Computer Graphics & VIrtual Reality detailed syllabus scheme for Information Technology (IT), 2018 regulation has been taken from the MU official website and presented for the Bachelor of Engineering students. For Course Code, Course Title, Test 1, Test 2, Avg, End Sem Exam, Team Work, Practical, Oral, Total, and other information, do visit full semester subjects post given below.
For 5th Sem Scheme of Information Technology (IT), 2018 Pattern, do visit IT 5th Sem Scheme, 2018 Pattern. For the Department Level Optional Course-1 scheme of 5th Sem 2018 regulation, refer to IT 5th Sem Department Level Optional Course-1 Scheme 2018 Pattern. The detail syllabus for computer graphics & virtual reality is as follows.
Computer Graphics & VIrtual Reality Syllabus for Information Technology TE 5th Sem 2018 Pattern Mumbai University
Course Objectives:
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Course Outcomes:
Students will be able to:
- To list the basic concepts used in computer graphics.
- To implement various algorithms to scan, convert the basic geometrical primitives, transformations, Area filling, clipping.
- To describe the importance of viewing and projections.
- To define the fundamentals of animation, virtual reality and its related technologies.
- To understand a typical graphics pipeline
- To design an application with the principles of virtual reality
Prerequisites:
Basic Mathematics
Module I
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Module II
Area Filling, Transformations (2D and 3D. Area filling: Inside/Outside Test, Scan line Polygon Fill Algorithm, Boundary Fill and Flood Fill algorithm. Basic Geometrical 2D Transformations: Translation, Rotation, Scaling, Reflection, Shear, their homogeneous Matrix representation and Composite transformation. Three Dimensional transformations: Translation, Scaling, Rotations, Composite. 8 CO1 CO2
Module III
Viewing (2D and 3D) Projection and Clipping Viewing: Introduction, Viewing Pipeline, View Coordinate reference frame, Window to viewport transformation. Three-Dimensional Viewing: 3D Pipeline, Viewing transformation, Projections: Parallel (Oblique and orthographic), Perspective (one Point) Clipping: Point clipping, Line clipping: Cohen Sutherland Algorithm, Liang Barsky algorithms, Polygon clipping: Sutherland Hodgeman polygon clipping and Weiler Atherton. Text Clipping. 10 CO1 CO2 CO3
Module IV
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Module V
Introduction to Virtual Reality Virtual Reality: Basic Concepts, Overview and perspective on virtual reality, Human sensation and perception. Classical Components of VR System, Types of VR Systems, Three-Dimensional Position Trackers, Navigation and Manipulation Interfaces, Gesture Interfaces, Input Devices, Graphical Display, Sound displays, and Haptic Feedback. Graphical Rendering Pipeline, Haptic Rendering Pipeline, Open GL rendering pipeline. Applications of Virtual Reality. 9 CO1 CO2 CO4 CO6
Module VI
VR Modeling and Programming Geometric Modeling: Virtual Object Shape, Object Visual Appearance. Kinematics Modeling: Object Position, Transformation Invariants, Object Hierarchies, Physical Modeling: Collision Detection, Surface Deformation, Force Computation. Behavior Modeling. Programming through VRML/X3D: Defining and Using Nodes and Shapes, VRML Browsers, Java 3D, OpenCV for augmented reality 12 CO1 CO2 CO4 CO6
Text Books:
For the complete Syllabus, results, class timetable, and many other features kindly download the iStudy App
It is a lightweight, easy to use, no images, and no pdfs platform to make students’s lives easier..
Reference Books:
- Grigore Burdea, Philippe Coiffet, Virtual Reality Technology, Wiley.
- Steven Harrington, Computer Graphics, McGraw Hill.
- Rogers, Procedural Elements of Computer Graphics, Tata McGraw Hill.
- Vince, Virtual Reality Systems, Pearson Education.
- F.S. Hill, Stephen M. Kelley , Computer Graphics using Open GL Prentice Hall
- Samyak Datta , Learning OpenCV 3 Application Development, Packt
Assessment:
Internal Assessment for 20 marks: Consisting of Two Compulsory Class Tests Approximately 40% to 50% of syllabus content must be covered in First test and remaining 40% to 50% of syllabus contents must be covered in second test. End Semester Theory Examination: Some guidelines for setting the question papers are as:
- Weightage of each module in end semester examination is expected to be/will be proportional to number of respective lecture hours mentioned in the syllabus.
- Question paper will comprise of total six questions, each carrying 20 marks.
- Q.1 will be compulsory and should cover maximum contents of the syllabus.
- Remaining question will be mixed in nature (for example if Q.2 has part
- from module 3 then part
- will be from any other module. (Randomly selected from all the modules)
- Total four questions need to be solved.
For detail Syllabus of all subjects of Information Technology (IT) 5th Sem 2018 regulation, visit IT 5th Sem Subjects of 2018 Pattern.