Please
Remember: Here
you have the option to choose between the Master of Science (M Sc)
in either Electrical or Electronic Engineering. Both degrees have
three compulsory courses. You must then select one course from Optional
Course Section 1 and one course from Optional Course Section 2, regardless
of which degree you want to study.
If
you want to study the M Sc in Electronic Engineering, you must
choose
one course from Optional Course Section 3A
(listed below).
If
you want to study the M Sc in Electrical Engineering, you must
choose one course from Optional Course Section 3B (listed below).
1. Compulsory
Course Section
IMST01 - Advanced Mathematics
Review
of fundamental concepts
Ordinary differential equations
Linear differential equations
Laplace transforms
Vector analysis
Multiple, line and surface integrals and integral theorems
Fourier series
Fourier integrals
Gamma, Beta and other special functions
Bessel functions
Legendre functions and other orthogonal functions
Complex variables and conformal mapping
Complex inversion formula for Laplace transforms
Matrices
Calculus of variations
1ELE20 - Advanced Modern Control
Linear control-system compensation
Modern control-system design using state-space, pole placement
Ackermann's formula
Estimation
Robust control
Digital control-system analysis and design
Nonlinear control-system design
Introduction to optimal control theory and its applications
Control-system design - case studies
References
1ELE21 - Simulation of Industrial Processes and Control
Introduction to engineering design and decision making
Design options
Fundamentals of probability theory
Monte Carlo modeling
Optimization
Engineering Microeconomics
Utility theory
Forecasting
Engineering systems modeling
Analysis of systems reliability
Cost and benefit analysis
Methods of decision analysis
State transition matrix models
Modeling the research and development process
Information
System life-cycle modeling and optimization
Game theory
Management of engineering systems design and operation
Case studies
References
2. Optional Course Section 1
Select one course from -
1ELE22
- Electronic Devices and Process simulation
Modeling
and simulation
The circuit equations
Transistors and semiconductors
Numerical integration of circuit ODEs
Ion implantation
Single species diffusion
Multiple species diffusion
Integrating reaction-diffusion systems
Technology computer aided design
References
1ELE23
- Solid State Device Failure Mechanics
Reliability
mathematics
Principal failure mechanics
Failures in technologies and circuits
Reliability testing
Reliability prediction
Screening
Failure analysis
Quality assurance
References
1ELE24
- Linear State Space Systems
Feedback
control
State-space representation of dynamic systems
Dynamics of linear systems
Frequency-domain analysis
Controllability and observability
Shaping the dynamic response
Linear observers
Compensator design by the separation principle
Linear, quadratic optimum control
Random processors
Kalman filters - optimum observers
References
1ELE25
- Control System Technology and Automation
Introduction
Takagi-Sugeno fuzzy model and parallel distributed compensation
LMI control performance conditions and designs
Fuzzy observer design
Optimal fuzzy control
Robust fuzzy control
Robust-optimal fuzzy control
Trajectory control of a vehicle with multiple trailers
Fuzzy modeling and control of chaotic systems
Fuzzy descriptor systems and control
Nonlinear following control
New stability conditions and dynamic feedback designs
Multi objective control via dynamic feedback design
T-S fuzzy model as universal approximator
Fuzzy control of nonlinear time-delay systems
References.
3.
Optional Course Section 2
Select one course from -
1ELE26
- Satellite Communication
Overview
of satellite systems
Orbits and launching methods
The geo-stationary orbit
Radio wave propagation
Polarization
Antennas
The space segment
The earth segment
Analog signals
Digital signals
Error control coding
The space link
Interference
Satellite access
Satellite services and the Internet
Direct broadcast satellite services
Satellite services
1ELE27
- Radio Antenna Technology
Antennas
Fundamental parameters of antennas
Radiation integrals and auxiliary potential functions
Linear wire antennas
Loop antennas
Arrays - linear, planar and circular
Antenna synthesis and continuous sources
Integral equations, moment method and self and mutual impedances
Broadband dipoles and matching techniques
Traveling wave and broadband antennas
Frequency independent antennas and antenna miniaturization
Aperture antennas
Horn antennas
Micro-strip antennas
Reflector antennas
Antenna measurements
1ELE28
- Radio Networks, Planning and Optimization
Introduction
WCDMS for UMTS
WCDMA radio network planning
Radio resource utilization
WCDMAGSM co-planning issues
Cell development
Coverage capacity enhancement methods
Radio network optimization
UMTS quality of service
RAN autotuning and advanced technologies
References
1ELE29
- Cellular Communication Systems
Introduction
Radio network planning and optimization
Transmission network planning and optimization
Core network planning and optimization
GPRS - network planning and optimization
EDGE - network planning and optimization
3G radio network planning and optimization
3G transmission network planning and optimization
3G Core network planning and optimization
4G network planning
Integrated network planning
MMS network planning
Location-based services
End-to-end system performance measurement
References
4.
Optional Course Section 3A (Electronic Engineering)
Select one course from -
1ELE30
- Advanced Computer Architecture Design
Digital logic
Integrated circuits and logic families
Basic computer architecture
Memory
Serial communications
Basic microprocessors and microprocessor elements
Advanced microprocessor concepts
High-performance memory technologies
Networking
Logic design and logic devices
Programmable logic devices
Clock distribution
Voltage regulation in practice
Signal integrity
Designing for success
1ELE31 - Advanced Digital Logic Design
Structured design concepts
Design tools
Basic features of VHDL
Lexical description character set
Basic VHDL modeling techniques
Algorithmic level design
Register level design
Gate level and ASIC library modeling
HDL-based design techniques
ASICs and the ASIC design process
Modeling for Synthesis
Integration of VHDL into top-down design methodology
References
1ELE32 - Synthesis and Optimization of Digital Circuits
Introduction
Background
Hardware modeling
Architectural synthesis
Scheduling algorithms
Resource sharing and binding
Two-level computational logic optimization
Multi-level computational logic optimization
Sequential logic optimization
Cell-library binding
State-of-the-art and future trends
References
5.
Optional Course Section 3B (Electrical Power Engineering)
Select one course from -
1ELE33 - Analysis of Multi-conductor Transmission
Lines
The
multi-conductor transmission line equations
The per-unit length parameters
Frequency-domain analysis
Time-domain analysis
Literal (symbolic) solutions for three-conductor lines
Incident-field excitation of the line
Transmission-line networks
References
1ELE34 - Analysis of Electrical Machinery
Basic principles of electric machine analysis
Theory of direct-current machines
Reference-frame theory
Theory of symmetrical induction machines
Theory of synchronous machines
Operational impedance's and time constants of synchronous machines
Linearized equations of induction and synchronous machines
Reduced-order equations of induction and synchronous machines
Unbalanced operation of symmetrical induction machines
Asynchronous and unbalanced operation of synchronous machines
Theory of symmetrical and unsymmetrical two-phase induction machines
Computer simulation of induction and synchronous machines
Reference-frame theory used in the analysis and simulation of power
and electric drives
Theory of brushless DC machines
References
1ELE35 - Analysis of Faulted Power Systems
General considerations
Symmetrical components
Analysis of unsymmetrical faults - three-component method
Sequence impedance of transmission lines
Sequence capacitance of transmission lines
Sequence impedance of machines
Sequence impedance of transformers
Changes in symmetry
Simultaneous simplifications
Computer solution methods using the admittance matrix
Computer solution methods using the impedance matrix
References
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