Course Catalogue

Course Code: CSE 4721
Course Name:
AR/VR
Credit Hours:
3.00
Detailed Syllabus:

This course will introduce you to the world of Augmented, Mixed, and Virtual Reality interfaces. These interfaces enable new kinds of user experiences by superimposing digital content onto the user’s real world view or creating fully immersive virtual world experiences. You will learn about the differences between AR/VR, about the technical and design requirements for creating such user experiences, and how to prototype and develop your first AR/VR interfaces. You will also receive an overview of new and evolving interaction design principles and methods, current AR/VR interface development approaches, and how to assess the usability of AR/VR interfaces.

Course Code: CSE 480
Course Name:
Web Technology
Credit Hours:
3.00
Detailed Syllabus:

Designing an Internet utilizing a range of different technologies. Simplifying the creation and updating web content. Expanding Intranet services by adding client-slide and server-side processing. Interfacing Internet to a database. Querying a database using Cold Fusion.

Course Code: CSE 498
Course Name:
Social and Professional Issues
Credit Hours:
3.00
Detailed Syllabus:

History of Computing, Social context of computing, Methods and tools of analysis, Professional and ethical responsibilities, Risks and liabilities of computer-based systems, Intellectual property, Privacy and civil liberties, Computer crime, Economic issues in computing, Philosophical frameworks.

Course Code: CSE 499
Course Name:
Final Year Project/Internship
Prerequisite:
All major core courses
Credit Hours:
4.00
Detailed Syllabus:

Final Year Project/Internship is a subject that must be completed by final year student as a requirement to receive a Bachelor of Science (BSc) degree in Computer Science and Engineering. In this subject the student will be given one semester to work on a task that is related to their field of interest. Students are expected to do their work independently most of the time. But their progress will be monitored closely by their supervisors. At the end of the project/internship, students should document their work in a thesis which must be hard bounded and submitted to the department. Students are also required to submit a soft copy of their thesis to the department.

Important Documents:

Detailed Syllabus
Internship Report Outline
Research Project Report Outline
Supervisor Evaluation form
Examiners Evaluation form
Feedback Form – Industry Supervisor

Course Code: EEE 101
Course Name:
Electrical Circuit I
Credit Hours:
3.00
Detailed Syllabus:

Circuit variables and elements: Voltage, current, power, energy, independent and dependent sources, resistance. Basic laws: Ohm’s law, Kirchhoff’s current and voltage laws. Simple resistive circuits: Series and parallel circuits, voltage and current division, Wye-delta transformation. Technique of circuit analysis: Nodal and Mesh analysis. Network theorems: Source transformation, Thevenin’s, Norton’s and superposition theorems. Maximum power transfer condition and reciprocity theorem. Energy storage elements: Inductors and capacitors, series and parallel combination of inductors and
capacitors. Response of RL, RC, and RLC circuits: transient and steady state responses. Basic magnetic circuits: magnetic quantities and variables: Flux density, magnetomotive force, magnetic field strength, permeability and B-H curve, reluctance. Laws in magnetic circuits: Ohm’s law and Ampere’s circuital law. Magnetic circuits: Composite series magnetic circuit, parallel, and series-parallel circuits. Analogy between electrical and magnetic circuits. Hysteresis loss and magnetic materials.

Course Code: EEE 102
Course Name:
Electrical Circuit I Laboratory
Credit Hours:
1.00
Detailed Syllabus:

In this course students will perform experiments to verify practically the theories and concepts learned in EEE 101.

Course Code: EEE 103
Course Name:
Electrical Circuit II
Credit Hours:
3.00
Detailed Syllabus:

Definitions of AC voltage, current, power, volt-ampere and various factors including the peak and form factors. Introduction to sinusoidal steady state analysis: Sinusoidal sources, instantaneous and effective voltage and currents, average power, phasors and complex quantities, impedance, real and reactive power, maximum power transfer, power factor and its improvement. Analysis of single-phase AC circuits: Series and parallel RL, RC and RLC circuits, nodal and mesh analysis, application of network theorems in AC circuits, circuits with non-sinusoidal excitations, transients in AC circuits. Passive filters: Basic types. characteristic impedance and attenuation, ladder network, low- and high-pass filters, propagation coefficient and time delay in filter sections, practical composite filters. Resonance in AC circuits: Series and parallel resonance. Magnetically coupled circuits. Analysis of three phase circuits: three phase supply, balanced and unbalanced circuits, power calculation.

Course Code: EEE 104
Course Name:
Electrical Circuit II Laboratory
Credit Hours:
1.00
Detailed Syllabus:

In this course students will perform experiments to verify practically the theories and concepts learned in EEE 103.

Course Code: EEE 1101
Course Name:
Electrical Circuit 1
Credit Hours:
3.00
Detailed Syllabus:

Fundamental electrical concepts and measuring units, DC voltages, current, resistance and power, laws of electrical circuits and methods of network analysis, principles of DC measuring apparatus, laws of magnetic fields and methods of solving simple magnetic circuits; Alternating current: instantaneous and RMS current, voltage and power, average power combinations of R, L & C circuits, phasor, representation of sinusoidal quantities.

Course Code: EEE 1102
Course Name:
Electrical Circuit 1 Lab
Credit Hours:
1.00
Detailed Syllabus:

Based on the theory course.

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