Presentation is loading. Please wait.

Presentation is loading. Please wait.

MSc IT UFIE8K-15-M Data Management Prakash Chatterjee Room 3P16

Published byAlban Bryan Modified over 8 years ago

Similar presentations

Presentation on theme: "MSc IT UFIE8K-15-M Data Management Prakash Chatterjee Room 3P16"— Presentation transcript:

1 MSc IT UFIE8K-15-M Data Management Prakash Chatterjee Room 3P16 prakash.chatterjee@uwe.ac.uk http://www.cems.uwe.ac.uk/~pchatter/courses/msc/dm prakash.chatterjee@uwe.ac.uk http://www.cems.uwe.ac.uk/~pchatter/courses/msc/dm Lecture 2 : The Relational Data Model

2 UFIE8K15-M Data Management 2008 Origins of the Relational Model The relational model was developed by EF Codd in the early 1970s. Commercial systems based on the relational model appeared in the late 1970s. At present there are several hundred relational DBMSs and most computer vendors support 'relational' software. Examples of well-known products include Oracle, DB2, Sybase, MySQL, MS.SQL Server and MS Access. Informally, a relational system is a system in which: 1. The data is perceived by the user as tables (and nothing but tables). 2. The operators available to the user for (e.g.) retrieval are operators that derive “new” tables from "old" ones. For example, there is one operator, restrict, which extract a subset of the rows of a given table, and another, project, which extracts a subset of columns - and a row subset and a column subset of a table can both be regarded in turn as tables in their own right.

3 UFIE8K15-M Data Management 2008 Components and terminology (1) The model uses terminology taken from mathematics, particularly set theory and predicate logic. Basic terminology used in relational theory includes: relation - this corresponds to a table or flat file with columns and rows tuple - a row of a relation attribute - a named column of a relation domain - the set of allowable values for one or more attributes degree of a relation - the number of attributes it contains cardinality of relation - the number of tuples it contains.

4 UFIE8K15-M Data Management 2008 Components and terminology (2)

5 UFIE8K15-M Data Management 2008 Properties of relations There is only one data structure in the relational data model - the relation. Every relation and every attribute within a relation must have a distinct name. Attribute (column) values of a relation are atomic (i.e. single valued). All values in an attribute (column) are taken from same domain. The ordering of columns in a relation is not significant. Duplicate tuples (rows) are not allowed (e.g. each row in a relation must be distinct). The ordering of tuples (rows) and attributes (columns) is not significant.

6 UFIE8K15-M Data Management 2008 Relational algebra & relational calculus Relational algebra (ra) and relational calculus (rc) are both formal (mathematically based) languages defined by EF Codd. ra & rc are logically equivalent languages. ra is “procedural” and rc is “declarative” in nature. ra and rc are the formal grounding of the relational database model and illustrate the basic operations required by any data manipulation language such as SQL. Relational algebra is an offshoot of first-order logic, is a set of relations closed under operators. Operators operate on one or more relations to yield a relation.first-order logicrelations closedoperators The “closure” property relates to the fact that from any given relational operation another relation is output - it os often refereed to as the “relations in – relations out” property.

7 UFIE8K15-M Data Management 2008 Relational algebra operators (1) Each relational operator takes one or more relations as its input and produces a new relation as output (closure). Codd originally defined eight operators, in two classes: Set operators:UNIONINTERSECTION DIFFERENCEDIVIDE The special relational operators:RESTRICTPROJECT JOINCartesian PRODUCT

8 UFIE8K15-M Data Management 2008 Relational algebra operators (2)

9 UFIE8K15-M Data Management 2008 Relational algebra operators (3) dept – emp – salgrade example (1) dept – emp – salgrade example Department : dept (depno, dname, location) Employee : emp (empno, ename, mgr, sal, deptno) Salary Grade : salgrade (grade, losal, hisal)

10 UFIE8K15-M Data Management 2008 Relational algebra operators (4) dept – emp – salgrade example (2) dept table deptnodnamelocation 10AccountingNew York 20ResearchDallas 30SalesChicago 40OperationsBoston

11 UFIE8K15-M Data Management 2008 Relational algebra operators (5) dept – emp – salgrade example (3) empnoenamemgrsaldeptno 7369SMITH7902 £800.0020 7499ALLEN7698£1,600.0030 7521WARD7698£1,250.0030 7566JONES7839£2,975.0020 7654MARTIN7698£1,250.0030 7698BLAKE7839£2,850.0030 7782CLARK7839£2,450.0010 7788SCOTT7566£3,000.0020 7839KING£5,000.0010 7844TURNER7698£1,500.0030 7876ADAMS7788£1,100.0020 7900JAMES7698 £950.0030 7902FORD7566£3,000.0020 7934MILLER7782£1,300.0010 emp table

12 UFIE8K15-M Data Management 2008 Relational algebra operators (6) dept – emp – salgrade example (4) salgrade table gradelosalhisal 1£700.00£1,200.00 2£1,201.00£1,400.00 3£1,401.00£2,000.00 4£2,001.00£3,000.00 5£3,001.00£99,999.00

13 UFIE8K15-M Data Management 2008 Relational algebra operators (7) dept – emp – salgrade example (5) Restrict Subset of the Rows in a Table RESTRICT EMP WHERE sal > 2000 empnoenamemgrsaldeptno 7566JONES7839£2,975.0020 7698BLAKE7839£2,850.0030 7782CLARK7839£2,450.0010 7788SCOTT7566£3,000.0020 7839KING£5,000.0010 7902FORD7566£3,000.0020

14 UFIE8K15-M Data Management 2008 Relational algebra operators (8) dept – emp – salgrade example (6) Project subset the Columns in a Table PROJECT EMP [EMPNO, SAL,DEPTNO] empnosal deptno 7369£800.0020 7499£1,600.0030 7521£1,250.0030 7566£2,975.0020 7654£1,250.0030 7698£2,850.0030 7782£2,450.0010 7788£3,000.0020 7839£5,000.0010 7844£1,500.0030 7876£1,100.0020 7900£950.0030 7902£3,000.0020 7934£1,300.0010

15 UFIE8K15-M Data Management 2008 Relational algebra operators (9) dept – emp – salgrade example (7) Restrict-Project RESTRICT EMP WHERE SAL >2000 PROJECT EMP[EMPNO, SAL, DEPTNO] empnosaldeptno 7566£2,975.0020 7698£2,850.0030 7782£2,450.0010 7788£3,000.0020 7839£5,000.0010 7902£3,000.0020 call this EMPX Could you reverse these operations - always? ( project then restrict?)

16 UFIE8K15-M Data Management 2008 Relational algebra operators (10) dept – emp – salgrade example (8) Product combine each row of one table with each row of the other PRODUCT DEPT with EMPX empnosalEMPX. deptno dept. Depno dnameloc 7566£2,975.002010AccountingNew York 7698£2,850.003010AccountingNew York 7782£2,450.0010 AccountingNew York 7788£3,000.002010AccountingNew York 7839£5,000.0010 AccountingNew York 7902£3,000.002010AccountingNew York 7566£2,975.0020 ResearchDallas 7698£2,850.003020ResearchDallas 7782£2,450.001020ResearchDallas 7788£3,000.0020 ResearchDallas 7839£5,000.001020ResearchDallas 7902£3,000.0020 ResearchDallas

17 UFIE8K15-M Data Management 2008 Relational algebra operators (11) dept – emp – salgrade example (9) 7566£2,975.002030SalesChicago 7698£2,850.0030 SalesChicago 7782£2,450.001030SalesChicago 7788£3,000.002030SalesChicago 7839£5,000.001030SalesChicago 7902£3,000.002030SalesChicago 7566£2,975.002040OperationsBoston 7698£2,850.003040OperationsBoston 7782£2,450.001040OperationsBoston 7788£3,000.002040OperationsBoston 7839£5,000.001040OperationsBoston 7902£3,000.002040OperationsBoston

18 UFIE8K15-M Data Management 2008 Relational algebra operators (12) dept – emp – salgrade example (10) Product (Cartesian product) DEPT has 4 records EMPX has 6 records so DEPT x EMPX has 24 records but not very useful

19 UFIE8K15-M Data Management 2008 Relational algebra operators (13) dept – emp – salgrade example (11) Equi-Join product restricted to rows which have matching common domain empno salEMPX. deptno dept. deptno dnameloc 7566£2,975.0020 ResearchDallas 7698£2,850.0030 SalesChicago 7782£2,450.0010 AccountingNew York 7788£3,000.0020 ResearchDallas 7839£5,000.0010 AccountingNew York 7902£3,000.0020 ResearchDallas

20 UFIE8K15-M Data Management 2008 Relational algebra operators (14) dept – emp – salgrade example (12) Natural Join equi-join projected with the duplicate column removed empno saldeptnodnameloc 7566£2,975.0020ResearchDallas 7698£2,850.0030SalesChicago 7782£2,450.0010AccountingNew York 7788£3,000.0020ResearchDallas 7839£5,000.0010AccountingNew York 7902£3,000.0020ResearchDallas

21 UFIE8K15-M Data Management 2008 Basic SQL SELECT * FROM EMP WHERE SAL > 2000; SELECT ENAME,SAL,DEPTNO FROM EMP; SELECT ENAME,SAL,DEPTNO FROM EMP WHERE SAL > 2000; SELECT * FROM EMP, DEPT WHERE SAL > 2000; SELECT * FROM EMP,DEPT WHERE SAL > 2000 AND EMP.DEPTNO = DEPT.DEPTNO; SELECT EMPNO, SAL, DEPTNO, DNAME FROM EMP,DEPT WHERE SAL > 2000 AND EMP.DEPTNO = DEPT.DEPTNO;

22 UFIE8K15-M Data Management 2008 Bibliography / Readings / Home based activities Bibliography - An Introduction to Database Systems (8 th ed.), C J Date, Addison Wesley 2004 An Introduction to Database Systems - Database Management Systems, P Ward & G Defoulas, Thomson 2006 Database Management Systems Readings - Introduction to SQL’ McGraw-Hill/Osbourne (handout) Home based activities - Ensure you download xampp and install on home PC or laptop (if you have a slow home internet connection – download to data key or CD here at UWE) - Copy the SQL Workbook onto your data key or CD. - Import the tables from the SQL Workbook into your home MySQL DB. Begin working through some of the query examples in the workbook using PHPMyAdmin.

Download ppt "MSc IT UFIE8K-15-M Data Management Prakash Chatterjee Room 3P16"

Similar presentations

Displaying Data from Multiple Tables. Objectives After completing this lesson, you should Be able to do the following: Write SELECT statements to accessWrite.

Displaying Data from Multiple Tables. Objectives After completing this lesson, you should Be able to do the following: Write SELECT statements to accessWrite.
Copyright  Oracle Corporation, 1998. All rights reserved. 3 Displaying Data from Multiple Tables.

Copyright  Oracle Corporation, All rights reserved. 3 Displaying Data from Multiple Tables.
Displaying Data from Multiple Tables. Objectives After completing this lesson, you should be able to do the following:  Write SELECT statements to access.

Displaying Data from Multiple Tables. Objectives After completing this lesson, you should be able to do the following:  Write SELECT statements to access.
Displaying Data from Multiple Tables. Objectives After completing this lesson, you should be able to do the following: Write SELECT statements to access.

Displaying Data from Multiple Tables. Objectives After completing this lesson, you should be able to do the following: Write SELECT statements to access.
Chapter 4 JOINING TABLES & FUNCTION Lecture by Ty Rasmey

Chapter 4 JOINING TABLES & FUNCTION Lecture by Ty Rasmey
Relational Algebra, Join and QBE Yong Choi School of Business CSUB, Bakersfield.

Relational Algebra, Join and QBE Yong Choi School of Business CSUB, Bakersfield.
Bogdan Shishedjiev SQL1 SQL Reminder of SQL. Bogdan Shishedjiev SQL 2 Subsets of language Data definition language (DDL) –Domain definition –Schema definition.

Bogdan Shishedjiev SQL1 SQL Reminder of SQL. Bogdan Shishedjiev SQL 2 Subsets of language Data definition language (DDL) –Domain definition –Schema definition.
1 Theory, Practice & Methodology of Relational Database Design and Programming Copyright © Ellis Cohen 2002-2007 Extended SQL & The Relational Calculus.

1 Theory, Practice & Methodology of Relational Database Design and Programming Copyright © Ellis Cohen Extended SQL & The Relational Calculus.
Introduction to Structured Query Language (SQL). Origins & history Early 1970’s – IBM develops Sequel as part of the System R project at its San Hose.

Introduction to Structured Query Language (SQL). Origins & history Early 1970’s – IBM develops Sequel as part of the System R project at its San Hose.
SQL zSeQueL zSQL1 - 1986 zSQL2 - 1992 ybetter support for Algebraic operations zSQL3 - 1999 Post-Relational yrow and column types, stored procedures, triggers,

SQL zSeQueL zSQL zSQL ybetter support for Algebraic operations zSQL Post-Relational yrow and column types, stored procedures, triggers,
CS263 Lecture 19 Query Optimisation.  Motivation for Query Optimisation  Phases of Query Processing  Query Trees  RA Transformation Rules  Heuristic.

CS263 Lecture 19 Query Optimisation.  Motivation for Query Optimisation  Phases of Query Processing  Query Trees  RA Transformation Rules  Heuristic.
MSc IT UFIE8K-15-M Data Management Prakash Chatterjee Room 3P16

MSc IT UFIE8K-15-M Data Management Prakash Chatterjee Room 3P16
Chapter 3 An Introduction to Relational Databases.

Chapter 3 An Introduction to Relational Databases.
Logical Layer The Relational Data Model + SQL. Abstraction Layers zConceptual yWhat data is held xAn Image and its meta-data xEntity-Relationship model.

Logical Layer The Relational Data Model + SQL. Abstraction Layers zConceptual yWhat data is held xAn Image and its meta-data xEntity-Relationship model.
The Relational Data Model zE.F Codd A Relational Data Model for Large Shared Data Banks (1970) zThe basic model used by Access, Oracle, DB2 zAll Relational.

The Relational Data Model zE.F Codd A Relational Data Model for Large Shared Data Banks (1970) zThe basic model used by Access, Oracle, DB2 zAll Relational.
Session 3: SQL (B): Parts 3 & 4 Original materials supplied by the Oracle Academic Initiative (OAI). Edited for classroom use by Professor Laku Chidambaram.

Session 3: SQL (B): Parts 3 & 4 Original materials supplied by the Oracle Academic Initiative (OAI). Edited for classroom use by Professor Laku Chidambaram.
OO - Lecture 4 Tutorial Review Associations Inheritance of Functions Polymorphism.

OO - Lecture 4 Tutorial Review Associations Inheritance of Functions Polymorphism.
Relational Model & Relational Algebra. 2 Relational Model u Terminology of relational model. u How tables are used to represent data. u Connection between.

Relational Model & Relational Algebra. 2 Relational Model u Terminology of relational model. u How tables are used to represent data. u Connection between.
CS370 Spring 2007 CS 370 Database Systems Lecture 7 The Relational model.

CS370 Spring 2007 CS 370 Database Systems Lecture 7 The Relational model.
Chapter 3 An Introduction to Relational Databases.

Chapter 3 An Introduction to Relational Databases.

Similar presentations

Ads by Google