Science Degrees Online

Systèmes de communications / Communication Systems
ADM6270 SYSTEMS FOR ELECTRONIC COMMERCE

ADM6271 BUSINESS TELECOMMUNICATIONS SYSTEMS (1.5cr.)
Concepts of voice, data, image and video communications and their integration into local and long distance networks. Business communication systems examples.

CSI5169 (COMP 5304) WIRELESS NETWORKS AND MOBILE COMPUTING (3cr.)
Computational aspects and applications of design and analysis of mobile and wireless networking. Topics include Physical, Link Layer,Media Access Control, Wireless, Mobile LANs (Local Area Networks), Ad-Hoc, Sensor Networks, Power Consumption optimization, Routing, Searching, Service Discovery, Clustering, Multicasting, Localization,Mobile IP/TCP (Internet Protocol/Transmission Control Protocol) , File Systems, Mobility Models,Wireless Applications. (Cannot be combined for credit with ELG 6168)

CSI5171 (COMP 5303) NETWORK ARCHITECTURES, SERVICES, PROTOCOLS AND STANDARDS (3cr.)
Contemporary network architectures and protocols, with special consideration of telephony and mobility standards. Wireline and wireless network evolution. Telephony features and the feature interaction problem. Intelligent network architecture. Cellular networks and personal communications systems. Seamless network architectures. Mobile data communications. The Open Distributed Processing Reference model and derived architectures. Discussion of sample current architectures and issues, such as General System for Mobile Communication, IEA/TIA 41, Wireless Intelligent Networks, International Mobile Telephony 2000, migration towards the Internet. Prerequisites: No prerequisites except the general maturity and knowledge of data communications principles that should have been acquired by Computer Engineering and Computer Science graduates.

CSI5174 (COMP 5604) VALIDATION METHODS FOR DISTRIBUTED SYSTEMS (3cr.)
Review of formal specification and description techniques for distributed and open systems. Verification techniques. Correctness proofs. Verification of general properties of distributed systems. Analysis and relief stragegies. Testing techniques. Test generation strategies. Test architectures.

ELG5103 OPTICAL COMMUNICATIONS SYSTEMS (3cr.)
Optical communication system concepts and basic characteristics. Optical Transmitters. Optical detection. Optical noise sources and their mathematical models. Non-coherent (direct) detection: system model, direct detection of intensity modulation, application of photo-multiplication, optimal post-detection processing, and subcarrier systems. Coherent detection: heterodyne receivers, the field matching problem and receiver performance. Optical binary digital system, single-mode binary and heterodyne binary systems. Block coded digital optical communication systems: PPM, PAM, PSK, and FSK signalling. Integration of device technology and system architecture. Selected topics in optical communications and networking. Prerequisites: ELG 5119, and ELG 5375 or the equivalents.

ELG5119 (EACJ 5109) STOCHASTIC PROCESSES (3cr.)
Probability. Random variables. Distribution and density functions. Expectation. Functions of random variables. Moments and characteristic functions. Random vectors. Sequences of random variables and convergence. Limit theorems. Stochastic processes: basic notions. Stationarity. Ergodicity. Poisson and Gaussian processes.Second order processes. Representation theorems. Markov processes and chains. Precludes additional credit for SYSC 5503 (ELG 6153).

ELG5122 (EACJ 5202) MODELLING, ANALYSIS AND PERFORMANCE EVALUATION IN COMPUTER COMMUNICATIONS (3cr.)
Network performance issues and their mathematical analysis techniques. Intermittently available server model, probing and tree search, delay cycle, switch/network topology and reliability. Analysis of controlled and random access methods, routing allocation/ control, topological design. Selected topics from current literature on various network applications. Precludes additional credit for ELG 7186 (EACJ 5606). Prerequisites: ELG 5120 (EACJ 5200), ELG 5374 (EACJ 5607), or SYSC 5201 (ELG 6121), or the equivalents.

ELG5125 (EACJ 5205) QUALITY OF SERVICE MANAGEMENT FOR MULTIMEDIA APPLICATIONS (3cr.)
Design principles: layering, protocols, interface; models for open distributed processing; real-time requirement; request-response and stream processing, real-time scheduling, design for performance and scalability; other quality of services issues; user perspective versus system performance parameters, cost/performance trade-off, negotiations; adaptive and mobile applications; examples of multimedia applications and protocols. Prerequisite: ELG 5374 (EACJ 5607) or SYSC 5201 (ELG 6121) or equivalent.

ELG5180 (EACJ 5704) ADVANCED DIGITAL COMMUNICATIONS (3cr.)
Techniques and performance of digital signalling and equalization over linear bandlimited channels with additive Gaussian noise. Fading multipath channels: diversity concepts, modelling and error probability performance evaluation. Synchronization in digital communications. Spread spectrum in digital transmission over multipath fading channels. Precludes additional credit for SYSC 5605. Prerequisite: SYSC 5504 or ELG 5375 or the equivalent.

ELG5382 (EACJ 5108) SWITCHING AND TRAFFIC THEORY FOR INTEGRATED BROADBAND NETWORKS (3cr.)
Principles of switching theory. Asynchronous Transfer Mode switching architectures. Principle of teletraffic engineering. Queueing theory and performance evaluation techniques as applied to the study of computer network architectures. Current topics in computer network modelling analysis and traffic control for high-speed multimedia networks. Prerequisite: ELG 5374 (EACJ 5607) or ELG 6121 (SYSC 5201), or the equivalent. Co-requisite: ELG 5119 (EACJ 5109) or ELG 6153 (SYSC 5503) or ELG 6103 (SYSC 5003), or the equivalent.

ELG5375 (EACJ 5506) PRINCIPLES OF DIGITAL COMMUNICATION (3cr.)
Elements of communication theory and information theory applied to digital communications systems. Characterization of noise and channel models. Analysis of digital data transmission techniques for additive Gaussian noise channels. Efficient modulation and coding for relable transmission. Spread spectrum and line coding techniques. Prerequisite: ELG 5119 or SYSC 5503, or the equivalent (may be taken concurrently).

ELG5376 (EACJ 5507) DIGITAL SIGNAL PROCESSING (3cr.)
Review of discrete time signals and systems, A/D and D/A conversions, representation in time, frequency, and Z domain, DFT/FFT transforms, FIR/IIR filter design, quantization effects. Correlation functions. Cepstrum analysis. Multi-rate signal processing. Power spectrum estimation. Introduction to joint time-frequency analysis. DSP architecture: implementation approaches. Applications. Precludes additional credit for Engineering SYSC 5602 (ELG 6162).

ELG5776 (EACJ 5508) TRAITEMENT NUMÉRIQUE DES SIGNAUX (3cr.)
Revue des signaux/systèmes en temps discret, conversions A/N et N/A, représentation en temps, fréquence et domaine Z, transformées DFT/FFT, design filtres FIR/IIR, effets de quantification. Fonctions de corrélation. Analyse cepstrale. Traitement à taux multiple. Estimation de puissance spectrale. Introduction analyse temps-fréquence. Architectures DSP: réalisations. Applications. Préalable : ELG 4172 ou équivalent.

ELG5378 (EAJC 5509) IMAGE PROCESSING AND IMAGE COMMUNICATIONS (3cr.)
Image acquisition, display and perception: sampling and reconstruction, quantization, human vision. Discrete image representations: color spaces, block, subband and wavelet representations. Image transformations, enhancement and restoration. Image analysis: edge detection, motion estimation. Image and video compression: lossless coding, predictive and transform coding, motion compensation. Prerequisite: ELG 5376 or SYSC 5602, or the equivalent.

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