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IX C USTOMER & C OMPETITIVE I NTELLIGENCE FOR S YSTEMS I NNOVATION & D ESIGN S IGMA S D EPARTMENT OF S TATISTICS D R. R ICK E DGEMAN, P ROFESSOR & C HAIR – S IX S IGMA B LACK B ELT REDGEMAN@UIDAHO.EDU OFFICE: +1-208-885-4410
IX S IGMA S D EPARTMENT OF S TATISTICS DMAIC: The M easure P hase
IX S IGMA S D EPARTMENT OF S TATISTICS a highly structured strategy for acquiring, assessing, and applying customer, competitor, and enterprise intelligence for the purposes of product, system or enterprise innovation and design.
D efine C ontrol I mprove A nalyze M easure S ix S igma I nnovation & the DMAIC Algorithm D efine the problem and customer requirements. M easure defect rates and document the process in its current incarnation . A nalyze process data and determine the capability of the process. I mprove the process and remove defect causes. C ontrol process performance and ensure that defects do not recur.
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Measure: 1. Select Customer Critical to Quality (CTQ) Characteristics. Among useful quality tools in the MEASURE phase are: Quality Function Deployment (QFD) which relates CTQs to measurable internal sub-processes or product characteristics. Process Maps create a shared view of the process, reveals redundant or Unnecessary steps, and compares the “actual” process to the ideal one. Fishbone Diagrams provide a structure for revealing causes of the effect. Pareto Analysis provides a useful quantitative means of separating the vital few causes of the effect from the trivial many, but require valid historical data. Failure Modes and Effects Analysis (FMEA) identifies ways that a sub- process or product can fail and develops plans to prevent those failures. FMEA is especially useful with high-risk projects.
Measure: 1. Select Customer Critical to Quality (CTQ) Characteristics . FAILURE MODES AND EFFECTS ANALYSIS (FMEA) Failure Modes and Effects Analysis (FMEA) Process is a structured approach that has the goal of linking the FAILURE MODES to an EFFECT over time for the purpose of prevention. The structure of FMEA is as follows: Preparation  FMEA Process  Improvement a. Select the team b. Develop the process map and steps c. List key process outputs to satisfy internal and external customer requirements d. Define the relationships between outputs and process variables e. Rank inputs according to importance.
Measure: 1. Select Customer Critical to Quality (CTQ) Characteristics . FAILURE MODES AND EFFECTS ANALYSIS (FMEA) Preparation  FMEA Process  Improvement a. Identify the ways in which process inputs can vary (causes) and identify associated FAILURE MODES. These are ways that critical customer requirements might not be met. b. Assign severity, occurrence and detection ratings to each cause and calculate the RISK PRIORITY NUMBERS (RPNs). c. Determine recommended actions to reduce RPNs. d. Estimate time frames for corrective actions. e. Take actions and put controls in place. f. Recalculate all RPNs. FAILURE MODE : How a part or process can fail to meet specifications. CAUSE : A deficiency that results in a failure mode  sources of variation EFFECT : Impact on customer if the failure mode is not prevented or corrected.
FMEA Standardized Rating System 1 < RPN = (Degree of Severity)*(Likelihood of Occurrence)*(Ability to Detect) < 1000 Absolute certainty that the current controls will not detect the potential failure. Assured of failure based on warranty data or significant DV testing Customer endangered due to the adverse effect on safe system performance without warning before failure or violation of governmental regulations. 10 Current controls probably will not even detect the potential failure. Failure is almost certain based on warranty data or significant DV testing. Customer endangered due to the adverse effect on safe system performance with warning before failure or violation of governmental regulations. 9 Very poor likelihood that the potential failure will be detected or prevented before reaching the next customer. High failure rate without supporting documentation. Very high degree of dissatisfaction due to the loss of function without a negative impact on safety or governmental regulations. 8 Poor likelihood that the potential failure will be detected or prevented before reaching the next customer. Relatively high failure rate with supporting documentation. High degree of customer dissatisfaction due to component failure without complete loss of function. Productivity impacted by high scrap or rework levels. 7 Controls are unlikely to detect or prevent the potential failure from reaching the next customer. Moderate failure rate without supporting documentation. Warranty repair or significant manufacturing or assembly complaint. 6 Moderate likelihood that the potential failure will reach the next customer. Relatively moderate failure rate with supporting documentation. Customer is made uncomfortable or their productivity is reduced by the continued degradation of the effect. 5 Controls may not detect or prevent the potential failure from reaching the next customer. Occasional failures. Customer dissatisfaction due to reduced performance. 4 Low likelihood that the potential failure will reach the next customer undetected. Low failure rate without supporting documentation. Customer will experience annoyance due to slight degradation of performance. 3 Almost certain that the potential failure will be found or prevented before reaching the next customer. Low failure rate with supporting documentation. Customer will probably experience slight annoyance. 2 Sure that the potential failure will be found or prevented before reaching the next customer. Likelihood of occurrence is remote. Customer will not notice the adverse effect or it is insignificant. 1 ABILITY TO DETECT LIKELIHOOD OF OCCURRENCE DEGREE OF SEVERITY RATING
 
Measure: 1. Select Customer Critical to Quality (CTQ) Characteristics . FAILURE MODES AND EFFECTS ANALYSIS (FMEA) Preparation  FMEA Process  Improvement Develop and implement plans to reduce RPN’s.
Measure : 2. Define Performance Standards: Numbers & Units At this stage customer needs are translated into clearly defined measurable traits. OPERATIONAL DEFINITION : This is a precise description that removes any ambiguity about a process and provides a clear way to measure that process. An operational definition is a key step towards getting a value for the CTQ that is being measured. TARGET PERFORMANCE : Where a process or product characteristic is “aimed” If there were no variation in the product / process then this is the value that would always occur. SPECIFICATION LIMIT : The amount of variation that the customer is willing to tolerate in a process or product. This is usually shown by the “upper” and “lower” boundary which, if exceeded, will cause the customer to reject the process or product. DEFECT DEFINITION : Any process or product characteristic that deviates outside of specification limits.
Measure : 3. Establish Data Collection Plan, Validate the Measurement System, and Collect Data. A Good Data Collection Plan: a. Provides clearly documented strategy for collecting reliable data; b. Gives all team members a common reference; c. Helps to ensure that resources are used effectively to collect only critical data. The cost of obtaining new data should be weighed vs. its benefit. There may be viable historical data available. We refer to “actual process variation” and measure “actual output”: a. what is the measurement process used? b. describe that procedure c. what is the precision of the system? d. how was precision determined e. what does the gage supplier state about: f. Do we have results of either a: * Accuracy * Precision * Resolution * Test-Retest Study? * Gage R&R Study?
Measure : 3. Establish Data Collection Plan, Validate the Measurement System, and Collect Data. Note that our measurement process may also have variation . a. Gage Variability : Precision : Accuracy : Both : b. Operator Variability : Differences between operators related to measurement. c. Other Variability : Many possible sources. Repeatability : Assess effects within ONE unit of your measurement system, e.g., the variation in the measurements of ONE device. Reproducibility : Assesses the effects across the measurement process, e.g., the variation between different operators. Resolution : The incremental aspect of the measurement device.
Measure : 3. Establish Data Collection Plan, Validate the Measurement System, & Collect Data. GAGE R&R (Repeatability & Reproducibility) STUDY: a. Operators – at least 3 recommended; b. Part – the product or process being measured. It is recommended that at least 10 representative (reflects the range of parts possible) parts per study, with each operator measuring the same parts. c. Trial – each time the item is measured. There should be at least 3 trials per part, per customer. 100% Total Variation 100% - (R 1 + R 2 ) Part-to-Part R 2 Reproducibility R 1 Repeatability R 1 + R 2 Total Gage Repeatability & Reproducibility % Contribution Source of Variation
IX S IGMA S D EPARTMENT OF S TATISTICS E nd of S ession

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Six sigma-measure-phase2505

  • 1. IX C USTOMER & C OMPETITIVE I NTELLIGENCE FOR S YSTEMS I NNOVATION & D ESIGN S IGMA S D EPARTMENT OF S TATISTICS D R. R ICK E DGEMAN, P ROFESSOR & C HAIR – S IX S IGMA B LACK B ELT REDGEMAN@UIDAHO.EDU OFFICE: +1-208-885-4410
  • 2. IX S IGMA S D EPARTMENT OF S TATISTICS DMAIC: The M easure P hase
  • 3. IX S IGMA S D EPARTMENT OF S TATISTICS a highly structured strategy for acquiring, assessing, and applying customer, competitor, and enterprise intelligence for the purposes of product, system or enterprise innovation and design.
  • 4. D efine C ontrol I mprove A nalyze M easure S ix S igma I nnovation & the DMAIC Algorithm D efine the problem and customer requirements. M easure defect rates and document the process in its current incarnation . A nalyze process data and determine the capability of the process. I mprove the process and remove defect causes. C ontrol process performance and ensure that defects do not recur.
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  • 6. Measure: 1. Select Customer Critical to Quality (CTQ) Characteristics. Among useful quality tools in the MEASURE phase are: Quality Function Deployment (QFD) which relates CTQs to measurable internal sub-processes or product characteristics. Process Maps create a shared view of the process, reveals redundant or Unnecessary steps, and compares the “actual” process to the ideal one. Fishbone Diagrams provide a structure for revealing causes of the effect. Pareto Analysis provides a useful quantitative means of separating the vital few causes of the effect from the trivial many, but require valid historical data. Failure Modes and Effects Analysis (FMEA) identifies ways that a sub- process or product can fail and develops plans to prevent those failures. FMEA is especially useful with high-risk projects.
  • 7. Measure: 1. Select Customer Critical to Quality (CTQ) Characteristics . FAILURE MODES AND EFFECTS ANALYSIS (FMEA) Failure Modes and Effects Analysis (FMEA) Process is a structured approach that has the goal of linking the FAILURE MODES to an EFFECT over time for the purpose of prevention. The structure of FMEA is as follows: Preparation  FMEA Process  Improvement a. Select the team b. Develop the process map and steps c. List key process outputs to satisfy internal and external customer requirements d. Define the relationships between outputs and process variables e. Rank inputs according to importance.
  • 8. Measure: 1. Select Customer Critical to Quality (CTQ) Characteristics . FAILURE MODES AND EFFECTS ANALYSIS (FMEA) Preparation  FMEA Process  Improvement a. Identify the ways in which process inputs can vary (causes) and identify associated FAILURE MODES. These are ways that critical customer requirements might not be met. b. Assign severity, occurrence and detection ratings to each cause and calculate the RISK PRIORITY NUMBERS (RPNs). c. Determine recommended actions to reduce RPNs. d. Estimate time frames for corrective actions. e. Take actions and put controls in place. f. Recalculate all RPNs. FAILURE MODE : How a part or process can fail to meet specifications. CAUSE : A deficiency that results in a failure mode  sources of variation EFFECT : Impact on customer if the failure mode is not prevented or corrected.
  • 9. FMEA Standardized Rating System 1 < RPN = (Degree of Severity)*(Likelihood of Occurrence)*(Ability to Detect) < 1000 Absolute certainty that the current controls will not detect the potential failure. Assured of failure based on warranty data or significant DV testing Customer endangered due to the adverse effect on safe system performance without warning before failure or violation of governmental regulations. 10 Current controls probably will not even detect the potential failure. Failure is almost certain based on warranty data or significant DV testing. Customer endangered due to the adverse effect on safe system performance with warning before failure or violation of governmental regulations. 9 Very poor likelihood that the potential failure will be detected or prevented before reaching the next customer. High failure rate without supporting documentation. Very high degree of dissatisfaction due to the loss of function without a negative impact on safety or governmental regulations. 8 Poor likelihood that the potential failure will be detected or prevented before reaching the next customer. Relatively high failure rate with supporting documentation. High degree of customer dissatisfaction due to component failure without complete loss of function. Productivity impacted by high scrap or rework levels. 7 Controls are unlikely to detect or prevent the potential failure from reaching the next customer. Moderate failure rate without supporting documentation. Warranty repair or significant manufacturing or assembly complaint. 6 Moderate likelihood that the potential failure will reach the next customer. Relatively moderate failure rate with supporting documentation. Customer is made uncomfortable or their productivity is reduced by the continued degradation of the effect. 5 Controls may not detect or prevent the potential failure from reaching the next customer. Occasional failures. Customer dissatisfaction due to reduced performance. 4 Low likelihood that the potential failure will reach the next customer undetected. Low failure rate without supporting documentation. Customer will experience annoyance due to slight degradation of performance. 3 Almost certain that the potential failure will be found or prevented before reaching the next customer. Low failure rate with supporting documentation. Customer will probably experience slight annoyance. 2 Sure that the potential failure will be found or prevented before reaching the next customer. Likelihood of occurrence is remote. Customer will not notice the adverse effect or it is insignificant. 1 ABILITY TO DETECT LIKELIHOOD OF OCCURRENCE DEGREE OF SEVERITY RATING
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  • 11. Measure: 1. Select Customer Critical to Quality (CTQ) Characteristics . FAILURE MODES AND EFFECTS ANALYSIS (FMEA) Preparation  FMEA Process  Improvement Develop and implement plans to reduce RPN’s.
  • 12. Measure : 2. Define Performance Standards: Numbers & Units At this stage customer needs are translated into clearly defined measurable traits. OPERATIONAL DEFINITION : This is a precise description that removes any ambiguity about a process and provides a clear way to measure that process. An operational definition is a key step towards getting a value for the CTQ that is being measured. TARGET PERFORMANCE : Where a process or product characteristic is “aimed” If there were no variation in the product / process then this is the value that would always occur. SPECIFICATION LIMIT : The amount of variation that the customer is willing to tolerate in a process or product. This is usually shown by the “upper” and “lower” boundary which, if exceeded, will cause the customer to reject the process or product. DEFECT DEFINITION : Any process or product characteristic that deviates outside of specification limits.
  • 13. Measure : 3. Establish Data Collection Plan, Validate the Measurement System, and Collect Data. A Good Data Collection Plan: a. Provides clearly documented strategy for collecting reliable data; b. Gives all team members a common reference; c. Helps to ensure that resources are used effectively to collect only critical data. The cost of obtaining new data should be weighed vs. its benefit. There may be viable historical data available. We refer to “actual process variation” and measure “actual output”: a. what is the measurement process used? b. describe that procedure c. what is the precision of the system? d. how was precision determined e. what does the gage supplier state about: f. Do we have results of either a: * Accuracy * Precision * Resolution * Test-Retest Study? * Gage R&R Study?
  • 14. Measure : 3. Establish Data Collection Plan, Validate the Measurement System, and Collect Data. Note that our measurement process may also have variation . a. Gage Variability : Precision : Accuracy : Both : b. Operator Variability : Differences between operators related to measurement. c. Other Variability : Many possible sources. Repeatability : Assess effects within ONE unit of your measurement system, e.g., the variation in the measurements of ONE device. Reproducibility : Assesses the effects across the measurement process, e.g., the variation between different operators. Resolution : The incremental aspect of the measurement device.
  • 15. Measure : 3. Establish Data Collection Plan, Validate the Measurement System, & Collect Data. GAGE R&R (Repeatability & Reproducibility) STUDY: a. Operators – at least 3 recommended; b. Part – the product or process being measured. It is recommended that at least 10 representative (reflects the range of parts possible) parts per study, with each operator measuring the same parts. c. Trial – each time the item is measured. There should be at least 3 trials per part, per customer. 100% Total Variation 100% - (R 1 + R 2 ) Part-to-Part R 2 Reproducibility R 1 Repeatability R 1 + R 2 Total Gage Repeatability & Reproducibility % Contribution Source of Variation
  • 16. IX S IGMA S D EPARTMENT OF S TATISTICS E nd of S ession