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CASE – 1 Dartmouth
To
transform a wired campus to a wireless one requires lots of money. A computer science
professor who initiated the idea at Dartmouth
As
a pioneer in campuswide wireless, Dartmouth
·
Students are
continuously developing new applications for the Wi-Fi. For example, one
student has applied for a patent on a personal-security device that pinpoints
the location of campus emergency services to one’s mobile device.
·
Students no
longer have to remember campus phone numbers, as their mobile devices have all
the numbers and can be accessed anywhere on campus.
·
Students
primarily use laptop computers in the network. However, an increasing number of
Internet-enabled PDAs and cell phones are used as well. The use of regular cell
phones is on the decline on the campus.
·
An extensive
messaging system is used by the students, who send SMSs (Short Message
Services) to each other. Messages reach the recipients in a split second, any
time, anywhere, as long as they are sent and received within the network’s
coverage area.
·
Usage of the
Wi-Fi system is not confined just to messages. Students can submit their
classwork by using the network, as well as by watching streaming video and
listening to Internet radio.
·
An analysis of
wireless traffic on campus showed how the new network is changing and shaping
campus behaviour patterns. For example, students log on in short burst, about
16 minutes at a time, probably checking their messages. They tend to plant
themselves in a few favorite spots (dorms, TV room, student center, and on a
shaded bench on the green) where they use their computers, and they rarely
connect beyond those places.
·
Some students
invented special complex wireless games that they play online.
·
One student has written a code that calculates
how far away a networked PDA user is from his or her next appointment, and then
automatically adjusts the PDA’s reminder alarm schedule accordingly.
·
Professors are
using wireless-based teaching methods. For example, students can evaluate
material presented in class and can vote online on a multiple-choice
questionnaire relating to the presented material. Tabulated results are shown
in seconds, promoting discussions. According to faculty, the system “makes
students want to give answer,” thus significantly increasing participation.
·
Faculty and
students developed a special voice-over-IP application for PDAs and iPAQs that
uses live two-say voice-over-IP chat
Questions
1.
In what ways is
the Wi-Fi technology changing the life of Dartmouth
2.
Some say that the
wireless system will become part of the background of everybody’s life—that the
mobile devices are just an afterthought. Explain.
3.
Is the system
contributing to improved learning, or just adding entertainment that may reduce
the time available for studying? Debate your point of view with students who
hold a different opinion.
4.
What are the
major benefits of the wireless system over the previous wireline one? Do you
think wireline systems will disappear from campuses one day? (Do some research
on the topic.)
CASE – 2 E-Commerce
Supports Field Employees at
Maybelline
The Business Problem
Maybelline is a leader in
color cosmetics products (eye shadow, mascara, etc.), selling them in more than
70 countries worldwide (maybelline.com). The company uses hundreds of
salespeople (field merchandising representatives, or “reps”), who visit drugstores,
discount stores, supermarkets, and cosmetics specialty stores, in an attempt to
close deals. This method of selling has proved to be fairly effective, and it
is used by hundreds of other manufacturers such as Kodak, Nabisco, and Procter
& Gamble. Sales managers from any company need to know, as quickly as
possible, when a deal is closed or if there is any problem with the customer.
Information
technology has been used extensively to support sales reps and their managers.
Until 2000, Maybelline, as well as many other large consumer product
manufacturers, equipped reps with an interactive voice response (VR) system, by
means of which they were to enter, every evening, information about their daily
activities. This solution required that the reps collect data with paper-based
surveys completed for every store they visited each day. For example, the reps
noted how each product was displayed, how much stock was available, how items
were promoted, etc. In addition to the company’s products the reps surveyed the
competitors’ products as well. In the evening, the reps translated the data
collected into answers to the voice response system which asked them routine
questions. The reps answered by pressing the appropriate telephone keys.
The
IVR system was not the perfect way to transmit sales data. For one thing, the
IVR system consolidated information, delivering it to top management as a hard
copy. However, unfortunately, these reports sometimes reached top management
days or weeks too late, missing important changes in trends and the
opportunities to act on them in time. Frequently, the reps themselves were late
in reporting, thus further delaying the needed information.
Even
if the reps did report on time, information was inflexible, since all reports
were menu-driven. With the voice system the reps answered only the specific
questions that applied to a situation. To do so, they had to wade through over
50 questions, skipping the irrelevant ones. This was a waste of time. In
addition, some of the material that needed to be reported had no matching menu
questions. Considering a success in the 1990s, the system was unable to meet
the needs of the twenty-first century. It was cumbersome to set up and operate
and was also prone to input errors.
The Mobile
Solution
Maybelline replaced the IVR
by equipping its reps with a mobile system, called Merchandising Sales
Portfolio (MSP), from Thinque Corp. (thinque.com, now part of meicpg.com). It
runs on handheld, pen-based PDAs, which have hand-writing recognition capability
(from NEC), powered by Microsoft’s CE operating system. The system enables reps
to enter their information by hand-writing their reports directly at the
clients’ sites. From the handheld device, data can be uploaded to a Microsoft
SQL Server database at headquarters every evening. A secured Internet
connection links to the corporate intranet (a synchronization process). The new
system also enables district managers to electronically send daily schedules
and other important information to each rep.
The
system also replaced some of the functions of the EDI (electronic data
interchange) system, the pride of the 1990s. For example, the reps’ report
include inventory-scanned data from retail stores. These are processed quickly
by an order management system, and passed whenever needed to the shipping
department for inventory replenishment.
In
addition to routine information, the new system is used for decision support.
It is not enough to speed information along the supply chain; managers need to
know the reasons why certain products are selling well, or not so well, in
every location. They need to know what the conditions are at retail stores
affecting the sales of each product, and they need to know it in a timely
manner. The new system offers those capabilities.
The Results
The system provided managers
at Maybelline headquarters with an interactive link with the mobile field
force. Corporate planners and decision makers can now respond much more quickly
to situations that need attention. The solution is helping the company forge
stronger ties with its retailers, and it considerably reduces the amount of
after-hours time that the reps spend on data transfer to headquarters (from
30-50 minutes per day to seconds).
The
new system also performs market analysis that enables managers to optimize
merchandising and customer service efforts. It also enables Maybelline to use a
more sophisticated interactive voice response unit—to capture data for special
situations. Moreover, it provides browser-based reporting tools that enable
managers, regardless of where they are, to view retail information within hours
of its capture. Using the error-checking and validation feature in the MSP
system, reps make significantly fewer data entry errors.
Finally,
the quality of life of Maybelline reps has been greatly improved. Not only do
they save 30 to 40 minutes per day, buy also their stress level has been
significantly reduced. As a result, employee turnover has declined appreciably,
saving money for the company.
Questions
1.
IVR systems are
still popular. What advantages do they have over even older systems in which
the reps mailed or faxed reports?
2.
Summarize the
advantages of the new system over the IVR one.
3.
Draw the flow of
information in the system.
4.
The existing
technology enables transmission of data any time an employee can access the
Internet with a wireline. Technically, the system can be enhanced so that the
data can be sent wirelessly from any location as soon as they are entered.
Would you recommend a wireless system to Maybelline? Why or why not?
CASE – 3 Precision
Buying, Merchandising, and Marketing
At Sears
The Problem
Sears, Roebuck and Company,
the largest department store chain and the third-largest retailer in the United States
Sears
had 18 data centers, one in each of 10 geographical regions as well as one each
for marketing, finance, and other departments. The first problem was created
when the reorganization effort produced only seven geographical regions.
Frequent mismatches between accounting and sales figures and information
scattered among numerous databases users to query multiple systems, even when
they needed an answer to a simple query. Furthermore, users found that data
that were already summarized made it difficult to conduct analysis at the
desired level of detail. Finally, errors were virtually inevitable when
calculations were based on data from several sources.
The Solution
To solve these problems,
Sears constructed a single sales information data warehouse. The replaced the
18 old databases which were packed with redundant, conflicting, and sometimes
obsolete data. The new data warehouse is a simple repository of relevant
decision-making data such as authoritative data for key performance indicators,
sales inventories, and profit margins. Sears, known for embracing IT on a
dramatic scale, completed the data warehouse and its IT reengineering efforts
in under one year—a perfect IT turnaround story.
Using
an NCR enterprise server, the initial 1.7 terabyte (1.7 trillion bytes) data
warehouse is part of a project dubbed the Strategic Performance Reporting
System (SPRS). By 2003, the data warehouse had grown to over 70 terabytes. SPRS
includes comprehensive sales data; information on inventory in stores, in
transit, and at distribution centers; and cost per item. This has enabled Sears
to track sales by individual items (skus) in each of its 1,950 stores
(including 810 mall-based stores) in the United States
SPRS
is open to all authorized employees, who now can view each day’s sales from a
multidimensional perspective (by region, district, store, product line, and
individual item). Users can specify any starting and ending dates for special
sales reports, and all data can be accessed via a highly user-friendly
graphical interface. Sears managers can now monitor the precise impact of
advertising, weather, and other factors on sales of specific items. This means
that Sears merchandise buyers and other specialists can examine and adjust, if
needed inventory quantities, merchandising, and order placement, along with
myriad other variables, almost immediately, so they can respond quickly to
environmental changes. SPRS users can also group together widely divergent
kinds of products, for example, tracking sales of items marked as “gifts under
$25.” Advertising staffers can follow so-called “great items,” drawn from
vastly different departments, that are splashed on the covers of promotional
circulars. SPRS enables extensive data mining, but only on sku- and
location-related analysis.
In
1998 Sears created a large customer database, dubbed LCI (Leveraging Customer
Information), which contained customer-related sale information (which was not
available on SPRS). The LCI enables hourly records of transactions, for
example, guiding hourly promotion (such as 15% discounts for early-bird
shoppers).
In
the holiday season of 2001, Sears decided to replace its regular 10% discount
promotion by offering deep discount during early shopping hours. The new
promotion, which was based on SPRS, failed, and only when LCI was used was the
problem corrected. This motivated Sears to combine LCI and SPRS in a single
platform, which enables sophisticated analysis (in 2002).
By
2001, Sears also had the following Web initiatives: an e-commerce home
improvement center, a B2B supply exchange for the retail industry, a
toy catalog (wishbook.com),
an e-procurement system, and much more. All of these Web-marketing initiatives
feed data into the data warehouse, and their planning and control are based on
accessing the data warehouse.
The Result
The ability to monitor sales
by item per store enables Sears to create a sharp local market focus. For
example, Sears keeps different shades of paint colors in different cities to
meet local demands. Therefore, sales and market share have improved. Also,
Web-based data monitoring of sales at LCI helps Sears to plan marketing and Web
advertising.
At
its inception, the data warehouse hand been used daily over 3,000 buyers, replenishers,
marketers, strategic planner, logistics and finance analysts, and store
managers. By 2004, there were over 6,000 users, since users found the system
very beneficial. Response time to queries has dropped from days to minutes for
typical requests. Overall, the strategic impact of the SPRS-LCI data warehouse
is that it offers Sears employees a tool for making better decisions, and Sears
retailing profits have climbed more than 20 percent annually since SPRS was
implemented.
Questions
1.
What were the
drivers of SPRS?
2.
How did the data
warehouse solve Sears’s problems?
3.
Why was it
beneficial to integrate the customers’ data-base with SPRS?
4.
How could RFID
change Sears’s operations?
CASE – 4 Dollar
General Uses Integrated Software
Dollar General
(dollargeneral.com) operates more than 6,000 general stores in the United States
The
IT department was flooded with request to generate long reports on topics
ranging from asset management to general ledgers. It became clear that a better
information system was needed. Dollar General started by evaluating information
requirements that would be able to solve the above and other problems that cut
into the company’s profit.
A
major factor in deciding which software to buy was the integration requirement
among the existing information systems of the various functional areas,
especially the financial applications. This led to the selection of the
Financials suite (from Lawson Software). The company started to implement
applications one at the time. Before 1998, the company installed the suite’s
asset management, payroll, and some HR applications which allow the tens of
thousands of employees to monitor and self-update their benefits, 401k
contributions, and personal data (resulting in big savings to the HR
department). After 1998, the accounts payable and general ledger modules of
Lawson Software were activated. The accounting modules allow employees to
route, extract, and analyze data in the accounting/finance area with little
reliance on IT personnel. During 2001-2003, Dollar General moved into the sales
and procurement areas, thus adding the marketing and operation activities to
the integrated system.
Here
are a few examples of how various parts of the new system work: All sales data
from the point-of-sale scanners of some 6,000 stores are pulled each night,
together with financial data, discounts, etc., into the business intelligence
application for financial and marketing analysis. Employee payroll data, from
each store, are pulled once a week. This provides synergy with the sales audit
system (from STS Software). All sales data are processed nightly by the STS
System, broken into hourly journal entries, processed and summarized, and then
entered into the Lawson’s general ledger module.
The
original infrastructure was mainframe based (IBM AS 400). By 2002, the 800
largest suppliers of Dollar General were submitting their bills on the EDI.
This allowed instantaneous processing in the accounts payable module. By 2003,
service providers, such as utilities, were added to the system. To do all this
the system was migrated in 2001 from the old legacy system to the Unix
operating system, and then to a Web-based infrastructure, mainly in order to
add Web-based functionalities and tools.
A
development tool embedded in Lawson’s Financials allowed users to customize
applications without touching the computer programming code. This included
applications that are not contained in the Lawson system. For example, an
employee-bonus applications was not available at Lawson, but was added to Financial’s
payroll module to accommodate Dollar General’s bonus system. A customized
application that allowed additions and changes in dozens of geographical areas
also solved the organization’s state sales-tax collection and reporting
problem.
The
system is very scalable, so there is not problem in adding stores, vendors,
applications, or functionalities. In 2003, the system was completely converted
to Web-based, enabling authorized vendors, for example, to log on the Internet
and view the status of their invoices by themselves. Also the Internet/EDI
enables small vendors to use the system. (An EDI is too expensive for small
vendors, but the EDI/Internet is affordable.) Also, the employment can update
personal data from any Web-enabled desktop in the store or at home. Future
plans call for adding an e-purchasing (procurement) module using a desktop
purchasing model.
Questions
1.
Explain why the
old, nonintegrated functional system created problems for the company. Be
specific.
2.
The new system
cost several millions dollars. Why, in your opinion, was it necessary to
install it?
3.
Lawson Software
Smart Notification Software (lawson.com) is being considered by Dollar General.
Find information about the software and write an opinion for adopting or
rejection.
4.
Another new
product of Lawson is Service Automation. Would you recommend it to Dollar
General? Why or why not?
CASE – 5 Singapore and Malaysia
System
The problem
Airlines fly around the
globe, mostly with their native crew. Singapore Airlines and Malaysia Airlines
are relatively small airlines, but they serve dozens of different countries. If
a crewmember is ill on route, there is a problem of quickly finding a
replacement. This is just one example why crew scheduling may be complex,
especially when it is subject to regulatory constraints, contract agreements
and crew preferences. Disturbances such as
weather conditions, maintenance problems, etc, also make crew management
difficult.
The Solution
Singapore Airlines uses
Web-based intelligent systems including expert systems and neural computing to
manage the company’s flight crew scheduling and handle disruptions to the crew
rosters. The Integrated Crew Management System (ICMS) project, implemented in Singapore
For
example, crews are rearranged if one member falls ill while in a foreign port;
the system will find a backup in order to prevent understaffing on the scheduled
flight. The intelligent system then determines the best way to reschedule the
different crew members’ rosters to accommodate the sick person. When a
potentially disruptive situation occurs, the intelligent system automatically
draws upon the knowledge stored in the database and advises the best course of
action. This might mean repositioning the crew or calling in backup staff. The
crew tracking system includes a crew disruption handling module that provides
decision support capabilities in real time.
A
similar Web-based system is used by Malaysia Airlines, as of summer 2003, to
optimize flight crew utilization. Also called ICMS, it leverages optimization
software from ilog.com. Its Crew Pairing Optimization (CPO) module utilizes
Ilog Cplex and Ilog Solver optimization components to ensure compliance with
airline regulations, trade union agreements, and company policies, to minimize
the costs associated with crew accommodations and transportation and to
efficiently plan and optimize staff utilization and activities associated with
long-term planning and daily operations. The Crew Duty Assignment (CDA) module
provides automatic assignment of duties to all flight crews. The system
considers work rules, regulatory requirements, and crew requests to produce an
optimal monthly crew roster.
The Results
Despite the difficult economic times, both
airless are competing successfully in the region, and their balance sheets are
better than most other airlines.
Questions
1.
Why do airlines
need optimization systems for crew scheduling?
2.
What role can
experts’ knowledge play in this case?
3.
What are the
similarities between the systems in Singapore
and Malaysia
4.
The airlines use
ADSs for their pricing strategy (pricing and yield optimization). Can they use
an ADS for crew management? Why or why not?
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