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C OLLEGE OF E NGINEERING EEE5264 ADVANCED MICROPROCESSORS Prerequisite: Graduate standing or department approval. Design and applications microcomputers. Topics include: 16 bit vs. 32 bit processor organization, controller design, I /O port interfacing, memory structure, addressing methods, keyboard and display interface, and hardware arithmetic functions. Design and interface considerations for peripheral and interrupt devices. Lect. 4 hrs. 4 hours credit EEE5274 IMAGE PROCESSING Prerequisite: Graduate standing or department approval. Image understanding, image enhancement and restoration, image encoding design, feature extraction, image interpretation, object recognition and applications. Lect. 4 hrs. 4 hours credit EEE5284 PARALLEL ARCHITECTURES Prerequisite: Graduate standing or department approval. In-depth study of the design, engineering, and evaluation of modern parallel computers. Fundamental design, naming, synchronization, latency, and bandwidth. Architectural evolution and technological driving forces. Parallel programming models and communication primitives. Lect. 4 hrs. 4 hours credit EEE5324 NETWORK SYNTHESIS Prerequisite: Graduate standing or department approval. Network functions, filters, normalization, magnitude approximation, phase approximation, time-domain considerations, sensitivity. Properties and synthesis of LC driving point functions, properties of transfer functions, synthesis of transfer functions. Single amplifier filters, op-amp parasitics, state-variable filters, universal active filter, biquadratic filters, active networks for direct realization, switched capacitor filters. Lect. 4 hrs. 4 hours credit EEE5354 ANALOG INTEGRATED CIRCUIT DESIGN Prerequisite: Graduate standing or department approval. Analysis and design of monolithic operational amplifiers and wide-band amplifiers. Methods of achieving wide-band amplification, gain band-width considerations, analysis of noise, and low-noise design. Precision passive elements; analog switches, amplifiers, and comparators; parallel analog-to-digital converters. Switched capacitor and CCD filters, applications, and case studies. Lect. 4 hrs. 4 hours credit EEE5364 COMPUTER NETWORKING Prerequisite: Graduate standing or department approval. Advanced treatment of the following: OSI model, TCP/IP encoding and modulation, transmission and signals of digital data; interfaces and modems, transmission media, multiplexing, error detection and correction, data link control and protocols, LANS/MANS/VLANS/VPNS, switching. point-to-point protocol (PPP), network security, hardware including: ISDN; X.25; frame relay; ATM; SONET/SDH. Lect. 4 hrs. 4 hours credit EEE5444 DIGITAL COMMUNICATIONS Prerequisite: Graduate standing or department approval. Design of baseband and passband digital communication systems. Modulation techniques including PAM, QAM, PSK, FSK, and spread spectrum. Optimal demodulation techniques and their performance. Analysis evaluation, and design of integrated circuits for communication applications. Lect. 4 hrs. 4 hours credit EEE5524 MODERN CONTROL SYSTEMS Prerequisite: Graduate standing or department approval. State space realization of transfer functions, canonical forma, fundamental and state transition matrices, introduction to optimal control, quadratic performance indices, observers, Liapunov stability theory. Lect. 4 hrs. 4 hours credit EEE5534 DIGITAL CONTROL SYSTEMS Prerequisite: Graduate standing or department approval. Discrete time mathematics, Z transforms, sampling rates, zero and first order hold, time delays, system stability, continuous and discrete time system interfacing, computer control implementation concepts, state space realization. Lect. 4 hrs. 4 hours credit EEE5554 APPLICATIONS OF ARTIFICIAL INTELLIGENCE Prerequisite: Graduate standing or department approval. System design using AI methods; AI programming languages, intelligent vision and imaging systems, data base search methods, logic and deduction using predicate calculus. Expert system design with applications to robots. Lect. 4 hrs. 4 hours credit EEE5564 INTERFACING AND CONTROL OF ROBOTS Prerequisite: Graduate standing or department approval. Shaft encoders, actuators, robot coordinate systems, kinematics, path control, sensors, robot vision, design of robot interfaces. Lect. 4 hrs. 4 hours credit EEE5614 COMPUTER-AIDED DESIGN OF INTEGRATED CIRCUITS Prerequisite: Graduate standing or department approval. Design, simulation, layout techniques, synthesis, verification, and testing of digital integrated circuits using hardware description languages. FPGA design and timing verification. Lect. 4 hrs. 4 hours credit EEE5624 VLSI DESIGN Prerequisite: Graduate standing or department approval. Specification of MOSFETS and CMOS, IC fabrication, mask design, semi-custom and full-custom designs, application-specific integrated circuit design, and system design. Specific integrated circuit design, design rules, and case studies. Lect. 4 hrs. 4 hours credit EEE5634 OPTICAL SYSTEMS ENGINEERING Prerequisite: Graduate standing or department approval. Maxwell’s equations, geometrical and physical optics, optical components. Gaussian beams. Fourier transforming properties of lenses. Properties of Lasers, LEDs, and detectors. Design of emitter and detector circuits. Design of free space and optical fiber systems. Lect. 4 hrs. 4 hours credit EEE5654 DIGITAL SIGNAL PROCESSING Prerequisite: Graduate standing or department approval. Sampling theory and sampling hardware, Z transform, architecture of VLSI digital signal processors. Design and implementation of real time polynomial, FIR, IIR, and adaptive filters, spectral analysis with FFT. Design of DSP application in communication and digital control. Lect. 4 hrs. 4 hours credit EEE5784 COMMUNICATION CIRCUITS Prerequisite: Graduate standing or department approval. Transmitters and receivers. Smallsignal, high-frequency, and power amplifiers. Network noise and distortion. Hybrid and transmissionline transformers. Oscillators. Phase-locked loops. Modulators and demodulators. Lect. 4 hrs. 4 hours credit 146 U N D E R G R A D U A T E C A T A L O G 2 0 0 5 - 2 0 0 7
C OLLEGE OF E NGINEERING DEPARTMENT OF ENGINEERING TECHNOLOGY Associate Professors: Donald F. Condit Stanley F. Harris William L. White (chair) College Professor: Sabah H. Abro TCE1023 ARCHITECTURAL GRAPHICS Prerequisite: MCS1023, Co-requisite: TCE2013. Introduction to architectural graphics, lettering, geometric construction, orthographic projection, sectioning, auxiliary views, isometric and pictorial drawings, freehand sketching, basic residential planning and light construction principles. Detailing of both timber and masonry structures; wood beams, fasteners, plywood construction systems, and lumber framing; construction details for stone, brick and concrete masonry units; panelized masonry construction; masonry wall reinforcing and masonry treatments. Drawings are made. Introduction to CAD. Lect. 2 hrs., Lab. 2 hrs. 3 hours credit TCE2013 CONSTRUCTION TECHNIQUES 1 Prerequisite: 0. The function, quality and cost of various building materials and methods used in the construction of residential, commercial, industrial, and other Lecturers: Serhat Eren Additional guest lecturers are assigned to selected courses and sections based on their specialties and expertise, and are listed in the faculty roster. constructions including churches, hospitals and schools. Materials include wood, concrete, masonry, glass, metals, plastics, asphaltic and composite materials, etc. Methods include those utilized when making site investigations; excavating techniques and all types of foundations, framing systems; project scheduling; and any other new concepts and techniques of construction, construction equipment and safety. Lect. 3 hrs., Lab 1 hr. 3 hours credit TCE2033 SOILS Prerequisites: PHY1083, PHY1101. Study, analysis, classification, and strength of soil as found in nature and as altered by humans: changes in gradation, moisture content, density, and material for enhancement of soil as a construction material. Other natural and man-made construction materials are examined through analysis of test results, most notably those utilizing natural materials in both bituminous and portland cement concretes. Lect. 2 hrs., Lab. 2 hrs. 3 hours credit U N D E R G R A D U A T E C A T A L O G 2 0 0 5 - 2 0 0 7 TCE2053 CONSTRUCTION TECHNIQUES 2 Prerequisites: PHY1083, PHY1101, MCS2313, TCE2013. Layout and installation of building electrical and mechanical systems, including codes, standards, and laws. Electrical systems to include equipment, lighting, sound and alarm systems, and standby equipment; mechanical systems to include water and sewerage systems, principles of ventilation, heating and cooling for industrial, commercial, and institutional buildings, total energy systems, fire protection equipment and installations, interior transportation systems, and acoustical or radiation protection used in construction. Lect. 3 hrs. 3 hours credit TCE2073 SURVEYING Prerequisite: MCS1123. Introduction to the principles of plane surveying using tape, transit and level. The measurement of angles as well as horizontal and vertical distances, traverse, stadia surveying and mapping, and general construction surveys. A computer is used for balancing a traverse. Lect. 2 hrs., Lab. 2 hrs. 3 hours credit TCE2093 STRUCTURES Prerequisites: TCE1023, TME2013, TME2033. Detailing of steel structures; framed beam details; details for standard connections, seated connections; typical floor beam details; riveted, bolted and welded connection; detail drawing of compression, tension and flexible member; column details. Both drawing and computer labs utilized in the study of structural design principles. Lect. 2 hrs., Lab. 2 hrs. 3 hours credit TCE2123 ESTIMATING Prerequisites: TCE1023, TCE2013. Methods of estimating materials and labor required to erect a building. Excavations, foundations, utilities, steelwork, carpentry, roofing, drywall, painting, etc. The computer lab is utilized for assembling partial (trade) and complete construction estimates. Lect. 2 hrs., Lab. 2 hrs. 3 hours credit TCE2143 SPECIFICATIONS AND REGULATIONS Prerequisites: TCE1023, TCE2013. National (BOCA) and local codes, ordinances and regulations pertaining to commercial, industrial, and residential construction. Interpretation and evaluation of specifications for building construction. Emphasis on descriptive, proprietary, reference standard, performance, and cash allowance specification writing. Lect. 3 hrs. 3 hours credit TCE3113 CONSTRUCTION TECHNIQUES 3 Prerequisites: PHY1083, PHY1101, MCS2313, TEC2053. Layout and installation of building electrical systems, including codes, stands and laws. Systems to include lighting, sound and alarm, energy management and standby equipment for industrial, commercial, residential, and institutional buildings. Lect. 3 hrs. 3 hours credit TCE4112 CONSTRUCTION EQUIPMENT Prerequisites: Junior standing or consent of instructor. Operating characteristics and cycle time of construction machines for various types of projects, including heavy civil and commercial/industrial buildings. Analysis of vehicle and equipment economics, operating costs and capacities for measurement of productivities. Lect. 2 hrs. 2 hours credit 147
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