1. Why/When is Taguchi Method Appropriate?
A new tip Every Friday
Friday, 6th July 2001

2. Tip #12
Taguchi Method “inner” L8 array with “outer” L4 and L9 NoIsE arrays (next 9 slides)
Friday, 6th July 2001

3. “inner” L8 array with “outer” L4 and L9 NoIsE arrays
all 7 columns assigned
 To Control Factors (3 slides)
Column 3 ‘empty’
 To study interaction between
Control Factors A and B
assigned to columns 1 and (3 slides)
Column 1,2 and 3 assigned
 to a single 4-Level Control Factor (3 slides)

4. L8 expt. with 2 Noise Factors (2-levels each)
(7) Taguchi Method for Q&R : L9 expt. with 2 noise factors
L8 expt. with 2 Noise Factors (2-levels each)
Control Factors
Measurements to Capture Noise
Expt.No. 1 2 3 4 5 6 7 8 A B C D E F G
H1K1
K1K2
H2K1
H2K2
H1K1
K1K2
H2K1
H2K2
Y11
Y12
Y13
Y14
Y21
Y22
Y23
Y24
Y31
Y32
Y33
Y34
Y41
Y42
Y43
Y44
Y51
Y52
Y53
Y54
Y61
Y62
Y63
Y64
Y71
Y72
Y73
Y74
Y81
Y82
Y83
Y84
H and K are noise factors with 2 level each
‘all’ 4 combinations are H1K1 , H1K2 , H2K1 and H2K2

5. L8 expt. With L4 Noise Array
(7) Taguchi Method for Q&R : L9 expt. with 2 noise factors
Measurements to Capture Noise
L8 expt. With L4 Noise Array
L4 Array H K 1 2 3 4 M #
Control Factors 1 2 3 4 5 6 7 8
Expt.No. A B C D E F G
Y11
Y12
Y13
Y14
Y21
Y22
Y23
Y24
Y31
Y32
Y33
Y34
Y41
Y42
Y43
Y44
Y51
Y52
Y53
Y54
Y61
Y62
Y63
Y64
Y71
Y72
Y73
Y74
Y81
Y82
Y83
Y84
H1K1M1
H1K2M2
H2K1M2
H2K2M1
H, K and M are noise factors with 2 level each, 4 combinations as per L4 Array are H1K1M1 , H1K2M2, H2K1M2 and H2K2M1

6. L8 expt. With L4 Noise Array
(7) Taguchi Method for Q&R : L9 expt. with 2 noise factors
L8 expt. With L4 Noise Array H K M N 1 2 3
L9 Array
Control Factors
Measurements to Capture NoIsE
Expt.No. A B C D E F G #1 #2 #3 #4 #5 #6 #7 #8 #9 #1 #2 #3 #4 #5 #6 #7 #8 #9 1 2 3 4 5 6 7 8
Y11
Y12
Y13
Y14
Y15
Y16
Y17
Y18
Y19
Y21
Y22
Y23
Y24
Y25
Y26
Y27
Y28
Y29
Y31
Y32
Y33
Y34
Y35
Y36
Y37
Y38
Y39
Y41
Y42
Y43
Y44
Y45
Y46
Y47
Y48
Y49
Y51
Y52
Y53
Y54
Y55
Y56
Y57
Y58
Y59
Y61
Y62
Y63
Y64
Y65
Y66
Y67
Y68
Y69
Y71
Y72
Y73
Y74
Y75
Y76
Y77
Y78
Y79
Y81
Y82
Y83
Y84
Y85
Y86
Y87
Y88
Y89
H, K, M and N are noise factors with 3 level each,
9 combinations as per L9 Array are used for measurements #1 to #9

7. L8 expt. with 2 Noise Factors (2-levels each) Study Interaction A x B
(7) Taguchi Method for Q&R : L9 expt. with 2 noise factors
L8 expt. with 2 Noise Factors (2-levels each) Study Interaction A x B
Control Factors
Measurements to Capture Noise
Expt.No. A B
AXB
empty D E F G
H1K1
K1K2
H2K1
H2K2
H1K1
K1K2
H2K1
H2K2 1 2 3 4 5 6 7 8 1 2 3 1 2 - 1 2 1 2 1 2 1 2
Y11
Y12
Y13
Y14
Y21
Y22
Y23
Y24
Y31
Y32
Y33
Y34
Y41
Y42
Y43
Y44
Y51
Y52
Y53
Y54
Y61
Y62
Y63
Y64
Y71
Y72
Y73
Y74
Y81
Y82
Y83
Y84
A x B is in column 3, so leave it empty
H and K are noise factors with 2 level each
‘all’ 4 combinations are H1K1 , H1K2 , H2K1 and H2K2

8. L8 expt. With Noise Array Study Interaction A x B
(7) Taguchi Method for Q&R : L9 expt. with 2 noise factors
Measurements to Capture Noise
L8 expt. With Noise Array Study Interaction A x B H K 1 2 3 4 M #
L4 Array
Control Factors 1 2 3 4 5 6 7 8 -
Expt.No. A B
AXB
empty D E F G
H1K1M1
H1K2M2
H2K1M2
H2K2M1
Y11
Y12
Y13
Y14
Y21
Y22
Y23
Y24
Y31
Y32
Y33
Y34
Y41
Y42
Y43
Y44
Y51
Y52
Y53
Y54
Y61
Y62
Y63
Y64
Y71
Y72
Y73
Y74
Y81
Y82
Y83
Y84
A x B is in column 3, so leave it empty
H, K and M are noise factors with 2 level each, 4 combinations as per L4 Array are H1K1M1 , H1K2M2, H2K1M2 and H2K2M1

9. L8 expt. With Noise Array Study Interaction A x B
(7) Taguchi Method for Q&R : L9 expt. with 2 noise factors
L8 expt. With Noise Array Study Interaction A x B H K M N 1 2 3
L9 Array
Control Factors
Measurements to Capture NoIsE
Expt.No. A B
AXB
empty D E F G #1 #2 #3 #4 #5 #6 #7 #8 #9 #1 #2 #3 #4 #5 #6 #7 #8 #9 1 2 3 4 5 6 7 8 1 2 3 1 2 - 1 2 1 2 1 2 1 2
Y11
Y12
Y13
Y14
Y15
Y16
Y17
Y18
Y19
Y21
Y22
Y23
Y24
Y25
Y26
Y27
Y28
Y29
Y31
Y32
Y33
Y34
Y35
Y36
Y37
Y38
Y39
Y41
Y42
Y43
Y44
Y45
Y46
Y47
Y48
Y49
Y51
Y52
Y53
Y54
Y55
Y56
Y57
Y58
Y59
Y61
Y62
Y63
Y64
Y65
Y66
Y67
Y68
Y69
Y71
Y72
Y73
Y74
Y75
Y76
Y77
Y78
Y79
Y81
Y82
Y83
Y84
Y85
Y86
Y87
Y88
Y89
H, K, M and N are noise factors with 3 level each,
9 combinations as per L9 Array are used for measurements #1 to #9

10. (7) Taguchi Method for Q&R : L9 expt. with 2 noise factors
L8 expt. with 2 Noise Factors (2-levels each) Use a 4-Level Factor in place of A x B
Control Factors
Measurements to Capture Noise
Expt.No. 1 2 3 4 5 6 7 8 - R
AXB
empty D E F G
H1K1
K1K2
H2K1
H2K2
H1K1
K1K2
H2K1
H2K2
Y11
Y12
Y13
Y14
Y21
Y22
Y23
Y24
Y31
Y32
Y33
Y34
Y41
Y42
Y43
Y44
Y51
Y52
Y53
Y54
Y61
Y62
Y63
Y64
Y71
Y72
Y73
Y74
Y81
Y82
Y83
Y84
R is assigned to column 1x2 and column 3 is left empty
H and K are noise factors with 2 level each
‘all’ 4 combinations are H1K1 , H1K2 , H2K1 and H2K2

11. L8 expt. With L4 Noise Array Use a 4-Level Factor in place of A & B
(7) Taguchi Method for Q&R : L9 expt. with 2 noise factors
Measurements to Capture Noise
L8 expt. With L4 Noise Array Use a 4-Level Factor in place of A & B
L4 Array H K 1 2 3 4 M #
Control Factors
Expt.No. 1 2 3 4 5 6 7 8 - R
AXB
empty D E F G
H1K1M1
H1K2M2
H2K1M2
H2K2M1
Y11
Y12
Y13
Y14
Y21
Y22
Y23
Y24
Y31
Y32
Y33
Y34
Y41
Y42
Y43
Y44
Y51
Y52
Y53
Y54
Y61
Y62
Y63
Y64
Y71
Y72
Y73
Y74
Y81
Y82
Y83
Y84
R is assigned to column 1x2 and column 3 is left empty
H, K and M are noise factors with 2 level each, 4 combinations as per L4 Array are H1K1M1 , H1K2M2, H2K1M2 and H2K2M1

12. L8 expt. With L9 Noise Array Use a 4-Level Factor in place of A & B
(7) Taguchi Method for Q&R : L9 expt. with 2 noise factors
L8 expt. With L9 Noise Array Use a 4-Level Factor in place of A & B H K M N 1 2 3
L9 Array
Control Factors
Measurements to Capture NoIsE
Expt.No. R
AXB
empty D E F G #1 #2 #3 #4 #5 #6 #7 #8 #9 #1 #2 #3 #4 #5 #6 #7 #8 #9 1 2 3 4 5 6 7 8 1 2 3 4 - 1 2 1 2 1 2 1 2
Y11
Y12
Y13
Y14
Y15
Y16
Y17
Y18
Y19
Y21
Y22
Y23
Y24
Y25
Y26
Y27
Y28
Y29
Y31
Y32
Y33
Y34
Y35
Y36
Y37
Y38
Y39
Y41
Y42
Y43
Y44
Y45
Y46
Y47
Y48
Y49
Y51
Y52
Y53
Y54
Y55
Y56
Y57
Y58
Y59
Y61
Y62
Y63
Y64
Y65
Y66
Y67
Y68
Y69
Y71
Y72
Y73
Y74
Y75
Y76
Y77
Y78
Y79
Y81
Y82
Y83
Y84
Y85
Y86
Y87
Y88
Y89
R is assigned to column 1x2 and column 3 is left empty
H, K, M and N are noise factors with 3 level each,
9 combinations as per L9 Array are used for measurements #1 to #9

13. More Tips Links below Tips 12, 11, 10  Taguchi Method
Friday, 3rd Aug 2001
Friday, 27th July 2001
Friday, 20th July 2001
Friday, 13th July 2001
Taguchi Method
1st Priority : Variance Reduction 2nd Priority : Factor Effects
15. “inner” L9 array with “outer” L4 and L9 NoIsE arrays
“inner” L18 array with “outer” L4 and L9 NoIsE arrays
Taguchi Method Why/When is Taguchi Method not Appropriate?
Tips 12, 11, 10 

14. More Tips Links below Taguchi Method
Friday, 6th July 2001
Friday, 29th June 2001
Friday, 22nd June 2001
Taguchi Method
“inner” L8 array with “outer” L4 and L9 NoIsE arrays
Useful at ALL Life-stages of a Process or Product
Performs Process “centering” or “fine tuning”
Tips 9, 8, 7 

15. More Tips Links below Tips 6, 5, 4 
Taguchi Method Identifies the “right” NoIsE factor(s) for Tolerance Design
Taguchi Method
Finds best settings to optimize TWO quality characteristics Simultaneously
7. Taguchi Method
When to select a ‘Larger’ OA to perform “Factorial Experiments”
Friday, 15th June 2001
Friday, 8th June 2001
Friday, 1st June 2001
Tips 6, 5, 4 

16. More Tips Links below Tips 3, 2, 1 
Friday, 25th May 2001
Friday, 18th May 2001
Friday, 11th May 2001
Taguchi Method Using Orthogonal Arrays for Generating Balanced Combinations of NoIsE Factors
Taguchi Method Signal-to-Noise Ratio for Quality Characteristics approaching IDEAL value
4. Taguchi Method improves " quality “ at all the life stages
at the design stage itself
Tips 3, 2, 1 

17. More Tips Links below
Friday, 4th May 2001
Friday, 27th April 2001
Friday, 6th April 2001
3. Taguchi Method Appropriate for Concurrent Engineering
2. Taguchi Method can study Interaction
between Noise Factors and Control Factors
1. Taguchi’s Signal-to-Noise Ratios are in Log form

18. end