This module is designed to provide students with global view of satellite systems, its missions, frequency allocation and orbits specification, the link budget calculation for both the uplink, and the downlink, the communication system of the satellite and earth stations, digital modulation, satellite access, and satellite services.
This module is designed to provide students with:
1- Introductory topics in the electric circuits that use DC voltages and DC currents.
2- Elements of DC circuits, basic laws and different methods of electric circuit analysis.
3- Analysis, design, and development of
several examples of DC circuits.
This module is designed to provide students with an in-depth overview of the global positioningsystem.ItcoversthegrowthofGPSanditsapplications.Inadditionvarioustypes of GPS systems, GPS Space segments, Control segment, and user segment are presented.
This module is designed to provide students with an in depth coverage of:
This course is designed to provide students with an in depth coverage of the Design of
VLSI digital circuits; FPGA hardware structure, process simulation using CAD tools,
and languages for VLSI synthesis.
This module is designed to provide students with an in depth coverage of microprocessor systems including microprocessor internal architecture, external signals and buses, interfacing memory devices, and interfacing input and output devices. Topics also include an introduction to assembly language programming for 8-bit microprocessors, and example of simple microprocessor-based system designs .
This module is designed to enable the student to analyze concepts in the Electromagnetic Model, Vector Analysis, Coordinate Systems and Operators Coulomb’s Law Gauss’s Law and Applications, Electric Potential, Electric Flux Density, Boundary Conditions for Electrostatic Fields, Capacitance and Capacitors, Electrostatic Energy and Forces, Method of Images, Boundary-Value Problems, The Biot-Savart Law and Applications, Ampere’s Law and Applications, and Magnetic Vector and Scalar Potential.
This module is designed to enable students to focus on the analysis of the Microwave Systems, Waves on an Ideal Transmission Line, Terminated Transmission Lines: Resistive Load, Terminated Transmission Lines: Smith Chart, Impedance Matching, Single-Stub Matching, Quarter-Wave Transformer, Rectangular Waveguides, Circular Waveguides, and Cavity Resonators.
This module focuses on the Fourier analysis of signals, analysis of the continuous wave (CW) modulation techniques (AM, DSB-SC, QAM, SSB, VSB, FM and PM) and their applications, mathematical description and spectral analysis of AM, FM and PM signals.
This module is designed to enable students to understand, design, and analyze electronic circuits that contain Bipolar Junction Transistors(BJT`s) and Field Effect Transistors (FET`s). ItincludestheoperationandanalysisofBJTandFETamplifiersandstudythe frequency response of both. It provides analysis of multistage amplifiers and current sources. It also provides considerable understanding and confidence in Engineering Electronics and develops the intellectual and practical skills necessary for Electronics Engineering area.
This course is designed to enable the students to: analyze and design the electronic circuits that contain diodes, zener diode, bipolar junction transistors and field effect transistors, and design different biasing circuits for transistors.
This module is designed to enable students to understand concepts of dynamic systems that include electrical, mechanical, and hydraulic components. In addition, it introduces automatic control description, modeling, different control design techniques, analyzing the performance of control systems either in open loop or closed loop, transient-response analysis and steady state error analysis, basic control actions, and Lead and Lag compensators. The frequency response methods using polar plot, bode diagram and Nichol chart, the root locus methods, State space analysis of multivariable control systems, and feedback controllers are also presented.
This module is designed to enable students understand the concept of energy conversion, structure and function of power stations, and environmental effects of energy resources. In addition, the principles of magnetic circuits, excitation in single phase transformer, voltage regulation, losses and efficiency, auto-transformation are introduced. It also presents the principles of electromechanical energy conversion, DC generators, DC motors, three phase transformers, polarity, and standard terminal marking, parallel operation, and all-day efficiency. It also addresses the principles of AC machines, Synchronous machine, electro motive force (emf) equivalent circuit, power equation, and distribution of electric power.
This module is designed to enable senior students, who successfully
completed Grad project I, to analyze, design, implement, test, and/or operate the designated model, prototype, or method to satisfy the company sponsor's requirements. Students should
utilize the fundamental principles and skills gained through their academic studies.
This module is designed to enable senior students to perform appropriate research, and apply relevant engineering standards to develop a solution of a problem, or a design of a system. Students may suggest their own projects, or receiving proposals from supervisors or company sponsor.
This is a core module for web programming. The student will learn the client-side aspect of web programming. The topics will cover different client-based techniques and their applications in real world. Emphasis will be made on Mark up and Scripting languages and their use in web applications.
This module introduces an understanding of image processing techniques and familiarizes with
computer vision applications. Practical experience is acquired in the design and
implementation of image processing algorithms.
This module introduces the basic concepts in database system and its architecture. It discusses the different models and different levels of abstractions. Then it introduces the entity-relationship model as a conceptual modelling technique. The main subject of the module is the relational database model, languages and systems.
This
module is an advanced treatment of software development techniques. Here the
student will learn aspects of working with a large team on large projects to
produce quality software products on time and within budget. More specifically, this module also enables
students to acquire the knowledge and skills needed to the sizing, estimation
and planning control of large projects, verification and validation strategies
as well as techniques for rapid system development.
This
module aims to allow the student to analyze and select the optimized algorithm
for different problems. Optimization techniques are classified in two ways,
either in terms of speed (complexity), or in terms of memory usage (volatile or
secondary memory).
This module is designed to enable students to understand and analyze concepts in: the nature of real world systems and its need for microcontrollers; The different types and technologies of microcontrollers and their peripherals(Atmel 8051 and PIC); The techniques used to carry out data acquisition and digital system interface; The operation characteristics of different interfacing types; The standard communication specifications and design techniques; The control of communication interfaces and related peripherals; The Instruction sets and state machines with interrupt timing; the assembly language and its application; The identification of the characteristics and operation of D/A and A/D converters; And the real world applied projects with interfacing practice.
- This module is designed to provide students with Design of Experiments
- Techniques that are effective for studying the factors that may affect a product or process.
- It also provides students with the capability to analyze experimental
results in order to identify the significant factors and evaluate ways to
improve and optimize the design
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- This module is designed to provide senior students with an in-depth understanding of the simulation modeling process. - Topics covered include the fundamental concepts of simulation modeling. - The time advance mechanisms, input data analysis techniques, model validation and verification concepts, designing simulation experiments, and simulation output analysis approaches. - Hands- on exercises to be conducted to develop discrete – event simulation models using the simulation package ARENA with applications from the manufacturing and service sectors. |