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Course Catalogue

-- All Departments --Computer Science and EngineeringBusiness AdministrationEnglish and HumanitiesElectronics and Telecommunication EngineeringMedia Studies and JournalismMasters of Business AdministrationExecutive Masters of Business AdministrationGeneral Education ProgramCourse Catalogue of CsdCourse Catalogue of Mmsj

Course Code: CSE 429 Course Name: Digital Image Processing Prerequisite: CSE 201 Credit Hours: 3.00 Detailed Syllabus: Introduction, Digital Image Fundamentals, Image Transform, Image Enhancement, Image Restoration, Image Compression, Image Segmentation, Representation and Description, Recognition and Interpretation.

Course Code: CSE 430 Course Name: Neural networks and Pattern Recognition Prerequisite: CSE 201 Credit Hours: 3.00 Detailed Syllabus: Introduction to Neural Network; ANN approach to recognition; ANN models, Design and development of ANN; back propagation model. Introduction to pattern recognition. General pattern recognition concepts. Statistical pattern recognition. Supervised learning using parametric and non-parametric approaches. Linear discriminant functions and the discrete and binary feature cases. Unsupervised learning and clustering. Syntactic Pattern Recognition: Syntactic recognition via parsing and other grammars, graphical approach to syntactic pattern recognition, learning via grammatical inference. Neural Pattern Recognition: Neural pattern associators and matrix approaches, unsupervised learning in neural pattern recognition.

Course Code: CSE 431 Course Name: Computational Geometry Prerequisite: CSE 201 Credit Hours: 3.00 Detailed Syllabus: Problems in computational geometry, worst case complexity of geometric algorithms; expected complexity of geometric algorithms and geometric probability, geometric intersection problems, nearest neighbor searching, point inclusion problems, distance between sets, polygon decomposition, the Voronoi diagram and other planner graph, updating and deleting from geometric structures.

Course Code: CSE 480 Course Name: Web Technology Prerequisite: CSE 103, CSE 201, CSE 207 Credit Hours: 3.00 Detailed Syllabus: Designing an Internet utilizing a range of different technologies. Simplifying the creation and updating web content. Expanding Intranet services by adding client-slide and server-side processing. Interfacing Internet to a database. Querying a database using Cold Fusion.

Course Code: CSE 498 Course Name: Social and Professional Issues Prerequisite: None Credit Hours: 3.00 Detailed Syllabus: History of Computing, Social context of computing, Methods and tools of analysis, Professional and ethical responsibilities, Risks and liabilities of computer-based systems, Intellectual property, Privacy and civil liberties, Computer crime, Economic issues in computing, Philosophical frameworks.

Course Code: ETE 202 / ETE 203 (LAB) Course Name: Electronic Devices and Circuits I Prerequisite: None Credit Hours: 3.00 + 1.00 Detailed Syllabus: Theory of Semiconductor: Electronic structure of elements, energy level, energy band theory of crystals, energy band diagram of- insulator, semiconductor and metal, free electron theory, intrinsic and extrinsic semiconductor, Fermi level, concept of hole, carrier densities, generation and recombination of excess carriers, earner life time, carrier movement by diffusion rind drift, continuity equation. Semiconductor diodes: The P-N junction, biasing conditions, V-I characteristics, half \vave and full wave rectification with filtering, clipping and clamping circuit, zener diode, tunnel diode, varactor diode. Bipolar transistor: Junction transistors, PNP and NPN transistors, principles of operation, biasing, characteristics in different configurations, transistor switching time, DC and AC load line, Q factor, transistor equivalent circuit, small signal low frequency h-parameter model. Field effect transistor (FET): Construction of JFET, characteristic.', and principles of operation, FET biasing. MOSFET: Different types, operation, characteristics curve, DC biasing of depletion and enhancement type MOSFET Other types of semiconductor device: Thermistor, SCR, UJT, DIAC, TRIAC, photo diodes.

Course Code: ETE 204 / ETE 205 (LAB) Course Name: Digital Electronics Prerequisite: ETE 202 Credit Hours: 3.00 + 1.00 Detailed Syllabus: Introductory concepts: Binary, octal and hexadecimal number system. BCD, ASCII codes. Logic gates and Boolean algebra, Combinational circuit design using NAND or NOR gates only, trouble shooting case studies. Minimization of switching functions, algebraic and graphical simplification of Boolean expression, Quine Mcluskcy method. NAND and NOR latches: Clocked SR, JK, D and T flip-flop applications. Frequency division and counting, troubleshooting case studies. Arithmetic circuits. The half-adder and full-adder. Parallel adders, 1C parallel adders. 2's complement addition and subtraction. The BCD adder. Binary multiplier, troubleshooting case studies. Counter: Asynchronous ripple up and down counters, counters with any MOD numbers, asynchronous 1C counters, propagation delay. Parallel up, down and up/down counters. Presentable counters. Decoding a counter. Cascading counters. Register: Shift registers, 1C shift registers, shift-register counters. Frequency counter, digital clock, trouble shooting case studies. MSI Logic circuits: BCD-to-decimal decoders, BCD-to-7-segment decoder/drivers. Encoders. Multiplexers and their applications. Demultiplexers. Troubleshooting case studies. Analog-to-digital conversion (ADC), digital-ramp ADC, successive approximation ADC, flash ADC. Digital-to-analog conversion (DAC): circuits, specifications, applications. Sample and hold circuits. Integrated Circuit (1C) logic families: TTL logic family, standard TTL series characteristics, other TTL series, TTL loading rules, TTL open-collector outputs, tristate TTL. The ECL family. Digital MOSFET circuits, characteristics. CMOS arcuits, CMOS tristate logic TTL driving CMOS, driving TTL. Memory Devices: Semiconductor memory technologies. ROM architecture timing and types of ROM. EPROM, EEPROM, ROM applications. RAM architecture, static and dynamic. RAM, DRAM structure operation and refreshing. Expanding word size and capacity. Magnetic bubble and CCD memories trouble shooting case studies. Introduction to sequential circuits, formal representation of sequential circuits.

Course Code: ETE 315 Course Name: Digital Signal Processing Prerequisite: CSE 307 Credit Hours: 3.00 Detailed Syllabus: Introduction: Digital Signal Processing and its benefits: Key DSP Operations, Real-time signal processing, Applications. Discrete Transform: Fourier series, OFT, FFT and other discrete transforms, Z-transforms and its applications in signal processing, correlation and convolution with examples, Filters: FIR, IIR and adaptive filters. An overview of spectrum estimation and analysis.

Course Code: ETE 447 Course Name: VLSI Design Prerequisite: ETE 202 Credit Hours: 3.00 Detailed Syllabus: Introduction to MOS technology, PMOS, NMOS, and CMOS transistor structures. Physics of MOS transistors, Fluid model, Electrical characteristics, Operation of MOS transistor as a switch and an amplifier, MOS inverters, MOS Fabrication steps, stick diagrams, design rules and layout, MOS circuits, delay analysis, susperbuffers, Dynamic MOS circuits Registers, counters and Memory realizations, Hierarchical view of VLSI System Design, Behavioral description, High Level Synthesis Scheduling, allocation and data path synthesis, Logic synthesis multilevel minimization, PLA reduction, regular structure circuits, Synthesis of FSM-ASM chart representation and realization, Layout synthesis, Placement and routing, Testing of VLSI, Testing of stuck-at faults, Testing of PL As, RAM, Boundary scan technique.

Course Code: ETE 463 Course Name: Optical Fiber Communication Prerequisite: CSE 309 Credit Hours: 3.00 Detailed Syllabus: Optical fiber: Introduction, structure, step index and graded index fibers, Modes of propagation, Signal degradation in Optical fibers: Attenuation, signal distortion, pulses broadening mode coupling. Optical sources: LED, Laser diodes light source linearity model partition and reflection noise. Power lunching and coupling: source to fiber power lunching Lansing scheme, fiber to fibber join, splicing fiber connectors. Photo detectors: basic principles, photo-detectors noise, response time, and avalanche multiplication noise. Optical receiver operations: receiver configurations, digital receiver, Performance preamplifiers. Digital translation systems: point-to-point link, line coding, and eye pattern, system Performances. Advanced systems and techniques: WDM, local area networks, optical amplifier, phonic switching.

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