMAIC process5- Control Performance (How Do We Guarantee Performance?)The objectives of this phase are- To understand the importance of planning and executing against the plan and determine the approach to be taken to ensure achievement of the targeted results- To understand how to disseminate lessons learned, identify replication and standardization opportunities/processes, and develop related plans34Analytical tool sets The DMAIC processGantt Chart method can be used in control phase;

3535Applications of Six Sigma in constructionThe Six Sigma methodology is not so commonly used in construction projects; however the DMAIC tool can be applied at various stages in construction projects. These areDetailed design stage: To enhance coordination method in order to reduce repetitive work.Construction stage: Preparation of builders workshop drawings and composite drawings, as it needs much coordination among different tradesConstruction stage: Preparation of contractors construction scheduleExecution of works36Six Sigma (DMADV tool) example;Contractors Construction Schedule (CCS)The contractors construction schedule (CCS) is an important document used during the construction phase.In most cases, contractors experience problems with getting the CCS approved, at the very first submission, from the construction manager/project manager / consultant. It could be rejected if it does not meet the specifications.37Six Sigma (DMADV tool) example;Contractors Construction Schedule (CCS)The DMADV Process:DefineWhat is important?The objective of this phase is to define the project goals and customer deliverables.The key deliverables of this phase are:- Establish the goal: Develop CCS using Six Sigma tools.- Identify the benefits: CCS that meet all the requirements of the specifications and approved by the construction manager/project manager/ consultant.38Six Sigma (DMADV tool) example;Contractors Construction Schedule (CCS)- Selection of team: Sponsor - Project ManagerChampion - Construction ManagerTeam Leader - Planning and Control ManagerTeam Members - Planning Engineer, Cost Engineer, and one representative from each subcontractor 39Six Sigma (DMADV tool) example;Contractors Construction Schedule (CCS)- Develop project plan:Time frame in the form of the Gantt chart shall be prepared to meet the target dates for submitting the contractors construction schedule (CCS).40Six Sigma (DMADV tool) example;Contractors Construction Schedule (CCS)2. Measure Phase (What Is Needed?)The objective of this phase is to measure and determine customer needs and specificationsThe key deliverable in this phase is: -Identify specification requirements.The schedule shall include, but not be limited to, the following:1. Project site layout.2. Concise description of the work.3. Milestones (contractual milestones or constraints).4. Number of working days... Etc. 41Six Sigma (DMADV tool) example;Contractors Construction Schedule (CCS)3- Analyze Phase (How Will We Fulfill?)The objective of this phase is to analyze process options and prioritize based on capability to satisfy customer requirements.The key deliverables in this phase are- Data collection- Prioritization of data under major variables42Six Sigma (DMADV tool) example;Contractors Construction Schedule (CCS)- Data collection: the objective of this process is to:1. Identify milestone dates and constraints2. Identify project calendar3. Identify resource calendar4. Review contract conditions and technical specifications5. Identify mobilization requirements etc. 43Six Sigma (DMADV tool) example;Contractors Construction Schedule (CCS)Prioritization of data under major variables (arrangement of data):The generated data can be prioritized in an orderlyarrangement under the following major variables:1. Milestones2. WBS activities3. Time schedule4. General requirements5. Resources6. Engineering7. Cost loading

44Six Sigma (DMADV tool) example;Contractors Construction Schedule (CCS)4- Design Phase (How Do We Build It?)The objective of this phase is to design detailed processes capable of satisfying customer requirements.The key deliverable in this phase is:- Preparation of program using suitable (specified) software program

The Project and Control Manager can prepare the CCS based on the collected data and sequence of activities.45Six Sigma (DMADV tool) example;Contractors Construction Schedule (CCS)5- Verify Phase (How Do We Know It Will Work?)The objective of this phase is to verify design performance capabilityThe key deliverables in this phase are- Review the schedule by the team members to ascertain that all the required elements are included for compliance with specification requirements.- Submit CCS to Construction Manager/Project Manager/Consultant. - Update the schedule as and when required.46Thank you 47