Operations Management (MGT-655)
Complete "Example 13.2: Process Control Chart Design," located in Chapter 13 of the textbook.
Write a 150-300-word paragraph comparing the simple moving average weighted moving average, exponential smoothing, and linear regression analysis time series models.
Refer to the Excel spreadsheet, “Quality Control Analytics at Toyota," to complete the "Case: Quality Management Toyota," at the end of Chapter 13 in the textbook. Answer Questions 1-8.
Refer to the Excel spreadsheet, "Computing Trend and Seasonal Factor From a Linear Regression Line Obtained "to complete the "Example 18.4: Computing Trend and Seasonal Factor From a Linear Regression Line Obtained With Excel," located in Chapter 18 of the textbook.
After working through the example, reflect write a 150-300-word paragraph explaining the market research, panel consensus, historical analogy, and Delphi method qualitative forecasting techniques.
While APA format is not required for the body of this assignment, solid academic writing is expected, and documentation of sources should be presented using APA formatting guidelines, which can be found in the APA Style Guide, located in the Student Success Center.
emplate for 13.2
Quality Control p chart
Number of samples 10
Sample size
Data
Elissa Torres: Quality Control: Submodel = 4; Problem size @ 10 by 1 Results
# Defects % Defects Total Sample Size 0
Sample 1 ERROR:#DIV/0! ERROR:#DIV/0! Total Defects 0
Sample 2 ERROR:#DIV/0! ERROR:#DIV/0! Percentage defects ERROR:#DIV/0!
Sample 3 ERROR:#DIV/0! ERROR:#DIV/0! Std dev of p-bar ERROR:#DIV/0!
Sample 4 ERROR:#DIV/0! ERROR:#DIV/0! z value 3
Sample 5 ERROR:#DIV/0! ERROR:#DIV/0!
Sample 6 ERROR:#DIV/0! ERROR:#DIV/0! Upper Control Limit ERROR:#DIV/0!
Sample 7 ERROR:#DIV/0! ERROR:#DIV/0! Center Line ERROR:#DIV/0!
Sample 8 ERROR:#DIV/0! ERROR:#DIV/0! Lower Control Limit ERROR:#DIV/0!
Sample 9 ERROR:#DIV/0! ERROR:#DIV/0!
Sample 10 ERROR:#DIV/0! ERROR:#DIV/0!
Graph information
Sample 1 ERROR:#DIV/0! ERROR:#DIV/0! ERROR:#DIV/0! ERROR:#DIV/0!
Sample 2 ERROR:#DIV/0! ERROR:#DIV/0! ERROR:#DIV/0! ERROR:#DIV/0!
Sample 3 ERROR:#DIV/0! ERROR:#DIV/0! ERROR:#DIV/0! ERROR:#DIV/0!
Sample 4 ERROR:#DIV/0! ERROR:#DIV/0! ERROR:#DIV/0! ERROR:#DIV/0!
Sample 5 ERROR:#DIV/0! ERROR:#DIV/0! ERROR:#DIV/0! ERROR:#DIV/0!
Sample 6 ERROR:#DIV/0! ERROR:#DIV/0! ERROR:#DIV/0! ERROR:#DIV/0!
Sample 7 ERROR:#DIV/0! ERROR:#DIV/0! ERROR:#DIV/0! ERROR:#DIV/0!
Sample 8 ERROR:#DIV/0! ERROR:#DIV/0! ERROR:#DIV/0! ERROR:#DIV/0!
Sample 9 ERROR:#DIV/0! ERROR:#DIV/0! ERROR:#DIV/0! ERROR:#DIV/0!
Sample 10 ERROR:#DIV/0! ERROR:#DIV/0! ERROR:#DIV/0! ERROR:#DIV/0!
p-chart
0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
Sample
Mean
Enter the sample size then enter the number of defects in each sample.
p-chart
0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0