control charts
TRANSCRIPT
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CONTROL CHARTS
ARAVIND BABU RSAHUL HAMEED.H
M.E-INDUSTRIAL ENGG
1
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AGENDA
• What is control chart?
• History of control chart
• Types of data
• Defect and defective
• Types of control charts
• Control limits vs specification limits
• Variable control charts
• Attribute control charts
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CONTROL CHART
A statistical tool to study the variation in the process over time.
A control chart always has a
• central line for the average,
• an upper line for the upper control limit and
• a lower line for the lower control limit.
• These lines are determined from historical data.
CL = Mean x
UCL = x + 3σ
Y-axis
X-axis
LCL = x - 3σ
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CONTROL CHART
Purpose:
• Analyze the past data and determine the performance of the process
• Measure control of the process against standards
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HISTORY
• Invented by Walter Andrew Shewhart, father of statistical quality control in 1920.
• The company's engineers had been seeking to improve the reliability of their telephony
transmission systems. • There was a stronger business need to reduce the frequency of failures and repairs
• Shewhart framed the problem in terms of Common- and special-causes of variation and, on May 16, 1924, wrote an internal memo introducing the control chart as a tool for distinguishing between the two.
• He understood data from physical processes typically produce a "normal distribution curve“.
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TYPES OF DATA
DISCRETE DATA CONTINUOUS DATAInfinite number of values between whole numbers
Data that can be counted
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DEFECTS AND DEFECTIVES
Defects :
• A defect is any item or service that exhibits a departure from specifications.
• A defect does not necessarily mean that the product or service cannot be used.
• A defect indicates only that the product result is not entirely as intended.
Example: crack, bend in a shaft
Defectives:
• A defective is an item or service that is considered
completely unacceptable for use.
• Each item or service experience is either considered
defective or not—there are only two choices.
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LOTS AND SAMPLES
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CONTROL LIMITS• Voice of the process
• Calculated from Data
• Appear on control charts
• Appear to subgroups
• Guide for process actions
• What the process is doing
SPECIFICATION LIMITS• Voice of the customer
• Defined from the customer
• Appear on histograms
• Apply to items
• Separate good items from bad items
• What we want the process do
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TYPES OF CONTROL CHARTS
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CONTROL CHARTSGeneral Procedure of constructing a chart:A control chart consists of:• A graph such that part number is plotted along X-axis and attribute measure along Y-
axis.
• The mean of this statistic using all the samples is calculated (e.g., the mean of the means, mean of the ranges, mean of the proportions)
• A centre line (CL) is drawn at the value of the mean.
CL = Mean x
Y-axis
X-axis
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CONTROL CHARTS
• The standard deviation σ of the statistic is also calculated using all the samples.
• Upper and lower control limits indicate the threshold at which the process output is considered undesired and are drawn at 3 standard deviation from the centre line.
CL = Mean x
UCL = x + 3σ
LCL = x - 3σ
Y-axis
X-axis
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CONTROL CHARTS• Plot the attribute measure representing a statistic (e.g., a mean, range, proportion) of
measurements of a quality characteristic in samples taken from the process at different times (i.e., the da for each part number and join all the points to form a curve).
• If anyone of the points in the curve exceeds the upper and lower control limits, then the process is said to be out of control
CL = Mean x
UCL = x + 3σ
LCL = x - 3σA
B
C
D
EF
GH
I
J
K
L M
Y-axis
X-axis
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CONTROL CHARTS FOR VARIABLES
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CONTROL CHART FOR VARIABLES
A single measurable quality characteristic ,such as dimension, weight, or volume, is called
variable.
Our objectives for this section are to learn how to use control charts to monitor continuous
data.
We want to learn the assumptions behind the charts, their application, and their interpretation.
Since statistical control for continuous data depends on both the mean and the variability,
variables control charts are constructed to monitor each.
The most commonly used chart to monitor the mean is called the X-BAR chart.
There are two commonly used charts used to monitor the variability: the R chart and the s
chart.15
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The X-BAR Chart:
This chart is called the X-BAR chart because the statistic being plotted is the sample mean. The
reason for taking a sample is because we are not always sure of the process distribution. By using
the sample mean we can "invoke" the central limit theorem to assume normality.
The R chart
I. The R chart is used to monitor process variability when sample sizes are small (n<10), or to simplify the
calculations made by process operators.
II. This chart is called the R chart because the statistic being plotted is the sample range.III. Using the R chart, the estimate of the process standard deviation,σ ,is R/d2.
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THE S CHART
i. The s chart is used to monitor process variability when sample sizes are large (n*10), or when a computer is available to automate the calculations.
ii. This chart is called the s chart because the statistic being plotted is the sample standard deviation.
iii. Using the s chart, the estimate of the process standard deviation, σ, is
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PROCEDURE FOR USING VARIABLES CONTROL CHARTS:
I. Determine the variable to monitor.
II. At predetermined, even intervals, take samples of size n (usually n=4 or 5).
III. Compute X BAR and R (or s) for each sample, and plot them on their respective control
charts. Use the following relationships:
IV. After collecting a sufficient number of samples, k (k>20), compute the control limits for the
charts. The following additional calculations will be necessary:
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V. If any points fall outside of the control limits, conclude that the process is out of control, and
begin a search for an assignable or special cause. When the special cause is identified,
remove that point and return to step 4 to re-evaluate the remaining points.
VI. If all the points are within limits, conclude that the process is in control, and use the calculated
limits for future monitoring of the process.
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EXAMPLE PROBLEM
A large hotel in a resort area has a housekeeping staff that cleans and prepares all of the hotel's
guestrooms daily. In an effort to improve service through reducing variation in the time required to
clean and prepare a room, a series of measurements is taken of the times to service rooms in one
section of the hotel. Cleaning times for five rooms selected each day for 25 consecutive days
appear below:
Day Room 1 Room 2 Room 3 Room 4 Room 5
1 15.6 14.3 17.7 14.3 15
2 15 14.8 16.8 16.9 17.4
3 16.4 15.1 15.7 17.3 16.6
4 14.2 14.8 17.3 15 16.4
5 16.4 16.3 17.6 17.9 14.9
6 14.9 17.2 17.2 15.3 14.1
7 17.9 17.9 14.7 17 14.5
8 14 17.7 16.9 14 14.9
9 17.6 16.5 15.3 14.5 15.1
10 14.6 14 14.7 16.9 14.2
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11 14.6 15.5 15.9 14.8 14.2
12 15.3 15.3 15.9 15 17.8
13 17.4 14.9 17.7 16.6 14.7
14 15.3 16.9 17.9 17.2 17.5
15 14.8 15.1 16.6 16.3 14.5
16 16.1 14.6 17.5 16.9 17.7
17 14.2 14.7 15.3 15.7 14.3
18 14.6 17.2 16 16.7 16.3
19 15.9 16.5 16.1 15 17.8
20 16.2 14.8 14.8 15 15.3
21 16.3 15.3 14 17.4 14.5
22 15 17.6 14.5 17.5 17.8
23 16.4 15.9 16.7 15.7 16.9
24 16.6 15.1 14.1 17.4 17.8
25 17 17.5 17.4 16.2 17.9
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CALCULATE THE MEAN, RANGE, STANDARD DEVIATION
Day Average Range St. Dev
1 15.4 3.4 1.41
2 16.2 2.6 1.19
3 16.2 2.2 0.85
4 15.5 3.1 1.27
5 16.6 3 1.19
6 15.7 3.1 1.4
7 16.4 3.4 1.69
8 15.5 3.7 1.71
9 15.8 3.1 1.24
10 14.9 2.9 1.16
11 15 1.7 0.69
12 15.9 2.8 1.13
13 16.3 3 1.39
14 17 2.6 1
15 15.5 2.1 0.93
16 16.6 3.1 1.26
17 14.8 1.5 0.65
18 16.2 2.6 0.98
19 16.3 2.8 1.02
20 15.2 1.4 0.58
21 15.5 3.4 1.37
22 16.5 3.3 1.59
23 16.3 1.2 0.51
24 16.2 3.7 1.56
25 17.2 1.7 0.64
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CALCULATE THE CONTROL LIMITS
15.94 2.7 1.14
X R s
x Chart Control Limits
UCL = x + A R
LCL = x - A R
2
2
R Chart Control Limits
UCL = D R
LCL = D R
4
3
X-BAR , R CHART X- BAR ,S CHART
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TABLE FOR CONSTANTS
SQC A MODERN INTRODUCTION 6th Edition,D.C. Montgomery
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CONSTANTS FOR X-BAR ,R & X-BAR, S CHARTS
X-BAR , R CHART X-BAR , S CHART
A2 D4 D3
0.577 2.004 0
A3 B4 B3
1.427 2.089 0
X-BAR CHART
CL =15.94UCL = 15.94+ 0.577(2.7) = 17.49LCL = 15.94 – 0.577(2.7) = 14.38
R CHART
CL = 2.7UCL = 2.004(2.7) = 5.41LCL = 0 (2.7) = 0
X-BAR CHART
CL =15.94UCL = 15.94+ 1.427(1.14) = 17.56LCL = 15.94 – 1.427(1.14) = 14.31
S CHART
CL = 1.14UCL = 2.089(1.14) = 2.38LCL = 0 (1.14) = 0
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X-BAR , R CONTROL CHART
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X-BAR,S CONTROL CHART
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CONTROL CHARTS FOR ATTRIBUTES
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CONTROL CHARTS
CLASSIFICATION OF ATTRIBUTES CONTROL CHARTS
CONTROL CHARTS FOR ATTRIBUTES
CLASSIFICATION CHARTS
P-chart
NP-chart
COUNT CHARTS
C-chart
U-chart
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CONTROL CHARTS FOR ATTRIBUTES
Classification charts:Classification charts deal with either the fraction of items or the
number of items in a series of subgroups.
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CONTROL CHARTS FOR ATTRIBUTES
P – chart:The P-Chart monitors the percent of samples having the condition, relative to
either a fixed or varying sample size.
EXAMPLE SCENARIO:Consider a shop purchasing bundles of readymade shirts from same
manufacturer. The number of shirts in each bundle and the defective item are as follows. Plot a suitable control chart.
Keywords: Changing sample size (No. of shirts in the bundle), defectives.
No. of shirts in the bundle
No. of defective shirts
20 5
15 3
20 2
25 1
20 5
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CONTROL CHARTS FOR ATTRIBUTES(P chart)A team in an accounting group has been working on improving the processing of invoices. The
team is trying to reduce the cost of processing invoices by decreasing the fraction of invoices with errors. The team developed the following operational definition for a defective invoice: an invoice is defective if it has incorrect price, incorrect quantity, incorrect coding, incorrect address, or incorrect name. The team decided to pull a random sample of 50 invoices per day. If the invoice had one or more errors it was defective. The data from the last 20 days are given in the table. Draw the p chart.
Sample no No of defectives Fraction defective
1 4 0.082 3 0.063 8 0.164 12 0.245 7 0.146 15 0.307 20 0.408 13 0.269 9 0.1810 8 0.1611 5 0.10
Sample no No of defectives Fraction defective
12 14 0.28
13 9 0.18
14 11 0.22
15 2 0.04
16 9 0.18
17 3 0.06
18 13 0.26
19 6 0.12
20 9 0.18
180
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CONTROL CHARTS FOR ATTRIBUTES (P chart)
CALCULATION:
P =Σpi/n
= 18/(20 x 50)
= 0.18
UCL = p + 3 √(p x (1-p)/n)
= 0.18 + 3 √(0.18 x (1 - 0.18)/50)
= 0.343
LCL = p - 3 √(p x (1-p)/n)
= 0.18 - 3 √(0.18 x (1- 0.18)/50)
= 0.017
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CONTROL CHARTS FOR ATTRIBUTES (P chart)
The process is out of control because lot number 7 exceeds the upper control limit.
191715131197531
0.4
0.3
0.2
0.1
0.0
Sample
Pro
port
ion
_P=0.18
UCL=0.3430
LCL=0.0170
1
P Chart of C2
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CONTROL CHARTS FOR ATTRIBUTES
NP-chart:The NP-Chart monitors the number of times a condition occurs, relative to a
constant sample size.
Example scenario:Consider a ball manufacturing company. It produces 1000 balls daily. The
number of defective balls produced each day for 10 days are 10, 13, 9, 3, 7, 16, 21,19, 12, 10. Plot the control chart.
Keywords: Sample size doesn’t change (1000 balls), defectives
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CONTROL CHARTS FOR ATTRIBUTES (NP chart)
The data representing the results of inspecting l00 units of personal computer produced for the past 10 days. Does the process appear to be in control.
Sample lot number Sample size No. of defectives
1 100 8
2 100 7
3 100 12
4 100 5
5 100 18
6 100 2
7 100 10
8 100 16
9 100 14
10 100 6
Total 1000 98
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CONTROL CHARTS FOR ATTRIBUTES (NP chart)
CALCULATION:
Average number of defective = np =98/10 = 9.8
Average fraction defective = p =98/1000 = 0.098
UCL = np + 3 √(np x (1-p))
= 9. 8 + 3 √(9.8 x (1 - 0.098))
= 18.72
LCL = np - 3 √(np x (1-p))
= 9.8 - 3 √(9.8 x (1- 0.098))
= 0.88
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CONTROL CHARTS FOR ATTRIBUTES (NP chart)
The process is in control
10987654321
20
15
10
5
0
Sample
Sam
ple
Count
__NP=9.8
UCL=18.72
LCL=0.88
NP Chart of C3
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CONTROL CHARTS FOR ATTRIBUTES
Count charts:Count charts deal with the number of times a particular characteristic
appear in some given area of opportunity.C-chart: The c-chart monitors the number of times a condition occurs, relative to a constant sample size. In this case, a given sample can have more than one instance of the condition, in which case we count all the times it occurs in the sample.Example scenario:
Consider an engineer buys a set of 10 ropes for his construction project. All the ropes of same length of 100 meters. Each rope is inspected and the number of defects in each rope are found to be 1,1,3,1,2,1,5,3,4 and 2 respectively. Plot the control chart.
Keywords: Sample size doesn’t change (100 m), defects
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CONTROL CHARTS FOR ATTRIBUTES (C chart)
The data represents no. of non-conformities per 1000 metres in a telephone cable. From the analysis of these data, you conclude that the process is in control or not?
Sample no No. of Non-conformities1 12 13 34 75 86 107 58 139 010 1911 24
Sample no No. of Non-conformities12 613 914 1115 1516 817 318 619 720 421 922 20
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CONTROL CHARTS FOR ATTRIBUTES (C chart)
CL = c = 189/22 = 8.59
UCL = c + 3 √c
= 8.59 + 3 √8.59
= 17.38
LCL = c - 3 √c
= 8.59 - 3 √8.59
= 0
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CONTROL CHARTS FOR ATTRIBUTES (C chart)
The process is out of control
21191715131197531
25
20
15
10
5
0
Sample
Sam
ple
Count
_C=8.59
UCL=17.38
LCL=0
1
1
1
C Chart of C4
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CONTROL CHARTS FOR ATTRIBUTES
U-chart: The u-Chart monitors the percent of samples having the condition, relative to either a fixed or varying sample size. In this case, a given sample can have more than one instance of the condition, in which case we count all the times it occurs in the sample.
Example scenario: 5 lots of cloth produced by a manufacturer are inspected for defects. The sample taken for
each inspection is different. The sample taken and number of defects found are as follows.
Keywords: changing sample size (length of the cloth), defects
Length of the cloth inspected No. of defects
20 m 5
15 m 3
20 m 2
25 m 1
20 m 5
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CONTROL CHARTS FOR ATTRIBUTES (U chart)
Lots of cloth produced by a manufacturer are inspected for defects. Because of the nature of inspection process, the size of the inspection sample varies from lot to lot. Calculate the center line and lower control limits for the appropriate control chart
Lot number 100s of square yards No. of defects
1 2 5
2 2.5 7
3 1 3
4 0.9 2
5 1.2 4
6 0.8 1
7 1.4 0
8 1.6 2
Lot number 100s of square yards No. of defects
9 1.9 3
10 1.5 0
11 1.7 2
12 1.7 3
13 2 1
14 1.6 2
15 1.9 4
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CONTROL CHARTS FOR ATTRIBUTES (U chart)
CALCULATION:
CL = u = Σc/Σa
= 1.646
LCL = u – 3 √(u/a1)
= 1.646 - 3 √(1.646/2)
= 0
UCL= u1 + 3√(u/a1)
= 1.646 + 3 √ (1.646/2)
= 4.36
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CONTROL CHARTS FOR ATTRIBUTES (U chart)
The process is in control
151413121110987654321
6
5
4
3
2
1
0
Sample
Sam
ple
Count
Per
Unit
_U=1.646
UCL=4.437
LCL=0
U Chart of C6
Tests performed with unequal sample sizes
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CONTROL CHARTS FOR ATTRIBUTES
How to select control chart:
DefectsExample: A crack in the shaft
DefectivesExample: Broken shaft
Constant sample size C chart np chart
Changing sample size U chart p chart
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CONTROL CHARTS FOR ATTRIBUTESA large publisher counts the number of keyboard errors that make their way into finished
books. The number of errors and the number of pages in the past 26 publications are
Book no. No. of errors No. of pages
1 49 202
2 63 232
3 57 332
4 33 429
5 54 512
6 37 347
7 38 401
8 45 412
9 65 481
10 62 770
11 40 577
12 21 734
13 35 455
Book no. No. of errors No. of pages
14 48 612
15 50 432
16 41 538
17 45 383
18 51 302
19 49 285
20 38 591
21 70 310
22 55 547
23 63 469
24 33 652
25 14 343
26 44 401
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CONTROL CHARTS FOR ATTRIBUTES
Try yourself…
The following 20 days data represent the findings from a study conducted at a factory that manufactures film canisters. Each day 500 canisters were sampled and inspected. The number of defective film canisters were recorded each day as follows. Is this process in control?
Day No. of nonconforming
1 26
2 25
3 23
4 24
5 26
6 20
7 21
8 27
9 23
10 25
Day No. of nonconforming
11 22
12 26
13 27
14 29
15 20
16 19
17 23
18 19
19 18
20 27
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CONTROL CHARTS FOR ATTRIBUTESTry yourself…
Consider the output of a paper mill: the product appears at the end of a web and is rolled onto a spool called reel. Each reel is examined for blemishes. Results of the inspections are as follows. Is this in control?
Reel No. of blemishes
1 4
2 5
3 5
4 10
5 6
6 4
7 5
8 6
9 3
10 6
11 6
12 7
Reel No. of blemishes
13 11
14 9
15 1
16 1
17 6
18 10
19 3
20 7
21 4
22 8
23 7
24 9
25 7
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CONTROL CHARTS FOR ATTRIBUTES
Try yourself…
The following data represent the results of inspecting all units of a personal computer produced for the past 10 days. Is this process in control?
Day Unit Inspected Non-confirming units
1 80 4
2 110 7
3 90 5
4 75 8
5 130 6
6 120 6
7 70 4
8 125 5
9 105 8
10 95 7
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ADVANTAGES OF CONTROL CHARTS
A control chart indicate whether the process is in control or out of control.
It determines the process variability and detects unusual variations in a process.
It ensures product quality level.
It warns in time and if process is rectified at that time percentage of rejection can be
reduced.
It provides information about selection of process and setting up of tolerance limits.
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THANK YOU