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Course Criteria
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2.00 Credits
This course deals with simulation of communication systems. It includes concepts such as Monte Carlo simulation, modeling and simulation of random processes, time varying systems, discrete and continuous time channel models, and simulation of coded systems. Efficient simulation techniques such as semi-analytical methods and tail extrapolation are introduced. Modeling methods for transmitter and receiver sub-systems are discussed. Bit error rate performance measures in the presence of noise and inter-symbol interference, and equalization methods are studied. Approaches for simulating wireless communication systems (CDMA and WCDMA) are discussed. 2. 000 Credit Hours 2. 000 Lecture hours Levels: Graduate Doctoral, Graduate, Undergraduate Schedule Types: Accelerated Course Armour College of Engineering College Electrical & Computer Engrg Department
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2.00 Credits
This course provides a study of key technologies for building Internet-Protocol(IP) based telephony systems. The topics covered are: elements of POTS and PSTN; speech codes, speech coding standards; packet networks and basic Internet protocols; protocols for signaling, media transport, and call control; quality of service, transmission impairments, voice quality measurement and optimization; IP facsimile. 2. 000 Credit Hours 2. 000 Lecture hours Levels: Graduate Doctoral, Graduate, Undergraduate Schedule Types: Accelerated Course Armour College of Engineering College Electrical & Computer Engrg Department
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2.00 Credits
B.S. degree in electrical engineering or computer engineering, or equivalent. A one week intensive seminar course on recent advancements in telecommunication concepts and technology, aiming at providing practicing engineers and technical executives with an updated overview of the key developments in the field of communications, covering both theory and practical implementations. After taking the course, the participant will have the needed knowledge to make judicial technical decisions with scopes ranging from system to device levels, and the skills to engage in design projects to state-of-the-art performance. 2. 000 Credit Hours 2. 500 Lecture hours Levels: Graduate Doctoral, Graduate, Undergraduate Schedule Types: Accelerated Course Armour College of Engineering College Electrical & Computer Engrg Department
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2.00 Credits
Overview of wireless communications systems: history; cellular mobile systems; mobile communication environment; propagation and fading in the mobile environment. Digital cellular systems. Design and performance criteria for digital cellular mobile systems. Personal communications. BSEE degree 2. 000 Credit Hours 2. 000 Lecture hours Levels: Graduate Doctoral, Graduate Business, Graduate, Undergraduate Schedule Types: Accelerated Course Armour College of Engineering College Electrical & Computer Engrg Department
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2.00 Credits
2. 000 Credit Hours 2. 000 Lecture hours Levels: Graduate Doctoral, Graduate Business, Graduate, Undergraduate Schedule Types: Accelerated Course Armour College of Engineering College Electrical & Computer Engrg Department
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2.00 Credits
This course discusses Third Generation (3G) Mobile Communication Systems. It also discusses the transition between 2G and 3G systems and the technologies used in this transition. The course TDMA and CDMA systems. 2. 000 Credit Hours 2. 000 Lecture hours Levels: Graduate Doctoral, Graduate Business, Graduate, Undergraduate Schedule Types: Accelerated Course Armour College of Engineering College Electrical & Computer Engrg Department
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2.00 Credits
This course covers the principles of modern computer communication network management. The course will survey several of the most important network management architectures and protocols used in the industry to illustrate issues on and solutions to network management issues such as performance, security, fault detection and recovery, and network administration. The course will discuss how some network managementtechniques have broader applications and will cover the case study of at least one network management platform. 2. 000 Credit Hours 2. 000 Lecture hours Levels: Graduate Doctoral, Graduate, Undergraduate Schedule Types: Accelerated Course Armour College of Engineering College Electrical & Computer Engrg Department
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2.00 Credits
This course provides a bridge between network layer communications and physical layer communication techniques used in broadband wireline systems. Topics covered include: access technologies, modulations techniques, such as CAP, DMT, x-DSL, trellis coded PAM.. Broadband architecture will be studied, including the BISDN reference model, ATM, digital interface, frame relay. Switching technologies are presented: circuit and packet switching, self-routing, switching matrices, shuffle-exchange. Transmission networks are covered, emphasizing broadband transmission functional components: SONET, multiplexers/demultilexers, concentrators, transmission cells. BSEE and basic knowledge of communications systems 2. 000 Credit Hours 2. 000 Lecture hours Levels: Graduate Doctoral, Graduate, Undergraduate Schedule Types: Accelerated Course Armour College of Engineering College Electrical & Computer Engrg Department
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2.00 Credits
A comprehensive review of on-ship Electro-Static Discharge (ESD) circuitry for Integrated Circuits (IC). Fundamentals of ESD requirements, standards, models, testing, and failure analysis. Chip-level ESD circuit design techniques. Advanced ESD protection design for very-deep-sub-micron (VDSM) ICs. State-of-the-art CAD-based predictive ESD simulation-design methodology. Examples include ESD for high-speed VDSM ICs and RF ICs. BSEE degree 2. 000 Credit Hours 2. 000 Lecture hours Levels: Graduate Doctoral, Graduate Business, Graduate, Undergraduate Schedule Types: Accelerated Course Armour College of Engineering College Electrical & Computer Engrg Department
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1.00 Credits
Cellular Long Term Evolution (LTE) is a key Wireless Broadband technology considered as the primary path towards the Next Generation Networks (NGNs). It is generally considered at the dominant wireless technology meeting the seamless, mobile Internet access needs of the upcoming Quadruple Play applications. This short course covers the applications, requirements, architecture, radios and antennas, protocols, network operations and management, and evolution for the LTE technology. Key topics include the functions and interfaces of the protocol layers, Quality of Service (QoS), security, network signaling, infrastructure, user equipment, spectrum, throughput, and coverage. Discussion includes the modulation schemes, frame structure, antenna and radio, and subcarrier and bandwidth allocation methods. End to end scenarious on connection setup, interworking with existing 3G cellular, WiFi, and WiMAX networks, and Handovers are discussed. Testing and integration issues, limitations, and challenges are also mentioned. Comparative analysis with respect to WiMAX and Ultra Mobile Broadband (UMB) are covered. The likely migration paths from current wireless and wireline networks to LTE and related HSOPA and SAE architectures are discussed. 1. 000 Credit Hours 1. 000 Lecture hours Levels: Graduate Doctoral, Graduate Business, Graduate Schedule Types: Accelerated Course Armour College of Engineering College Electrical & Computer Engrg Department
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