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Database Models: Flat Files and the Relational Database Objectives: •Understand the fundamental structure of the relational database model •Learn the circumstances under which it is a better choice than the flat file What is a database? • Structured Data • Procedures for – Data entry – Storage – Validity checking – Sorting – Selection – Reporting Why use a database? • To organize & preserve data • To facilitate analysis and modeling • To gain insights into the relationships in your data • To help turn data into information • To explore data using exploratory techniques • To support the organization Flat file databases • Text files (word processing packages) • Loosely structured storage • Sorting (whole tables or individual columns, by number/data/text) • Reports (via mail and merging functions) Excel as a database • All Word database capabilities plus – Data entry – Selection/Queries – Statistics – Calculations – Graphics / chart development data summarization Relational Database Systems • All the features support by Excel – Plus all of the following features • • • • • Validity Checking Relational queries Extensive import/export capabilities Object-oriented model Strong data typing: support for formatted text, memo fields, OLE, calculated fields Why use the relational model? • Minimize redundancy • Minimize wasted storage • Facilitate updates, appending new data to existing systems • Facilitate queries, makes asking questions of the database easier • Keeps tables small for portability and improved data processing Things to be cautious about • Issues and Design considerations – Boolean, Integer, Long, Currency, Single, Double, Date, String, and Variant – How expressions with different data types are defined – When to split entries between different fields and when to combine them in a common field – When to use more than one table in a data base and when to use only one table Other things to consider • Redundancy – unnecessary repetition of information, wastes computing resources • One-to-one relationships • One-to-many relationships • Many-to-many relationships (special case) Databases are dynamic • Can accept entry of new data even while displaying results from current data • Desktop vs. Client/Server • Transaction databases • Internet databases Timber Stand Inventory Compartment Stand Origin Watershed ELTP 63 184 1889 Dry Gulch 26 78 200 1967 Dead Horse 18 210 24 1942 Whitefish Mountain 45 Information in each column are the attributes of the database, information in each row are records. How to design a relational database • Identify the purpose of the relational database • Identify the various the subjects of the database • Determine what information on each subject is necessary • Determine how the subject information is related to other subject information • Refine and redesign the database when design flaws are identified. Final designs are seldom the first designs considered. Example • Tall Timbers Forest Management Inc. – Tables • • • • • • • Forest communities Harvest schedules Prescribed burn schedule Wildlife habitat quality Riparian management objectives Restoration plans Special concerns for threatened and endangered species