Genichi Taguchi (January 1, 1924 - June
2, 2012) was an engineer and statistician. Taguchi studied textile engineering
at Kiryu Technical College.33 After WWII he worked for the Japanese
Ministry of Public Health and Welfare and conducted the nation's first study on
health and nutrition. He also applied his quality improvement knowledge at
Morinaga Pharmaceutical and even worked for a candy maker, Morinaga Sieka, to
reduce the melting properties of caramel at room temperature.34
From the 1950s onwards,
Taguchi developed a methodology for applying statistics to improve the quality
of manufactured goods. Taguchi methods have been controversial among some conventional
Western statisticians,35 but others have accepted many of the
concepts introduced by him as valid extensions to the body of knowledge. He is
the executive director of the American Supplier Institute, the director of the
Japan Industrial Technology Institute, and an honorary professor at Nanjing Institute
of Technology in China. Genichi Taguchi is well known for developing a
methodology to improve quality and reduce costs, which, in the United States,
is referred to as the Taguchi Methods.36 He also developed the
quality loss function.
Taguchi received the
Indigo Ribbon from the Emperor of Japan in 1986 for his outstanding
contributions to Japanese economics and industry. That year he also received
the International Technology Institute's Willard F. Rockwell Medal for
combining engineering and statistical methods to achieve rapid improvements in
cost and quality by optimizing product design and manufacturing processes. In
1995, the Japanese Society of Quality Control made him an honorary member.37
Major contributions of Genichi Taguchi are:
- Taguchi loss function
- The philosophy of off-line quality control
- Design of experiments
Taguchi Loss Function
Taguchi devised an
equation to quantify the decline of a customer's perceived value of a product
as its quality declines. Essentially, it tells managers how much revenue they
are losing because of variability in their production process.34 It
is a powerful tool for projecting the benefits of a quality improvement
program. Taguchi was the first person to equate quality with cost. Taguchi loss
function is a diagram of the loss for the company that actual results differ
from a target value. Taguchi loss function is intended to capture not only the
loss to the customer, but to society and society at large which can be measured
by cost.
The loss function
estimates loss even if parts are made within specification limits. This is
necessary to allow for the fact that a company that makes all parts within
specification limits still has warranty and customer complaints. That is, there
is some loss associated with a population of parts no matter how well they are
produced. As long as any parts differ from the target specifications, there is some
loss.
Taguchi defines loss as
a quadratic expression in terms of measured quality characteristics of the part
that ranges between the target value and the specification limits, that is,
upper and lower specification limits. The loss function is defined such that
when the part is made on the target, the loss is absent. The loss becomes the
same as the cost of production of a single part, which is the cost of
rejection, when all parts are made outside specification limits. The loss
between the target and the specification limits is of parabolic shape,
symmetrical about the target.38 The application of Taguchi
loss functions can be an excellent tool when faced with determining the utility
of competing scheduling policies or practices. A critical insight of
Taguchi’s theory is that the total expected cost can be reduced by moving the
mean closer to the target and reducing variance. Thus, even if the average
prosthetic component is aligned properly, cost reductions can be obtained
by reducing the variance of the alignment.39
Design of Experiments
The time required to
complete an experiment is extremely long especially for investigating and
evaluating large quantity of factors that are affecting the desired quality
characteristics. The difficulties are further encountered when experiment has
to be repeated for several modelling and verification purpose until accurate
and validated result is obtained. Therefore the Taguchi method for design of
experiment has become an alternative in solving these problems and also chosen
as the right solution to industrial organization in improving their product and
process design. The Taguchi method which was designed to reduce the engineering
experimental time and cost stimulate the initiative and effort for product
improvement and assisted the continuous improvement in processing capability.
Its simplicity in data collection as well as practical in designing the product
and process parameters make design of experiment possible in any organization
and business operation40.
Taguchi constructed a
special set of general designs for factorial experiments that covers many
applications. They are orthogonal arrays with number of experiment, factors and
levels for each special design orthogonal arrays. The use of these arrays helps
to determine numbers of experiments needed for a given set of factors. When
fixed number of levels for all factors is involved and the interaction are
unimportant, standard orthogonal arrays will satisfy most experimental design
needs. Taguchi method successfully resolves the difficulties in compacting
experimental design by having the orthogonal arrays that represents the
possible experimental condition and a standard procedure to analyse the
experimental result41. The Taguchi method is a concept developed
base on the optimization through design of experiments, in which, experiment
will be carried out and the value of quality is very much significant to
discipline the way for developing a product and investigating complex problems42.
Undoubtedly, this method has provided cost effective ways to examine and find
available alternatives in design and processing issues.
Eight-Steps in Taguchi Methodology:
Step-1: Identify the main function, side effects, and
failure mode
Step-2: Identify the noise factors, testing
conditions, and quality characteristics
Step-3: Identify the objective function to be
optimized
Step-4: Identify the control factors and their levels
Step-5: Select the orthogonal array matrix experiment
Step-6: Conduct the matrix experiment
Step-7: Analyze the data, predict the optimum levels
and performance
Step-8:
Perform the verification experiment and plan the future action
The philosophy of off-line quality control
The
Taguchi method considers design to be more important than the manufacturing
process in quality control and tries to eliminate variances in production
before they can occur.43 Taguchi realized that the best opportunity to
eliminate variation is during the design of a product and its manufacturing
process. Consequently, he developed a strategy for quality engineering that can
be used in both contexts. The process has three stages44:
I. System design
II. Parameter design
III.
Tolerance design
System design: This is design at the
conceptual level, involving creativity and innovation.
Parameter design: Once the concept is
established, the nominal values of the various dimensions and design parameters
need to be set, the detail design phase of conventional engineering. This is
sometimes called robustification.
Tolerance
design: With a successfully completed parameter design, and an understanding of
the effect that the various parameters have on performance, resources can be
focused on reducing and controlling variation in the critical few dimensions.
References
33. Wikipedia, http://en.wikipedia.org/wiki/Genichi_Taguchi
34. Genichi Taguchi and Taguchi Methods - Practical, Rapid Quality, http://www.skymark.com/resources/leaders/taguchi.asp
35. Wadsworth, Harrison M., Handbook of statistical methods for engineers and scientists (2nd ed.). New York: McGraw-Hill Professional,1997 Pg :214
36. Smith, Gerald F. ,Quality problem solving, American Society for Quality, New York, 1998, pp. 250-251
37. Genichi Taguchi, http://asq.org/about-asq/who-we-are/bio_taguchi.html
38. Ranjith K Roy, Design of Experiments Using The Taguchi Approach, Wiley Interscience Publications, Canada, 2001, pg:14
39. http://www.academia.edu/4265348/Taguchi_loss_function
40. Jaharah A. Ghani, Haris Jamaluddin, Philosophy of Taguchi Approach and Method in Design of Experiment , http://scialert.net/fulltext/?doi=ajsr.2013.27.37&org=11#92489_b
41. Chen, W.C., M.W. Wang, G.I. Fu and C.T. Chen, 2008. Optimization of plastic injection molding process via Tauchi's parameter design method, BPNN and DFP.
42. Roy, R.K., A Primer on The Taguchi Method. Van Nostrand Reinhold, New York, USA.,1990, Pages: 247.
43. Taguchi Method Of Quality Control ,http://www.investopedia.com/terms/t/taguchi- method-of-quality-control.asp
44. Shyam Kumar Karna & Dr. Rajeshwar Sahai, An Overview on Taguchi Method, International Journal of Engineering and Mathematical Sciences, Volume 1, Issue – 1, June 2012, pp.1-7
34. Genichi Taguchi and Taguchi Methods - Practical, Rapid Quality, http://www.skymark.com/resources/leaders/taguchi.asp
35. Wadsworth, Harrison M., Handbook of statistical methods for engineers and scientists (2nd ed.). New York: McGraw-Hill Professional,1997 Pg :214
36. Smith, Gerald F. ,Quality problem solving, American Society for Quality, New York, 1998, pp. 250-251
37. Genichi Taguchi, http://asq.org/about-asq/who-we-are/bio_taguchi.html
38. Ranjith K Roy, Design of Experiments Using The Taguchi Approach, Wiley Interscience Publications, Canada, 2001, pg:14
39. http://www.academia.edu/4265348/Taguchi_loss_function
40. Jaharah A. Ghani, Haris Jamaluddin, Philosophy of Taguchi Approach and Method in Design of Experiment , http://scialert.net/fulltext/?doi=ajsr.2013.27.37&org=11#92489_b
41. Chen, W.C., M.W. Wang, G.I. Fu and C.T. Chen, 2008. Optimization of plastic injection molding process via Tauchi's parameter design method, BPNN and DFP.
42. Roy, R.K., A Primer on The Taguchi Method. Van Nostrand Reinhold, New York, USA.,1990, Pages: 247.
43. Taguchi Method Of Quality Control ,http://www.investopedia.com/terms/t/taguchi- method-of-quality-control.asp
44. Shyam Kumar Karna & Dr. Rajeshwar Sahai, An Overview on Taguchi Method, International Journal of Engineering and Mathematical Sciences, Volume 1, Issue – 1, June 2012, pp.1-7
