1 data modeling 2 yong choi school of business csub
TRANSCRIPT
Steps for creating an ERD• Identify the entities
– Look for singular nouns (in real world situation, avoid noun w/o attributes)
– Also avoid proper nouns• Identify the attributes
– Look for entity characteristics or properties• Identify the relationships
– Look for verb (between entities)
Entities???
• Made up for the class…….ambiguous…•Using original Chen’s notation
ANG Laboratory has several chemists who work on one or more projects. Chemists also may use certain kinds of equipment on each project. The organization would like to store the chemist’s employee identification number, his/her name, up to three phone numbers, his/her project identification number and the date on which the project started. Every piece of equipment, the chemist uses, has a serial number and a cost.
Entities’ Attributes???
ANG Laboratory has several chemists who work on one or more projects. Chemists also may use certain kinds of equipment on each project. The organization would like to store the chemist’s employee identification number, his/her name, up to three phone numbers, his/her project identification number and the date on which the project started. Every piece of equipment, the chemist uses, has a serial number and a cost.
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entities, attributes and identifiers
Project
Proj#Start-Date
Chemist
Phone#Emp#
EquipmentSerial#
cost
Relationships ???
ANG Laboratory has several chemists who work on one or more projects. Chemists also may use certain kinds of equipment on each project. The organization would like to store the chemist’s employee identification number, his/her name, up to three phone numbers, his/her project identification number and the date on which the project started. Every piece of equipment, the chemist uses, has a serial number and a cost.
Entities/Relationships& their Attributes
Chemist
Phone#
Project
Proj#Start-Date
Equipment
Works-On
Uses
Date-Assigned
Emp#
Serial#
cost
Assign-Date
More about Relationship• Description of each relationship should be bidirectional. • Operate in both directions– Relationship between Student and Curriculum
• A student is enrolled in many curriculums (student to Curr.).
• Each curriculum is being studied by many students (Curr to student).
Degree of Relationship
• Degree of a Relationship describes the number of entity participation – Unary (Recursive) Relationship: One instance
related to another of the same entity type– Binary Relationship: Instances of two different
entities related to each other– Ternary Relationship: Instances of three
different types related to each other
Relationships
• Entities can be associated with one another in relationships.
• Relationship degree defines the number of entity classes participating in the relationship:– Unary relationship.– binary relationship.– ternary relationship.
Unary (recursive) Relationship• It is possible for an entity to have a relationship to
itself—this is called a recursive relationship.
supervises
Is supervised by
Cardinality• One – to – One (1:1)
– Each instance in the relationship will have exactly one related member on the other side
• One – to – Many (1:M)– A instance on one side of the relationship can have many
related members on the other side, but a member on the other side will have a maximum of one related instance
• Many – to – Many (M:N)– Instances on both sides of the relationship can have many
related instances on the other side
Optionality
• The Optionality is a property of an attribute which specify if a value is mandatory or optional.
• To identify optional relationship, look for auxiliary verb such as can or may
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CardinalityThe organization would like to store the date the chemist was assigned to the project and the date an equipment item was assigned to a particular chemist working on a particular project. A chemist must be assigned at least to one (or more) project and one (or more) equipment. Projects and equipments must be managed by only one chemist. A given project need not be assigned an equipment.
Complete ER Diagram
Chemist
Phone#
Project
Proj#Start-Date
Equipment
Works-On
Uses
Date-Assigned
N1
N1
Emp#
Serial#
cost
Assign-Date
Steps for developing an ERD 2
• Identify the entities • Identify the attributes • Identify the relationships
– Beginner: look for relationship-type related words and phrases such as zero, none, a, one, several, many…..
– Optional relationship: look for auxiliary verbs such as may, might, can and based upon own judgment..)
• Finalize business rules
Data Model Notation
• weak entity relationship (see the next slide)
• optional relationship
• recursive relationship
Employee
Weak Entity relationship
• A weak entity is an entity that cannot be uniquely identified and existed by itself alone.
• Thus, a weak entity is an entity that exists only if it is related to a set of uniquely determined entities (owners of the weak entity). – More examples on the textbook
• Each employee might have none or multiple dependents. However, dependents must belong to at least one employee.
EMP DEP
weak entity notation
1:1 relationship
A person must have one and only one DNA pattern and eac pattern must be applied to one and only one person.
1:1 with optional relationship (OR)on one side
A person might not or might be a programmer, but a programmer must be a person.
1:M relationship
Each department hires many employees, and each employee is hired by one department.
EMPLOYEEDEPARTMTHIRES
IS_HIRED_BY
1:M with OR on many side A person might be a member or might not, but could be
found multiple times (if the member entity represents membership in multiple clubs, for instance). A member must have only a single person.
1:M with OR on both side A person might have no phone, one phone or lots of
phones, and that a phone might be un-owned or can only be owned by a person.
M:N relationshipEach student takes many classes, and a class must be taken by many students.
** Many-to-many relationships cannot allowed in the data model because they cannot be represented by the relational model (see the next slide for the reason) **
STUDENTCLASSTAKE
IS_TAKEN_BY
Example M:N Relationship
3 to 330 to 30
300 to 3003000 to 3000
30,000 to 30,000300, 000 to 300, 000
Table to represent Entity
Example of M:N
Many-to-many relationships is a second sign of complex data.
When x relates to many y's and y relates to many x's, it is a many-to-many relationship.
In our example schema, a color swatch can relate to many types of sweaters and a type of sweater can have many color swatches.
Transformation of M:N1. When transform to relational model, many
redundancies can be generated.– The relational operations become very complex and are likely
to cause system efficiency errors and output errors. – Break the M:N down into 1:N and N:1 relationships using
bridge entity (weak entity).
CLASS STUDENTENROLL
Bridge (Associative - textbook) Entity
• ENROLL entity becomes a weak entity of both STUDENT entity and CLASS entity
• MUST have a composite (unique) identifier STU_NUM (from STUDENT entity) and CLASS_CODE
(from CLASS entity)
• Another MUST know M:N example on the textbook page 63 and 64
M:N with optionality on both side
• A person might or might not work for an employer, but could certainly moonlight for multiple companies. An employer might have no employees, but could have any number of them.
After broken down, optional relationship notation on both side of associative entity