RF Engineering II. ECE 6601. Introduction to packaging technologies, technology drivers, electrical performance, thermal management, materials, optoelectronics, RF integration, reliability, system issues, assembly, testing. A study of the principles and design of medical imaging systems such as X-ray, ultrasound, nuclear medicine, and nuclear magnetic resonance. Ph.D. Electromechanical and Electromagnetic Energy Conversion. 1-21 Credit Hours. Study of the fundamental principles and primary applications of lasers, and of detectors of optical radiation. Special Topics. Adv Malware Analysis. Electromagnetic and Microwave Applications. Special Topics. ECE 6458. Biasing, small-signal analysis, frequency response, feedback amplifiers, active filters, non-linear op-amp applications, and oscillators. Combined lecture-laboratory exploration of the technology of fiber optics, with emphasis on optical fiber communication systems. For example, what strategies and techniques do attackers actually use, and how do they profit from their actions? Courses taught at GT-Shenzhen will follow the existing GT course catalog. Master's Thesis. Quantitative Electrophysiology. Requirement Hours Description Group I: ECE 6000 level classes in one or two TIAs: 9 Three classes in a combination of one or two technical interest areas of the student's choosing (All for letter grade ECE 6445. ECE 4604. This laboratory course will teach microwave measurement/design fundamentals for both passive and active components. 4 Credit Hours. ECE 4812. The practical application of the finite-difference time-domain and finite element techniques to electromagnetic problems. Comprehensive introduction to markets for electrical energy, including economic theory, market design, utility models, effects of the physical grid, and grid services. Digital Communications. Processors, chipsets, busses, and I/O devices for high-ended embedded systems. ECE 2812. Introduction to Signal Processing. ECE 6274. To introduce the theory and practice of error control coding, with emphasis on linear, cyclic, convolutional, and parallel concatenated codes. 3 Credit Hours. Advanced Computer Architecture. ECE 4147. Foundations of statistical natural language processing established for text data analysis, language engineering, information extraction, and statistical inference. Includes etching, deposition, diagnostic methods, and control schemes. Advanced Signal Processing Theory. **You must be enrolled as an undergraduate student in the ECE program in order to be eligible for this degree.**. Game Theory and Multiagent Systems. Special Topics. ECE 4813. ECE 3070. 2 Credit Hours. ECE 2804. Basic concepts of DC and AC circuit theory and analysis. 3 Credit Hours. Statistical Natural Language Processing. 4 Credit Hours. ECE 20X2. To study electromagnetic interference and susceptibility of electrical systems, with application to analog and digital circuits. This applies to students regardless of enrollment status (including summer term). He is a member of the Editorial Boards of both the IEEE Transactions on Image Processing (TIP), 209-present, and the Elsevier Journal Signal Processing: Image Communications, 2014-present. Introduction to probability, random variables, distributions, estimation, confidence intervals, linear regression and other tools for describing and managing uncertainty in electrical and computer engineering. Special Topics. ECE 6332. 1-9 Credit Hours. Special Topics. Special Topics. Internetwork Programming. Crosslisted with AE, BMED, CHE, ME, and MSE 1750. Latest networking technologies in wireless and wireline networks. 2 Credit Hours. ECE 6542. Introduction to Computer Security. System level issues in integrated microsystems. Congrats to Master @MotazAlfarraj on passing PhD proposal exam & becoming a PhD candidate; on the utilization of ML when fuse 2 measurements that differ in resolution and sparsity; applications: subsurface and medical imaging. ECE 8891. ECE 6435. 3 Credit Hours. Digital System Design. Operational Amplifier Design. Key concepts in fault-tolerant computing. Crosslisted with ISYE and ME 6792. 3 Credit Hours. Covers tools and techniques for networked control systems as well as application domains and promising research directions. 3 Credit Hours. 3 Credit Hours. 3 Credit Hours. Students study the engineering compromises, operational physics and environmental impact of a variety of devices from solar cells, batteries, thermoelectric devices and wind generators. For students holding graduate research assistantships. To ECE - AND - Course Interest Area - OR - Other Course Type . 2 Credit Hours. ECE 8020. Team project in ECE incorporating engineering standards and realistic constraints. To present concepts in waveguiding and radiation, with application to microwaves, antennas, and optics. ECE specifies that the 3 P/F hours must be ECE seminars (8001, 8002, 8003, and 6792). He has been a witness experts in a number of patents infringement cases. 3 Credit Hours. He is a voted member of the IEEE SPS Technical Committees on Multimedia Signal Processing (MMSP) and Image, Video, and Multidimensional Signal Processing (IVMSP), 2015-2017 and 2018-2020. 3 Credit Hours. An introduction to electric circuit elements and electronic devices and a study of circuits containing such devices. Access additional information pertaining to the M.S. ECE 4001. 3 Credit Hours. Techniques for analysis and synthesis of computer-based control systems. Introduction to linear system theory and feedback control. Transfer-Digital Systems. 3 Credit Hours. 3 Credit Hours. CAD tools, project design methodologies, logic synthesis, and assembly language programming. 1-21 Credit Hours. students who wish to change their major from M.S.E.C.E. Advanced Computer Architecture. For non-transfer students, the required GPA is based on a minimum of 30 semester hours of credit at Georgia Tech. Search ECE courses with the filters. Elec/Comp Engr Elective. Architectures and communication protocols for wireless sensor networks, wireless local area networks, ad-hoc networks, cellular systems, WiMAX, and Wireless Mesh Networks. Undergraduate Research I. A study of theory and practice in the design and implementation of DSP algorithms on programmable processors, multiprocessors, and ASICs. Electrical & Computer Engr (ECE) English (ENGL) F. Foreign Studies (FS) Free Elective (FREE) French (FREN) G. Georgia Tech (GT) Georgia Tech Lorraine (GTL) German (GRMN) H. Health Physics (HP) Health Systems (HS) Hebrew (HEBW) Hindi (HIN) History (HIST) History, Technology & Society (HTS) Humanities Elective (HUM) I. Case studies. Engineering ethics, design tools, financial and economic principles, project management, probabilistic and statistical techniques, and decision making. Measurements, Circuits, and Microelectronics Laboratory. Analog building blocks are presented, leading to VLSI systems inspired by neurobiological architectures and computational paradigms. ECE 4901. ECE 4871. 3 Credit Hours. Technical tools and professional issues for engineering practice and early career development. Special Problems. Digital Design Laboratory. ECE 3902. ECE Culminating Design Project I. ECE 4446. ECE 3030 [min C] or ECE 3040 [min C] or ECE 3710 Corequisites None Catalog Description Introduction to packaging technologies, technology drivers, electrical performance, thermal management, materials, optoelectronics, RF integration, reliability, system issues, assembly, and testing.