© 2009 pearson education, inc. publishing as prentice hall 1 modeling data in the organization...
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© 2009 Pearson Education, Inc. Publishing as Prentice © 2009 Pearson Education, Inc. Publishing as Prentice HallHall 11
Modeling Data in the Modeling Data in the OrganizationOrganization
Chapters 3 + 4:Chapters 3 + 4:Modern Database Modern Database
ManagementManagement99thth Edition Edition
Jeffrey A. Hoffer, Mary B. Prescott, Jeffrey A. Hoffer, Mary B. Prescott, Heikki TopiHeikki Topi
UNIT 03:UNIT 03:
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ObjectivesObjectives Definition of termsDefinition of terms Importance of data modelingImportance of data modeling Write good names and definitions for entities, Write good names and definitions for entities,
relationships, and attributesrelationships, and attributes Distinguish unary, binary, and ternary relationshipsDistinguish unary, binary, and ternary relationships Model different types of attributes, entities, Model different types of attributes, entities,
relationships, and cardinalitiesrelationships, and cardinalities Draw E-R diagrams for common business situationsDraw E-R diagrams for common business situations Convert many-to-many relationships to associative Convert many-to-many relationships to associative
entitiesentities Model time-dependent data using time stampsModel time-dependent data using time stamps
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Business RulesBusiness Rules
Statements that define or constrain Statements that define or constrain some aspect of the businesssome aspect of the business Assert business structureAssert business structure Control/influence business behavior Control/influence business behavior
(prevent, cause, or suggest things to (prevent, cause, or suggest things to happen)happen)
Expressed in terms familiar to end usersExpressed in terms familiar to end users Automated through DBMS softwareAutomated through DBMS software
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ExamplesExamples
Every student in the university must have a Every student in the university must have a faculty advisor.faculty advisor.
A student is any person who has applied for A student is any person who has applied for admission or taken a course or training program.admission or taken a course or training program.
A student may register for a section of a course A student may register for a section of a course only if s/he has successfully completed the only if s/he has successfully completed the prerequisite for that course.prerequisite for that course.
A preferred customer qualifies for a 10 percent A preferred customer qualifies for a 10 percent discount, unless he has an overdue account discount, unless he has an overdue account balance.balance.
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Business RulesBusiness Rules
Business rules are not universal.Business rules are not universal. The rules and policies of an organization The rules and policies of an organization
may change over time.may change over time. Business rules appear in descriptions of Business rules appear in descriptions of
business functions, events, policies, units, business functions, events, policies, units, stakeholders, and other objects.stakeholders, and other objects.
They can be found in interview notes and They can be found in interview notes and group information requirements.group information requirements.
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Types of Business RulesTypes of Business Rules
Basic business rules Basic business rules are data names are data names and definitions.and definitions.
Constraint business rules Constraint business rules state state constraints on data objects.constraints on data objects.
Other business rules Other business rules govern the govern the people, places, events, processes, people, places, events, processes, network, and the objectives of the network, and the objectives of the organization.organization.
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ImportanceImportance
Business Rules are Business Rules are important important in in database modeling database modeling becausebecause they they govern how data are handled govern how data are handled (creating, updating, removing) and (creating, updating, removing) and stored.stored.
Thus they must be described along Thus they must be described along with the data to which they are with the data to which they are related.related.
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Data ModelingData Modeling
Documenting rules and policies of an Documenting rules and policies of an organization that govern data is exactly organization that govern data is exactly what what data modeling data modeling is all about.is all about.
Your job as a database analyst is to:Your job as a database analyst is to: Identify and understand business rules that govern data.Identify and understand business rules that govern data. Represent those rules so that they can be Represent those rules so that they can be
unambiguously understood by information systems unambiguously understood by information systems developers, anddevelopers, and
Implement those rules in database technology.Implement those rules in database technology.
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A Good Business Rule Is:A Good Business Rule Is:
Declarative–what, not howDeclarative–what, not how Precise–clear, agreed-upon meaningPrecise–clear, agreed-upon meaning Atomic–one statementAtomic–one statement Consistent–internally and externallyConsistent–internally and externally Expressible–structured, natural Expressible–structured, natural
languagelanguage Distinct–non-redundantDistinct–non-redundant Business-oriented–understood by Business-oriented–understood by
business peoplebusiness people
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A Good Data Name Is:A Good Data Name Is: Related to business, not technical, Related to business, not technical,
characteristicscharacteristics Meaningful and self-documentingMeaningful and self-documenting UniqueUnique ReadableReadable Composed of words from an approved listComposed of words from an approved list RepeatableRepeatable Follows standard syntaxFollows standard syntax
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Data DefinitionsData Definitions
Explanation of a term or factExplanation of a term or fact Term–word or phrase with specific meaningTerm–word or phrase with specific meaning Fact–association between two or more termsFact–association between two or more terms
Guidelines for good data definitionGuidelines for good data definition Gathered in conjunction with systems Gathered in conjunction with systems
requirementsrequirements Accompanied by diagramsAccompanied by diagrams Concise description of essential data meaningConcise description of essential data meaning Achieved by consensus, and iteratively refinedAchieved by consensus, and iteratively refined
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Examples of Terms and Examples of Terms and FactsFacts
Terms: Terms: Course, section, rental car, flight, Course, section, rental car, flight,
reservation, and passenger.reservation, and passenger. Facts:Facts:
A A coursecourse is a is a modulemodule of instruction in a of instruction in a particular particular subject areasubject area..
A A customercustomer may request a may request a model of car model of car from a from a rental branch rental branch on a on a particular dateparticular date..
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E-R Model ConstructsE-R Model Constructs Entities:Entities:
Entity instance–person, place, object, event, concept (often Entity instance–person, place, object, event, concept (often corresponds to a row in a table)corresponds to a row in a table)
Entity Type–collection of entities (often corresponds to a Entity Type–collection of entities (often corresponds to a table)table)
Relationships:Relationships: Relationship instance–link between entities (corresponds to Relationship instance–link between entities (corresponds to
primary key-foreign key equivalencies in related tables)primary key-foreign key equivalencies in related tables) Relationship type–category of relationship…link between Relationship type–category of relationship…link between
entity typesentity types
Attribute–Attribute–property or characteristic of an entity or property or characteristic of an entity or relationship type (often corresponds to a field in a table)relationship type (often corresponds to a field in a table)
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Sample E-R Diagram (Figure 3-1)
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Relationship degrees specify number of entity types involved
Entity symbols
A special entity that is also a relationship
Relationship symbols
Relationship cardinalities specify how many of each entity type is allowed
Attribute symbols
Basic E-R notation (Figure 3-2)
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Types of EntitiesTypes of Entities A strong entity A strong entity type is one that exists type is one that exists
independently of other entity types. independently of other entity types. Examples: Employee, student, course, automobile.Examples: Employee, student, course, automobile. Instances always have a unique characteristic Instances always have a unique characteristic
distinguish each occurrence of that entity.distinguish each occurrence of that entity. Identifier underlined with single lineIdentifier underlined with single line
A weak entity A weak entity type is one whose existence type is one whose existence depends on other entity type.depends on other entity type. Example: DependentExample: Dependent does not have a unique identifier (only a partial does not have a unique identifier (only a partial
identifier, a characteristic that serves as a partial identifier, a characteristic that serves as a partial identifier).identifier).
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Strong entity Weak entity
Identifying relationship (Figure 3-5)
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Types of EntitiesTypes of Entities
An associative entity An associative entity is an entity type is an entity type that associate the instances of one or that associate the instances of one or more entity types and contain attributes more entity types and contain attributes that are particular to the relationship that are particular to the relationship between those entity instances.between those entity instances.
Example: certificate offered to an Example: certificate offered to an employee after completing a course of employee after completing a course of study.study.
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What Should an Entity Be?What Should an Entity Be? SHOULD BE:SHOULD BE:
An object that will have many An object that will have many instances in the databaseinstances in the database
An object that will be composed of An object that will be composed of multiple attributesmultiple attributes
An object that we are trying to modelAn object that we are trying to model SHOULD NOT BE:SHOULD NOT BE:
A user of the database system A user of the database system An output of the database system An output of the database system
(e.g., a report)(e.g., a report)
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Inappropriate entities
System System useruser
System System outputoutput
Figure 3-4 Example of inappropriate entities
Appropriate entities
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AttributesAttributes Attribute–property or characteristic Attribute–property or characteristic
of an entity or relationship typeof an entity or relationship type Classifications of attributes:Classifications of attributes:
Required versus Optional AttributesRequired versus Optional Attributes Simple versus Composite AttributeSimple versus Composite Attribute Single-Valued versus Multivalued Single-Valued versus Multivalued
AttributeAttribute Stored versus Derived AttributesStored versus Derived Attributes Identifier AttributesIdentifier Attributes
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Identifiers (Keys)Identifiers (Keys)
Identifier (Key)–an attribute (or Identifier (Key)–an attribute (or combination of attributes) that combination of attributes) that uniquely identifies individual uniquely identifies individual instances of an entity typeinstances of an entity type
Simple versus Composite IdentifierSimple versus Composite Identifier Candidate Identifier–an attribute that Candidate Identifier–an attribute that
could be a key…satisfies the could be a key…satisfies the requirements for being an identifierrequirements for being an identifier
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Characteristics of IdentifiersCharacteristics of Identifiers
Will not change in valueWill not change in value Will not be nullWill not be null No intelligent identifiers (e.g., No intelligent identifiers (e.g.,
containing locations or people that containing locations or people that might change)might change)
Substitute new, simple keys for long, Substitute new, simple keys for long, composite keyscomposite keys
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Figure 3-7 A composite attribute
An attribute broken into component parts
Figure 3-8 Entity with multivalued attribute (Skill) and derived attribute (Years_Employed)
Multivaluedan employee can have more than one skill
Derivedfrom date employed and current date
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Figure 3-9 Simple and composite identifier attributes
The identifier is boldfaced and underlined
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Figure 3-19 Simple example of time-stamping
This attribute is both multivalued and composite
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More on RelationshipsMore on Relationships Relationship Types vs. Relationship InstancesRelationship Types vs. Relationship Instances
The relationship type is modeled as lines between The relationship type is modeled as lines between entity types…the instance is between specific entity types…the instance is between specific entity instancesentity instances
Relationships can have attributesRelationships can have attributes These describe features pertaining to the association These describe features pertaining to the association
between the entities in the relationshipbetween the entities in the relationship
Two entities can have more than one type of Two entities can have more than one type of relationship between them (multiple relationship between them (multiple relationships)relationships)
Associative Entity–combination of Associative Entity–combination of relationship and entityrelationship and entity
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Figure 3-10 Relationship types and instances
a) Relationship type
b) Relationship instances
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Degree of RelationshipsDegree of Relationships
Degree of a relationship is Degree of a relationship is the number of entity types the number of entity types that participate in itthat participate in itUnary RelationshipUnary RelationshipBinary RelationshipBinary RelationshipTernary RelationshipTernary Relationship
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Degree of relationships – from Figure 3-2
Entities of two different types related to each other Entities of three
different types related to each other
One entity related to another of the same entity type
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Cardinality of RelationshipsCardinality of Relationships
One-to-OneOne-to-One Each entity in the relationship will have exactly Each entity in the relationship will have exactly
one related entityone related entity One-to-ManyOne-to-Many
An entity on one side of the relationship can An entity on one side of the relationship can have many related entities, but an entity on have many related entities, but an entity on the other side will have a maximum of one the other side will have a maximum of one related entityrelated entity
Many-to-ManyMany-to-Many Entities on both sides of the relationship can Entities on both sides of the relationship can
have many related entities on the other sidehave many related entities on the other side
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Cardinality ConstraintsCardinality Constraints Cardinality Constraints—the number of Cardinality Constraints—the number of
instances of one entity that can or must instances of one entity that can or must be associated with each instance of be associated with each instance of another entityanother entity
Minimum CardinalityMinimum Cardinality If zero, then optionalIf zero, then optional If one or more, then mandatoryIf one or more, then mandatory
Maximum CardinalityMaximum Cardinality The maximum numberThe maximum number
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Figure 3-12 Examples of relationships of different degrees
a) Unary relationships
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Figure 3-12 Examples of relationships of different degrees (cont.)
b) Binary relationships
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Figure 3-12 Examples of relationships of different degrees (cont.)
c) Ternary relationship
Note: a relationship can have attributes of its own
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Figure 3-17 Examples of cardinality constraints
a) Mandatory cardinalities
A patient must have recorded at least one history, and can have many
A patient history is recorded for one and only one patient
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Figure 3-17 Examples of cardinality constraints (cont.)
b) One optional, one mandatory
An employee can be assigned to any number of projects, or may not be assigned to any at all
A project must be assigned to at least one employee, and may be assigned to many
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Figure 3-17 Examples of cardinality constraints (cont.)
c) Optional cardinalities
A person is married to at most one other person, or may not be married at all
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Entities can be related to one another in more than one way
Figure 3-21 Examples of multiple relationships
a) Employees and departments
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Figure 3-21 Examples of multiple relationships (cont.)
b) Professors and courses (fixed lower limit constraint)
Here, min cardinality constraint is 2
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Figure 3-15a and 3-15b Multivalued attributes can be represented as relationships
simple
composite
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Associative EntitiesAssociative Entities An An entityentity–has attributes–has attributes
A A relationshiprelationship–links entities together–links entities together
When should a When should a relationship with attributesrelationship with attributes instead be instead be an an associative entityassociative entity? ? All relationships for the associative entity should be manyAll relationships for the associative entity should be many The associative entity could have meaning independent of the The associative entity could have meaning independent of the
other entitiesother entities The associative entity preferably has a unique identifier, and The associative entity preferably has a unique identifier, and
should also have other attributesshould also have other attributes The associative entity may participate in other relationships The associative entity may participate in other relationships
other than the entities of the associated relationshipother than the entities of the associated relationship Ternary relationships should be converted to associative Ternary relationships should be converted to associative
entitiesentities
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Figure 3-11a A binary relationship with an attribute
Here, the date completed attribute pertains specifically to the employee’s completion of a course…it is an attribute of the relationship
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Figure 3-11b An associative entity (CERTIFICATE)
Associative entity is like a relationship with an attribute, but it is also considered to be an entity in its own right
Note that the many-to-many cardinality between entities in Figure 3-11a has been replaced by two one-to-many relationships with the associative entity
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Figure 3-13c An associative entity – bill of materials structure
This could just be a relationship with attributes…it’s a judgment call
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Figure 3-18 Ternary relationship as an associative entity
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Microsoft Visio Notation for Pine Valley Furniture
E-R diagram
(Figure 3-22)
Different modeling software tools may have different notation for the same constructs
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Supertypes and SubtypesSupertypes and Subtypes
Subtype:Subtype: A subgrouping of the entities in an A subgrouping of the entities in an entity type that has attributes distinct from entity type that has attributes distinct from those in other subgroupingsthose in other subgroupings
Supertype:Supertype: A generic entity type that has a A generic entity type that has a relationship with one or more subtypesrelationship with one or more subtypes
Attribute Inheritance:Attribute Inheritance: Subtype entities inherit values of all Subtype entities inherit values of all
attributes of the supertypeattributes of the supertype An instance of a subtype is also an instance An instance of a subtype is also an instance
of the supertypeof the supertype
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Figure 4-1 Basic notation for supertype/subtype notation
a) EER notation
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Different modeling tools may have different notation for the same modeling constructs
b) Microsoft
Visio Notation
Figure 4-1 Basic notation for supertype/subtype notation (cont.)
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Figure 4-2 Employee supertype with three subtypes
All employee subtypes will have emp nbr, name, address, and date hired
Each employee subtype will also have its own attributes
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Relationships and SubtypesRelationships and Subtypes
Relationships at the Relationships at the supertypesupertype level level indicate that all subtypes will indicate that all subtypes will participate in the relationshipparticipate in the relationship
The instances of a The instances of a subtypesubtype may may participate in a relationship unique to participate in a relationship unique to that subtype. In this situation, the that subtype. In this situation, the relationship is shown at the subtype relationship is shown at the subtype levellevel
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Figure 4-3 Supertype/subtype relationships in a hospital
Both outpatients and resident patients are cared for by a responsible physician
Only resident patients are assigned to a bed
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Generalization and Generalization and SpecializationSpecialization
Generalization:Generalization: The process of The process of defining a more general entity type from defining a more general entity type from a set of more specialized entity types. a set of more specialized entity types. BOTTOM-UPBOTTOM-UP
Specialization:Specialization: The process of The process of defining one or more subtypes of the defining one or more subtypes of the supertype and forming supertype and forming supertype/subtype relationships. TOP-supertype/subtype relationships. TOP-DOWNDOWN
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Figure 4-4 Example of generalization
a) Three entity types: CAR, TRUCK, and MOTORCYCLE
All these types of vehicles have common attributes
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Figure 4-4 Example of generalization (cont.)
So we put the shared attributes in a supertype
Note: no subtype for motorcycle, since it has no unique attributes
b) Generalization to VEHICLE supertype
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Figure 4-5 Example of specialization
a) Entity type PART
Only applies to manufactured parts
Applies only to purchased parts
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b) Specialization to MANUFACTURED PART and PURCHASED PART
Note: multivalued attribute was replaced by an associative entity relationship to another entity
Created 2 subtypes
Figure 4-5 Example of specialization (cont.)
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Constraints in Supertype/ Constraints in Supertype/ Completeness ConstraintCompleteness Constraint
Completeness ConstraintsCompleteness Constraints: Whether : Whether an instance of a supertype an instance of a supertype mustmust also be a also be a member of at least one subtypemember of at least one subtype Total Specialization Rule: Yes (double line)Total Specialization Rule: Yes (double line) Partial Specialization Rule: No (single line)Partial Specialization Rule: No (single line)
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Figure 4-6 Examples of completeness constraints
a) Total specialization rule
A patient must be either an outpatient or a resident patient
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b) Partial specialization rule
A vehicle could be a car, a truck, or neither
Figure 4-6 Examples of completeness constraints (cont.)
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Constraints in Supertype/ Constraints in Supertype/ Disjointness constraintDisjointness constraint
Disjointness ConstraintsDisjointness Constraints: : Whether an instance of a supertype may Whether an instance of a supertype may simultaneouslysimultaneously be a member of two (or be a member of two (or more) subtypesmore) subtypes Disjoint Rule: An instance of the supertype Disjoint Rule: An instance of the supertype
can be only ONE of the subtypescan be only ONE of the subtypes Overlap Rule: An instance of the supertype Overlap Rule: An instance of the supertype
could be more than one of the subtypescould be more than one of the subtypes
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a) Disjoint rule
Figure 4-7 Examples of disjointness constraints
A patient can either be outpatient or resident, but not both
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b) Overlap rule
A part may be both purchased and manufactured
Figure 4-7 Examples of disjointness constraints (cont.)
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Constraints in Supertype/ Constraints in Supertype/ Subtype DiscriminatorsSubtype Discriminators
Subtype DiscriminatorSubtype Discriminator: An attribute : An attribute of the supertype whose values determine of the supertype whose values determine the target subtype(s)the target subtype(s) DisjointDisjoint – a – a simplesimple attribute with alternative attribute with alternative
values to indicate the possible subtypesvalues to indicate the possible subtypes OverlappingOverlapping – a – a compositecomposite attribute whose attribute whose
subparts pertain to different subtypes. Each subparts pertain to different subtypes. Each subpart contains a boolean value to indicate subpart contains a boolean value to indicate whether or not the instance belongs to the whether or not the instance belongs to the associated subtypeassociated subtype
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Figure 4-8 Introducing a subtype discriminator (disjoint rule)
A simple attribute with different possible values indicating the subtype
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Figure 4-9 Subtype discriminator (overlap rule)
A composite attribute with sub-attributes indicating “yes” or “no” to determine whether it is of each subtype
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Figure 4-10 Example of supertype/subtype hierarchy
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Entity ClustersEntity Clusters
EER diagrams are difficult to read when EER diagrams are difficult to read when there are too many entities and there are too many entities and relationshipsrelationships
Solution: Group entities and relationships Solution: Group entities and relationships into into entity clustersentity clusters
Entity clusterEntity cluster: Set of one or more entity : Set of one or more entity types and associated relationships types and associated relationships grouped into a single abstract entity typegrouped into a single abstract entity type
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Figure 4-13a Possible entity clusters for Pine Valley Furniture in Microsoft Visio
Related groups of entities could become clusters
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