Undergraduate Course Descriptions Overview Almost every effort that uses technology and science to make the world a better place relies on electrical and computer engineers ECEs. Biologists studying life at the atomic level need ECEs to develop the measurement systems that do not harm fragile cells, sensors that detect and communicate behavior, and processors to understand all the data collected. Doctors rely on ECEs to develop ever-improving medical imaging. Efforts to monitor water pollution use underwater robots, sensors, and control systems developed by ECEs.
Only TCCN designations that are exact semester-hour equivalents of University courses are listed here. Introduction to Electrical Engineering.
Substantial teamwork is required for laboratory work in this course. Three lecture hours and two laboratory hours a week for one semester.
2) where n is the optical index of the atmosphere, h is the Planck constant, c 0 is the light velocity, k b is the Boltzmann constant and λ is the wavelength of the radiation. Meet Inspiring Speakers and Experts at our + Global Conferenceseries Events with over + Conferences, + Symposiums and + Workshops on Medical, Pharma, Engineering, Science, Technology and Business.. Explore and learn more about . Vol.7, No.3, May, Mathematical and Natural Sciences. Study on Bilinear Scheme and Application to Three-dimensional Convective Equation (Itaru Hataue and Yosuke Matsuda).
Electrical Engineering and H may not both be counted. Credit with a grade of at least C- or registration for Mathematics C or K. Introduction to Electrical Engineering: Restricted to students in the Engineering Honors Program. Three lecture hours and one recitation hour a week for one semester.
Credit with a grade of at least a C- or registration for Mathematics C or K. Elements of Electrical and Computer Engineering.
Introduction to electrical engineering: Introduction to computer engineering: Three lecture hours and one lab hour a week for one semester. Electrical Engineering S Topic: Topics in Electrical Engineering. Used to record credit the student earns while enrolled at another institution in a program administered by the University's Study Abroad Office.
Credit is recorded as assigned by the study abroad adviser in the Department of Electrical and Computer Engineering. University credit is awarded for work in an exchange program; it may be counted as coursework taken in residence.
Transfer credit is awarded for work in an affiliated studies program. May be repeated for credit when the topics vary. Topics in Technical Skills. Build a specific technical skill. The equivalent of one lecture and one lab hour a week for one semester.
For each semester hour of credit earned, one lecture hour a week for one semester. Development of a Solar-Powered Vehicle. Analysis, design, and construction of a solar-powered car for national competitions involving other universities.
Study of electrical, mechanical, and aerodynamic systems. Three lecture hours and three laboratory hours a week for one semester. Electrical Engineering K Topic: Capacitance and inductance; first- and second-order transient circuit response, including operational amplifier circuits; sinusoidal steady state analysis; Bode plots; complex power in single and balanced three-phase systems; transformers; two-port networks Z-parameters and Y-parameters ; and computer-aided analysis and design.
Three lecture hours and two recitation hours a week for one semester. Software Design and Implementation I. The following coursework with a grade of at least C-: The following coursework with a grade of at least B in each: Linear Systems and Signals. Representation of signals and systems; system properties; sampling; Laplace and z-transforms; transfer functions and frequency response; convolution; stability; Fourier transform; feedback; and control applications.
Three lecture hours a week for one semester. Biomedical EngineeringElectrical Engineeringor with a grade of at least C-; Mathematics J or K with a grade of at least C-; and credit with a grade of at least C- or registration for Mathematics L.
Boolean algebra; analysis and design of combinational and sequential logic circuits; state machine design and state tables and graphs; simulation of combinational and sequential circuits; applications to computer design; and introduction to hardware description languages HDLs and field-programmable gate arrays FPGAs.
Introduction to Embedded Systems. Three lecture hours and one laboratory hour a week for one semester. Biomedical Engineering or Electrical Engineering with a grade of at least C. Mixed Signal and Circuits Laboratory. Digital and analog parametric testing of mixed-signal circuits and systems, including frequency response, harmonic and intermodulation, and noise behavior; use of system-level test equipment, including network analyzers, spectrum analyzers, and probe stations; coherent v.Introduction Since the late s much has changed in the world of Geographic Information Systems (GIS): computer memory has become more accessible, the fields of geographic information science and spatial analysis have spread across disciplines, government agencies and commercial enterprises have developed massive spatial databases, high-resolution satellite imagery has become publicly.
An introduction to the design and operation of digital computers, including information representation, logic design, integrated circuits, register transfer description, basic computer organization and machine-level programming.
The instrument is capable of single-molecule sensitivity and multiplexing with short turnaround times and a throughput of 66 samples/h. Singleplex and multiplexed digital immunoassays were developed for 16 proteins of interest in cardiovascular, cancer, infectious .
2 Graduate Guidelines Department of Electrical and Computer Engineering University of Florida P. O. Box Gainesville, FL Revised Fall Introduction – Examples – Oversharpening and Undersharpening – Examples Unsharp masking (USM) – Links – Standardized sharpening Introduction to sharpening Sharpening is an important part of digital image processing.
It restores some of the sharpness lost in the lens and image sensor. Every digital image benefits from sharpening at some point in its workflow— in the camera, the RAW. Application Services Business Resiliency Services Business Strategy and Design Cloud Services Digital Workplace Services Network Services Process Design and Operations Security Services Technology Consulting Services Technology Support Services.