8/27/2012ISC 329 Isabelle Bichindaritz1 File Systems Introduction to Databases.
9/10/2012ISC 329 Isabelle Bichindaritz1 Entity Relationship (E-R) Modeling.
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Transcript of 9/10/2012ISC 329 Isabelle Bichindaritz1 Entity Relationship (E-R) Modeling.
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Entity Relationship (E-R) Modeling
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Learning Objectives• How to use Entity–Relationship (ER) modeling
in database design.
• Basic concepts associated with ER model.
• Diagrammatic technique for displaying ER model using Unified Modeling Language (UML).
• How to identify and resolve problems with ER models called connection traps.
• How to build an ER model for a database application.
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Acknowledgments
• Some of these slides have been adapted from Thomas Connolly and Carolyn Begg
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ER Diagram of Branch View of DreamHome
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ANSI-SPARC Three-Level Architecture
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Basic Modeling Concepts• Art and science• Good judgment coupled with powerful design
tools• Models
– “Description or analogy used to visualize something that cannot be directly observed” Webster’s Dictionary
– “A model is a representation of the world in simplified terms, it is an abstraction of the real world”
• Data Model– Relatively simple representation of complex real-world
data structures
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Degrees of Abstraction• Conceptual
– Global view of data from application domain, based on end-users requirements
– Basis for identification and description of main data items (WHAT ?)
– ERD used to graphically represent conceptual data model (or class diagram in UML)
– Hardware and software (and DBMS) independent • Internal
– Representation of database as seen by DBMS– Adapts conceptual model to a specific DBMS (HOW ?)– Software dependent
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Degrees of Abstraction • External
– Users’ views of data environment– Provides subsets of internal view– Makes application program development easier– Facilitates designers’ tasks– Ensures adequacy of conceptual model– Ensures security constraints in design
• Physical– Lowest level of abstraction– Software and hardware dependent– Requires definition of physical storage devices and
access methods
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Degrees of Abstraction • Three main levels of data models: deliverables
– Conceptual data model • Project initiation and planning: ERD’s with entities and
relationships only• Analysis: ERD’s refined with attributes
– Logical data model = Internal + external data model: a set of normalized relations, based on ERD and views/forms design
– Physical data model = physical file and database design
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Concepts of the ER Model
• Entity types
• Relationship types
• Attributes
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Entity Type
• Entity type– Group of objects with same properties,
identified by enterprise as having an independent existence.
• Entity occurrence– Uniquely identifiable object of an entity type.
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Examples of Entity Types
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ER Diagram of Staff and Branch Entity Types
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Relationship Types• Relationship type
– Set of meaningful associations among entity types.
• Relationship occurrence– Uniquely identifiable association, which
includes one occurrence from each participating entity type.
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Semantic Net of Has Relationship Type
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ER Diagram of Branch Has Staff Relationship
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Relationship Types• Degree of a Relationship
– Number of participating entities in relationship.
• Relationship of degree:– two is binary;– three is ternary;– four is quaternary.
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Binary Relationship called POwns
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Ternary Relationship called Registers
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Quaternary Relationship called Arranges
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Relationship Types• Recursive Relationship
– Relationship type where same entity type participates more than once in different roles.
• Relationships may be given role names to indicate purpose that each participating entity type plays in a relationship.
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Recursive Relationship called Supervises with Role Names
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Entities associated through two distinct Relationships with Role Names
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Attributes• Attribute
– Property of an entity or a relationship type.
• Attribute Domain– Set of allowable values for one or more
attributes.
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Attributes• Simple Attribute
– Attribute composed of a single component with an independent existence.
• Composite Attribute– Attribute composed of multiple components,
each with an independent existence.
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Attributes• Single-valued Attribute
– Attribute that holds a single value for each occurrence of an entity type.
• Multi-valued Attribute– Attribute that holds multiple values for each
occurrence of an entity type.
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Attributes• Derived Attribute
– Attribute that represents a value that is derivable from value of a related attribute, or set of attributes, not necessarily in the same entity type.
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Keys• Candidate Key
– Minimal set of attributes that uniquely identifies each occurrence of an entity type.
• Primary Key– Candidate key selected to uniquely identify each
occurrence of an entity type.
• Composite Key– A candidate key that consists of two or more
attributes.
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ER Diagram of Staff and Branch Entities and their Attributes
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Entity Type• Strong Entity Type
– Entity type that is not existence-dependent on some other entity type.
• Weak Entity Type– Entity type that is existence-dependent on
some other entity type.
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Strong Entity Type called Client and Weak Entity Type called Preference
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Relationship called Advertises with Attributes
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Structural Constraints• Main type of constraint on relationships is
called multiplicity.
• Multiplicity - number (or range) of possible occurrences of an entity type that may relate to a single occurrence of an associated entity type through a particular relationship.
• Represents policies (called business rules) established by user or company.
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Structural Constraints• The most common degree for
relationships is binary.
• Binary relationships are generally referred to as being:– one-to-one (1:1)– one-to-many (1:*)– many-to-many (*:*)
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Semantic Net of Staff Manages Branch Relationship Type
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Multiplicity of Staff Manages Branch (1:1) Relationship Type
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Semantic Net of Staff Oversees PropertyForRent Relationship Type
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Multiplicity of Staff Oversees
PropertyForRent (1:*) Relationship Type
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Semantic Net of Newspaper Advertises
PropertyForRent Relationship Type
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Multiplicity of Newspaper Advertises
PropertyForRent (*:*) Relationship
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Structural Constraints• Multiplicity for Complex Relationships
– Number (or range) of possible occurrences of an entity type in an n-ary relationship when other (n-1) values are fixed.
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Semantic Net of Ternary Registers Relationship with Values for Staff
and Branch Entities Fixed
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Multiplicity of Ternary Registers Relationship
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Summary of Multiplicity Constraints
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Structural Constraints• Multiplicity is made up of two types of
restrictions on relationships: cardinality and participation.
• Cardinality – Describes maximum number of possible relationship
occurrences for an entity participating in a given relationship type (1,4), (1,N) ...
• Participation– Determines whether all or only some entity
occurrences participate in a relationship (optional/mandatory).
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Multiplicity as Cardinality and Participation Constraints
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Problems with ER Models• Problems may arise when designing a
conceptual data model called connection traps.
• Often due to a misinterpretation of the meaning of certain relationships.
• Two main types of connection traps are called fan traps and chasm traps.
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Problems with ER Models• Fan Trap
– Where a model represents a relationship between entity types, but pathway between certain entity occurrences is ambiguous.
• Chasm Trap– Where a model suggests the existence of a relationship
between entity types, but pathway does not exist between certain entity occurrences.
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An Example of a Fan Trap
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Semantic Net of ER Model with Fan Trap
• At which branch office does staff number SG37 work?
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Restructuring ER Model to Remove Fan Trap
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Semantic Net of Restructured ER Model with Fan Trap Removed
• SG37 works at branch B003.
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An Example of a Chasm Trap
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Semantic Net of ER Model with Chasm Trap
• At which branch office is property PA14 available?
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ER Model Restructured to Remove Chasm Trap
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Semantic Net of Restructured ER Model with Chasm Trap Removed
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Comparison of E-R Modeling Symbols
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First ERD Segment Established
Figure 3.43
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Second and Third ERD Segments Established
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Fourth and Fifth ERD Segments Established
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Sixth and Seventh ERD Segments Established
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Eighth ERD Segment Established
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Ninth ERD Segment Established
Figures 3.51
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Components of E-R Model
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9/10/2012 ISC 329 Isabelle Bichindaritz 65
Completed ERD
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9/10/2012 ISC 329 Isabelle Bichindaritz 66
Burger Inventory Example
Receipt_Num berSale_Date
SALE
Quantity_Sold
ITEM SALE
Product_IdProduct_Description
PRODUCT
Quantity_Used
RECIPE LINE
Invoice_Num berVendor_IdInvoice_DatePaid
INVOICE
Quantity_Added
INVOICE ITEM
Item _Num berItem _DescriptionQuantity_in_StockType_of_ItemMinim um _Order_Quantity
INVENTORY ITEM
sells
is ordered on
is produced by is used in
is invoiced on
includes