1 mmg508 introduction to data mining, warehousing, and visualization
TRANSCRIPT
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MMG508MMG508
Introduction to Data Mining, Warehousing, and Visualization
A data warehouse is a copy of transaction data
specifically structured for querying, analysis and reporting
Note that the data warehouse contains a copy of the transactions. These are not updated or changed later by the transaction system.
Also note that this data is specially structured, and may have been transformed when it was placed in the warehouse
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The Modern Data Warehouse
The DW has the following primary functions: It is a direct reflection of the business rules of the
enterprise. It is the collection point for strategic information. It is the historical store of strategic information. It is the source of information later delivered to
data marts. It is the source of stable data regardless of how
the business processes may change.
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Data Warehouse Roles and Structures
Position of the Data Warehouse Within the Organization
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A data mart is a smaller, more focused data
warehouse. It reflects the business rules of a specific business unit.
The data mart does not need to cleanse its data because that was done when it went into the warehouse.
It is a set of tables for direct access by users. These tables are designed for aggregation. It typically is not a source for traditional
statistical analysis.
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Data Marts
Position of the Data Mart Within the
Organization
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Data D
elivery
Data Mart
Data Mart
Data Mart
Decision Support
Information
Decision Support
Information
Decision Support
Information
Some of the benefits of a DW are: Immediate information delivery Data integration from across and even outside
the organization Future vision from historical trends Tools for looking at data in new ways Freedom from IS department resource limitations
(you don’t need programmers to use a data warehouse)
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What Can a Data Warehouse Do?
Sales Analysis Determine real-time product sales to make vital pricing and distribution decisions. Analyze historical product sales to determine success or failure attributes. Evaluate successful products and determine key success factors. Use corporate data to understand the margin as well as the revenue implications of a decision. Rapidly identify a preferred customer segments based on revenue and margin. Quickly isolate past preferred customers who no longer buy. Identify daily what product is in the manufacturing and distribution pipeline. Instantly determine which salespeople are performing, on both a revenue and margin basis, and which are
behind.
Financial Analysis Compare actual to budgets on an annual, monthly and month-to-date basis. Review past cash flow trends and forecast future needs. Identify and analyze key expense generators. Instantly generate a current set of key financial ratios and indicators. Receive near-real-time, interactive financial statements.
Human Resource Analysis Evaluate trends in benefit program use. Identify the wage and benefits costs to determine company-wide variation. Review compliance levels for EEOC and other regulated activities.
Other Areas Warehouses have also been applied to areas such as: logistics, inventory, purchasing, detailed transaction
analysis and load balancing.
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Examples of Common DW Applications
On a daily basis, organizations turn to their data
warehouses to answer a limitless variety of questions.
Nothing is free, however, and these benefits do come with a cost.
The value of a data warehouse is a result of the new and changed business processes it enables.
There are limitations, though. A DW cannot correct problems with the data, although it may help to clearly identify them.
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What Does All This Mean?
Costs Hardware, software, development personnel and consultant costs. Operational costs like ongoing systems maintenance.
Benefits Added Revenue Will the new (business objective) process generate new customers (what is the
estimated value?) Will the new (business objective) process increase the buying propensity of
existing customers (by how much?) Is the new process necessary to ensure that the competition doesn't offer a
demanded service that you can't match? Reduced costs What costs of current systems will be eliminated? Is the new process intended to make some operation more efficient? If so, how
and what is the dollar value?
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Comparison of Typical DW Costs and Benefits
Expenditures can be categorized as one-time
initial costs or as recurring, ongoing costs. The initial costs can further be identified as for
hardware or software. Expenditures can also be categorized as
capital costs (associated with acquisition of the warehouse) or as operational costs (associated with running and maintaining the warehouse)
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The Cost of Warehousing Data
Expenditures Associated with Building a DW
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Recurring Costs One-Time Costs
Capital Hardware maintenance Software maintenance Terminal analysis Middleware
Hardware Software Disk DBMS CPU Terminal analysis Network Middleware Terminal analysis Network Log utility Processing Metadata Infrastructure
Operational Ongoing refreshment Integration transformation Data model maintenance Record identification maintenance Metadata infrastructure maintenance Archival of data Data aging within the DW
Integration/transformation processing specification
Metadata infrastructure population System of record definition Data dictionary language definition Network transfer definition CASE/Repository interface Initial data warehouse population Data model definition Database design definition
A company that spends less money for their
data warehouse is often happier with it. The main justification for the development
expense is that a DW reduces the cost of accessing the information owned by the organization.
Since information has to be retrieved just once (when it is placed in the warehouse), DW users see a lower cost on each report generated.
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Cost Are Highly Variable
Typical Multidatabase Report and Screen Generation
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SourceSystem
A
SourceSystem
B
SourceSystem
C
SourceSystem
D
Data download and
transformation contribute to
retrieval costs for every report
or screen generated
Typical DW Report and Screen
Generation
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SourceSystem
A
SourceSystem
B
SourceSystem
C
SourceSystem
D
OrganizationalData
Warehouse
Data upload and
transformation costs occur just once. Retrieval costs are lower.
Every corporation has two types of DW users. Farmers know what they want before they set
out to find it. They submit small queries and retrieve small nuggets of information.
Explorers are quite unpredictable. They often submit large queries. Sometimes they find nothing, sometimes they find priceless nuggets.
Cost justification for the DW is usually done on the basis of the results obtained by farmers since explorers are unpredictable.
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Farmers and Explorers
Data Marts and the Data Warehouse
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OrganizationalData
Warehouse
FinanceData Mart
Accounting
Data Mart
MarketingData Mart
SalesData Mart
Operational Data Store
Operational Data Store
Operational Data Store
Operational Data Store
Legacy SystemsLegacy systems feed data to the
warehouse.
The warehouse feeds specialized information to departments.
The Data Mart is More Specialized
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OrganizationalData
Warehouse
FinanceData Mart
AcctingData Mart
MarketingData Mart
SalesData Mart
Data Marts
DepartmentalizedSummarized, aggregated dataStar join designLimited historical dataLimited data volumeRequirements driven dataFocused on departmental needsMulti-dimensional DBMS technologies
Organizational Data Warehouse
CorporateHighly granular dataNormalized designRobust historical dataLarge data volumeData Model driven dataVersatileGeneral purpose DBMS technologies
The data mart serves the needs of one business unit, not the organization.
Data mining is the process of using raw data
to infer important business relationships. Despite a consensus on the value of data
mining, a great deal of confusion exists about what it is.
It is a collection of powerful techniques intended for analyzing large datasets.
There is no single data mining approach, but rather a set of techniques that can be used in combination with each other.
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Foundations of Data Mining
The approach has roots in practice dating back
over 30 years. In the early 1960s, data mining was called
statistical analysis, and the pioneers were statistical software companies such as SAS and SPSS.
By the 1980s, the traditional techniques had been augmented by new methods such as fuzzy logic, heuristics and neural networks.
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The Roots of Data Mining
Although all data mining endeavors are unique,
they possess a common set of process steps:1. Infrastructure preparation – choice of
hardware platform, the database system and one or more mining tools
2. Exploration – looking at summary data, sampling and applying intuition
3. Analysis – each discovered pattern is analyzed for significance and trends
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A General Approach
4. Interpretation – Once patterns have been
discovered and analyzed, the next step is to interpret them. Considerations include business cycles, seasonality and the population the pattern applies to.
5. Exploitation – this is both a business and a technical activity. One way to exploit a pattern is to use it for prediction. Others are to package, price or advertise the product in a different way.
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A General Approach (continued)
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The Approach to Data Exploration and Data Mining
A Perfect CorrelationA Perfect Correlation
A Strong CorrelationA Strong Correlation
A Weak CorrelationA Weak Correlation
A
B
A
B
A
B
The basis
for all
data mining activities is correlation.
In general, a correlation coefficient is a number between 0 and 1 that shows strength of a relationship.
Some types of correlation are signed (±) to also show the direction of the relationship.
Even a weak correlation can be interesting, however, if it shows a trend over time.
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The Spectrum of Correlation
1 .5 0Perfect Moderate NoCorrelation Correlation Correlation
Methods to Determine Correlation
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A B
vs.
vs.
vs.
vs.
vs.
A
A
A
A
A
BBB
B B
BB
BB
BB B
Data element vs. data element
Data element vs. unit of time
Data element vs. data element groups
Data element vs. geography
Data element vs. external trends
Data element vs. demographics
vs.The method
used depends on the type of elements
being correlated.
Data mining does not require the use of a
warehouse, but it may be the best foundation for mining.
If multiple analyses are run in sequence, the data need to be held constant (as in a DW). In an operational database, data change often.
Also important is that the data in the DW is integrated and stable
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The Data Warehouse and Data Mining
The largest challenge a data miner may face
is the sheer volume of data in the warehouse. It is quite important, then, that summary data
also be available to get the analysis started. A major problem is that this sheer volume may
mask the important relationships the analyst is interested in.
The ability to overcome the volume and visualize the data becomes quite important.
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Volumes of Data – The Biggest Challenge
One of the earliest known examples of data
visualization was in London during the 1854 cholera epidemic. A map (next slide) helped to identify the source of the disease.
Modern visualization techniques grew from the twin technologies of computer graphics and high performance computing in the 1970s and 1980s.
One computer scientist who saw this trend arising was Douglas Engelbart in the 1950s.
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Foundations of Data Visualization
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Dr. John Snow
used a map to
show the source of cholera was a water pump, thus
proving the
disease was water
borne.
Broad StreetPump
Alternative input devices (light pen, sketch pad
and mouse) began to appear in the 1960s. In the 1970s, flight simulators became much
more realistic when graphics replaced film. In the same decade, special effects computers
became entrenched in the entertainment industry.
In the 1980s, visualization grew more dynamic with applications like the animation of Los Angeles smog patterns.
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Opportunity and Timing
One of today’s more useful
types of visualization is in simulators
(both in games and in
practice).
This is the only way most of us will ever fly a Boeing
747.
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It is now both cheaper and safer to train commercial
pilots on simulators.
With good software,
pilots can be placed in situations
they may not ever see –
until too late – in the cockpit.
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A Sequence of Frames Animating LA
Smog
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Day 1 Swirling Winds – Light Smog Particles
Day 2 Offshore Winds – Moderate Smog Particles
Day 3 Head-on View of Smog Particles and Streamlines
In the 1990s, rapid advances in chip
technology, both at the CPU and the graphics processor, put data visualization everywhere.
Imagine trying to understand DNA sequences from just the numbers!
On the next slide, a Mapuccino display helps us see where the results from a text search come from.
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Number Crunching With a Difference
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