Old Way to View an Organization The traditional view of the of the organization focuses on pleasing the managers and controlling the workforce: вЂў Customers are implicit. вЂў The organization will succeed if everyone does his or her job as directed. вЂў Quality is an event resulting from individual (or team) effort. DemingвЂ™s Systems View вЂў The systems view of the organization focuses on pleasing the customers and improving the systems, processes and methods by which we create and deliver goods and services to the customer. DemingвЂ™s Systems View вЂў вЂў вЂў вЂў Management is implicit. Quality is the net result of the interaction of the system. The steps of the system are interdependent. For the output to be improved the system must be improved. C o n sta n cy o f P u rp o se: T h e A im M issio n , V isio n , V a lu es, M ea su res S uppliers L ea d ersh ip , In fo rm a tio n , C o m m u n ica tio n , a n d G o v ern a n ce W ith C u sto m er F o cu s C ustom er R esearch D esign/R ed esign C ustom ers D istribution P roduction of P roducts & S ervices S upporting P rocesses S tra teg ic P la n n in g K ey S u ccess F a cto rs/K ey P ro cesses C h a rters A ttra ctiv e Q u a lity C rea tio n C o n tin u o u s Im p ro v em en t P ro cess M a sterin g R a p id C y cle Im p ro v em en t Q u a lity in D a ily W o rk A System of Activities to Focus the Library on Continuous Improvement Process Behavior Charts Studying Processes Run Chart B en to n C o u n ty P u b lic L ib rary P a ck a g es H a n d led M o n th /Y e a r J a n -0 1 F e b -0 1 M a r-0 1 A p r-0 1 M a y-0 1 J u n -0 1 J u l-0 1 A u g -0 1 S e p -0 1 O c t-0 1 N o v -0 1 D e c -0 1 J a n -0 2 F e b -0 2 M a r-0 2 A p r-0 2 M a y-0 2 J u n -0 2 J u l-0 2 A u g -0 2 T o ta l packages h a n d le d 26 16 42 34 17 51 51 66 117 52 34 86 54 51 105 98 59 157 77 68 Studying Processes Run Chart A Run Chart visually represents data over time or in sequence. Why is it used? вЂўShows variation in a process вЂўShows the average of the data When should I use it? вЂўTo see trends and shifts in the data вЂўTo present data as input for a Process Behavior Chart вЂўTo monitor progress after making changes in a process Studying Processes Process Behavior Chart A Process Behavior Chart is a graphic tool used to study variation in a process over time. вЂўHelps leaders determine whether and when to take action вЂўAssists library board members, administrators, and staff in learning about and measuring variation in library processes вЂўIdentifies and distinguishes common and special causes of variation in a process вЂўAllows organizations to make predictions about what will occur in the future вЂўProvides a visual picture that helps employees improve processes by eliminating special causes of variation, reducing common causes of variation, and raising or lowering the average outcome to better meet customer needs Studying Processes Process Behavior Chart 1. Begin by filling out the initial data at the top of the X and Moving Range Chart page for your process similar to the example. 2. Write down the data points (XвЂ™s) for the most recent 20 вЂ“ 25 measurements. If you have fewer points, use what you have. 3. Choose an appropriate scale and plot and connect the points on the X/Sample graph. Remember to leave space for the upper and lower natural process limits. Studying Processes Process Behavior Chart 4. Calculate the moving ranges (MRвЂ™s). Find the difference in value between the first and second X and pencil it into the Moving Range (MR) row. Do the same for points 2 and 3, 3 and 4, etc. Note that it is the absolute difference between the numbers that is important. Therefore donвЂ™t worry if you get a negative number. Write it down as a positive number. Choose an appropriate scale and plot the points on the Range chart at the bottom of the page. 5. Calculate the average MR (MR bar). Add up all the MR values and divide the total by the number of MRвЂ™s to get MBbar. Place the MRbar value in the blank at the top of the page, and draw a dashed horizontal line at that value on the Range chart Studying Processes Process Behavior Chart 6. Calculate the Upper Control Limit for the Moving Ranges (UCLMR) by substituting into the following formula: UCL MR = MRbar x 3.267 Write this value in the blank at the top of the page. 7. Check for special causes in XвЂ™s. Are any MRвЂ™s greater than the UCLMR? If yes, delete the X that is out of whack and calculate a new MRbar and a new UCLMR. If no, continue to calculate the standard deviation (S). 8. Calculate the standard deviation, S, as follows. S = MRbarfinal divided by 1.128 Write the value of S in the blank at top of page. Studying Processes Process Behavior Chart 9. Calculate the average of the XвЂ™s (Xbar). Find the sum of all the XвЂ™s and divide that total by the number of XвЂ™s. Write this value in the blank at the top of the page, and draw a horizontal line on the X/SAMPLE chart at the value of Xbar. 10. Calculate the Upper Control Limit for the XвЂ™s (UCLX): UCLX = Xbar + 3S Draw a dashed horizontal line on the X/SAMPLE chart at the value of the UCLX 11. Calculate the Lower Control Limit for the XвЂ™s (LCLX): LCLX = Xbar вЂ“ 3S Draw a dashed horizontal line on the X/SAMPLE chart at the value of the LCLX Studying Processes Process Behavior Chart 12. Analyze what your process is telling you. Is the process in-control or out-of-control? Is there a great deal of variation? Is the average higher or lower than your customers expect? Is your process getting better, getting worse, or staying about the same? Does your process go through cycles?