The first idea of ethernet.

TE 303 - Intro.to Communication Systems
Credits: 3.00
Introduction to Communication Systems Analog and digital modulation and demodulation theory. Review of probability theory and stochastic processes. Statistical characterization of noise and communication channels. Performance of communication systems in the presence of noise.

TE 304 - Digital Communications
Credits: 3.00
Digital Communications Theory and techniques of modern digital communications. Communication limits; modulation and detection; data transmission over channels with intersymbol interference; optimal and suboptimal sequence detection; equalization. Error correction coding; trellis-coded modulation; multiple access. 

TE 404 - Multimedia Communication
Credits: 3.00
Multimedia Communication Data transmission and encoding. Error detection techniques. Automatic repeat request (ARQ) protocols. Medium access control techniques: Aloha, CSMA/CD, GSM, Token Ring, FDDI, Network control stability. High-speed gigabit networks. ATM. Performance evaluation and monitoring M/M/1 Queues and networks of Queues.
College: Faculty of Eng. & Natural Sci.
Restrictions:
Must be enrolled in one of the following Level(s):
Undergraduate
Co-requisites: TE 404R
Pre-requisites/Mecburi Oncelikli Ders: CS 201 Minimum Grade/En Az Not: D

TE 404R - Multimedia Communication Rec.
Credits: .00
Multimedia Communication - Recitation
College: Faculty of Eng. & Natural Sci.
Restrictions:
Must be enrolled in one of the following Level(s):
Undergraduate
Co-requisites: TE 404

EE 550 - Random Signals
Credits: 3.00
Random Signals Random processes and sequences, stationarity and ergodicity properties of auto- and cross-correlation functions, white noise, power spectral density and spectral estimation simulation of random processes, whitening, linear and non-linear estimation, and Wiener filtering.
Restrictions:
Must be enrolled in one of the following Level(s):
Doctorate
Masters

EE 554 - Networking-Theo.&Fundamentals
Credits: 3.00
Networking - Theory and Fundamentals The course introduces analytical models and methodologies for modern networking, with focus on congestion control and routing. Topics from queueing theory, optimization, graph theory, distributed and asynchronous algorithms and their application to networking will be studied.
College: Faculty of Eng. & Natural Sci.
Restrictions:
Must be enrolled in one of the following Level(s):
Doctorate
Masters

EE 555 - Wireless and Mobile Networks
Credits: 3.00
Principles of air interface design, enabling technologies with examples on FDMA, TDMA, CDMA, FDD and TDD, wireless medium access alternatives, wireless network planning and cellular design, mobility management, wireless wide area networks, including first and second-generation mobile systems and associated networks (AMPS, ETACS, GSM, IS-54,IS-95), third generation wireless networks (W-CDMA), wireless local area networks and standards including IEEE 802.11and HIPERLAN, wireless ad hoc networks, wireless ATM
College: Faculty of Eng. & Natural Sci.
Restrictions:
Must be enrolled in one of the following Level(s):
Doctorate
Masters

EE 557 - Adv.Digital Comm.Systems
Credits: 3.00
Advanced Digital Communication Systems Advanced modulation techniques, intersymbol interference, maximum-likelihood sequence detection including Viterbi algorithm with applications to symbol-by-symbol equalization, finite-tap equalizers, and adaptive equalizers Advanced equalization techniques, carrier and timing recovery.