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Course Criteria
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2.00 Credits
This course focuses on the use of programmable digital signal processors (DSPs)for real-time signal processing. Topics covered include characteristics of various popular DSP processors, processor architecture, DSP programming techniques, software development tools hardware interfacing, and implementation of various digital signal processing algorithms ranging form FIR and IIR filtering to frequency domain processing. Throughout the course a number of design projects and demonstrations will be used to reinforce the concepts introduced in the lectures. The popular DSP processor TMS320C3X from Texas Instrument will be used in this course. ECE 437 and basic knowledge of programming 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
Probability and Random Process Information theory addresses information theoretic limits on data compression and reliable data communications in the presence of noise. It has fundamental contribution in communications, networking, statistical physics, computer science, statistical inference, and probability and statistics. It covers entropy, mutual information, fundamental limits on data compression, Huffman codes, channel capacity, and channel coding. 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
This short course deals with requirements, options, architecture, and issues relating to the Next Generation broadband networks. The focus is on the key wireline and wireless access options with specific emphasis on its applicability to multimedia applications. The requirements placed by upcoming services on access are introduced. For the major access options, the key topics include capabilities, architectures, protocol structures, Quality of Service (QoS), security, user equipment, spectrum, throughput, and coverage. The associated signaling and modulation schemes, transport technologies and characteristics, end-to-end scenarios, and interworking are addressed. Comparative analysis in terms of various application profiles involving voice, data, and video are carried out. The modeling techniques for analyzing the interplay and technology and market relevance of xDSL, cable/coax, fiber, WiFi, WiMAX, and cellular wireless options are covered. The likely migration paths for these options towards the Next Generation Networks (NGNs) are mentioned. 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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2.00 Credits
This short course deals with the current set of Telecom networks and how they are expected to migrate to the future converged networks. The structure and architecture of the current plethora of networks including wireline wireless, satellite, public, private, Local Area Networks (LANs), Wide Area Networks (WANs), and their inter-operatibility are covered. Typical scenarios pertaining to audio, data, and video applications for global traffic are mentioned. The scenarios cover aspects of performance, communications, propagation, integrity, and security. The issues relating to such diverse and independent networks are summarized and are used as the basis for the expected momentum towards converged networks of the future. The likely applications, technology trends, spectrum issues, standardization efforts, structure, architecture, challenges, and advances for future converged networks are covered. 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
A knowledge of the underlying principles and packet circuit switched networks, probability theory, and basic principles of queuing theory. This course introduces the architectures and protocols of Asynchronous Transfer Mode (ATM) based broadband networks, highlights relevant performance issues and discusses design and implementation issues. 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 short course covers digital design techniques and hardware/software realization concepts in embedded computing systems using VHDL. Topics include: basics principles of VHDL programming; designing with FPGA; design of arithmetic logic unit; VHDL models for memories and busses; CPU design; system-on-chip design; efficient hardware realizations of FFT, DCT, and DWT. 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 short course deals with data compression techniques and hardware/software realization concepts in embedded computing systems. Key topics: fundamentals of random signal processing and information theory, compression and decompression processes, lossy and lossless compression methods, compression standards for video and audio, modeling and signal parameter estimation, transform techniques including FFT, DCT, and DWT. Hardware realizations of compression algorithms. 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 short course deals with time-frequency distribution, signal modeling and estimation, and hardware/software realization concepts in embedded computing systems. Key topics include fundamentals of signal processing and random processes, short-time Fourier transform, split-spectrum processing, Gabor transform, Wigner distribution, Hilbert transform, wavelet transform, cosine transform, chirplet signal decomposition, matching pursuit, parametric time-series frequency estimation, hardware/software codesign and realizations of time-frequency distributions, and signal modeling algorithms. 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
Practical topologies of different types of power electronic converters are covered including industrial high-voltage and high-current applications, protection, and cooling. Common industrial motor drives are examined with popular control techniques, simplified modeling, and worst-case design. Regulating and stabilizing methods are applied to switching power supplies, power conditioning systems, electronic ballasts, and electronic motors. 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 provides basic understanding of the role of protective relaying in the power system. It also delves into the needs of today's power systems for protection that is robust and tolerant to heavily loaded transmission systems. The students are challenged to be a part of the solution going forward including the role of wide area system protection. 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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