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Objective of the Presentation
Present the concepts and elements of the Quality Function Deployment (QFD) techniques.
Highlight the application of QFD in various areas. Explore the possibility of using it in designing
YR inventory system.
Presentation Plan
Introduction Quality Function Deployment (QFD) The QFD Process Advantages of QFD Applications of QFD Applying QFD to YR inventory system.
Introduction
QFD is a planning technique that is born in Japan as a strategy for assuring that quality is built into new processes or systems design.
It helps organization to take the voice of the customer and factor their wants and needs into organization product and process planning
Introduction
Yoji Akao is widely regarded as the father of QFD and his work led to its first implementation at the Mitsubishi Heavy Industries Kobe Shipyard in 1972. The interest in QFD in the West was stimulated by reports of the achievements made by Toyota through its application between 1977 and 1984. These included a reduction in product development costs by 61%, a decrease in the development cycle by one third and the virtual elimination of rust related warranty problems
QFD Definition
Yoji Akao defined QFD as "a method for developing a design quality aimed at satisfying the consumer and then translating the consumer's demands into design targets and major quality assurance points to be used throughout the production phase".
Quality Function Deployment
QFD is a TQM tool. It is a planning technique that was born in Japan as a strategy for assuring that quality is built into new processes.
The QFD process uses matrices (sometimes called quality tables) to help organizations to satisfy their customer requirements, e.g. House of Quality (HOQ).
These matrices are developed to generate design concepts, evaluate them and propose process parameters to deliver or produce the best design concept that meets customer requirements
The house of Quality
The "House of Quality" matrix is the most recognized form of QFD. It is utilized by a multidisciplinary team to translate a set of customer requirements, drawing upon market research and benchmarking data, into an appropriate number of prioritized engineering targets to be met by a new product design. There are many slightly different forms of this matrix and this ability to be adapted to the requirements of a particular problem or group of users forms one of its major strengths. The general format of the "House of Quality" is made up of six major components which are completed in the course of a QFD project
Example HoQ
slid
es (
yes/n
o)
fric
tion facto
r
sta
rt s
witc
h forc
e (
lbf)
forc
e to s
harp
en (
lbf)
hold
forc
e r
equired
(lb
f)
gra
sp to
rqu
e (
in-lbf)
shavin
gs s
tore
age (
cu.in
.)
no. ste
ps to e
mpty
120 V
AC
(y
es/n
o)
cord
length
(ft)
poin
t cone a
ngle
(deg
ree
s)
no. hands to o
pera
te
weig
ht (o
z)
poin
t ro
ughnes
s (
mic
ro in
.)
Customer Requirements 1 2 3 4 5 6 7 8 9 10 11 12 13 14 CP A B
1 doesn't slide w hen using 0.10 9 3 3 3 9 1 3 3 0.92 needs little insertion force 0.05 9 9 0.83 requires little insertion torque 0.05 9 0.94 operates w hen pencil is inserted0.15 9 9 1.05 collects pencils shavings w ell 0.05 9 1 1.06 empties shavings easily 0.20 3 9 1 3 -3 0.67 plugs into w all socket easily 0.05 9 0.98 cord is long enough 0.05 9 0.89 grinds pencil to sharp point 0.20 9 3 0.710 needs only one hand tw o operate0.10 3 9 3 0.8
Total Importance 1.00
Performance current product(CP)
competitior A: Model #25 N 1 0 0 0 0 2 6 Y 6 20 1 20 6
competitor B
New Product Targets N 1 0 0 0 0 3 4 Y 6 18 1 18 5
Customer Satisfactio
n Rating (0.00 - 1.00)
Engineering Characteristics (units)
Im
po
rtan
ce w
t.
1 -311
-3
39
9
-9
9
31
-9
3
-3
11
CustomerRequirements
PartCharacteristics
EngineeringCharacteristics
ProcessCharacteristics
ProductPlanning
Part Design
ProcessPlanning
ProductionPlanning
ProductionCharacteristics
QFD method uses cascading Houses of Quality
Voice of the custo
mer
The QFD Process
The QFD process uses matrices to help the organization to satisfy their customer requirements ( which are a structured list of requirements derived from customer statements).
The first of these matrices is called the house of quality (HOQ).
It displays the customer wants and needs along the left side of the matrix and the technical requirement (which are a structured set of relevant and measurable product characteristics )to meet these wants along the top of the matrix
The QFD Process
The HOQ has several sub-matrices joined together and they relate technical requirements and technical targets to customer needs.
Then a series of matrices is generated to address the whats (customer needs) with the Hows ( possible technical Know-how) .
Other matrices are developed to generate design concepts, evaluate them and propose process parameter to deliver or produce the best design.
Advantages
Reduced time to market Reduction in design changes Decreased design and manufacturing costs Improved quality Increased customer satisfaction
QFD Resources
The U.S. institute dedicated to the advancement of Quality Function Deployment. The institute organizes forums and seminars, holds an annual symposium to publicize the latest
QFD applications and administers the Akao Prize.
The International Council for QFD (ICQFD) aims to promote a united international effort in the development of QFD techniques. The council organizes
international conferences on QFD and promotes QFD research.
Application Of QFD
Some of the application of QFD are: Production/Manufacturing Maintenance Design courses and curriculum Design of performance measures Aerospace
Applying QFD to an inventory system Identify the customer requirements
(external and internal). Identify the technical requirements. Use the house of quality matrix to relate
customer requirements to technical requirements.
Customer requirements
The customer requirements are collected through a carefully designed survey.
Focused interviews.
Information source
Surveys Market Studies Literature Focus Groups Observation Studies Benchmark Studies
Technical Requirements
The technical requirements are obtained from the inventory elements that are essential for the design of the inventory system.
The literature on inventory systems.
Technical Requirements Level
The Technical Requirements are divided into sub-requirements that have several levels.
Tech Req. levels
Sub-Req. Level 1 Level 2 Level 3 Level 4
Sub-Req.1
A A A NA
Sub-Req.2
A A NA A
Sub-Req.3
A NA A A
QFD Planning Matrix
Customer Requiremnts
Ratin
g
Row
#
Tech. R
eq. 1
Tech. R
eq2
Tech. R
eq. 3
Tech. R
eq. 4
Tech. R
eq. 5
Tech. R
eq. 6
Poor
Good
Excelle
nt
1. Requirement 1 8 1 Å O D O O Å2. Requirement 2 9 2 D Å Å O D D3. Requirement 3 9 3 D Å Å O D D4. Requirement 4 8 4 O O D D Å Å5. Requirement 5 9 5 D Å Å O D D6. Requirement 6 8 6 Å O D D O Å7. Requirement 7 7 7 D D Å O D D
1. Requirement 1 9 8 D D Å D D Å2. Requirement 2 7 9 D D D D Å D3. Requiremnt 3 8 10 D Å D D D D
9 9 8 7 7 8
Technical requirementsCurrent practice
Exte
rnal C
usto
mer
requirem
ent
Å Strong, O Moderate and D Weak
* ICR stands for internal customer requirements
Targets
* IC
R
Design Concepts
A design concept is a selection of a level from the technical requirements to come up with a design that best satisfies internal and external customer requirements.
The design concept is evaluated using the design concept evaluation matrix.
Summary of Design Concepts
Requirements 1 2 3 4 5 6 7 *
Tech Req. 1 level 1 1 1 2 1 1 1
Tech Req. 2 level 1 2 3 1 3 2 2
Tech Req. 3 level 1 1 3 3 2 2 2
Tech Req. 4 level 1 2 3 2 3 2 2
Tech Req. 5 level 1 1 2 2 1 1 2
Tech Req. 6 level 1 1 1 1 2 1 2
Design Concept
Numbers in the cells represent the level of each requirement.Numbers in first row are the design concept number.
* concept 7 represent current practice.
Concept Concept Concept Concept Concept Concept
1 2 3 4 5 6
Concepts requirements
Tech Req. 1 S S S - S S
Tech Req. 2 + S - + - S
Tech Req. 3 + + - - S S
Tech Req. 4 + S - S - S
Tech Req. 5 + + S S + +
Tech Req. 6 + + + + S +
+ 5 3 1 2 1 2
- 0 0 3 2 2 0
S 1 3 2 2 3 4
Design Concept Current Practice
Totals
Design Concept Evaluation
Conclusion
QFD is a method. It is not a panacea. QFD is an effective tool for improving the
inventory system. It matches customer requirements with
technical requirements. The use of QFD provides a better
understanding of the planning process.
More work could be done to identify more design concepts for evaluation.
AHP or a more sophisticated evaluation process can be used to evaluate resulting design concepts.
An awareness program must be launched before applying QFD in process, product or service design.
Conclusion
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