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Database Design Chapter Five DAVID M. KROENKE’S DATABASE CONCEPTS, 2 nd Edition.

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Presentation on theme: "Database Design Chapter Five DAVID M. KROENKE’S DATABASE CONCEPTS, 2 nd Edition."— Presentation transcript:

1 Database Design Chapter Five DAVID M. KROENKE’S DATABASE CONCEPTS, 2 nd Edition

2 DAVID M. KROENKE’S DATABASE CONCEPTS, 2nd Edition © 2005 Pearson Prentice Hall 1-2 Chapter Objectives Learn how to transform E-R data models into relational designs Practice the normalization process from Chapter 2 Understand the need for denormalization Learn how to represent weak entities with the relational model Know how to represent 1:1, 1:N, and N:M binary relationships

3 DAVID M. KROENKE’S DATABASE CONCEPTS, 2nd Edition © 2005 Pearson Prentice Hall 1-3 Chapter Objectives (continued) Know how to represent 1:1, 1:N, and N:M recursive relationships Learn SQL statements for creating joins over binary and recursive relationships Understand the nature and background of normalization

4 DAVID M. KROENKE’S DATABASE CONCEPTS, 2nd Edition © 2005 Pearson Prentice Hall 1-4 Representing Entities with the Relational Model Create a relation for each entity –A relation has a descriptive name and a set of attributes that describe the entity The relation is then analyzed using the normalization rules As normalization issues arise, the initial relation design may need to change

5 DAVID M. KROENKE’S DATABASE CONCEPTS, 2nd Edition © 2005 Pearson Prentice Hall 1-5 Anomalies Relations that are not normalized will experience issues known as anomalies –Insertion anomaly Difficulties inserting data into a relation –Modification anomaly Difficulties modifying data into a relation –Deletion anomaly Difficulties deleting data from a relation

6 DAVID M. KROENKE’S DATABASE CONCEPTS, 2nd Edition © 2005 Pearson Prentice Hall 1-6 Solving Anomalies Most anomalies are solved by breaking an existing relation into two or more relations through a process known as normalization

7 DAVID M. KROENKE’S DATABASE CONCEPTS, 2nd Edition © 2005 Pearson Prentice Hall 1-7 Definition Review Functional dependency –The relationship (within the relation) that describes how the value of a one attribute may be used to find the value of another attribute Determinant –The attribute that can be used to find the value of another attribute in the relation –The right-hand side of a functional dependency

8 DAVID M. KROENKE’S DATABASE CONCEPTS, 2nd Edition © 2005 Pearson Prentice Hall 1-8 Definition Review Candidate key –The value of a candidate key can be used to find the value of every other attribute in the relation –A simple candidate key consists of only one attribute –A composite candidate key consists of more than one attribute

9 DAVID M. KROENKE’S DATABASE CONCEPTS, 2nd Edition © 2005 Pearson Prentice Hall 1-9 Normal Forms There are many defined normal forms: –First Normal Form (1NF) –Second Normal Form (2NF) –Third Normal Form (3NF) –Boyce-Codd Normal Form (BCNF) –Fourth Normal Form (4NF) –Fifth Normal Form (5NF) –Domain/Key Normal Form (DK/NF)

10 DAVID M. KROENKE’S DATABASE CONCEPTS, 2nd Edition © 2005 Pearson Prentice Hall 1-10 Normalization For our purposes, a relation is considered normalized when: Every determinant is a candidate key [Technically, this is Boyce-Codd Normal Form (BCNF)]

11 DAVID M. KROENKE’S DATABASE CONCEPTS, 2nd Edition © 2005 Pearson Prentice Hall 1-11 Denormalization Normalizing relations (or breaking them apart into many component relations) may significantly increase the complexity of the data structure The question is one of balance –Trading complexity for anomalies There are situations where denormalized relations are preferred

12 DAVID M. KROENKE’S DATABASE CONCEPTS, 2nd Edition © 2005 Pearson Prentice Hall 1-12 Weak Entities For an ID-dependent weak entity, the key of the parent becomes part of the key of the weak entity

13 DAVID M. KROENKE’S DATABASE CONCEPTS, 2nd Edition © 2005 Pearson Prentice Hall 1-13 Representing Relationships The maximum cardinality determines how a relationship is represented 1:1 relationship –The key from one relation is placed in the other as a foreign key –It does not matter which table receives the foreign key

14 DAVID M. KROENKE’S DATABASE CONCEPTS, 2nd Edition © 2005 Pearson Prentice Hall 1-14 A One-to-One Relationship Example LOCKEREMPLOYEE 1:1

15 DAVID M. KROENKE’S DATABASE CONCEPTS, 2nd Edition © 2005 Pearson Prentice Hall 1-15 One Representation of a One-to-One Relationship LockerDesc Location LockerID Locker LockerID EmpName EmpID Employee Foreign Key Primary Key

16 DAVID M. KROENKE’S DATABASE CONCEPTS, 2nd Edition © 2005 Pearson Prentice Hall 1-16 Another Representation of a One-to-One Relationship EmpID LockerDesc Location LockerID Locker EmpName EmpID Employee Foreign Key Primary Key

17 DAVID M. KROENKE’S DATABASE CONCEPTS, 2nd Edition © 2005 Pearson Prentice Hall 1-17 SQL For a 1:1 Join SELECT* FROMLOCKER, EMPLOYEE WHERELOCKER.EmpID = EMPLOYEE.EmpID; SELECT* FROMLOCKER, EMPLOYEE WHERELOCKER.LockerID = EMPLOYEE.LockerID;

18 DAVID M. KROENKE’S DATABASE CONCEPTS, 2nd Edition © 2005 Pearson Prentice Hall 1-18 Mandatory One-to-One Relationships A mandatory 1:1 relationship can easily be collapsed back into one relation. While there are times when the added complexity is warranted… –Added security –Infrequently accessed data components …very often these relations are collapsed into one relation

19 DAVID M. KROENKE’S DATABASE CONCEPTS, 2nd Edition © 2005 Pearson Prentice Hall 1-19 One-to-Many Relationships Like a 1:1 relationship, a 1:N relationship is saved by placing the key from one table into another as a foreign key However, in a 1:N the foreign key always goes into the many-side of the relationship

20 DAVID M. KROENKE’S DATABASE CONCEPTS, 2nd Edition © 2005 Pearson Prentice Hall 1-20 A One-to-Many Relationship Example DEPARTMENTEMPLOYEE 1:N

21 DAVID M. KROENKE’S DATABASE CONCEPTS, 2nd Edition © 2005 Pearson Prentice Hall 1-21 Representing a One-to-Many Relationship DeptName Location DeptID Department DeptID EmpName EmpID Employee Foreign Key Primary Key

22 DAVID M. KROENKE’S DATABASE CONCEPTS, 2nd Edition © 2005 Pearson Prentice Hall 1-22 SQL For a 1:N Join SELECT* FROMDEPARTMENT, EMPLOYEE WHEREDEPARTMENT.DeptID = EMPLOYEE.DeptID;

23 DAVID M. KROENKE’S DATABASE CONCEPTS, 2nd Edition © 2005 Pearson Prentice Hall 1-23 Representing Many-to-Many Relationships To save a M:N relationship, a new relation is created. This relation is called an intersection relation An intersection relation has a composite key consisting of the keys from each of the tables that formed it

24 DAVID M. KROENKE’S DATABASE CONCEPTS, 2nd Edition © 2005 Pearson Prentice Hall 1-24 A Many-to-Many Relationship Example SKILLEMPLOYEE N:M

25 DAVID M. KROENKE’S DATABASE CONCEPTS, 2nd Edition © 2005 Pearson Prentice Hall 1-25 Representing a Many-to- Many Relationship SkillDesc SkillID Skill EmpName EmpID Employee Foreign Key EmpID SkillID Emp_Skill Foreign Key Primary Key

26 DAVID M. KROENKE’S DATABASE CONCEPTS, 2nd Edition © 2005 Pearson Prentice Hall 1-26 SQL For a N:M Join SELECT* FROMSKILL, EMP_SKILL, EMPLOYEE WHERESKILL.SkillID = EMP_SKILL.SkillID ANDEMP_SKILL.EmpID = EMPLOYEE.EmpID;

27 DAVID M. KROENKE’S DATABASE CONCEPTS, 2nd Edition © 2005 Pearson Prentice Hall 1-27 Representing Recursive Relationships A recursive relationship is a relationship that a relation has with itself. Recursive relationships adhere to the same rules as the binary relationships. –1:1 and 1:M relationships are saved using foreign keys –M:N relationships are saved by creating an intersecting relation

28 DAVID M. KROENKE’S DATABASE CONCEPTS, 2nd Edition © 2005 Pearson Prentice Hall 1-28 A Recursive Relationship Example EMPLOYEE 1:N Manages

29 DAVID M. KROENKE’S DATABASE CONCEPTS, 2nd Edition © 2005 Pearson Prentice Hall 1-29 Representing a Recursive Relationship ManagerID EmpName EmpID Employee ManagerID is a Foreign Key referencing the Primary Key EmpID

30 DAVID M. KROENKE’S DATABASE CONCEPTS, 2nd Edition © 2005 Pearson Prentice Hall 1-30 SQL For a 1:1 Recursive Join SELECT A.EmpID, A.EmpName as 'Manager', B.EmpID, B.EmpName as 'Worker' FROM EMPLOYEE A, EMPLOYEE B WHERE A.EmpID = B.ManagerID; Example results: EmpID ManagerEmpID Worker 4Bryant 1Jones 4Bryant 2Adams 4Bryant 3Smith 5Dean 4Bryant

31 DAVID M. KROENKE’S DATABASE CONCEPTS, 2nd Edition © 2005 Pearson Prentice Hall 1-31 Cascading Behavior Cascading behavior describes what happens to child relations when a parent relation changes in value Cascading behaviors are defined by the type of operation –Cascade update –Cascade delete

32 Database Design End of Presentation on Chapter Five DAVID M. KROENKE’S DATABASE CONCEPTS, 2 nd Edition

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