Semester Three 3 computer engineering syllabus mumbai university
Hey , readers in this blog you will get to know complete syllabus of sem 3 for computer engineering ( Semester 3 computer engineering )
Semester 3 computer engineering Engineering Mathematics III
The course aims:
1 To learn the Laplace Transform, Inverse Laplace Transform of various functions, its
applications.
2 To understand the concept of Fourier Series, its complex form and enhance the problemsolving skills.
3 To understand the concept of complex variables, C-R equations with applications.
4 To understand the basic techniques of statistics like correlation, regression, and curve
fitting for data analysis, Machine learning, and AI.
5 To understand some advanced topics of probability, random variables with their
distributions and expectations.
| Detailed Contents |
| Laplace Transform |
| Inverse Laplace Transform |
| Fourier Series |
| Complex Variables |
| Statistical Techniques |
| Probability |
Most reffered book for computer engineering mathematics sem 3 is Kumbhojkar
Semester 3 computer engineering Discrete Structures and Graph Theory
The course aims:
1 Cultivate clear thinking and creative problem solving.
2 Thoroughly train in the construction and understanding of mathematical proofs. Exercise
common mathematical arguments and proof strategies.
3 To apply graph theory in solving practical problems.
4 Thoroughly prepare for the mathematical aspects of other Computer Engineering courses
| Detailed Contents |
| Logic |
| Relations and Functions |
| Posets and Lattice |
| Counting |
| Algebraic Structures |
| Graph Theory |
Semester 3 computer engineering Data Structure
The course aims:
1 To understand the need and significance of Data structures as a computer Professional.
2 To teach concept and implementation of linear and Nonlinear data structures.
3 To analyze various data structures and select the appropriate one to solve a specific realworld problem.
4 To introduce various techniques for representation of the data in the real world.
5 To teach various searching techniques.
| Detailed Content |
| Introduction to Data Structures |
| Stack and Queues |
| Linked List |
| Trees |
| Graphs |
| Searching Techniques |
Semester 3 computer engineering Digital Logic & Computer Organization and Architecture
Course Objective:
1 To have the rough understanding of the basic structure and operation of basic digital circuits
and digital computer.
2 To discuss in detail arithmetic operations in digital system.
3 To discuss generation of control signals and different ways of communication with I/O
devices.
4 To study the hierarchical memory and principles of advanced computing.
| Detailed Content |
| Computer Fundamentals |
| Data Representation and Arithmetic algorithms |
| Processor Organization and Architecture |
| Control Unit Design |
| Memory Organization |
| Principles of Advanced Processor and Buses |
Semester 3 computer engineering Computer Graphics
Course Objectives
1 To equip students with the fundamental knowledge and basic technical competence in the
field of Computer Graphics.
2 To emphasize on implementation aspect of Computer Graphics Algorithms.
3 To prepare the student for advance areas and professional avenues in the field of Computer
Graphics
| Detailed Content |
| Introduction and Overview of Graphics System: |
| Output Primitives: |
| Two Dimensional Geometric Transformations |
| Two-Dimensional Viewing and Clipping |
Three Dimensional Geometric Transformations, Curves and
Fractal Generation |
| Visible Surface Detection and Animation |
Semester 3 computer engineering Data Structures Lab
Lab Objectives:
1 To implement basic data structures such as arrays, linked lists, stacks and queues
2 Solve problem involving graphs, and trees
3 To develop application using data structure algorithms
4 Compute the complexity of various algorithms.
Semester 3 computer engineering Digital Logic & Computer Organization and Architecture Lab
Lab Objectives:
1 To implement operations of the arithmetic unit using algorithms.
2 Design and simulate different digital circuits.
3 To design memory subsystem including cache memory.
4 To demonstrate CPU and ALU design
