Statistical Process Control

Overview

• Variation

• Control charts

–R charts

–X-bar charts

–P charts

)(x

• Measures performance of a process• Primary tool - statistics• Involves collecting, organizing, &

interpreting data • Used to:

–Control the process as products are produced

–Inspect samples of finished products

Statistical Quality Control (SPC)

Bottling Company

• Machine automatically fills a 20 oz bottle.• Problem with filling too much? Problems with

filling to little?• So Monday the average is 20.2 ounces.• Tuesday the average is 19.6 ounces.• Is this normal? Do we need to be concerned?• Wed is 19.4 ounces.

Natural Variation• Machine can not fill every

bottle exactly the same amount – close but not exactly.

Bottle Amount1 19.92 20.23 20.14 20.05 19.9

Natural variation

19.820.020.220.420.620.821.021.2

1 2 3 4 5

Bottle

Oun

ces

Bottle Amount1 20.92 21.03 21.04 20.85 20.9

Assignable variation

• A cause for part of the variation

Assignable variation

19.820.020.220.420.620.821.021.2

1 2 3 4 5

Bottle

Oun

ces

SPC

• Objective: provide statistical signal when

assignable causes of variation are present

ControlCharts

RChart

VariablesCharts

AttributesCharts

XChart

PChart

CChart

Continuous Numerical Data

Categorical or Discrete Numerical Data

Control Chart Types

• Characteristics for which you focus on defects

• Classify products as either ‘good’ or ‘bad’, or count # defects– e.g., radio works or not

• Categorical or discrete random variables

Attributes

Measuring quality

Characteristics that you measure, e.g., weight, length

May be in whole or in fractional numbers

Continuous random variables

Variables

• Show changes in data pattern– e.g., trends

• Make corrections before process is out of control

• Show causes of changes in data– Assignable causes

• Data outside control limits or trend in data– Natural causes

• Random variations around average

Control Chart Purposes

Figure S6.7

Steps to Follow When Using Control Charts

TO SET CONTROL CHART LIMITS

1. Collect 20-25 samples of n=4 or n=5 a stable

process

compute the mean of each sample.

2. Calculate control limits

Compute the overall means

Calculate the upper and lower control limits.

Steps to Follow When Using Control Charts - continued

TO MONITOR PROCESS USING THE CONTROL CHARTS:1. Collect and graph data

Graph the sample means and ranges on their respective control charts

Determine whether they fall outside the acceptable limits.

2. Investigate points or patterns that indicate the process is out of control. Assign causes for the variations.

3. Collect additional samples and revalidate the control limits.

Control Charts for Variables

Glacier Bottling• Management at Glacier Bottling is concerned about

their filling process. In particular, they want to know whether or not the machines are really filling the bottles with 16 ounces.

• Create an Xbar chart that will be used to monitor the process.

• Collected data for 25 days. Each day, pulled 4 bottles from the filling line and measured the amount in the bottle.

Bottle Volume in OuncesSample Num Obs 1 Obs 2 Obs 3 Obs 4

1 15.85 16.02 15.83 15.932 16.12 16.00 15.85 16.013 16.00 15.91 15.94 15.834 16.20 15.85 15.74 15.935 15.74 15.86 16.21 16.106 15.94 16.01 16.14 16.037 15.75 16.21 16.01 15.868 15.82 15.94 16.02 15.949 16.04 15.98 15.83 15.9810 15.64 15.86 15.94 15.8911 16.11 16.00 16.01 15.8212 15.72 15.85 16.12 16.1513 15.85 15.76 15.74 15.9814 15.73 15.84 15.96 16.1015 16.20 16.01 16.10 15.8916 16.12 16.08 15.83 15.9417 16.01 15.93 15.81 15.6818 15.78 16.04 16.11 16.1219 15.84 15.92 16.05 16.1220 15.92 16.09 16.12 15.9321 16.11 16.02 16.00 15.8822 15.98 15.82 15.89 15.8923 16.05 15.73 15.73 15.9324 16.01 16.01 15.89 15.8625 16.08 15.78 15.92 15.98

Glacier Bottling

Bottle Volume in Ounces

Sample Num Obs 1 Obs 2 Obs 3 Obs 4

1 15.85 16.02 15.83 15.93

2 16.12 16.00 15.85 16.01

3 16.00 15.91 15.94 15.83

4 16.20 15.85 15.74 15.93

5 15.74 15.86 16.21 16.10

Remember: There are 25 samples of size 4 to calculate the control limits. We are doing the first 5 right now…

Setting Control Limits for R chart

• Monitors variability in process

• Variables control chart

– Interval or ratio scaled numerical data

• Shows sample ranges over time

– Difference between smallest & largest values in

inspection sample

R Chart

Sample Range at Time i

# Samples

From Table S6.1

R Chart Control Limits

s

R R

RD LCL

RD UCL

i

s

1i

3R

4R

Bottle Volume in Ounces

Sample Num Obs 1 Obs 2 Obs 3 Obs 4 R

1 15.85 16.02 15.83 15.93  0.19

2 16.12 16.00 15.85 16.01  

3 16.00 15.91 15.94 15.83  

4 16.20 15.85 15.74 15.93  

5 15.74 15.86 16.21 16.10  

Glacier Bottling

16.02 – 15.83 = 0.19

Bottle Volume in Ounces

Sample Num Obs 1 Obs 2 Obs 3 Obs 4 R

1 15.85 16.02 15.83 15.93  0.19

2 16.12 16.00 15.85 16.01  

3 16.00 15.91 15.94 15.83  

4 16.20 15.85 15.74 15.93  

5 15.74 15.86 16.21 16.10  

Glacier Bottling

16.02 – 15.83 = 0.19

16.12 – 15.85 = 0.27

Bottle Volume in OuncesSample Num Obs 1 Obs 2 Obs 3 Obs 4 R

1 15.85 16.02 15.83 15.93 0.19

2 16.12 16.00 15.85 16.01 0.27

3 16.00 15.91 15.94 15.83 0.17

4 16.20 15.85 15.74 15.93 0.46

5 15.74 15.86 16.21 16.10 0.47

6 15.94 16.01 16.14 16.03 0.20

7 15.75 16.21 16.01 15.86 0.46

8 15.82 15.94 16.02 15.94 0.20

9 16.04 15.98 15.83 15.98 0.21

10 15.64 15.86 15.94 15.89 0.30

11 16.11 16.00 16.01 15.82 0.29

12 15.72 15.85 16.12 16.15 0.43

13 15.85 15.76 15.74 15.98 0.24

14 15.73 15.84 15.96 16.10 0.37

15 16.20 16.01 16.10 15.89 0.31

16 16.12 16.08 15.83 15.94 0.29

17 16.01 15.93 15.81 15.68 0.33

18 15.78 16.04 16.11 16.12 0.34

19 15.84 15.92 16.05 16.12 0.28

20 15.92 16.09 16.12 15.93 0.20

21 16.11 16.02 16.00 15.88 0.23

22 15.98 15.82 15.89 15.89 0.16

23 16.05 15.73 15.73 15.93 0.32

24 16.01 16.01 15.89 15.86 0.15

25 16.08 15.78 15.92 15.98 0.30

Rbar = 0.29 ounce

Glacier Bottling

R-Charts

UCLR = D4RLCLR = D3R

R = 0.29

Control Chart FactorsFactor for UCL Factor for Factor

Size of and LCL for LCL for UCL forSample x-Charts R-Charts R-Charts

(n) (A2) (D3) (D4)

2 1.880 0 3.2673 1.023 0 2.5754 0.729 0 2.2825 0.577 0 2.1156 0.483 0 2.0047 0.419 0.076 1.924

This chart is in your text and will be provided for exams if needed.

Glacier Bottling

R-Charts

UCLR = D4RLCLR = D3R

R = 0.29 D4 = 2.282

D3 = 0

UCLR = 2.282 (0.29) = 0.654 ounce

LCLR = 0(0.29) = 0 ounce

Glacier Bottling

R-Charts

UCLR = D4RLCLR = D3R

R = 0.29 D4 = 2.282

D3 = 0

UCLR = 2.282 (0.29) = 0.654 ounce

LCLR = 0(0.29) = 0 ounce

SETUP CHARTS Glacier Bottling

MONITORING Glacier Bottling

1 3 5 7 9 11 13 15 17 19 21 23 250.00

0.10

0.20

0.30

0.40

0.50

0.60

0.70

RUCLRLCLRRbar

Figure S6.7

Glacier Bottling

1 3 5 7 9 11 13 15 17 19 21 23 250.00

0.10

0.20

0.30

0.40

0.50

0.60

0.70

RUCLRLCLRRbar

Figure S6.7

Glacier Bottling

1 3 5 7 9 11 13 15 17 19 21 23 250.00

0.10

0.20

0.30

0.40

0.50

0.60

0.70

RUCLRLCLRRbar

Figure S6.7

Glacier Bottling

1 3 5 7 9 11 13 15 17 19 21 23 250.00

0.10

0.20

0.30

0.40

0.50

0.60

0.70

RUCLRLCLRRbar

Figure S6.7

Glacier Bottling

1 3 5 7 9 11 13 15 17 19 21 23 250.00

0.10

0.20

0.30

0.40

0.50

0.60

0.70

RUCLRLCLRRbar

Figure S6.7

Setting Control Limits for Xbar chart

• Monitors process average

• Variables control chart

– Interval or ratio scaled numerical data

• Shows sample means over time

X Chart

X Chart Control Limits

Sample Range at

Time i

# Samples

Sample Mean at Time i

From Table S6.1

RAxxLCL

RAxxUCL

s

R R

i

s

1i

s x 1

i

s

ix

Bottle Volume in OuncesSample Num Obs 1 Obs 2 Obs 3 Obs 4

1 15.85 16.02 15.83 15.932 16.12 16.00 15.85 16.013 16.00 15.91 15.94 15.834 16.20 15.85 15.74 15.935 15.74 15.86 16.21 16.106 15.94 16.01 16.14 16.037 15.75 16.21 16.01 15.868 15.82 15.94 16.02 15.949 16.04 15.98 15.83 15.9810 15.64 15.86 15.94 15.8911 16.11 16.00 16.01 15.8212 15.72 15.85 16.12 16.1513 15.85 15.76 15.74 15.9814 15.73 15.84 15.96 16.1015 16.20 16.01 16.10 15.8916 16.12 16.08 15.83 15.9417 16.01 15.93 15.81 15.6818 15.78 16.04 16.11 16.1219 15.84 15.92 16.05 16.1220 15.92 16.09 16.12 15.9321 16.11 16.02 16.00 15.8822 15.98 15.82 15.89 15.8923 16.05 15.73 15.73 15.9324 16.01 16.01 15.89 15.8625 16.08 15.78 15.92 15.98

Bottle Volume in Ounces

Sample Num Obs 1 Obs 2 Obs 3 Obs 4 R Xbar

1 15.85 16.02 15.83 15.93 0.19 

2 16.12 16.00 15.85 16.01 0.27 

3 16.00 15.91 15.94 15.83 0.17 

4 16.20 15.85 15.74 15.93 0.46 

5 15.74 15.86 16.21 16.10 0.47 

Glacier Bottling

(15.85+16.02+15.83+15.93)/4 = 15.908

Bottle Volume in Ounces

Sample Num Obs 1 Obs 2 Obs 3 Obs 4 R Xbar

1 15.85 16.02 15.83 15.93 0.19  15.908

2 16.12 16.00 15.85 16.01 0.27 

3 16.00 15.91 15.94 15.83 0.17 

4 16.20 15.85 15.74 15.93 0.46 

5 15.74 15.86 16.21 16.10 0.47 

Glacier Bottling

(16.12+16.00+15.85+16.01)/4 = 15.995

Bottle Volume in Ounces

Sample Num Obs 1 Obs 2 Obs 3 Obs 4 R Xbar

1 15.85 16.02 15.83 15.93 0.19 15.908

2 16.12 16.00 15.85 16.01 0.27 15.995

3 16.00 15.91 15.94 15.83 0.17 15.920

4 16.20 15.85 15.74 15.93 0.46 15.930

5 15.74 15.86 16.21 16.10 0.47 15.978

6 15.94 16.01 16.14 16.03 0.20 16.030

7 15.75 16.21 16.01 15.86 0.46 15.958

8 15.82 15.94 16.02 15.94 0.20 15.930

9 16.04 15.98 15.83 15.98 0.21 15.958

10 15.64 15.86 15.94 15.89 0.30 15.833

11 16.11 16.00 16.01 15.82 0.29 15.985

12 15.72 15.85 16.12 16.15 0.43 15.960

13 15.85 15.76 15.74 15.98 0.24 15.833

14 15.73 15.84 15.96 16.10 0.37 15.908

15 16.20 16.01 16.10 15.89 0.31 16.050

16 16.12 16.08 15.83 15.94 0.29 15.993

17 16.01 15.93 15.81 15.68 0.33 15.858

18 15.78 16.04 16.11 16.12 0.34 16.013

19 15.84 15.92 16.05 16.12 0.28 15.983

20 15.92 16.09 16.12 15.93 0.20 16.015

21 16.11 16.02 16.00 15.88 0.23 16.003

22 15.98 15.82 15.89 15.89 0.16 15.895

23 16.05 15.73 15.73 15.93 0.32 15.860

24 16.01 16.01 15.89 15.86 0.15 15.943

25 16.08 15.78 15.92 15.98 0.30 15.940

RBar = 0.29 ounce

XBarBar = 15.9469 ounces

Xbar –Chart

Glacier Bottling:Setting Control Limits for XBar chart

UCLx = x + A2RLCLx = x - A2R

Rbar = 0.29xbarbar = 15.9469

Control Chart FactorsFactor for UCL Factor for Factor

Size of and LCL for LCL for UCL forSample x-Charts R-Charts R-Charts

(n) (A2) (D3) (D4)

2 1.880 0 3.2673 1.023 0 2.5754 0.729 0 2.2825 0.577 0 2.1156 0.483 0 2.0047 0.419 0.076 1.924

This chart is in your text and will be provided for exams if needed.

X –Chart

Glacier Bottling:Setting Control Limits for XBar chart

UCLx = x + A2RLCLx = x - A2R

R = 0.29

x = 15.9469

A2 = 0.729

===

UCLx = 15.9469 + 0.729 (0.29) = 16.156 oz.

X –Chart

Glacier Bottling:Setting Control Limits for XBar chart

UCLx = x + A2RLCLx = x - A2R

R = 0.29

x = 15.9469

A2 = 0.729

===

UCLx = 15.9469 + 0.729 (0.29) = 16.156 oz.LCLx = 15.9469 – 0.729 (0.29) = 15.738 oz.

Glacier Bottling

Monitoring Process with R chart and Xbar chart

Figure S6.7

Your Turn: Buzz Group

Monitoring the bottling process

(3 pages)

• Shows % of nonconforming items

• Attributes control chart

– Nominally scaled categorical data

• e.g., good-bad

p Chart

p Chart Control Limits

# Defective Items in Sample i

Size of sample i

z = 2 for 95.5% limits;

z = 3 for 99.7% limits

s

ii

p

p

n

nppzpLCL

nppzpUCL

1

i

s

1ix

p

)1(

)1(

HOMETOWN BANK

Hometown Bank

The operations manager of the booking services department of Hometown Bank is concerned about the number of wrong customer account numbers recorded by Hometown personnel. Each week a random sample of 2,500 deposits is taken, and the number of incorrect account numbers is recorded. The records for the past 12 weeks are shown in the following table. Is the process out of control? Use 3-sigma control limits.

Hometown Bank

UCLp = p + zp

LCLp = p - zp

p = p(1 - p)/n

Sample WrongNumber Account

Number 1 15 2 12 3 19 4 2 5 19 6 4 7 24 8 7 9 1010 1711 1512 3

Total 147

Total defectivesTotal observationsp =

n = 2500

Control Charts for Attributes

Control Chartsfor Attributes

Hometown Bank

UCLp = p + zp

LCLp = p - zp

p = p(1 - p)/n

Sample WrongNumber Account Number

1 15 2 12 3 19 4 2 5 19 6 4 7 24 8 7 9 1010 1711 1512 3

Total 147

14712(2500)

p =

n = 2500

Control Chartsfor Attributes

Hometown Bank

UCLp = p + zp

LCLp = p - zp

p = p(1 - p)/n

Sample WrongNumber Account Number

1 15 2 12 3 19 4 2 5 19 6 4 7 24 8 7 9 1010 1711 1512 3

Total 147

p = 0.0049

n = 2500

Control Chartsfor AttributesHometown Bank

UCLp = p + zp

LCLp = p – zp

p = p(1 – p)/n

n = 2500 p = 0.0049

Control Chartsfor AttributesHometown Bank

UCLp = p + zp

LCLp = p – zp

p = 0.0049(1 – 0.0049)/2500

n = 2500 p = 0.0049

Control Chartsfor AttributesHometown Bank

UCLp = p + zp

LCLp = p – zp

p = 0.0014

n = 2500 p = 0.0049

Control Chartsfor AttributesHometown Bank

p = 0.0014

n = 2500 p = 0.0049

UCLp = 0.0049 + 3(0.0014)LCLp = 0.0049 – 3(0.0014)

Control Chartsfor AttributesHometown Bank

p = 0.0014

n = 2500 p = 0.0049

UCLp = 0.0049 + 3(0.0014)LCLp = 0.0049 – 3(0.0014)

Why 3?3-sigma limits

Also to within 99.7%

UCLp = 0.0091LCLp = 0.0007

Control Chartsfor AttributesHometown Bank

p = 0.0014

n = 2500 p = 0.0049

p-ChartWrong Account Numbers

p-ChartWrong Account Numbers

p-ChartWrong Account Numbers

Investigate Cause

Figure S6.7

Which control chart is appropriate?

• Webster Chemical Company produces mastics and caulking for the construction industry. The product is blended in large mixers and then pumped into tubes and capped.

• Webster is concerned whether the filling process for tubes of caulking is in statistical control. The process should be centered on 8 ounces per tube. Several samples of eight tubes are taken and each tube is weighed in ounces.

Which control chart is appropriate?

• Webster Chemical Company produces mastics and caulking for the construction industry. The product is blended in large mixers and then pumped into tubes and capped.

• Webster is concerned whether the filling process for tubes of caulking is in statistical control. The process should be centered on 8 ounces per tube. Several samples of eight tubes are taken and each tube is weighed in ounces.

X-bar and R charts

Which control chart is appropriate?

• A sticky scale brings Webster’s attention to whether caulking tubes are being properly capped. If a significant proportion of the tubes aren’t being sealed, Webster is placing their customers in a messy situation. Tubes are packaged in large boxes of 144. Several boxes are inspected. The number of leaking tubes in each box is recorded.

Which control chart is appropriate?

• A sticky scale brings Webster’s attention to whether caulking tubes are being properly capped. If a significant proportion of the tubes aren’t being sealed, Webster is placing their customers in a messy situation. Tubes are packaged in large boxes of 144. Several boxes are inspected. The number of leaking tubes in each box is recorded.

P charts

Figure S6.7Your Turn: Buzz Group

Are these samples in control?

(1 page)

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