MIDTERM-Reporting PDF - Operations Management

Summary

This document discusses operation strategy from the perspective of operations management. It covers the concept and role of operations strategy in developing business strategy, and gives examples with different business cases.

Full Transcript

UNIT
OPERATIONS MANAGEMENT
OPERATION STRATEGY
5 Part I

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LET’S GET STARTED
After studying this Unit, you will be able to:

Identify different strategy in business
Correlate the role of operation strategy
Learn the how in developing business strategy

OPERATION STRATEGY
No organization can plan in detail every aspect of its current or future actions, but all
organizations need some strategic direction and so can benefit from some idea of where they are
heading and how they could get there. Once the operations function has understood its role in
the business and after it has articulated its performance objectives, it needs to formulate a set of
general principles which will guide its decision-making. This is the operations strategy of the
company. Yet the concept of ‘strategy’ itself is not straightforward; neither is operations strategy.

Operations strategy concerns the pattern of strategic decisions and actions which set the role,
objectives and activities of the operation. The term ‘operations strategy’ sounds at first like a
contradiction. How can operations’, a subject that is generally concerned with the day-to-day
creation and delivery of goods and services, be strategic? ‘Strategy’ is usually regarded as the
opposite of those day-to-day routine activities. But ‘operations’ is not the same as ‘operational’.

‘Operations’ are the resources that create products and services. ‘Operational’ is the opposite of
strategic, meaning day-to-day and detailed. So, one can examine both the operational and the
strategic aspects of operations. It is also conventional to distinguish between the ‘content’ and
the ‘process’ of operations strategy. The content of operations strategy is the specific decisions
and actions which set the operations role, objectives and activities. The process of operations
strategy is the method that is used to make the specific ‘content’ decisions

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Surprisingly, ‘strategy’ is not particularly easy to define. Linguistically the word derives from the
Greek word ‘strategos’ meaning ‘leading an army’. And although there is no direct historical link
between Greek military practice and modern ideas of strategy, the military metaphor is powerful.
Both military and business strategy can be described in similar ways and include some of the
following.

Setting broad objectives that direct an enterprise towards its overall goal.
Planning the path (in general rather than specific terms) that will achieve these goals.
Stressing long-term rather than short-term objectives.
Dealing with the total picture rather than stressing individual activities.
Being detached from, and above, the confusion and distractions of day-to-day activities.

Here, by ‘strategic decisions’ we mean those decisions which are widespread in their effect on
the organization to which the strategy refers, define the position of the organization relative to
its environment, and move the organization closer to its long-term goals. But ‘strategy’ is more
than a single decision; it is the total pattern of the decisions and actions that influence the long-
term direction of the business. Thinking about strategy in this way helps us to discuss an
organization’s strategy even when it has not been explicitly stated. Observing the total pattern
of decisions gives an indication of the actual strategic behavior.

The role of operations strategy is to provide a plan for the operations function so that it can make
the best use of its resources. Operations strategy specifies the policies and plans for using the
organization’s resources to support its long-term competitive strategy. Remember that the
operations function is responsible for managing the resources needed to produce the company’s
goods and services. Operations strategy is the plan that specifies the design and use of resources
to support the business strategy. This includes the location, size, and type of facilities available;
worker skills and talents required; use of technology, special processes needed, special
equipment; and quality control methods. The operations strategy must be aligned with the
company’s business strategy and enable the company to achieve its long-term plan. For example,
the business strategy of FedEx, the world’s largest provider of expedited delivery services, is to
compete on time and dependability of deliveries. The operations strategy of FedEx developed a
plan for resources to support its business strategy. To provide speed of delivery, FedEx acquired
its own fleet of airplanes. To provide dependability of deliveries, FedEx invested in a sophisticated
bar-code technology to track all packages.

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THE IMPORTANCE OF OPERATIONS STRATEGY
Operations strategy
did not come to the
forefront until the
1970s. Up to that
time, U.S. companies
emphasized mass
production of
standard product
designs. There were
no serious
international
competitors, and U.S.
companies could pretty much sell anything they produced. However, that changed in the 1970s
and 1980s. Japanese companies began offering products of superior quality at lower cost, and
U.S. companies lost market share to their Japanese counterparts. In an attempt to survive, many
U.S. companies copied Japanese approaches. Unfortunately, merely copying these approaches
often proved unsuccessful; it took time to really understand the Japanese approaches.

It became clear that Japanese companies were more competitive because of their operations
strategy; that is, all their resources were specifically designed to directly support the company’s
overall strategic plan. Harvard Business School professor Michael Porter says that companies
often do not understand the differences between operational efficiency and strategy.
Operational efficiency is performing operations tasks well, even better than competitors.
Strategy, on the other hand, is a plan for competing in the marketplace. An analogy might be that
of running a race efficiently, but the wrong race. Strategy is defining in what race you will win.
Operational efficiency and strategy must be aligned; otherwise, you may be very efficiently
performing the wrong task. The role of operations strategy is to make sure that all the tasks
performed by the operations function are the right tasks. Consider a software company that
recently invested millions of dollars in developing software with features not provided by
competitors, only to discover that these were features customers did not particularly want. Now
that we know the meaning of business strategy and operations strategy and their importance,
let’s look at how a company would go about developing a business strategy. Then we will see
how an operations strategy would be developed to support the company’s business strategy.

DEVELOPING BUSINESS STRATEGY
A company’s business strategy is developed after its managers have considered many factors and
have made some strategic decisions. These include developing an understanding of what
business the company is in (the company’s mission), analyzing and developing an understanding
of the market (environmental scanning), and identifying the company’s strengths (core
competencies). These three factors are critical to the development of the company’s long-range
plan, or business strategy. In this section we describe each of these elements in detail and show
how they are combined to formulate the business strategy.

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MISSION
Every organization, from IBM to the Boy Scouts, has a mission. The mission is a statement
that answers three overriding questions:
What business will the company be in (“selling personal computers,” “operating an Italian
restaurant”)?
Who will the customers be, and what are the expected customer attributes (“homeowners,”
“college graduates”)?
How will the company’s basic beliefs define the business (“gives the highest customer service,”
“stresses family values”)?

Following is a list of some well-known companies and parts of their mission statements:
Dell Computer Corporation: “to be the most successful computer company in the world”
Delta Air Lines: “worldwide airlines choice”
IBM: “translate advanced technologies into values for our customers as the world’s largest
information service company”
Lowe’s: “helping customers build, improve and enjoy their homes”
Ryder: “offers a wide array of logistics services, such as distribution management, domestically
and globally”

The mission defines the company. In order to develop a long-term plan for a business, you must
first know exactly what business you are in, what customers you are serving, and what your
company’s values are. If a company does not have a well-defined mission, it may pursue business
opportunities about which it has no real knowledge or that are in conflict with its current pursuits,
or it may miss opportunities altogether.

For example, Dell Computer Corporation has become a leader in the computer industry in part
by following its mission. If it did not follow its mission, Dell might decide to pursue other
opportunities, such as producing mobile telephones similar to those manufactured by Motorola
and Nokia. Although there is a huge market for mobile telephones, it is not consistent with Dell’s
mission of focusing on computers.

ENVIRONMENTAL SCANNING
A second factor to consider is the external environment of the business. This includes trends in
the market, in the economic and political environment, and in society. These trends must be
analyzed to determine business opportunities and threats. Environmental scanning is the
process of monitoring the external environment. To remain competitive, companies have to
continuously monitor their environment and be prepared to change their business strategy, or
long-range plan, in light of environmental changes.

WHAT DOES ENVIRONMENTAL SCANNING TELL US?
Environmental scanning allows a company to identify opportunities and threats. For example,
through environmental scanning we could see gaps in what customers need and what

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competitors are doing to meet those needs. A study of these gaps could reveal an opportunity
for our company, and we could design a plan to take advantage of it. On the other hand, our
company may currently be a leader in its industry, but environmental scanning could reveal
competitors that are meeting customer needs better—for example, by offering a wider array of
services. In this case, environmental scanning would reveal a threat and we would have to change
our strategy so as not to be left behind. Just because a company is an industry leader today does
not mean it will continue to be a leader in the future. In the 1970s Sears, Roebuck and Company
was a retail leader, but it fell behind the pack in the 1990s.

WHAT ARE TRENDS IN THE ENVIRONMENT?
The external business environment is always changing. To stay ahead of the competition, a
company must constantly look out for trends or changing patterns in the environment, such as
marketplace trends. These might include changes in customer wants and expectations and ways
in which competitors are meeting those expectations. For example, in the computer industry
customers are demanding speed of delivery, high quality, and low price. Dell has become a leader
in the industry because of its speed of delivery and low price. Other computer giants, such as
Compaq, have had to redesign their business and operations strategies to compete with Dell.
Otherwise, they would be left behind. It is through environmental scanning that companies like
Compaq can see trends in the market, analyze the competition, and recognize what they need to
do to remain competitive. There are many other types of trends in the marketplace. For example,
we are seeing changes in the use of technology, such as point-of-sale scanners, automation,
computer assisted processing, electronic purchasing, and electronic order tracking.

One rapidly growing trend is e-commerce. For retailers like The Gap, Eddie Bauer, Fruit of the
Loom, Inc., Barnes & Noble, and others, e-commerce has become a significant part of their
business. Victoria’s Secret has even used the Internet to conduct a fashion show in order to boost
sales. Some companies began using e-commerce early in their development. Others, like Sears,
Roebuck, waited and then found themselves working hard to catch up to the competition. In
addition to market trends, environmental scanning looks at economic, political, and social trends
that can affect the business.

Economic trends include recession, inflation, interest rates, and general economic conditions.
Suppose that a company is considering obtaining a loan in order to purchase a new facility.
Environmental scanning could show that interest rates are particularly favorable and that this
may be a good time to go ahead with the purchase.

Political trends include changes in the political climate—local, national, and international—that
could affect a company. For example, the creation of the European Union has had a significant
impact on strategic planning for such global companies as IBM, Hewlett-Packard, and PepsiCo.
Similarly, changes in trade relations with China have opened opportunities that were not
available earlier. There has been a change in how companies view their environment, a shift from
a national to a global perspective. Companies seek customers and suppliers all over the globe.
Many have changed their strategies in order to take advantage of global opportunities, such as
forming partnerships with international firms, called strategic alliances. For example, companies

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like Motorola and Xerox want to take advantage of opportunities in China and are developing
strategic alliances to help them break into that market.
Finally, social trends are changes in society that can have an impact on a business. An example is
the awareness of the dangers of smoking, which has made smoking less socially acceptable. This
trend has had a huge impact on the tobacco industry. In order to survive, many of these
companies have changed their strategy to focus on customers overseas, where smoking is still
socially acceptable, or have diversified into other product lines.

CORE COMPETENCIES
The third factor that helps define a business strategy is an understanding of the company’s
strengths. These are called core competencies. In order to formulate a long-term plan, the
company’s managers must know the competencies of their organization.

Core competencies could include special skills of workers, such as expertise in providing
customized services or knowledge of information technology. Another example might be flexible
facilities that can handle the production of a wide array of products. To be successful, a company
must compete in markets where its core competencies will have value.
Highly successful firms develop a business strategy that takes advantage of their core
competencies or strengths. To see why it is important to use core competencies, think of a
student developing plans for a successful professional career.

Table 1-6: Let’s say that this student is
particularly good at mathematics
but not as good in verbal
communication and persuasion.
Taking advantage of core
competencies would mean
developing a career strategy in
which the student’s strengths
could provide an advantage, such
as engineering or computer
science. On the other hand,
pursuing a career in marketing would place the student at a disadvantage because of a relative
lack of skills in persuasion.
Figure 1-4: Three inputs in developing a business strategy

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UNIT OPERATION STRATEGY
6 Part II

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LET’S GET STARTED
After studying this Unit, you will be able to:

Demonstrate how to develop operation strategy
Learn about competitive strategies and Productivity

DEVELOPING OPERATION STRATEGY
Once a business strategy has been developed, an operations strategy must be formulated. This
will provide a plan for the design and management of the operations function in ways that
support the business strategy. The operations strategy relates the business strategy to the
operations function. The operations strategy focuses on specific capabilities of the operation that
give the company a competitive edge. These capabilities are called competitive priorities. By
excelling in one of these capabilities, a company can become a winner in its market. These
competitive priorities and their relationship to the design of the operations function are shown
in Figure 1-5. Each part of this figure is discussed next.

COMPETITIVE PRIORITIES
Operations managers must work closely with marketing in order to understand the competitive
situation in the company’s market before they can determine which competitive priorities are
important. There are four broad categories of competitive priorities:

1. Cost
Competing based on cost means offering a product at a low price relative to the prices of
competing products. The need for this type of competition emerges from the business strategy.
The role of the operations strategy is to develop a plan for the use of resources to support this
type of competition. Note that a low-cost strategy can result in a higher profit margin, even at a
competitive price. Also, low cost does not imply low quality. Let’s look at some specific
characteristics of the operations function we might find in a company competing on cost.

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Business Defines the long
range plans for the
Strategy company

Develops a plan for the operations function focusing on
specific competitive priorities in order to meet the long-range
plan.
Competitive priorities
Operation Cost
Strategy Quality
Time
Flexibility
Developed to focus on the identified
competive properties
Design of the Structure:
operations Facilities, flow of goods,technology
Infrastructure:
Figure 1-5: Operations strategy and the Function Planning &control system, workers,
pay, quality
design of the operations function

To develop this competitive priority, the operations function must focus primarily on cutting
costs in the system, such as costs of labor, materials, and facilities. Companies that compete
based on cost study their operations system carefully to eliminate all waste. They might offer
extra training to employees to maximize their productivity and minimize scrap. Also, they might
invest in automation in order to increase productivity.
Generally, companies that compete based on cost offer a narrow range of products and product
features, allow for little customization, and have an operations process that is designed to be as
efficient as possible. A company that successfully competes on cost is Southwest Airlines.
Southwest’s entire operations function is designed to support this strategy.

Facilities are streamlined: only one type of aircraft is used, and flight routes are generally short.
This serves to minimize costs of scheduling crew changes, maintenance, inventories of parts, and
many administrative costs. Unnecessary costs are completely eliminated: there are no meals,
printed boarding passes, or seat assignments. Employees are trained to perform many functions
and use a team approach to maximize customer service. Because of this strategy, southwest has
been a model for the airline industry for a number of years.

2. Quality
Many companies claim that quality is their top priority, and many customers say that they look
for quality in the products they buy. Yet quality has a subjective meaning; it depends on who is
defining it. For example, to one person quality could mean that the product lasts a long time,
such as with a Volvo, a car known for its longevity. To another person quality might mean high

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performance, such as a BMW. When companies focus on quality as a competitive priority, they
are focusing on the dimensions of quality that are considered important by their customers.

Quality as a competitive priority has two dimensions. The first is high-performance design. This
means that the operations function will be designed to focus on aspects of quality such as
superior features, close tolerances, high durability, and excellent customer service. The second
dimension is goods and services consistency, which measures how often the goods or services
meet the exact design specifications. A strong example of product consistency is McDonald’s,
where we know we can get the same product every time at any location. Companies that
compete on quality must deliver not only high-performance design but goods and services
consistency as well. A company that competes on this dimension needs to implement quality in
every area of the organization. One of the first aspects that needs to be addressed is product
design quality, which involves making sure the product meets the requirements of the customer.
A second aspect is process quality, which deals with designing a process to produce error-free
products. This includes focusing on equipment, workers, materials, and every other aspect of the
operation to make sure it works the way it is supposed to. Companies that compete based on
quality have to address both of these issues: the product must be designed to meet customer
needs, and the process must produce the product exactly as it is designed.

To see why product and process quality are both important, let’s say that your favorite fast-food
restaurant has designed a new sandwich called the “Big Yuck.” The restaurant could design a
process that produces a perfect “Big Yuck” every single time. But if customers find the “Big Yuck”
unappealing, they will not buy it. The same would be true if the restaurant designed a sandwich
called the “Super Delicious” to meet the desires of its customers. Even if the “Super Delicious”
were exactly what the customers wanted, if the process did not produce the sandwich the way
it was designed, often making it soggy and cold instead, customers would not buy it. Remember
that the product needs to be designed to meet customer wants and needs, and the process needs
to be designed to produce the exact product that was intended, consistently without error.

3. Time
Time or speed is one of the most important competitive priorities today. Companies in all
industries are competing to deliver high-quality products in as short a time as possible.
Companies like FedEx, LensCrafters, United Parcel Service (UPS), and Dell compete based on
time. Today’s customers don’t want to wait, and companies that can meet their need for fast
service are becoming leaders in their industries. Making time a competitive priority means
competing based on all time-related issues, such as rapid delivery and on-time delivery. Rapid
delivery refers to how quickly an order is received; on-time delivery refers to how often deliveries
are made on time. Another time-competitive priority is development speed, which is the time
needed to take an idea to the marketplace. This is especially critical in technology and computer
software fields. When time is a competitive priority, the job of the operations function is to
critically analyze the system and combine or eliminate processes in order to save time. Often
companies use technology to speed up processes, rely on a flexible workforce to meet peak
demand periods, and eliminate unnecessary steps in the production process.

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FedEx is an example of a company that
competes based on time. The
company’s claim is to “absolutely,
positively” deliver packages on time. To
support this strategy, the operation
function had to be designed to promote
speed. Barcode technology is used to
speed up processing and handling, and
the company uses its own fleet of
airplanes. FedEx relies on a very flexible
part-time workforce, such as college
students who are willing to work a few
hours at night. FedEx can call on this
part-time workforce at a moment’s
notice, providing the company with a
great deal of flexibility. This allows
FedEx to cover workforce requirements during peak periods without having to schedule full-time
workers.

4. Flexibility
As a company’s environment changes rapidly, including customer needs and expectations, the
ability to readily accommodate these changes can be a winning strategy. This is flexibility. There
are two dimensions of flexibility. One is the ability to offer a wide variety of goods or services and
customize them to the unique needs of clients. This is called product flexibility. A flexible system
can quickly add new products that may be important to customers or easily drop a product that
is not doing well. Another aspect of flexibility is the ability to rapidly increase or decrease the
amount produced in order to accommodate changes in the demand. This is called volume
flexibility.

You can see the meaning of flexibility when you compare ordering a suit from a custom tailor to
buying it off the rack at a retailer. Another example would be going to a fine restaurant and asking
to have a meal made just for you, versus going to a fast-food restaurant and being limited to
items on the menu. The custom tailor and the fine restaurant are examples of companies that
are flexible and will accommodate customer wishes. Another example of flexibility is Empire
West Inc., a company that makes a variety of products out of plastics, depending on what
customers want. Empire West makes everything from plastic trays to body guards for cars.
Companies that compete based on flexibility often cannot compete based on speed because it
generally requires more time to produce a customized product. Also, flexible companies typically
do not compete based on cost because it may take more resources to customize the product.
However, flexible companies often offer greater customer service and can meet unique customer
requirements. To carry out this strategy, flexible companies tend to have more general-purpose
equipment that can be used to make many different kinds of products. Also, workers in flexible

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companies tend to have higher skill levels and can often perform many different tasks in order
to meet customer needs.

PRODUCTIVITY
One of the primary responsibilities of a manager is to achieve productive use of an organization's
resources. The term productivity is used to describe this. Productivity is an index that measures
output (goods and services) relative to the input (labor, materials, energy, and other resources)
used to produce them. It is usually expressed as the ratio of output to input:

Productivity= Output/Input

A productivity ratio can be computed for a single operation, a department, an organization, or
an entire country.
Productivity has important implications for business organizations and for entire nations. For
nonprofit organizations, higher productivity means lower costs; for profit-based organizations,
productivity is an important factor in determining how competitive a company is. For a nation,
the rate of productivity growth is of great importance. Productivity growth is the increase in
productivity from one period to the next relative to the productivity in the preceding period.
Thus,

Productivity growth= current period productivity – Previous period productivity
Previous period productivity
For example: 84-80 =.05 or 5%
80

COMPUTING PRODUCTIVITY
Productivity measures can be based on a single input (partial productivity), on more than one
input (multifactor productivity), or on all inputs (total productivity). Table 1-7 lists some
examples of productivity measures. The choice of productivity measure depends primarily on
the purpose of the measurement. If the purpose is to track improvements in labor productivity,
then labor becomes the obvious input measure. Partial measures are often of greatest use in
operations management. Table 1-8 provides some examples of partial productivity measures.
The units of output used in productivity measures depend on the type of job performed. The
following are examples of labor productivity:

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Table 1-7: Some examples of diff. types of Table 1-8: Some examples of partial
productivity measures productivity measures

Calculations of multifactor productivity measure inputs and outputs using a common unit of
measurement, such as cost or value. For instance, the measure inputs and outputs using a
common unit of measurement, such cost of inputs and price of the input:
Quantity of production at standard price
Labor cost + Materials Cost + Overhead
Determine the multifactor productivity for the combined input of labor and machine time using
the following data: Figure 1-6: Bottleneck Operation
Output: 7,040 units
Input
Labor: $1000
Materials $520
Overhead: $2000

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IMPROVING PRODUCTIVITY

A company or a department can take a number of key steps toward improving productivity:
1. Develop productivity measures for all operations; measurement is the first step in managing
and controlling an operation.
2. Look at the system as a whole in deciding which operations are most critical; it is overall
productivity that is important. This concept is illustrated in Figure 1-6, which shows several
operations feeding their output into a bottleneck operation. The capacity of the bottleneck
operation is less than the combined capacities of the operations that provide input, so units
queue up waiting to be processed; hence the term bottleneck.
Productivity improvements to any non-bottleneck operation will not affect the productivity of
the system. Improvements in the bottleneck operation will lead to increased productivity, up to
the point where the output rate of the bottleneck equals the output rate of the operations
feeding it.
3. Develop methods for achieving productivity improvements, such as soliciting ideas from
workers (perhaps organizing teams of workers, engineers, and managers), studying how other
firms have increased productivity, and reexamining the way work is done.
4. Establish reasonable goals for improvement.
5. Make it clear that management supports and encourages productivity improvement. Consider
incentives to reward workers for contributions.
6. Measure improvements and publicize them.
7. Don't confuse productivity with efficiency. Efficiency is a narrower concept that pertains to
getting the most out of a fixed set of resources; productivity is a broader concept that pertains
to effective use of overall resources. For example, an efficiency perspective on mowing a lawn
given a hand mower would focus on the best way to use the hand mower; a productivity
perspective would include the possibility of using a power mower.

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UNIT OPERATIONS MANAGEMENT
7 PRODUCT DESIGN

LET’S GET STARTED

After studying this Unit, you will be able to:

Understand product design and its process, and factors

PRODUCT DESIGN

Most of us might think that the design of a product is not that interesting. After all, it probably
involves materials, measurements, dimensions, and blueprints. When we think of design, we
usually think of car design or computer design and envision engineers working on diagrams.
However, product design is much more than that. Product design brings together marketing
analysts, art directors, sales forecasters, engineers, finance experts, and other members of a
company to think and plan strategically. It is exciting and creative, and it can spell success or
disaster for a company.

Product design is the process of defining all the features and characteristics of just about anything
you can think of, from Starbucks’ cafe latte or Jimmy Dean’s sausage to GM’s Saturn or HP’s
DeskJet printer. Product design also includes the design of services, such as those provided by
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Salazar’s Beauty Salon, La Petite Academy Day Care Center, or FedEx. Consumers respond to a
product’s appearance, color, texture, and performance. All of its features, summed up, are the
product’s design. Someone came up with the idea of what this product will look like, taste like,
or feel like so that it will appeal to you. This is the purpose of product design. Product design

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defines a product’s characteristics, such as its appearance, the materials it is made of, its
dimensions and tolerances, and its performance standards.

DESIGN OF SERVICES VERSUS GOODS
The design elements discussed are typical of industries such as manufacturing and retail in which
the product is tangible. For service industries, where the product is intangible, the design
elements are equally important, but they have an added dimension.

Service design is unique in that both the service and the entire service concept are being
designed. As with a tangible product, the service concept is based on meeting customer needs.
The service design, however, adds the aesthetic and psychological benefits of the product. These
are the service elements of the operation, such as promptness and friendliness. They also include
the ambiance, image, and “feelgood” elements of the service. Consider the differences in service
design of a company like Canyon Ranch, which provides a pampering retreat for health-conscious
but overworked professionals, versus Gold’s Gym, which caters to young athletes. As with a
tangible product, the preference for a service is based on its product design. Service design
defines the characteristics of a service, such as its physical elements, and the aesthetic and
psychological benefits it provides.

THE PRODUCT DESIGN PROCESS
Certain steps are common to the development of most product designs: idea generation, product
screening, preliminary design and testing, and final design. These steps are shown in Figure 3-1.
Notice that the arrows show a circular process. Product designs are never finished, but are always
updated with new ideas. Let’s look at these steps in more detail.

IDEA DEVELOPMENT
All product designs begin with an idea. The idea might come from a product manager who spends
time with customers and has a sense of what customers want, from an engineer with a flare for
inventions, or from anyone else in the company. To remain competitive, companies must be
innovative and bring out new products regularly. In some industries, the cycle of new product
development is predictable. We see this in the auto industry, where new car models come out
every year, or the retail industry, where new fashion is designed for every season.

In other industries, new product releases are less predictable but just as important. The Body
Shop, retailer of plant-based skin care products, periodically comes up with new ideas for its
product lines. The timing often has to do with the market for a product and whether sales are
declining or continuing to grow.

IDEAS FROM CUSTOMERS, COMPETITORS, AND SUPPLIERS
The first source of ideas is customers, the driving force in the design of goods and services.
Marketing is a vital link between customers and product design. Market researchers collect
customer information by studying customer buying patterns and using tools such as customer
surveys and focus groups. Management may love an idea, but if market analysis shows that

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customers do not like it, the idea is not viable. Analyzing customer preferences is an ongoing
process; customer preferences next year may be quite different from what they are today. For
this reason, the related process of forecasting future consumer preferences is important, though
difficult. Competitors are another source of ideas. A company learns by observing its competitors’
products and their success rate. This includes looking at product design, pricing strategy, and
other aspects of the operation. Studying the practices of companies considered “best-in-class”
and comparing the performance of one’s own company against theirs is called benchmarking.
We can benchmark against a company in a completely different line of business and still learn
from some aspect of that company’s operation. For example, Lands’ End is well known for its
successful catalog business, and companies considering catalog sales often benchmark against
Lands’ End. Similarly, American Express is a company known for its success at resolving
complaints, and it, too, is used for benchmarking.
Figure 1-7: Some examples of partial productivity
measures

Reverse Engineering Another way of using competitors’ ideas is to buy a competitor’s new
product and study its design features. Using a process called reverse engineering, a company’s
engineers carefully disassemble the product and analyze its parts and features.

Ford Motor Company used this approach to design its Taurus model. Ford engineers
disassembled and studied many other car models, such as BMW and Toyota, and adapted and
combined their best features. Product design ideas are also generated by a company’s R & D
(research and development) department, whose role is to develop product and process
innovation.

Suppliers are another source of product design ideas. To remain competitive, more companies
are developing partnering relationships with their suppliers to jointly satisfy the end customer.
Suppliers participate in a program called early supplier involvement (ESI), which involves them
in the early stages of product design.

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PRODUCT SCREENING
After a product idea has been developed, it is evaluated to determine its likelihood of success.
This is called product screening. The company’s product screening team evaluates the product
design idea according to the needs of the major business functions.

In their evaluation, executives from each function area may explore issues such as the following:
Operations What are the production needs of the proposed new product, and how do they
match our existing resources? Will we need new facilities and equipment? Do we have the labor
skills to make the product? Can the material for production be readily obtained?
Marketing What is the potential size of the market for the proposed new product? How much
effort will be needed to develop a market for the product, and what is the long-term product
potential?
Finance The production of a new product is a financial investment like any other. What is the
proposed new product’s financial potential, cost, and return on investment?

Unfortunately, there is no magic formula for deciding whether or not to pursue a particular
product idea. Managerial skill and experience, however, are key. Companies generate new
product ideas all the time, whether for a new brand of cereal or a new design for a car door.
Approximately 80 percent of ideas do not make it past the screening stage. Management
analyzes operations, marketing, and financial factors and then makes the final decision.
Fortunately, we have decision-making tools to help us evaluate new product ideas. A popular one
is break-even analysis, which we look at next.

Break-Even Analysis: A Tool for Product Screening Break-even analysis is a technique that can
be useful when evaluating a new product. It computes the quantity of goods a company needs
to sell just to cover its costs, or break even, called the “break-even” point. When evaluating an
idea for a new product, it is helpful to compute its break-even quantity. An assessment can then
be made as to how difficult or easy it will be to cover costs and make a profit. A product with a
break-even quantity that is hard to attain might not be a good product choice to pursue. Next we
look at how to compute the break-even quantity. The total cost of producing a product or service
is the sum of its fixed and variable costs.

A company incurs fixed costs regardless of how much it produces. Fixed costs include overhead,
taxes, and insurance. For example, a company must pay for overhead even if it produces nothing.
Variable costs, on the other hand, are costs that vary directly with the amount of units produced
and include items such as direct materials and labor. Together, fixed and variable costs add up to
total cost:
Where: Total cost =F+VC(Q)

F =fixed cost
VC =variable cost per unit
Q = number of units sold quantity.

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Fixed cost is represented by a horizontal line as this cost is the same regardless of how much is
produced. Adding variable cost to fixed cost creates total cost, represented by the diagonal line
above fixed cost. When Q _ 0, total cost is only equal to fixed cost. As Q increases, total cost
increases through the variable cost component. The blue diagonal in the figure is revenue, the
amount of money brought in from sales:
Revenue SP(Q)

Where SP = selling price per unit

When Q = 0, revenue is zero. As sales increase, so does revenue. Remember, however, that to
cover all costs we have to sell the break-even amount. This is the quantity QBE, where revenue
equals total cost. If we sell below the break-even point, we incur a loss, since costs exceed
revenue. To make a profit, we have to sell above the break-even point. Since revenue equals total
cost at the break-even point, we can use the previous equations to compute the value of the
break-even quantity:
Total Cost =Total Revenue
F+ (VC) Q = (SP)Q
Solving for Q, we get the following equation:

Note that we could also find the break-even point by drawing the graph and finding where the
total cost and revenue lines cross. Break-even analysis is useful for more than just deciding
between different products. It can be used to make other decisions, such as evaluating different
processes or deciding whether the company should make or buy a product.

Figure 1-8:

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Fred Boulder, owner of Sports Feet Manufacturing, is considering whether to produce a new line
of footwear. Fred has considered the processing needs for the new product as well as the market
potential. He has also estimated that the variable cost for each product manufactured and sold
is $9 and the fixed cost per year is $52,000.
(a) If Fred offers the footwear at a selling price of $25, how many pairs must he sell to break
even?
(b) If Fred sells 4000 pairs at the $25 price, what will be the contribution to profit?
Solution:
(a) To compute the break-even quantity:

Q= F
SP + VC
Q= $52,000 = 3250 pairs
$25-$9

The break-even quantity is 3250 pairs. This is how much Fred would have to sell to cover costs.

(b) To compute the contribution to profit with sales of 4000 pairs, we can go back to the
relationship between cost and revenue:

Profit = total revenue - total cost
= (SP)Q - [F+ (VC)Q]
Profit = $25(4000) - [$52,000 + $9(4000)]
=$12,000

The contribution to profit is $12,000 if Fred can sell 4000 pairs from his new line of footwear.

PRELIMINARY DESIGN AND TESTING
Once a product idea has passed the screening stage, it is time to begin preliminary design and
testing. At this stage design engineers translate general performance specifications into technical
specifications. Prototypes are built and tested. Changes are made based on test results, and the
process of revising, rebuilding a prototype, and testing continues. For service companies this may
entail testing the offering on a small scale and working with customers to refine the service
offering. Fast-food restaurants are known for this type of testing, where a new menu item may
be tested in only one particular geographic area. Product refinement can be time-consuming,
and the company may want to hurry through this phase to rush the product to market. However,
rushing creates the risk that all the “bugs” have not been worked out, which can prove very
costly.

FINAL DESIGN
Following extensive design testing, the product moves to the final design stage. This is where
final product specifications are drawn up. The final specifications are then translated into specific

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processing instructions to manufacture the product, which include selecting equipment,
outlining jobs that need to be performed, identifying specific materials needed and suppliers that
will be used, and all the other aspects of organizing the process of product production.

FACTORS IMPACTING PRODUCT DESIGN
Here are some additional factors that need to be considered during the product design stage.

DESIGN FOR MANUFACTURE
When we think of product design, we generally first think of how to please the customer.
However, we also need to consider how easy or difficult it is to manufacture the product.
Otherwise, we might have a great idea that is difficult or too costly to manufacture.
Design for manufacture (DFM) is a series of guidelines that we should follow to produce a
product easily and profitably. DFM guidelines focus on two issues:
1. Design simplification means reducing the number of parts and features of the product
whenever possible. A simpler product is easier to make, costs less, and gives higher quality.
2. Design standardization refers to the use of common and interchangeable parts. By using
interchangeable parts, we can make a greater variety of products with less inventory and
significantly lower cost and provide greater flexibility.

Table 1-9:

Table 1-9 shows guidelines for DFM.
An example of the benefits of applying these rules is seen in Figure 1-9.We can see the
progression in the design of a toolbox using the DFM approach. All of the pictures show a toolbox.
However, the first design shown requires 20 parts. Through simplification and use of modular
design, the number of parts required has been reduced to 2. It would certainly be much easier to
make the product with 2 parts versus 20 parts. This means fewer chances for error, better quality,
and lower costs due to shorter assembly time.

Figure 1-9:

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PRODUCT LIFE CYCLE
Another factor in product design is the stage of the life cycle of the product. Most products go
through a series of stages of changing product demand called the product life cycle. There are
typically four stages of the product life cycle: introduction, growth, maturity, and decline. These
are shown in Figure 1-10 Products in the introductory stage are not well defined, and neither is
their market. Often all the “bugs” have not been worked out, and customers are uncertain about
the product. In the growth stage, the product takes hold and both product and market continue
to be refined. The third stage is that of maturity, where demand levels off and there are usually
no design changes: the product is predictable at this stage and so is its market. Many products,
such as toothpaste, can stay in this stage for many years. Finally, there is a decline in demand
because of new technology, better product design, or market saturation.

The first two stages of the life cycle can collectively be called the early stages because the product
is still being improved and refined and the market is still in the process of being developed. The
last two stages
Figure 1-10: Product Cycle of the life
cycle can be
referred to as
the later
stages
because here
both the
product and
market are
well defined.

Understanding the stages of the product life cycle is important for product design purposes, such
as knowing at which stage to focus on design changes. Also, when considering a new product,
the expected length of the life cycle is critical in order to estimate future profitability relative to
the initial investment. The product life cycle can be quite short for certain products, as seen in
the computer industry. For other products it can be extremely long, as in the aircraft industry. A
few products, such as paper, pencils, nails, milk, sugar, and flour, do not go through a life cycle.
However, almost all products do, and some may spend a long time in one stage.
Concurrent Engineering
Concurrent engineering is an approach that brings many people together in the early phase of
product design in order to simultaneously design the product and the process. This type of
approach has been found to achieve a smooth transition from the design stage to actual
production in a shorter amount of development time with improved quality results. The old
approach to product and process design was to first have the designers of the idea come up with

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the exact product characteristics. Once their design was complete they would pass it on to
operations, who would then design the production process needed to produce the product. This
was called the “over-the-wall” approach because the designers would throw their design “over-
the-wall” to operations, who then had to decide how to produce the product. There are many
problems with the old approach.

First, it is very inefficient and costly. For example, there may be certain aspects of the product
that are not critical for product success but are costly or difficult to manufacture, such as a dye
color that is difficult to achieve. Since manufacturing does not understand which features are not
critical, it may develop an unnecessarily costly production process with costs passed down to the
customers. Because the designers do not know the cost of the added feature, they may not have
the opportunity to change their design or may do so much later in the process, incurring
additional costs. Concurrent engineering allows everyone to work together so these problems do
not occur. Figure 1-11 shows the difference between the “over-the-wall” approach and
concurrent engineering. The first illustration shows sequential design with walls between
functional areas. The second illustration shows concurrent design with walls broken down.

Figure 1-11

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UNIT
Product Design
8 Part II

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LET’S GET STARTED

After studying this Unit, you will be able to:

Understand process selection and its importance
Learn about product linking product and process selection

PROCESS SELECTION
So far, we have discussed issues involved in product design. Though product design is important
for a company, it cannot be considered separately from the selection of the process. In this
section we will look at issues involved in process design. Then we will show how product design
and process selection issues are linked together.

TYPES OF PROCESSES
When you look at different types of companies, ranging from a small coffee shop to IBM, it may
seem like there are hundreds of different types of processes. Some locations are small, like your
local Starbucks, and some are very large, like a Ford Motor Company plant. Some produce
standardized “off-the-shelf” products, like Pepperidge
Farm’s frozen chocolate cake, and some work with customers to customize their product, like
cakes made to order by a gourmet bakery. Though there seem to be large differences between
the processes of companies, many have certain processing characteristics in common. In this
section we will divide these processes into groups with similar characteristics, allowing us to
understand problems inherent with each type of process. All processes can be grouped into two
broad categories: intermittent operations and repetitive operations. These two categories differ
in almost every way. Once we understand these differences, we can easily identify organizations
based on the category of process they use.

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INTERMITTENT OPERATIONS
Intermittent operations are used to produce a variety of products with different processing
requirements in lower volumes. Examples are an auto body shop, a tool and die shop, or a
healthcare facility. Because different products have different processing needs, there is no
standard route that all products take through the facility. Instead, resources are grouped by
function and the product is routed to each resource as needed. Think about a healthcare facility.
Each patient, “the product,” is routed to different departments as needed. One patient may need
to get an X-ray, go to the lab for blood work, and then go to the examining room. Another patient
may need to go to the examining room and then to physical therapy. To be able to produce
products with different processing requirements, intermittent operations tend to be labor
intensive rather than capital intensive. Workers need to be able to perform different tasks,
depending on the processing needs of the products produced. Often we see skilled and
semiskilled workers in this environment, with a fair amount of worker discretion in performing
their jobs. Workers need to be flexible and able to perform different tasks as needed for the
different products. Equipment in this type of environment is more general-purpose to satisfy
different processing requirements. Automation tends to be less common because automation is
typically product-specific. Given that many products are being produced with different
processing requirements, it is usually not cost efficient to invest in automation for only one
product type. Finally, the volume of goods produced is directly tied to the number of customer
orders.

Repetitive Operations Repetitive operations are used to produce one or a few standardized
products in high volume. Examples are a typical assembly line, cafeteria, or automatic car wash.
Resources are organized in a line flow to efficiently accommodate production of the product.
Note that in this environment it is possible to arrange resources in a line because there is only
one type of product. This is directly the opposite of what we find with intermittent operations.
To efficiently produce a large volume of one type of product, these operations tend to be capital
intensive rather than labor intensive. An example is “mass-production” operations, which usually
have much invested in their facilities and equipment to provide a high degree of product
consistency. Often these facilities rely on automation and technology to improve efficiency and
increase output rather than on labor skill.

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Table 1-10: Differences between Intermittent and Repetitive Operations

The volume produced is usually based on a forecast of future demands rather than on direct
customer orders. The most common differences between intermittent and repetitive operations
relate to two dimensions: (1) the amount of product volume produced, and (2) the degree of
product standardization. Product volume can range from making a unique product one at a time
to producing a large number of products at the same time. Product standardization refers to a
lack of variety in a particular product. Examples of standardized products are white undershirts,
calculators, toasters, and television sets. The type of operation used, including equipment and
labor, is quite different if a company produces one product at a time to customer specifications
instead of mass production of one standardized product. Specific differences between
intermittent and repetitive operations are shown in Table 1-11.

THE CONTINUUM OF PROCESS TYPES
Dividing processes into two fundamental categories of operations is helpful in our understanding
of their general characteristics. To be more detailed, we can further divide each category
according to product volume and degree of product standardization, as follows. Intermittent
operations can be divided into project processes and batch processes. Repetitive operations can
be divided into line processes and continuous processes. Figure 1-12 shows a continuum of
process types. Next we look at what makes these processes different from each other.

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Figure 1-12: Types of processes based on product volume and product standardization

Project processes are used to make one-of-a-kind products exactly to customer specifications.
These processes are used when there is high customization and low product volume, because
each product is different. Examples can be seen in construction, shipbuilding, medical
procedures, and creation of artwork, custom tailoring, and interior design. With project
processes the customer is usually involved in deciding on the design of the product. The artistic
baker you hired to bake a wedding cake to your specifications uses a project process.

Batch processes are used to produce small quantities of products in groups or batches based
on customer orders or product specifications. They are also known as job shops. The volumes of
each product produced are still small, and there can still be a high degree of customization.
Examples can be seen in bakeries, education, and printing shops. The classes you are taking at
the university use a batch process.

Line processes are designed to produce a large volume of a standardized product for mass
production. They are also known as flow shops, flow lines, or assembly lines. With line processes
the product that is produced is made in high volume with little or no customization. Think of a
typical assembly line that produces everything from cars, computers, television sets, shoes, candy
bars, even food items.

Continuous processes operate continually to produce a very high volume of a fully
standardized product. Examples include oil refineries, water treatment plants, and certain paint

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facilities. The products produced by continuous processes are usually in continual rather than
discrete units, such as liquid or gas. They usually have a single input and a limited number of
outputs. Also, these facilities are usually highly capital intensive and automated.
Figure 1-13: Elements of flowchart development Note that both project
and batch processes
have low product
volumes and offer
customization. The
difference is in the
volume and degree of
customization. Project
processes are more
extreme cases of
intermittent operations
compared to batch
processes. Also, note
that both line and
continuous processes
primarily produce large
volumes of standardized
products. Again, the
difference is in the
volume and degree of
standardization.
Continuous processes
are more extreme cases
of high volume and
product standardization
than are line processes.
Figure 1-12 positions
these four process types
along the diagonal to
show the best process
strategies relative to
product volume and
product customization.
Companies whose
process strategies do
not fall along this diagonal may not have made the best process decisions. Bear in mind, however,
that not all companies fit into only one of these categories: a company may use both batch and

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project processing to good advantage. For example, a bakery that produces breads, cakes, and
pastries in batches may also bake and decorate cakes to order.

DESIGNING PROCESSES
Now that we know about different types of processes, let’s look at a technique that can help with
process design.

Process flow analysis is a technique used for evaluating a process in terms of the sequence of
steps from inputs to outputs with the goal of improving its design. One of the most important
tools in process flow analysis is a process flowchart.
A process flowchart is used for viewing the sequence of steps involved in producing the product
and the flow of the product through the process. It is useful for seeing the totality of the
operation and for identifying potential problem areas. There is no exact format for designing a
flowchart. It can be very simple or highly detailed. The typical symbols used are arrows to
represent flows, triangles to represent decision points, inverted triangles to represent storage of
goods, and rectangles as tasks. Let’s begin by looking at some elements used in developing a
flowchart, as shown in Figure 1-13 Shown first, in Figure 1-13 (a), are flows between stages in a
simple multistage process, which is a process with multiple activities (“stages”). You can see that
the arrows indicate a simple flow of materials between the different stages. Often, multiple
stages have storage areas or “buffers” between them for placement of either partially completed
(work-in-process) or fully completed (finished goods) inventory, shown in Figure 1-13 (b). This
enables the two stages to operate independently of each other. Otherwise, the first stage would
have to produce a product at the same exact rate as the second stage. For example, let’s say that
the first stage of a multistage process produces one product in 40 seconds and the second stage
in 60 seconds. That means that for every unit produced the first stage would have to stop and
wait 20 seconds for the second stage to finish its work. Because the capacity of the second stage
is holding up the speed of the process, it is called a bottleneck. Now let’s see what happens if the
first stage takes 60 seconds to produce a product and the second stage 40 seconds. In this case
the first stage becomes the bottleneck, and the second stage has to wait 20 seconds to receive a
product. Obviously, the best is for both stages to produce at the same rate, though this is often
not possible. Inventory is then placed between the stages to even out differences in production
capacity.

Often stages in the production process can be performed in parallel, as shown in Figure 1-13 (c)
and (d). The two stages can produce different products (c) or the same product (d). Notice that
in the latter case this would mean that the capacity of the stage performed in parallel has
effectively been doubled.

LINKING PRODUCT DESIGN AND PROCESS SELECTION
Decisions concerning product design and process selection are directly linked and cannot be
made independently of one another. The type of product a company produces defines the type
of operation needed. The type of operation needed, in turn, defines many other aspects of the
organization. This includes how a company competes in the marketplace (competitive priorities),
the type or equipment and its arrangement in the facility, the type of organizational structure,

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and future types of products that can be produced by the facility. Table 3-4 summarizes some
key decisions and how they differ for intermittent and repetitive types of operations. Next we
look at each of these decision areas.

PRODUCT DESIGN DECISIONS
Intermittent and repetitive operations typically focus on producing products in different stages
of the product life cycle. Intermittent operations focus on products in the early stage of the life
cycle because facilities are general purpose and can be adapted to the needs of the product.
Because products in the early stage of the life cycle are still being refined, intermittent operations
are ideally suited to them. Also, demand volumes for these products are still uncertain, and
intermittent operations are designed to focus on producing lower volumes of products with
differing characteristics.

Once a product reaches the later stages of the life cycle, both its product features and its demand
volume are predictable. As volumes are typically larger at this stage, a facility that is dedicated to
producing a large volume of one type of product is best from both efficiency and cost
perspectives. This is what a repetitive operation provides. Recall that repetitive operations are
capital intensive, with much automation dedicated to the efficient production of one type of
product. It would not be a good decision to invest such a large amount of resources for a product
that is uncertain relative to its features or market. However, once a product is well defined with
a sizable market, repetitive types of operations are a better business alternative. This is why
repetitive operations tend to focus on products in the later stages of their life cycle.
Table 1-11: Differences in Key Organizational Decisions for Different Types

The product focus of both types of operations has significant implications for a company’s future
product choices. Once a company has an intermittent operation in place, designed to produce a
variety of products in low volumes, it is a poor strategic decision to pursue production of a highly
standardized product in the same facility. The same holds true for attempting to produce a newly
introduced product in a repetitive operation.

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The differences between the two types of operations are great, including the way they are
managed. Not understanding their differences is a mistake often made by companies. A company
may be very successful at managing a repetitive operation that produces a standardized product.
Management may then see an opportunity involving products in the early stage of the life cycle.
Not understanding the differences in the operational requirements, management may decide to
produce this new product by applying their “know-how.” The results can prove disastrous. The
problems that can arise when a company does not understand the differences between
intermittent and repetitive operations are illustrated by the experience of The Babcock & Wilcox
Company in the late 1960s. B & W was very successful at producing fossil-fuel boilers, a
standardized product made via repetitive operation. Then the company decided to pursue
production of nuclear pressure vessels, a new product in the early stages of its life cycle that
required an intermittent operation. B & W saw the nuclear pressure vessels as a wave of the
future. Because they were successful at producing boilers, they believed they could apply those
same skills to production of the new product. They began managing the production of nuclear
pressure vessels—an intermittent operation—as if it were a repetitive operation. They focused
primarily on cost rather than delivery, did not give enough time for product refinement, and did
not invest in labor skills necessary for a new product. Consequently, the venture failed, and the
company almost went out of business. It was saved by its success in the production of boilers, to
which it was able to return.

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