ER Diagrams contain different symbols that use rectangles to represent entities, ovals to define attributes and diamond shapes to represent relationships. At first look, an ER diagram looks very similar to the flowchart. However, ER Diagram includes many specialized symbols, and its meanings make this model unique. The purpose of ER Diagram is to represent the entity framework infrastructure. In this Entity Relationship Diagram tutorial, you will learn-
What is ER Diagram?
What is the ER Model?
History of ER models
Why use ER Diagrams?
Facts about ER Diagram Model
ER Diagrams Symbols & Notations
Components of ER Diagram
Relationship
Weak Entities
Attributes
Cardinality
How to Create an ER Diagram (ERD)
Best Practices for Developing Effective ER Diagrams
History of ER models
ER diagrams are visual tools that are helpful to represent the ER model. Peter Chen proposed ER Diagram in 1971 to create a uniform convention that can be used for relational databases and networks. He aimed to use an ER model as a conceptual modeling approach.
Why use ER Diagrams?
Here, are prime reasons for using the ER Diagram
Helps you to define terms related to entity relationship modeling Provide a preview of how all your tables should connect, what fields are going to be on each table Helps to describe entities, attributes, relationships ER diagrams are translatable into relational tables which allows you to build databases quickly ER diagrams can be used by database designers as a blueprint for implementing data in specific software applications The database designer gains a better understanding of the information to be contained in the database with the help of ERP diagram ERD Diagram allows you to communicate with the logical structure of the database to users
Facts about ER Diagram Model
Now in this ERD Diagram Tutorial, let’s check out some interesting facts about ER Diagram Model:
ER model allows you to draw Database Design It is an easy to use graphical tool for modeling data Widely used in Database Design It is a GUI representation of the logical structure of a Database It helps you to identifies the entities which exist in a system and the relationships between those entities
Components of the ER Diagram
This model is based on three basic concepts: Following are the main components and its symbols in ER Diagrams:
Rectangles: This Entity Relationship Diagram symbol represents entity types Ellipses : Symbol represent attributes Diamonds: This symbol represents relationship types Lines: It links attributes to entity types and entity types with other relationship types Primary key: attributes are underlined Double Ellipses: Represent multi-valued attributes
Entities
Attributes
Relationships
ER Diagram Examples For example, in a University database, we might have entities for Students, Courses, and Lecturers. Students entity can have attributes like Rollno, Name, and DeptID. They might have relationships with Courses and Lecturers.
WHAT IS ENTITY?
A real-world thing either living or non-living that is easily recognizable and nonrecognizable. It is anything in the enterprise that is to be represented in our database. It may be a physical thing or simply a fact about the enterprise or an event that happens in the real world. An entity can be place, person, object, event or a concept, which stores data in the database. The characteristics of entities are must have an attribute, and a unique key. Every entity is made up of some ‘attributes’ which represent that entity. Examples of entities:
Person: Employee, Student, Patient Place: Store, Building Object: Machine, product, and Car Event: Sale, Registration, Renewal Concept: Account, Course
Notation of an Entity
Entity set:
Student An entity set is a group of similar kind of entities. It may contain entities with attribute sharing similar values. Entities are represented by their properties, which also called attributes. All attributes have their separate values. For example, a student entity may have a name, age, class, as attributes.
Example of Entities: A university may have some departments. All these departments employ various lecturers and offer several programs. Some courses make up each program. Students register in a particular program and enroll in various courses. A lecturer from the specific department takes each course, and each lecturer teaches a various group of students.
Relationship
Relationship is nothing but an association among two or more entities. E.g., Tom works in the Chemistry department.
Entities take part in relationships. We can often identify relationships with verbs or verb phrases. For example:
You are attending this lecture
I am giving the lecture
Just loke entities, we can classify relationships according to relationship-types:
A student attends a lecture
A lecturer is giving a lecture.
Weak Entities
A weak entity is a type of entity which doesn’t have its key attribute. It can be identified uniquely by considering the primary key of another entity. For that, weak entity sets need to have participation.
In above ER Diagram examples, “Trans No” is a discriminator within a group of transactions in an ATM. Let’s learn more about a weak entity by comparing it with a Strong Entity
Attributes
It is a single-valued property of either an entity-type or a relationship-type. For example, a lecture might have attributes: time, date, duration, place, etc. An attribute in ER Diagram examples, is represented by an Ellipse
Cardinality
Defines the numerical attributes of the relationship between two entities or entity sets. Different types of cardinal relationships are:
One-to-One Relationships One-to-Many Relationships May to One Relationships Many-to-Many Relationships
1.One-to-one: One entity from entity set X can be associated with at most one entity of entity set Y and vice versa. Example: One student can register for numerous courses. However, all those courses have a single line back to that one student.
2.One-to-many: One entity from entity set X can be associated with multiple entities of entity set Y, but an entity from entity set Y can be associated with at least one entity. For example, one class is consisting of multiple students.
Many to One More than one entity from entity set X can be associated with at most one entity of entity set Y. However, an entity from entity set Y may or may not be associated with more than one entity from entity set X. For example, many students belong to the same class.
Many to Many: One entity from X can be associated with more than one entity from Y and vice versa. For example, Students as a group are associated with multiple faculty members, and faculty members can be associated with multiple students.
Summary
ER Model in DBMS stands for an Entity-Relationship model The ER model is a high-level data model diagram ER diagrams are a visual tool which is helpful to represent the ER model ER diagrams in DBMS are blueprint of a database Entity relationship diagram DBMS displays the relationships of entity set stored in a database ER diagrams help you to define terms related to entity relationship modeling ER Model in DBMS is based on three basic concepts: Entities, Attributes & Relationships An entity can be place, person, object, event or a concept, which stores data in the database (DBMS) Relationship is nothing but an association among two or more entities A weak entity is a type of entity which doesn’t have its key attribute It is a single-valued property of either an entity-type or a relationship-type It helps you to defines the numerical attributes of the relationship between two entities or entity sets ER- Diagram DBMS is a visual representation of data that describe how data is related to each other While Drawing ER diagrams in DBMS, you need to make sure all your entities and relationships are properly labeled.
Let’s study them with an Entity Relationship Diagram Example:
Step 1) Entity Identification
We have three entities
Student Course Professor
Step 2) Relationship Identification
We have the following two relationships
The student is assigned a course Professor delivers a course
Step 3) Cardinality Identification
For them problem statement we know that,
A student can be assigned multiple courses A Professor can deliver only one course
Step 4) Identify Attributes
You need to study the files, forms, reports, data currently maintained by the organization to identify attributes. You can also conduct interviews with various stakeholders to identify entities. Initially, it’s important to identify the attributes without mapping them to a particular entity. Once, you have a list of Attributes, you need to map them to the identified entities. Ensure an attribute is to be paired with exactly one entity. If you think an attribute should belong to more than one entity, use a modifier to make it unique. Once the mapping is done, identify the primary Keys. If a unique key is not readily available, create one.
For Course Entity, attributes could be Duration, Credits, Assignments, etc. For the sake of ease we have considered just one attribute.
Step 5) Create the ERD Diagram
A more modern representation of Entity Relationship Diagram Example
Eliminate any redundant entities or relationships You need to make sure that all your entities and relationships are properly labeled There may be various valid approaches to an ER diagram. You need to make sure that the ER diagram supports all the data you need to store You should assure that each entity only appears a single time in the ER diagram Name every relationship, entity, and attribute are represented on your diagram Never connect relationships to each other You should use colors to highlight important portions of the ER diagram