18CS53 Database Management System syllabus for IS



A d v e r t i s e m e n t

Module-1 Introduction to Databases 10 hours

Introduction to Databases:

Introduction, Characteristics of database approach, Advantages of using the DBMS approach, History of database applications.

 

Overview of Database Languages and Architectures:

Data Models, Schemas, and Instances. Three schema architecture and data independence, database languages, and interfaces, The Database System environment.

 

Conceptual Data Modelling using Entities and Relationships:

Entity types, Entity sets, attributes, roles, and structural constraints, Weak entity types, ER diagrams, examples, Specialization and Generalization.

Textbook 1:Ch 1.1 to 1.8, 2.1 to 2.6, 3.1 to 3.10

RBT: L1, L2, L3

Module-2 Relational Model 10 hours

Relational Model:

Relational Model Concepts, Relational Model Constraints and relational database schemas, Update operations, transactions, and dealing with constraint violations.

 

Relational Algebra:

Unary and Binary relational operations, additional relational operations (aggregate, grouping, etc.) Examples of Queries in relational algebra.

 

Mapping Conceptual Design into a Logical Design:

Relational Database Design using ER-to-Relational mapping.

 

SQL:

SQL data definition and data types, specifying constraints in SQL, retrieval queries in SQL, INSERT, DELETE, and UPDATE statements in SQL, Additional features of SQL. Textbook 1: Ch4.1 to 4.5, 5.1 to 5.3, 6.1 to 6.5, 8.1;

Textbook 2: 3.5

RBT: L1, L2, L3

Module-3 SQL : Advances Queries 10 hours

SQL : Advances Queries:

More complex SQL retrieval queries, Specifying constraints as assertions and action triggers, Views in SQL, Schema change statements in SQL.

 

Database Application Development:

Accessing databases from applications, An introduction to JDBC, JDBC classes and interfaces, SQLJ, Stored procedures, Case study: The internet Bookshop.

 

Internet Applications:

The three-Tier application architecture, The presentation layer, The Middle Tier

Textbook 1: Ch7.1 to 7.4; Textbook 2: 6.1 to 6.6, 7.5 to 7.7.

RBT: L1, L2, L3

Module-4 Normalization: Database Design Theory 10 hours

Normalization: Database Design Theory –

Introduction to Normalization using Functional and Multivalued Dependencies: Informal design guidelines for relation schema, Functional Dependencies, Normal Forms based on Primary Keys, Second and Third Normal Forms, Boyce-Codd Normal Form, Multivalued Dependency and Fourth Normal Form, Join Dependencies and Fifth Normal Form.

 

Normalization Algorithms:

Inference Rules, Equivalence, and Minimal Cover, Properties of Relational Decompositions, Algorithms for Relational Database Schema Design, Nulls, Dangling tuples, and alternate Relational Designs, Further discussion of Multivalued dependencies and 4NF, Other dependencies and Normal Forms

Textbook 1: Ch14.1 to 14.7, 15.1 to 15.6

RBT: L1, L2, L3

Module-5 Transaction Processing 10 hours

Transaction Processing:

Introduction to Transaction Processing, Transaction and System concepts, Desirable properties of Transactions, Characterizing schedules based on recoverability, Characterizing schedules based on Serializability, Transaction support in SQL.

 

Concurrency Control in Databases:

Two-phase locking techniques for Concurrency control, Concurrency control based on Timestamp ordering, Multiversion Concurrency control techniques, Validation Concurrency control techniques, Granularity of Data items and Multiple Granularity Locking.

 

Introduction to Database Recovery Protocols:

Recovery Concepts, NO-UNDO/REDO recovery based on Deferred update, Recovery techniques based on immediate update, Shadow paging, Database backup and recovery from catastrophic failures Textbook 1: 20.1 to 20.6, 21.1 to 21.7, 22.1 to 22.4, 22.7. RBT: L1, L2, L3 10

 

Course Outcomes:

The student will be able to :

• Identify, analyze and define database objects, enforce integrity constraints on a database using RDBMS.

• Use Structured Query Language (SQL) for database manipulation.

• Design and build simple database systems

• Develop application to interact with databases.

 

Question Paper Pattern:

• The question paper will have ten questions.

• Each full Question consisting of 20 marks

• There will be 2 full questions (with a maximum of four sub questions) from each module.

• Each full question will have sub questions covering all the topics under a module.

• The students will have to answer 5 full questions, selecting one full question from each module.

 

Textbooks:

1. Fundamentals of Database Systems, Ramez Elmasri and Shamkant B. Navathe, 7th Edition, 2017, Pearson.

2. Database management systems, Ramakrishnan, and Gehrke, 3rd Edition, 2014, McGraw Hill

 

Reference Books:

1. Silberschatz Korth and Sudharshan, Database System Concepts, 6th Edition, Mc-GrawHill, 2013.

2. Coronel, Morris, and Rob, Database Principles Fundamentals of Design, Implementation and Management, Cengage Learning 2012.

Last Updated: Tuesday, January 24, 2023