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Databases and Decision Support Systems CSS263 Lecture 14. LECTURE PLAN. What is a Decision Support System? What is a Data Warehouse? Different uses for a Data Warehouse Problems of Data Warehousing What is OLAP? What is Data Mining? Data Mining Operations
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Databases and Decision Support Systems CSS263 Lecture 14
LECTURE PLAN • What is a Decision Support System? • What is a Data Warehouse? • Different uses for a Data Warehouse • Problems of Data Warehousing • What is OLAP? • What is Data Mining? • Data Mining Operations • Data Mining Pit Falls!
COMPARISON OF OLTP AND DSS ON-LINE TRANSACTION PROCESSING • Updates to operational data • Stores detailed data • Repetitive processing • Predictable pattern of usage • Transaction driven • Application oriented • Supports day-to-day decisions • Usually small changes • Generally a large number of transactions • Serves many operational users
COMPARISON OF OLTP AND DSS DECISION SUPPORT SYSTEMS • Analysis of historical data • Ad-hoc fairly complex (read-only) queries • Stores detailed, lightly, and highly summarised data • Low to medium level of transaction throughput • Analysis driven • Subject oriented • Supports strategic decisions • Serves a few ‘managerial’ users • Fast-response time required
DECISION SUPPORT SYSTEMS • Operational Information • Users of data at the operational level of the business are • concerned with data at its highest level of detail, e.g. • particular accounts, invoices, delivery dates, etc… • Tactical Information • Users of data at the tactical level are more interested in • aggregated historical data to assist in planning decisions. • Strategic Information • Users of data at the strategic level are concerned with using • highly summarised data to give an overview of operations. SEEING DATA AS INFORMATION
DATA WAREHOUSING WHAT IS A DATA WAREHOUSE? ‘A subject-oriented, integrated, time-variant, and non-volatile collection of data in support of management’s decision-making process’ [Inmon, 1993]. DEFINITION : SUBJECT-ORIENTED: The warehouse is organized around the major subjects of an enterprise (e.g. customers, products, and sales) rather than the major application areas (e.g. customer invoicing, stock control, and order processing).
DATA WAREHOUSING WHAT IS A DATA WAREHOUSE? ‘A subject-oriented, integrated, time-variant, and non-volatile collection of data in support of management’s decision-making process’ [Inmon, 1993]. DEFINITION : INTEGRATED DATA: The data warehouse integrates corporate application-oriented data from different source systems, which often includes data that is inconsistent. Such data, must be made consistent to present a unified view of the data to the users.
DATA WAREHOUSING WHAT IS A DATA WAREHOUSE? ‘A subject-oriented, integrated, time-variant, and non-volatile collection of data in support of management’s decision-making process’ [Inmon, 1993]. DEFINITION : TIME VARIANT: Data in the warehouse is only accurate and valid at some point in time or over some time interval. Time-variance is also shown in the extended time that the data is held, the association of time with all data, and the fact that data represents a series of historical snapshots.
DATA WAREHOUSING WHAT IS A DATA WAREHOUSE? ‘A subject-oriented, integrated, time-variant, and non-volatile collection of data in support of management’s decision-making process’ [Inmon, 1993]. DEFINITION : NON-VOLITILE: Data in the warehouse is not updated in real-time but is refreshed from operational systems on a regular basis. New data is always added as a supplement to the database, rather than a replacement.
DATA WAREHOUSING THE USE OF A DATA WAREHOUSE INVENTORY DATABASE STEP 1: Load the Data Warehouse PERSONNEL DATABASE STEP 2: Question the Data Warehouse DATA WAREHOUSE NEWCASTLE SALES DB LONDON SALES DB DECISIONS and ACTIONS! STEP 3: Do something with what you learn from the Data Warehouse GLASGOW SALES DB
DATA WAREHOUSING CREATING A DATA WAREHOUSE • Data Collection • There need to be extraction routines to gather data from • the various operational data sources that interface with • the Data Warehouse. • Data Cleaning & Transformation • Data must be checked for validity and accuracy, and • differences in syntax and semantics must be resolved.
DATA WAREHOUSING CREATING A DATA WAREHOUSE • Data Loading • Data must be loaded into the Data Warehouse after • carrying out appropriate summarisation and aggregation. • Often this will be done using parallelism (as it could take • weeks to serially load a terabyte of data!). • Data Refresh • Updates to base data (operational data) must periodically • be propagated to the Data Warehouse.
DATA WAREHOUSING CREATING A DATA WAREHOUSE • Data Storage • Appropriate storage structures must exist to allow the • Data Warehouse to support fast access for search and • analysis of differing data types (text, graphic, picture, …).
DATA WAREHOUSING ARCHITECTURE OF A DATA WAREHOUSE Warehouse Manager Operational data source 1 Reporting query, Meta Highly A/P development Data Summarized and EIS tools Data Operational Lightly data source Summarized 2 Data Detailed Data DBMS OLAP tools Operational data source Warehouse Manager n Data mining tools Archive/ Backup data
DATA WAREHOUSING DATA WAREHOUSE INFORMATION FLOWS • INFLOW - Processes associated with the extraction, cleansing, and loading of the data from the source systems into the data warehouse. • UPFLOW - Processes associated with adding value to the data in the warehouse through summarizing, packaging, and distribution of the data. • DOWNFLOW - Processes associated with archiving and backing-up/recovery of data in the warehouse. • OUTFLOW - Processes associated with making the data available to the end-users. • METAFLOW - Processes associated with the management of the metadata.
DATA WAREHOUSING DATA FLOWS IN A DATA WAREHOUSE
DATA WAREHOUSING DATA WAREHOUSE DBMS REQUIREMENTS • Load performance • Load processing • Data quality management • Query performance • Terabyte scalability • Mass user scalability • Networked data warehouse • Warehouse administration • Integrated dimensional analysis • Advanced query functionality
DATA WAREHOUSING PROBLEMS • Underestimation of resources for data loading • Hidden problems with source systems • Required data not captured • Increased end-user demands • Data homogenization • High demand for resources • Data ownership • High maintenance • Long duration projects • Complexity of integration
OLAP WHAT IS OLAP? DEFINITION : ‘OLAP applications and tools are those that are designed to ask ad hoc, complex queries of large multidimensional collections of data. It is for this reason that OLAP is often mentioned in the context of Data Warehouses’.
OLAP TYPICAL OLAP QUESTIONS • Which type of property sells for prices above the average selling price for properties in the main cities of Great Britain and how does this correlate to demographic data? • What are the three most popular areas in each city for renting property in 1997 and how does this compare with the figures for the previous two years? • What is the current monthly revenue for property sales at each branch office, compared with rolling 12-monthly prior figures? • What is the relationship between the total annual revenue generated by each branch office and the total number of sales staff assigned to each branch office?
OLAP CODD’S RULES • Multi-dimensional conceptual view • Transparency • Accessibility • Consistent reporting performance • Client-server architecture • Generic dimensionality • Dynamic sparse matrix handling • Multi-user support • Unrestricted cross-dimensional operations • Intuitive data manipulation • Flexible reporting • Unlimited dimensions and aggregation levels
OLAP MULTDIMENSIONAL DATA MODEL London Socks Glasgow Newcastle Jumpers 10 50 10 10 T-Shirts 0 0 1 2 Shorts 80 80 80 80 Pyjamas 0 25 20 15 0 0 0 0 Spring Summer Autumn Winter Example: Three dimensions – Product, Sales Area, and Season
OLAP TYPICAL OLAP OPERATIONS
OLAP TYPICAL ARCHITECTURE FOR MOLAP TOOLS
OLAP TYPICAL ARCHITECTURE FOR ROLAP TOOLS
OLAP RELATIONAL STAR SCHEMA PRODUCTS LOCATIONS id pname cat desc price …. locid city state country ….. Dimension Table Dimension Table SALES Fact Table id timeid locid amount cost timeid date week month quarter year …... TIMES Dimension Table
DATA MINING WHAT IS DATA MINING DEFINITION : ‘A set of techniques used in an automated approach to exhaustively explore and bring to the surface complex relationships in very large datasets’ [DBMS DATA WAREHOUSE SUPPLEMENT – AUG 1996]
DATA MINING WHAT IS DATA MINING DATA SHORT DEFINITION : ‘Spot hidden gold in large collections of data’ IMPORTANT – Data Mining tools extract NEW information from data, this information is then used to guide business decisions about future activities
DATA MINING DATA MINING APPLICATIONS • RETAIL/MARKETING: • Identifying buying patterns of customers • Finding associations among customers demographic characteristics • Predicting response to mailing campaigns • Market basket analysis • BANKING: • Detecting patterns of fraudulent credit card use • Identifying loyal customers • Predicting customers likely to change their credit card affiliations • Determining credit card spending by customer groups
DATA MINING DATA MINING APPLICATIONS • INSURANCE: • Claims analysis • Predicting which customers will buy new policies • MEDICINE: • Characterising patient behaviour to predict surgery visits • Identifying successful medical therapies for different illnesses
DATA MINING DATA MINING QUESTIONS DISCOVERY-ORIENTED (LINK ANALYSIS): “What are the factors that determine sales of Product X” PREDICTIVE MODELLING: “How much profit will this customer generate?” “Where is the best place to build a new road?”
DATA MINING DATA MINING OPERATIONS DESCRIPTIVE OPERATIONS ASSOCIATION RULES Descriptive model that discovers rules that relate separate classes of data items together. For example, ‘people who buy beer also buy crisps 50% of the time’. SEQUENCING RULES Descriptive model that discovers sequence correlations in time-sequenced data. For example, ‘People who have purchased a VCR are 300% more likely to purchase a camcorder in the time period 2-4 months after the VCR was purchased’
DATA MINING DATA MINING OPERATIONS CLASSIFICATION Predict class membership. For example, income within one of three categorical values: ‘Low’, ‘Middle’, or ‘High’. REGRESSION Predict a specific value. For example, income will be a certain amount. PREDICTIVE OPERATIONS
DATA MINING CLASSIFICATION AND REGRESSION This is the largest area where data mining is currently applied! All techniques generate a predictive model based on historical data. The model then predicts the outcome of new cases. This is known as ‘Data Training’. The data necessary to build a predictive model therefore has to be composed of cases where the outcome is known and included.
DATA MINING CLASSIFICATION AND REGRESSION EXAMPLE: ‘It may be found that if a Bank’s customer is aged between 18 and 24, and their average account balance is between £0.00 and £200.00, then they are highly likely to default on a loan.’ This rule will then be applied to predict whether it would be wise to authorise a bank loan, for a particular customer.
DATA MINING CLASSIFICATION AND REGRESSION DECISION TREES
DATA MINING CLASSIFICATION AND REGRESSION NEURAL NETWORKS
DATA MINING CLASSIFICATION NAÏVE-BAYES This technique limits its inputs to categorical data, and it is applicable only to classification. Simplicity and speed make this an ideal exploratory tool. The technique is based on a simple concept; conditional probabilities derived from observed frequencies in the training data.
DATA MINING CLASSIFICATION NAÏVE-BAYES - EXAMPLE Try to predict customer turnover based on the following facts: 75% of customers who had monthly bills of between £300 and £400 have left. 68% of customers who had made more than four calls to customer service have left. This technique will predict that a customer who has an average monthly bill of £380, and who has made three calls to customer services has a high likelihood of leaving soon. Therefore, they should be contacted and offered a discount!
DATA MINING CORRELATIONS AND CAUSALITY EXAMPLE: Rule: "Customers who purchase pasta are three times more likely to purchase cheese than customers who don’t buy pasta" Therefore: Does buying pasta cause people to buy cheese? Does buying cheese cause people to buy pasta? Data mining tools find correlations, not causes, and the rules and predictions that come out of data mining tools are based on correlation only. Or is it the sudden popularity of a book called ‘You Can Lose Five Pounds a Week Eating Pasta With Cheese!’?