Course

Objective:

Learning Outcomes:

• apply statistical modeling and applications to RADARS including the Uniform Probability Density Function, standard deviation, a Gaussian curve and Standard Gaussian Distribution Table to characterize RADAR signals
• explain analog and digital signal processing steps and applications, including the Fourier series and Fourier Transform, use of filters, and digitizing theory and techniques
• describe the purposes and capabilities of intrapulse, interpulse, and frequency modulation
• survey different types of antennas to determine the gain/directivity of antennas and radiation patterns
• explain the use and importance of different components of a radar hardware system, including transmitters, receivers, modulators, transmission lines, oscillators, and amplifiers
• use the RADAR range equation to determine a RADARs operating effectiveness against targets in terms of various RADAR including CW and FMCW RADARs, pulse Doppler RADARs, MT I RADARs, and synthetic aperture RADAR (SAR) systems
• describe how missile guidance systems works
• identify the purposes, types, and terminology of Electronic Attack and Electronic Protection techniques
• Calculate basic math computations and apply math concepts to ELINT analysis problems

General Topics: