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![Page 1: Temple University – CIS Dept. CIS616– Principles of Database Systems V. Megalooikonomou E-R Diagrams (based on notes by Silberchatz,Korth, and Sudarshan.](https://reader036.fdocuments.us/reader036/viewer/2022062404/5519b2465503465b578b464c/html5/thumbnails/1.jpg)
Temple University – CIS Dept.CIS616– Principles of Database Systems
V. Megalooikonomou
E-R Diagrams
(based on notes by Silberchatz,Korth, and Sudarshan and notes by C. Faloutsos at CMU)
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Overview Concepts
Entities Relationships Attributes Mapping constraints: cardinalities Keys Specialization/Generalization Aggregation
Reduction of E-R diagrams to tables
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The Challenge: … a sample Database (from last lecture)
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The Tools
Entities (‘entity sets’)
Relationships (‘rel. sets’)
and mapping constraints
attributes
N M
P
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Entity Sets A database can be modeled as:
a collection of entities + relationships among entities
An entity is an object that exists and is distinguishable from other objects
Example: specific person, company, event Entities have attributes
Example: people have names and addresses An entity set is a set of entities of the same type
that share the same properties Example: set of all persons, companies, holidays
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Attributes An entity is represented by a set of attributes, that is,
descriptive properties that all members of an entity set have
Domain – the set of permitted values for each attribute Attribute types:
Simple and composite (e.g., name (first,middle,last)) attributes Single-valued and multi-valued attributes (e.g., multi-valued
attribute: phone-numbers, dependents, etc Derived attributes
Can be computed from other attributes (e.g., age, given date of birth)
E.g.,
customer = (customer-id, customer-name, customer-street, customer-city)
loan = (loan-number, amount)
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Composite Attributes
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Relationship Sets A relationship is an association among several entities
Example:Hayes depositor A-102
customer entityrelationship setaccount entity A relationship set is a mathematical relation among n
2 entities, each taken from entity sets{(e1, e2, … en) | e1 E1, e2 E2, …, en En}
where (e1, e2, …, en) is a relationship (entity sets E1, E2,…, En participate in the relationship)
Example: (Hayes, A-102) depositor
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More examples …
Students, taking courses, offered by instructors; a course may have multiple sections; one instructor per course
nouns -> entity setsverbs -> relationships
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STUDENT
name
ssn
...
INSTRUCTORissn
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what about different sections of course (with different instructors)?
STUDENT
name
ssn
...
COURSE
c-id
c-name
INSTRUCTORissn
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COURSE
c-id
INSTRUCTOR
STUDENT
SECTIONs-id
ssn
issnbut: s-id is not unique...
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COURSE
c-id
INSTRUCTOR
STUDENT
SECTIONs-id
takes
N
M
ssn
issn
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COURSE
c-id
INSTRUCTOR
STUDENT
SECTIONs-id
takes
N
M
N
1
teaches
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Mapping Constraints: Cardinalities
1 to 1 (example?) 1 to N N to M
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Mapping Cardinalities
One to one One to many
Note: Some elements in A and B may not be mapped to any elements in the other set
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Mapping Cardinalities
Many to one Many to many
Note: Some elements in A and B may not be mapped to any elements in the other set
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COURSE
c-id
INSTRUCTOR
STUDENT
SECTIONs-id
takes
N
M
N
1
teaches
hasN 1
Example
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E-R Diagrams
Rectangles represent entity sets Diamonds represent relationship sets Lines link attributes to entity sets and entity sets to
relationship sets Ellipses represent attributes
Double ellipses represent multivalued attributes Dashed ellipses denote derived attributes
Underline indicates primary key attributes (will study later)
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More details ‘weak’ entities: if they need to borrow a unique id from a ‘strong
entity - DOUBLE box. ‘c-id’ + ‘s-id’: unique id for SECTION discriminator (e.g., ‘s-id’)
COURSE
c-id
SECTIONs-id hasN 1
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More details
Entity sets of a relationship need not be distinct
self-relationships – example ?
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More details
Entity sets of a relationship need not be distinct
self-relationships – example ?
Usually different “roles” are indicated by labeling the lines that connect diamonds to rectangles
EMPLOYEE
manages1
N
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Cardinality Constraints We express cardinality constraints by drawing either
a directed line (), signifying “one,” or an undirected line (—), signifying “many,” between the relationship set and the entity set.
E.g.: One-to-one relationship: A customer is associated with at most one loan via the
relationship borrower A loan is associated with at most one customer via borrower
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More details Binary relationships 3-way and k-way relationships?
EMPLOYEE uses
PROJECT
TOOLN M
P
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More details - attributes superkey: a set of one or more attributes
whose values uniquely determine each entity (e.g., (ssn, address) )
candidate key: a minimal super key (e.g., ssn; employee#)
primary key: a cand. key, chosen by DBA multivalued or set-valued attributes (e.g.,
‘dependents’ for EMPLOYEE) derived attributes (e.g., 15% tip)
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Participation of an Entity Set in a Relationship Set
Total participation (indicated by double line): every entity in the entity set participates in at least one relationship in the relationship set
E.g. participation of loan in borrower is total
every loan must have a customer associated to it via borrower
Partial participation: some entities may not participate in any relationship in the relationship set
E.g. participation of customer in borrower is partial
More details:
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Alternative Notation for Cardinality Limits Cardinality limits (min and max) can also express participation
constraints (min=1 implies total participation of an entity set to a relationship set, max=1 implies that an entity participates in at most one relationship, max=* implies no limit).
More details:
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Overview
concepts Entities Relationships Attributes Specialization/Generalization Aggregation
turning E-R diagrams to tables
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Extended ER features: Specialization
e.g., students: part time (#credit-hours) and full time (major)
STUDENT
name
ssn
PT-STUDENT
#credits
FT-STUDENTmajor
IS-A
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Specialization Top-down design process; designate subgroupings
within an entity set that are distinctive from other entities in the set
These subgroupings become lower-level entity sets that have attributes or participate in relationships that do not apply to the higher-level entity set
Depicted by a triangle component labeled ISA (E.g. customer “is a” person)
Attribute inheritance – a lower-level entity set inherits all the attributes and relationship participation of the higher-level entity set to which it is linked
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Another specialization example
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Generalization … opposite to specialization A bottom-up design process – combine a
number of entity sets that share the same features into a higher-level entity set
Specialization and generalization are inversions of each other; they are represented in an E-R diagram in the same way; we use the terms interchangeably
could have many levels of an IS-A hierarchy attribute inheritance
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Specialization and generalization (Cont.)
Can have multiple specializations of an entity set based on different features
E.g. permanent-employee vs. temporary-employee, in addition to officer vs. secretary vs. teller Each particular employee would be
a member of one of permanent-employee or temporary-employee,
and also a member of one of officer, secretary, or teller
The ISA relationship also referred to as superclass - subclass relationship
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Design Constraints on Specialization/Generalization
The constraint on which entities can be members of a given lower-level entity set: Condition-defined
E.g. all customers over 65 years are members of senior-citizen entity set; senior-citizen ISA person
User-defined The constraint on whether or not entities may belong to
more than one lower-level entity sets within a single generalization Disjoint
an entity can belong to only one lower-level entity set Noted in E-R diagram by writing disjoint next to the ISA triangle
Overlapping an entity can belong to more than one lower-level entity set
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Design Constraints on a Specialization/Generalization (Cont.)
Completeness constraint -- specifies whether or not an entity in the higher-level entity set must belong to at least one of the lower-level entity sets within a generalization
total : an entity must belong to one of the lower-level entity sets
partial: an entity need not belong to one of the lower-level entity sets
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Aggregation treats a relationship as an ‘abstract’ entity allows relationships between relationships rarely used
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Binary vs. Non-Binary Relationships
Some relationships that appear to be non-binary may be better represented using binary relationships E.g., a ternary relationship parents, relating a
child to his/her father and mother, is best replaced by two binary relationships, father and mother
Using two binary relationships allows partial information (e.g., only mother being known)
But there are some relationships that are naturally non-binary
E.g., works-on
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Converting Non-Binary Relationships to Binary Form
In general, any non-binary relationship can be represented using binary relationships by creating an artificial entity set
Replace R between entity sets A, B and C by an entity set E, and three relationship sets:
1. RA, relating E and A 2.RB, relating E and B
3. RC, relating E and C Create a special identifying attribute for E Add any attributes of R to E For each relationship (ai , bi , ci) in R, create
1. a new entity ei in the entity set E 2. add (ei , ai ) to RA
3. add (ei , bi ) to RB 4. add (ei , ci ) to RC
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E-R Design Decisions Decisions regarding:
The use of an attribute or entity set to represent an object Whether a real-world concept is best expressed by an
entity set or a relationship set Use of a ternary relationship versus a pair of binary ones Use of a strong or weak entity set Use of specialization/generalization (that contributes to
modularity in the design) Use of aggregation – can treat the aggregate entity set as
a single unit without concern for the details of its internal structure
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E-R Diagram for a Banking Enterprise
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Overview
concepts Entities Relationships Attributes Specialization/Generalization Aggregation
Reduction of E-R diagrams to tables
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COURSE
c-id
INSTRUCTOR
STUDENT
SECTIONs-id
takes
N
M
N
1
teaches
hasN 1
grade
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Representing strong entities
just list the attributes, and underline the primary key, eg.
STUDENT(ssn, name, address)
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Representing Multivalued attributes
Eg., EMPLOYEE with many dependents:
introduce a new table, with (ssn, dependent-name)
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Representing relationships get primary keys of all involved entities primary key - depends on cardinality
1 to 1: use either key, e.g., EMPLOYEE( ssn, empno, name, ...) 1 to N: use the key of the ‘N’ part, e.g., TEACHES( issn, c-id, s-id) N to M: use both keys, e.g., TAKES( ssn, c-id, s-id, grade)
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Representing relationships 1 to N: no need for separate table -
eg.,SECTION( issn, room-num, c-id, s-id)
instead ofSECTION1(c-id, s-id, room-num)TEACHES(issn, c-id, s-id)
for rel. between strong and corresponding weak entity, no need for table, at all!
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Representing Generalization/Specialization
Two solutions:- one table for each or- no table for super-entity(pros and cons?)
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E.g.,STUDENT(ssn, name, address)PT-STUDENT(FT-STUDENT(
Representing Generalization/Specialization
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E.g.,STUDENT(ssn, name, address)PT-STUDENT( ssn, num-creditsFT-STUDENT( ssn, major
Representing Generalization/Specialization
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no super-entity:[STUDENT(ssn, name, address)]PT-STUDENT( ssn, num-creditsFT-STUDENT( ssn, major
Representing Generalization/Specialization
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no super-entity:[STUDENT(ssn, name, address)]PT-STUDENT( ssn, num-credits, name,
address)FT-STUDENT( ssn, major, name, address)
Representing Generalization/Specialization
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Representing aggregation
make table, with primary keys of all involved entities
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Overview
concepts Entities Relationships Attributes Specialization/Generalization Aggregation
turning E-R diagrams to tables
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Summary E-R Diagrams: a powerful, user-
friendly tool for data modeling: Entities (strong, weak) Attributes (primary keys,
discriminators, derived, multivalued) Relationships (1:1, 1:N, N:M; multi-way) Generalization/Specialization;
Aggregation
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Summary - cont’d
(strong) entity set
weak entity set
relationship set
identifying rel. set
for weak entity
attribute
multivalued
attribute
derived
attribute
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Summary - cont’d
primary keyA
discriminatorA
cardinalitiesN M
cardinalities
with limits
l:h l’:h’
IS-A
total
generalization
(e.t.c. - see book for
alternative notations)
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Extra slides …
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Reduction of an E-R Schema to Tables (more details)
Primary keys allow entity sets and relationship sets to be expressed uniformly as tables which represent the contents of the database
A database which conforms to an E-R diagram can be represented by a collection of tables
For each entity set and relationship set there is a unique table which is assigned the name of the corresponding entity set or relationship set
Each table has a number of columns (attributes), which have unique names
Converting an E-R diagram to a table format is the basis for deriving a relational database design from an E-R diagram
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Representing Entity Sets as Tables
A strong entity set reduces to a table with the same attributes
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Representing Composite and Multivalued Attributes
Composite attributes are flattened out by creating a separate attribute for each component attribute
E.g. given entity set customer with composite attribute name with component attributes first-name and last-name the table corresponding to the entity set has two attributes name.first-name and name.last-name
A multivalued attribute M of an entity E is represented by a separate table EM
Table EM has attributes corresponding to the primary key of E and an attribute corresponding to multivalued attribute M
E.g. Multivalued attribute dependent-names of employee is represented by a table employee-dependent-names( employee-id, dname)
Each value of the multivalued attribute maps to a separate row of the table EM
E.g., an employee entity with primary key John and dependents Johnson and Mary maps to two rows: (John, Johnson) and (John, Mary)
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Representing Weak Entity Sets
A weak entity set becomes a table that includes a column for the primary key of the identifying strong entity set
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Representing Relationship Sets as Tables
A many-to-many relationship set is represented as a table with columns for the primary keys of the two participating entity sets, and any descriptive attributes of the relationship set.
E.g.: table for relationship set borrower
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Redundancy of Tables Many-to-one and one-to-many relationship sets that are total
on the many-side can be represented by adding an extra attribute to the many side, containing the primary key of the one side
E.g.: Instead of creating a table for relationship account-branch, add an attribute branch to the entity set account
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Redundancy of Tables (Cont.)
For one-to-one relationship sets, either side can be chosen to act as the “many” side
That is, extra attribute can be added to either of the tables corresponding to the two entity sets
If participation is partial on the many side, replacing a table by an extra attribute in the relation corresponding to the “many” side could result in null values
The table corresponding to a relationship set linking a weak entity set to its identifying strong entity set is redundant.
E.g. The payment table already contains the information that would appear in the loan-payment table (i.e., the columns loan-number and payment-number).
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Representing Specialization as Tables
Method 1: Form a table for the higher level entity Form a table for each lower level entity set,
include primary key of higher level entity set and local attributes
table table attributespersonname, street, city customer name, credit-ratingemployee name, salary
Drawback: getting information about, e.g., employee requires accessing two tables
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Representing Specialization as Tables (Cont.)
Method 2: Form a table for each entity set with all local and
inherited attributestable table attributes
personname, street, citycustomer name, street, city, credit-ratingemployee name, street, city, salary
If specialization is total, table for generalized entity (person) not required to store information
Can be defined as a “view” relation containing union of specialization tables
But explicit table may still be needed for foreign key constraints
Drawback: street and city may be stored redundantly for persons who are both customers and employees
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Relations Corresponding to Aggregation
To represent aggregation, create a table containing
primary key of the aggregated relationship
the primary key of the associated entity set
any descriptive attributes
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Relations Corresponding to Aggregation (Cont.)
E.g., to represent aggregation manages between relationship works-on and entity set manager, create a table manages(employee-id, branch-name, title, manager-name)
Table works-on is redundant provided we are willing to store null values for attribute manager-name in table manages