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GRADUATE
PROGRAMS IN ELECTRICAL AND ELECTRONICS ENGINEERING
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Head of Department: Bulent Sankur
Professors: Emin Anarim, M. Levent Arslan, Isil Bozma, Omer Cerid, Oguzhan Cicekoglu, Kemal Ciliz, Hakan Delic, Gunhan Dundar, Okan Kadri Ersoy·, Aysin Ertuzun, Yasemin Kahya, Okyay Kaynak, Avni Morgul*, Kadri Ozcaldiran, Bulent Sankur, Selim Seker, Sabih Tansal†
Associate Professors: Burak Acar, Mehmet Akar, Yagmur Denizhan, Mehmet Kivanc Mihcak
Assistant Professors: Mutlu Koca, Murat Saraclar, Senol Mutlu, Arda Deniz Yalcinkaya, Heba Mohamed Yuksel
Instructors: Dr. Barhan Ozce*, Dr. Faik Baskaya*, Dr. Ali Emre Pusane*
*Part-time
•Adjunct
† Professor Emeritus
MASTER OF SCIENCE PROGRAM
The M.S. Program in Electrical and Electronic Engineering comprises a minimum of 24 credits of course work and a thesis. The total number of credits is composed of at least 12 credits of option courses, and 12 credits of elective courses. Option courses are chosen, with the approval of the student's advisor, from among the courses related to one of the following three options: Electronics, Control Systems, Information and Information and Communication.
Elective courses may be chosen from among the graduate courses offered in Electrical and Electronic Engineering and from the courses offered by the Institute for Graduate Studies in Science and Engineering, subject to the approval of the student's advisor.
DOCTOR OF PHILOSOPHY PROGRAM
The Ph.D. Program in Electrical and Electronic Engineering is composed of a minimum number of 24 credits of course work, chosen under the supervision of an advisor from among the option courses in Electrical and Electronic Engineering and from the courses offered by the Institute, and a dissertation carried out according to the regulations of the Institute.
COURSE DESCRIPTIONS
EE 512 Solid State D.C. Drives (Kati Hal D.C. Suruculeri)
(3+0+0) 3
Evolution of D.C. drives. Analysis and performance characteristics of
single-phase, three-phase and chopper-fed D.C. drives. Reversible drives.
Discontinuous current operation. Regenerative braking. Dual converters.
Closed-loop control. Analysis and design of controller structures. Phase
locked loop control. Microprocessor based drive control systems. Applications.
Prerequisite: Consent of the instructor.
EE 531 Television Engineering (Televizyon Muhendisligi) (3+0+0)
3
Principles of picture transmission. Color fundamentals. Camera tubes.
Color television systems. Video signal. Carrier transmission of the video
signal. Video recording. Television studio equipment. Transmitters and
receivers.
EE 535 Introduction to Microelectromechanical Systems (3 +0+0) 3
(Mikroelektromekanik Sistemlere Giris)
Introduction to MicroElectroMechanical Systems (MEMS) and to the fundamentals of micromachining and microfabrication techniques, planar thin-film processes, photolithography, deposition and etching techniques for MEMS fabrication. Multi-domain analysis of sensing and transduction mechanisms, capacitive and piezoresistive techniques, and design and analysis of micromachined sensors and actuators. Review of pressure sensors, accelerometers, gyroscopes and resonators and their applications.
EE 536 Applications of Microelectromechanical Systems (3+0+0) 3
(Mikroelektromekanik Sistemlerin Uygulamalari)
Fabrication tools and techniques: Wafer cleaning, oxidation, LOCOS, doping thin film deposition, metallization, wafer bonding, lithography, design rules, masks, wet/dry etching, surface micromachining, bulk micromachining. Actuation/detection techniques: electromagnetic, electrostatic, piezoelectric and thermal techniques. MEMS Applications: MOEMS-Microscanners for display applications, Nanotweezers and Nanogrippers, Radio frequency MEMS and CMOS-MEMS integration.
EE 537 Introduction to VLSI Design (3+0+0) 3
(Cok Genis Capli Tumlesik Devre Tasarimina Giris)
Electronic characteristics of logic gates. Fabrication processes for MOS
technology. Layout design rules and examples. Electronic characteristics
based on geometry. Design verification, Schematic capture, analog/digital
simulation. CMOS digital circuits: pads, super buffers, CMOS switch logic.
Student term project.
EE 540 Advanced Digital Design (İleri Sayısal Tasarım) (3 +0+0) 3
Very high speed integrated circuits Hardware Description Language (VHDL) for the design, specification, simulation, and synthesis of digital systems and their implementation on Field Programmable Gate Arrays (FPGAs). Design of complete digital systems from concept through simulation, synthesis and test. Structural, dataflow and behavioral styles of VHDL to describe digital component architecture. Final designs implemented and tested on FPGAs.
EE 541 Computer Communication Networks I (3+0+0) 3
(ECTS: 7)
(Bilgisayar Iletisim Aglari I)
Theory and practice of computer communication networks. The layered approach
and International Standardization Organization (ISO) Open Systems Interconnection
Reference Model (OSI/RM) principles. Physical communication media. Data
link layer and reliability of logical links. Multiplexing, switching,
and multiple access methods. Network layer routing via X.25 and Internet
Protocol (IP); congestion control. Transport protocols: Transmission Control
Protocol/Internet Protocol (TCP/IP). Local area networks and performance
analysis.
EE 542: Computer Communication Networks II (3+0+0)
3 (ECTS: 6)
(Bilgisayar Iletisim Aglari II)
Advanced data transport and switching concepts. Asynchronous Transfer
Mode (ATM) principles. Optical networking. High speed switching. Performance
issues: queuing theory and delay models in computer networks. Elements
of the presentation layer. Application protocols: message handling systems,
database applications, network management, World Wide Web (WWW), multimedia.
Prerequisite: EE 541 or equivalent.
EE 544 Data Compression (Veri Sikistirma) (3+0+0)
3
Lossles and lossy compression techniques and their mathematical basis.
Huffman coding, arithmetic coding, various dictionary coding techniques
including the Lempel-Ziv techniques; scalar and vector quantization, differential
encoding, transform coding, and subband coding.
Prerequisites: Consent of the instructor, EE 577.
EE 545 Wireless Networks and Mobile Systems I (3+0+0)
3 (ECTS: 7)
(Telsiz Aglar ve Gezgin Sistemler I )
Characteristics and operations of wireless networks: Institute of Electrical
and Electronics Engineers (IEEE) 802.11 and Bluetooth wireless area networks.
Mobile Internet Protocol (IP) and mobile ad hoc routing protocol. Middleware
application program interfaces (APIs) to realize mobile applications.
Basic functionality provided by middleware for peer to peer (P2P) computing.
Design, implementation and testing of mobile applications.
Prerequisite: EE 541 or equivalent.
EE 546: Wireless Networks and Mobile Systems II (3+0+0)
3 (ECTS: 6)
(Telsiz Aglar ve Gezgin Sistemler II)
Routing protocols in mobile ad hoc networks mobile Internet Protocol (IP)
principles. Operation of IP Dynamic Host Configuration Protocol (DHCP).
Networks Address Translation (NAT). Principles of security engineering:
cryptography, vulnerability, confidentiality, integrity, modification,
Public Key Encryption (PKE). The security of Institute of Electrical and
Electronics Engineers (IEEE) 802.11 (WEP).
Prerequisites: EE 545 or equivalent
EE 548 Wireless Communication Applications (1+0+4)
3 (ECTS: 6)
(Telsiz Iletisim Uygulamalari )
Wireless communication and networking applications: Wireless Local Area
Networks (WLAN), wireless web access, peer-to-peer communications, Bluetooth,
Mobile Ad hoc Networks (MANET), Mobile Internet Protocol (IP) and Dynamic
Host Configuration Protocol (DHCP).
Prerequisites: EE 545 or equivalent.
EE 550 Artificial Neural Networks (Yapay Sinir Aglari) (3+0+0) 3
Principles of Neural Computing. Architectural analysis of different neural
network models (Hopfield model, Single Perceptron, Multilayer Perceptron
etc.). Learning algorithms. Back propagation algorithm and local minima
problem. Dynamics of recurrent neural networks. Applications of neural
networks for control systems, system identification, associative memories,
optimization problem etc. Computer simulation homeworks and final project.
EE 551 Robust Control (Dayanikli Denetim) (3+0+0) 3
Norms for signals and systems. Internal stability. Youla parametrization
of all internally stabilizing compensators. Additive and multiplicative
plant uncertainty. Robust stability and robust performance against plant
uncertainties. Solution of the robust performance problem via loopshaping.
Pick-Nevanlinna Interpolation Problem and its application to model matching.
Modified robust performance problem (mixed sensitivity problem): Solution
via spectral factorization and model matching. Phase and gain margin optimization.
EE 552 Digital Control (Sayisal Denetim) (3+0+0) 3
Introduction to digital control of analogue systems. Sampling, quantizing
and coding. The z-transformation and its properties, the inverse z-transformation.
Discretization techniques, discrete-time equivalence of continuous-time
systemsand filters. Transient and steady-state analysis of discrete-time
systems, stability analysis. Design of digital controllers based on root
locus methods and frequency response methods. State-space analysis of
discrete-time system and controller design by pole-placement. Introduction
to discrete-time optimal control design.
Prerequisite: Consent of the instructor.
EE 562 Microwaves (Mikro Dalgalar) (3+0+0) 3
Microwave transmission, transmission lines and waveguides. Microwave circuits.
Scattering parameters. Microwave resonators. Microwave using ferrites.
Generation and amplification of microwaves. Klystrons, magnetrons, traveling
wave tubes. Semiconductors in microwaves.
EE 570 Spectral Estimation (Spektral Kestirim ) ((3+0+0)
3 (ECTS: 7)
Spectral estimation problem. Nonparametric techniques: periodogram and
correlogram methods; asymptotic properties; statistical analysis; windowed
spectrum methods. Parametric methods for rational spectra: Auto Regressive
(AR), Moving Average (MA) and Auto Regressive Moving Average (ARMA) models;
Yule-Walker equations and least-squares methods; Levinson-Durbin algorithm;
Prony's method. Parametric methods for line spectra; non-linear least
squares; higher order Yule-Walker; methods based on eigen-decomposition;
Multiple Signal Classification (MUSIC), Pisarenko, Estimation of Signal
Parameters via Rotational Invariance Techniques (ESPRIT).
EE 572 Mathematical Methods for Signal Processing
(3+0+0) 3 (ECTS: 7)
(Isaret Islemede Matematiksel Yontemler)
Metric spaces, normed vector spaces, basis sets. The four subspaces of
the linear transforms. Approximation in Hilbert spaces: least squares
filtering and estimation, linear regression, polynomial approximation,
minimum norm solutions and system identification. Matrix factorization,
eigenvectors, singular value decomposition, iterative matrix inverses,
pseudoinverse. Theory of constrained optimization and dynamic programming.
EE 573 Pattern Recognition (Oruntu Tanima ) (3+0+0)
3 (ECTS: 6)
Overview of learning and statistical decision theory. Model inference
and parameter estimation. Linear models for regression and classification.
Kernel methods. Nonparametric methods. Model assessment and selection.
Ensemble methods. Unsupervised learning.
EE 574 Image Analysis (Imge Cozumlemesi ) (3+0+0) 3 (ECTS: 7)
Image spaces. Variational optimization, variational image processing:
restoration and denoising. Curves: representations, characterizations
and evolution. Medial axis transform. Surfaces: representations, characterizations
and evolution. Interface propagation techniques. Statistical image analysis:
Principal Component Analysis (PCA), Independent Component Analysis (ICA).
EE 575 Multiresolution Signal Processing (3+0+0) 3
(Coklu-Cozunurlu Sinyal Isleme)
Time-frequency signal decomposition. Block transforms, subband filters,
wavelet decomposition. Orthogonality, transform efficiency, coding gain
performance. Wavelet transform: regularity, 2-channel filterbanks, wavelet
families. DCT, Lapped Orthogonal Transforms, other transforms. Parametric
modeling of signal sources.
EE 576 Machine Vision (Yapay Gorme) (3+0+0) 3
Extraction of low-level features, boundary and region based analysis,
segmentation and grouping, lightness and color, shape from shading. Photometric
and binocular stereo, optical flow and motion estimation, strongly-modeled
vision, weakly-modeled vision recognition, integration and vision systems,
real-time vision.
Prerequisite: Consent of the instructor.
EE 577 Statistical Signal Analysis (3+1+0) 3 (ECTS:
7)
(Istatistiksel Sinyal Cozumlemesi )
Characteristics of random processes. Correlation function and power
spectral density of stationary processes. Noise mechanisms, the Gaussian
and Poisson processes. Statistical estimation theory, linear mean square
filtering, optimum Wiener and Kalman filtering. Signal detection theory
and statistical significance tests.
Prerequisites: Consent of the instructor
EE 578 Speech Processing (Konusma Isleme) (3+0+0)
3 (ECTS: 7)
Speech production theory, acoustic tube model, linear prediction model,
cepstrum analysis, homomorphic speech processing, vector quantization
and speech coding, speech enhancement, text-to-speech synthesis, hidden
Markov models and their application to speech recognition.
EE 579 Graduate Seminar (Lisansustu Seminer) (0+1+0)
0 Pass/Fail
The widening of students' perspectives and awareness of topics of interest
to electrical and electronic engineers through seminars offered by faculty,
guest speakers and graduate students.
EE 580-589 Special Topics (Ozel Konular) (3+0+0) 3
In depth study of a special topic in the area of Communication, Control
or Electronics.
EE 590-599 Selected Topics (Secilmis Konular) (3+0+0) 3
In depth study of a selected topic in the area of Communication, Control
or Electronics.
EE 621 Network Synthesis (Devre Sentezi) (3+0+0) 3
Loop and node equations in s-domain, state equations, Tellegen's theorem,
positive definite quadratic forms. Synthesis of emmitance functions and
of transfer functions: 'z', 'y' parameters, zeroes of transmission. Active
network synthesis, some classical network configurations, signal flow
graph techniques. Filter characteristics and approximation techniques.
Sensitivity and tolerance considerations.
EE 628 Game Theory (Oyun Kurami) (3+0+0) 3
Introduction to game theory in matrix and extensive forms of optimal strategies.
Discrete and continuous zero-sum games. Games of kind and games of degree.
Pontryagin's theory for linear pursuit problems. Imperfect information.
Markov games. Nonzero sum and many players' games
EE 631 Advanced Electronic Circuits (Ileri Elektronik Devreler) (3+0+0)
3
Pulse transformers, transmission lines. Broadband amplifier analysis and
design. Sweep generation. Synchronization. Negative resistance devices.
Parametric amplifiers. Sampling gates.
EE 632 System Design with Microelectronic Devices (3+0+0) 3
(Tumdevrelerle Sistem Tasarimi)
Classification of linear and digital integrated circuits. Digital system
design; logic circuits, dividers, counters and memories, digital communication
circuits. Linear system design; radio-TV circuits, power amplifiers, linear
communications circuits. Hybrid systems; SAW and digital filters. Microprocessor
based intelligent systems.
EE 633 Computational Aspects of VLSI (3+0+0) 3
(Cok Genis Capli Tumlesim Algoritmalari)
Analog circuit simulation, digital circuit simulation and switch level
simulation techniques. Physical design of VLSI circuits. Floorphamming,
placement, channel routing, global routing, and performance driven routing.
Silicon assembly. Silicon compilation for digital VLSI, silicon compilation
for analog VLSI.
EE 634 Integrated Electronics (Tumlesik Elektronik) (3+0+0) 3
Types of integrated circuits, physical process employed in the design
of integrated circuits, impurity diffusion and diffusion junction properties,
oxidation and surface statesthin film deposition and properties; epitaxial
growth; passive and active components for integrated electronics; integrated
circuit design principles.
EE 635 Theory of Electron Devices (Elektronik Aygitlar
Kurami) (3+0+0) 3
Photo conductivity, photo-emission, light amplification, metal semiconductor
diodes, field effect devices, special effects in semiconductors, properties
of dielectric materials and magnetic materials.
EE 637 Integrated Circuit Design (Tumdevre Tasarimi) (3+0+0) 3
Introduction to device physics, A.C. and D.C. models for integrated circuit
transistors, biasing techniques, current and voltage sources and references,
design principles for analog circuits such as operational amplifiers,
voltage regulators, multipliers. Design principles for digital circuits
such as DTL's, ECL's and TTL's.
EE 638 Advanced VLSI Design (3+0+0) 3
(Ileri Cok Genis Capli Tumlesik Devre Ileri Tasarim
Teknikleri)
Dynamic circuits: clocked static logic, charge leakage, storage and sharing.
Dynamic logic: Domino, MODL, LDL, NORA and Zipper CMOS logic. Electronic
design automation (EDA). Chip design options: Programmable logic, programmable
gate arrays, sea-of-gates and standard cell design. CMOS subsystem design.
Testing and design for testability. Student term project.
EE 639 Current Mode Circuits (Akım Modlu Devreler) (3+0+0) 3
Current conveyors, current feedback operational amplifiers and other current mode building blocks. Voltage-mode to current-mode conversion. Translinear circuits. Nullor concept. Current-mode analog filter design. Log-domain circuits. Externally linear, internally non-linear circuits.
EE 640 Microprocessor System Design (3+0+0) 3
(Mikroislemcili Sistem Tasarimi)
Design of dedicated purpose microprocessor systems used in electronic
instrumentation, control and communications. Design of medium to large
size microprocessor systems. Multi-processor system design.
EE 643 Digital Communication (Sayisal Iletisim) (3+0+0)
3 (ECTS: 6)
Signal spaces and system analysis in digital communication. Characterization
of communication channels and modulation methods under the constraints
of both noise and finite bandwidth. Linear and nonlinear signaling techniques
under additive white Gaussian noise. Basic equalization techniques. Adaptive
equalization. Multichannel and multicarrier systems. Spread spectrum techniques
and multiuser communications.
Prerequisite: Consent of the instructor.
EE 644 Error Control Coding (Hata Denetim Kodlari) (3+0+0) 3
Introduction to algebra and Galois fields. Various error control coding
techniques including linear block codes, cyclic codes, BCH and Reed-Solomon
codes, convolution codes. Viterbi algorithm. Trellis coded modulation.
Prerequisite: Consent of the instructor.
EE 650 H - Optimal Control (H - Eniyi Denetim) (3+0+0) 3
Definitions of L2, L , H2 and H spaces, Background on linear operators.
Nehari Problem. Co-prime factorizations over H , parametrization of internally
stabilizing compensators and reduction of the H - Optimal Control Problem
to a model matching problem. Solution of the one-sided model matching
problem via Nehari Theorem for SISO systems. Canonical inner-outer, spectral
and J-spectral factorizations for MIMO systems. Krein spaces and solution
of the two-sided model matching problem via Nehari Theorem. State, space
solution of the H - Optimal Control Problem: central controller and parametrization
of all H - Optimal controllers.
EE 652 Adaptive Control (Uyarlanir Denetim) (3+0+0) 3
Overview of basic approaches and alternatives to adaptive control; review
of deterministic and stochastic signal and system models; real time parameter
estimation using recursive least squares and its derivatives, persistent
excitation, covariance management estimation under feedback; model reference
adaptive systems, MIT rule, hyperstability approach; self-tuning regulators.
Direct and indirect methods, minimum variance, linear quadratic and generalized
predictive control strategies, convergence analysis using ODE method.
Prerequisite: Consent of the instructor.
EE 653 Optimal Control Theory (Eniyi Denetim Kurami) (3+0+0) 3
Calculus of variations in system optimization. Two point boundary value
problems. Optimal control function and optimal control law. Dynamic programming.
Pontryagin's Minimum Principle: minimum time, minimum fuel, minimum energy
problems. Optimal control design with quadratic criteria. Regulation and
tracking problems. Singular control problems.
Prerequisite: Consent of the instructor.
EE 655 Stochastic Systems and Control (Rasgele Sistemler ve Denetimi)
(3+0+0) 3
Modeling and analysis of discrete time and continuous time uncertain linear
dynamic systems. Estimation problems: Bayesian, Fisher and Weighted Least
Square estimation. Optimal prediction, filtering and smoothing. Kalman
filtering. Wiener-Hopf theory. Stochastic optimal control.
Prerequisite: Consent of the instructor.
EE 656 Analysis of Nonlinear Control Systems (3+0+0) 3
(Dogrusal Olmayan Denetim Sistemleri)
Solution of nonlinear control problems, phase-plane, describing function,
relay servomechanisms. Optimum and quasi-optimum relay servos. Nonlinear
compensation techniques. Self-adaptive control systems. Analog simulation.
EE 657 Robotics (Robot Sistemleri) (3+0+0) 3
Industrial automation. Manipulator and sensor technology. Review of kinematics
and Lagrangian dynamics. Joint-space/work-space transformations and data
structures. Point to point continuous path control. Robot control: command
languages, navigation and mapping, optical and acoustic ranging and pattern
recognition, collision avoidance algorithms, positioning accuracy, resolution
and repeatability. Distribution of intelligence. Adaptive hierarchical
control.
EE 658 Computer Control Techniques (Bilgisayarla Denetim Teknikleri)
(3+0+0) 3
Design and implementation of digital controllers; disturbance models,
pole placement design based on I/O models, optimal design based on state-space
approach; self tuning control; predictive control. Simulation studies
using CAD tools.
EE 662 Electromagnetic Wave Propagation (3+0+0) 3
(Elektromanyetik Dalga Yayilimi)
Hertz potential. Plane waves in different media. Spectral representation
of elementary sources. Field of a dipole in a stratified medium. Ground
wave and ionospheric propagation. Scattering and absorption of a wave
by a single particle.
EE 664 Antenna Theory (Antenler Kurami) (3+0+0) 3
Radiation from a current distribution and a field distribution. Calculation
of far field. Elementary dipole. Thin linear antennas, near and far fields.
Impedance of antennas, self and mutual impedance. Directional properties
of antennas, antenna arrays. Receiving antennas. Radiation from aperture,
horns, reflectors and lenses. Special types of antennas.
EE 670 Adaptive Filter Theory (Uyarlamali Suzgec Kurami)
(3+0+0) 3
Study of the mathematical theory of various realizations of linear filters.
Detailed study of linear optimum filtering, namely Wiener filtering, linear
prediction, and Kalman filtering. FIR structures versus lattice filter
structures. Method of least squares, comparative study of steepest descent,
least-mean sequare (LMS) and recursive least squares (RLS) filter design
algorithms.
EE 671 Information Theory (Bilisim Kurami) (3+0+0) 3
Information measures, characterization of information sources, coding
for discrete sources. Discrete channel characterization, channel capacity.
Introduction to waveform channels and rate distortion theory.
EE 673 Radar and Sonar Systems (Radar ve Sonar Sistemleri) (3+0+0)
3
Microwave propagation. CW, FM, MTI doppler and tracking radar. Radar transmitters
and receivers and antennas. Underwater sound propagation. Sonar transmitter
and receivers. Transducers. Array processing. Detection and processing
of radar and sonar signals.
EE 675 Waves in Random Media (Rasgele Ortamlarda Dalgalar) (3+0+0)
3
The random medium and its statistical properties. The random field as
a set or spectrum of plane waves. The mean field, power, field coherence,
and the angular spectrum. Intensity fluctuations of the wave field. Single
and multiple scattering theory of waves in stationary scatterers. Dyadic
permittivity of the medium.
EE 676 Remote Sensing (Uzaktan Algilama) (3+0+0) 3
Basic operation and applications of radar. Antenna system in microwave
remote sensing. Radiometry. Microwave interaction with atmospheric constituents.
Radiometer systems. Active microwave sensing of land.
EE 677 Detection and Estimation Theory (Sezim ve Kestirim Kurami) (3+0+0)
3
Classical statistical decision theory, decision criteria and composite
hypothesis tests. Receiver operating characteristics and error probability,
applications to radar and communications. Detection of signals with unknown
and random parameters, detection of stochastic signals, nonparametric
detection techniques. Introduction to signal design, ambiguity function,
the uncertainty principle. Application to radar and sonar systems.
Prerequisite: EE 577.
EE 679 Pattern Recognition (Oruntu Tanima) (3+0+0)
3
Introduction to normative and generative theories of pattern recognition.
Algebraic characterization of patterns. Techniques of statistical classification.
Feature choice, feature extraction. Linear discrimination and adaptive
learning. Syntactic properties of conventional symbol systems.
EE 680-689 Special Topics (Ozel Konular) (3+0+0) 3
Study of the latest and current developments in the field of Electrical
Engineering.
EE 690 M.S. Thesis (Yuksek Lisans Tezi)
EE 691-694 Seminar (Seminer) (3+0+0) 3
Presentation and study of current research topics in computers, systems,
communications, control, solid state.
EE 695-698 Special Topics (Ozel Konular) (3+0+0) 3
Study of the latest and current developments in the field of Electrical
Engineering.
EE 699 Guided Research (Yonlendirilmis Arastirmalar) (2+0+4)
4
Research in the field of Electrical and Electronics Engineering, by arrangement
with members of the faculty; guidance of doctoral students towards the
preparation and presentation of a research proposal.
EE 790 Ph.D. Thesis (Doktora Tezi)
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Contact
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Bogazici University 34342 Bebek, Istanbul Tel: 0212 359 54 00 |