Business Analytics (BA) PDF

Summary

This document provides an overview of business analytics, covering core concepts, methods, tools, including OLAP, data visualization, and multidimensionality. It also touches upon real-time BI, GIS, and the use of the web in business analysis.

Full Transcript

Describe business analytics (BA) and its
importance to organizations
List and briefly describe the major BA
methods and tools
Describe how online analytical processing
(OLAP), data visualization, and
multidimensionality can improve decision
making
Describe advanced analysis methods
Describe geographical information systems
(GIS) and their support to decision making
Describe real-time BA
Describe how business intelligence (BI)
supports competitive intelligence
Describe automated decision support (ADS)
systems and their benefits
Explain how the Web relates to BA
Describe Web intelligence and Web analytics
and their importance to organizations
Describe implementation issues related to BA
and success factors for BA
Business intelligence (BI)
The use of analytical methods, either
manually or automatically, to derive
relationships from data
The essentials of BA
Analytics
The science of analysis.
Business analytics (BA)
The application of models directly to business
data. BA involves using MSS tools, especially
models, in assisting decision makers; essentially
a form of OLAP decision support
 MicroStrategy’s classification of BA tools:
The five styles of BI
1. Enterprise reporting
2. Cube analysis
3. Ad hoc querying and analysis
4. Statistical analysis and data mining
5. Report delivery and alerting
The Business
Analytics (BA) Field: An Overview
SAP’s classification of strategic
enterprise management
Three levels of support
1. Operational
2. Managerial
3. Strategic
Executive information and support
systems
Executive information systems (EIS)
Provides rapid access to timely and relevant
information aiding in monitoring an
organization’s performance
Executive support systems (ESS)
Also provides analysis support,
communications, office automation, and
intelligence support
Drill-down
The investigation of information in
detail (e.g., finding not only total sales
but also sales by region, by product, or
by salesperson). Finding the detailed
sources.
Online analytical processing (OLAP)
An information system that enables the
user, while at a PC, to query the system,
conduct an analysis, and so on. The
result is generated in seconds
OLAP versus OLTP
OLTP concentrates on processing repetitive
transactions in large quantities and
conducting simple manipulations
OLAP involves examining many data items
complex relationships
OLAP may analyze relationships and look for
patterns, trends, and exceptions
OLAP is a direct decision support method
Types of OLAP
Multidimensional OLAP (MOLAP)
OLAP implemented via a specialized
multidimensional database (or data store)
that summarizes transactions into
multidimensional views ahead of time
Types of OLAP
Relational OLAP (ROLAP)
The implementation of an OLAP database on
top of an existing relational database
Database OLAP and Web OLAP (DOLAP and
WOLAP)
Desktop OLAP
Codd’s 12 Rules for OLAP
1. Multidimensional
conceptual view for 7. Dynamic sparse matrix
formulating queries handling
2. Transparency to the user 8. Multiuser support rather
3. Easy accessibility: batch than support for only a
and online access single user
4. Consistent reporting 9. Unrestricted cross-
performance dimensional operations
5. Client/server architecture: 10. Intuitive data
the use of distributed manipulation
resources 11. Flexible reporting
6. Generic dimensionality 12. Unlimited dimensions and
aggregation level
Reports
Routine reports
Ad hoc (or on-demand) reports
Multilingual support
Scorecards and dashboards
Report delivery and alerting
 Report distribution through any touchpoint
 Self-subscription as well as administrator-based
distribution
 Delivery on-demand, on-schedule, or on-event
 Automatic content personalization
Ad hoc query
A query that cannot be determined prior to
the moment the query is issued
Structured Query Language (SQL)
A data definition and management language
for relational databases. SQL front ends most
relational DBMS
Multidimensionality
The ability to organize, present, and analyze
data by several dimensions, such as sales by
region, by product, by salesperson, and by
time (four dimensions)
Multidimensional presentation
Dimensions
Measures
Time
Multidimensional database
A database in which the data are organized
specifically to support easy and quick
multidimensional analysis
Data cube
A two-dimensional, three-dimensional, or
higher-dimensional object in which each
dimension of the data represents a measure
of interest
Cube
A subset of highly interrelated data that is
organized to allow users to combine any
attributes in a cube (e.g., stores, products,
customers, suppliers) with any metrics in the
cube (e.g., sales, profit, units, age) to create
various two-dimensional views, or slices, that
can be displayed on a computer screen
Multidimensional tools and vendors
Tools with multidimensional capabilities often
work in conjunction with database query systems
and other OLAP tools
Limitations of dimensionality
The multidimensional database can take up
significantly more computer storage room than
a summarized relational database
Multidimensional products cost significantly
more than standard relational products
Database loading consumes significant system
resources and time, depending on data volume
and the number of dimensions
Interfaces and maintenance are more complex
in multidimensional databases than in
relational databases
Data mining and predictive analysis
Data mining
Predictive analysis
Use of tools that help determine the probable
future outcome for an event or the likelihood of
a situation occurring. These tools also identify
relationships and patterns
Data visualization
A graphical, animation, or video presentation
of data and the results of data analysis
The ability to quickly identify important trends in
corporate and market data can provide
competitive advantage
Check their magnitude of trends by using
predictive models that provide significant
business advantages in applications that drive
content, transactions, or processes
New directions in data visualization
In the 1990s data visualization has moved
into:
Mainstream computing, where it is integrated
with decision support tools and applications
Intelligent visualization, which includes data
(information) interpretation
New directions in data visualization
Dashboards and scorecards
Dashboards are used daily in organizations as they offer a more
operational view of success than scorecards' focus on strategic goals.
Data available in dashboards is used to provide a foundation for better
decision making and more efficient day-to-day management of teams,
resources, and expenses
Visual analysis eg chart
Financial data visualization -Identify additional
trends or find even deeper insights (especially when using
multiple data sources)
Geographical information system (GIS)
An information system that uses spatial data,
such as digitized maps. A GIS is a
combination of text, graphics, icons, and
symbols on maps
As GIS tools become increasingly
sophisticated and affordable, they help more
companies and governments understand:
Precisely where their trucks, workers, and
resources are located
Where they need to go to service a customer
The best way to get from here to there
GIS and decision making
GIS applications are used to improve decision
making in the public and private sectors
including:
 Dispatch of emergency vehicles
 Transit management
 Facility site selection
 Drought risk management
 Wildlife management
Local governments use GIS applications for
used mapping and other decision-making
applications
GIS combined with GPS
Global positioning systems (GPS)
Wireless devices that use satellites to enable
users to detect the position on earth of items
(e.g., cars or people) the devices are attached to,
with reasonable precision
GIS and the Internet/intranets
Most major GIS software vendors provide Web
access that hooks directly to their software
GIS can help the manager of a retail operation
determine where to locate retail outlets
Some firms are deploying GIS on the Internet for
internal use or for use by their customers (locate
the closest store location)
Real-time BI
The trend toward BI software producing real-
time data updates for real-time analysis and
real-time decision making is growing rapidly
Part of this push involves getting the right
information to operational and tactical personnel
so that they can use new BA tools and up-to-the-
minute results to make decisions
Real-time BI
Concerns about real-time systems
 An important issue in real-time computing is that not
all data should be updated continuously
 when reports are generated in real-time because one
person’s results may not match another person’s
causing confusion
 Real-time data are necessary in many cases for the
creation of ADS systems
Real-time BI
Automated decision support (ADS) or
enterprise decision management (EDM)
A rule-based system that provides a solution to a
repetitive managerial problem. Also known as
enterprise decision management (EDM)
Real-time BI
Business rules
Automating the decision-making process is
usually achieved by encapsulating business user
expertise in a set of business rules that are
embedded in a rule-driven workflow (or other
action-oriented) engine
Real-time BI
Characteristics and benefits of ADS
ADS are most suitable for decisions that must be
made frequently and/or rapidly, using
information that is available electronically
Capabilities of ADSs
Rapidly builds rules-based applications and
deploys them into almost any operating
environment
Injects predictive analytics into rule-based
applications
Provides services to legacy systems
Combines business rules, predictive models,
and optimization strategies flexibly into state-
of-the-art decision-management applications
Accelerates the uptake of learning from
decision criteria into strategy design,
execution, and refinement
ADS applications
Product or service configuration
Yield (price) optimization
Routing or segmentation decisions
Corporate and regulatory compliance
Fraud detection
Dynamic forecasting
Operational control
Implementing ADS—software companies
provide these components to ADS:
Rule engines
Mathematical and statistical algorithms
Industry-specific packages
Enterprise systems
Workflow applications
Competitive intelligence
Many companies continuously monitor the
activities of their competitors to acquire
competitive intelligence
Such information gathering drives business
performance by increasing market knowledge,
improving knowledge management, and raising
the quality of strategic planning
 Using the Web in BA -The process of analyzing the
behavior of visitors to a Web site.
Web analytics
The application of business analytics activities to Web-based
processes, including e-commerce. Enable a business to
attract more visitors, retain or attract new customers for goods
or services, or to increase the dollar volume each customer
spends
Clickstream analysis
The analysis of data that occur in the Web
environment.
Clickstream data
Data that provide a trail of the user’s
activities and show the user’s browsing
patterns (e.g., which sites are visited, which
pages, how long)
Usage of BA
Almost all managers and executives can use some
BA systems, but some find the tools too
complicated to use or they are not trained
properly.
Most businesses want a greater percentage of the
enterprise to leverage analytics; most of the
challenges related to technology adoption
involve culture, people, and processes
Success and usability of BA
Performance management systems (PMS) are BI
tools that provide scorecards and other relevant
information that decision makers use to
determine their level of success in reaching their
goals
 Why BI/BA projects fail
1. Failure to recognize BI projects as cross-
organizational business initiatives and to
understand that, as such, they differ from
typical standalone solutions
2. Unengaged or weak business sponsors
3. Unavailable or unwilling business
representatives from the functional areas
4. Lack of skilled (or available) staff, or
suboptimal staff utilization
 Why BI/BA projects fail
5. No software release concept (i.e., no
iterative development method)
6. No work breakdown structure (i.e., no
methodology)
7. No business analysis or standardization activities
8. No appreciation of the negative impact of “dirty
data” on business profitability
9. No understanding of the necessity for and the use of
metadata
10. Too much reliance on disparate methods and tools
System development and the need for
integration
Developing an effective BI decision support
application can be fairly complex
Integration, whether of applications, data
sources, or even development environment,
is a major CSF for BI