This course covers the algorithms used to locate a stationary RF signal source, such as a radar, radio, or cell phone. The topics covered include a review of vectors, matrices, and probability; linear estimation and Kalman filters; nonlinear estimation and extended Kalman filters; robust estimation; data association; measurement models for direction of arrival, time difference of arrival, and frequency difference of arrival; geo-location algorithms; and performance analysis. Most of the course material is developed in planar Cartesian coordinates for simplicity; however, the extension to WGS84 coordinates is provided to equip the students for practical applications. Homework consists of both analytical problems and problems that require computer simulation using software such as MATLAB.
Course prerequisite(s): 
EN.525.614 Probability and Stochastic Processes for Engineers, EN.675.600 Systems Engineering for Space AND EN.675.601 Fundamentals of Engineering Space Systems I. An undergraduate course in linear algebra/matrix theory, and familiarity with MATLAB are required.675.600 Systems Engineering for Space675.601 Fundamentals of Engineering Space Systems IAn undergraduate course in linear algebra/matrix theory, and familiarity with MATLAB are required.
Course instructor(s) :