Spatial Signal Processing with Emphasis on Emitter Localization

Spatial Signal Processing with Emphasis on Emitter Localization Anthony J. Weiss Spatial Signal Processing

What to expect? • The course covers the important theory developments associated with Emitter Location from 1939. • We will try to obtain detailed understanding of the results • We will not discuss in detail “existing systems” • After the course you should be able to: • Recommend a localization technique • Evaluate a theoretical Lower bound on performance • Estimate the localization performance as a function of sensors-source geometry, SNR, observation time, signal parameters (bandwidth, center frequency), model errors, localization technique, etc. Spatial Signal Processing

Contents • Introduction • Understanding Geographic Coordinates • Complex representation of RF Signals • Complex Random variables and vectors - probability density function and the complex gradient operator • Lower Bounds on Parameter Estimation Errors • Statistical Theory of Passive Location Systems (CEP, GDOP, uncertainty ellipse) • DOA Estimation of Single Signal • MLE – Deterministic Unknown Signal • MLE – Known Signal • MLE – Gaussian Signal • CRLB - Deterministic Unknown Signal • CRLB – Known Signal • CRLB – Gaussian Signal • Beam-forming • Capon’s Beam-former • Null Steering • Diversely Polarized Signals and Antennas Spatial Signal Processing

Contents • DOA Estimation Multiple Signals • MLE – Deterministic Unknown Signals • MLE – Known Signals • MLE – Gaussian Signals • CRLB - Deterministic Unknown Signals • CRLB – Known Signals • CRLB – Gaussian Signals • MUSIC Algorithm • Beam space MUSIC • Root MUSIC • IQML • ESPRIT • Weighted Subspace Fitting • EM Algorithm • Alternating Projection • MODE (optional) • Mono-pulse (optional) • Detection of Signal Subspace Dimension Spatial Signal Processing

Contents • DOA Based Localization • MLE and CRLB • Stansfield’s Algorithm • DOA GDOP • DOA CEP • TOA/DTOA Measurements • Methods (generalized CC, Leading Edge) • Lower bounds (CRLB, Modified Ziv-Zakai) • Localization based on TDOA/TOA • Maximum Likelihood • DPD • Closed form solutions • Received Signal Strength Measurements • Localization based on RSS • DDOP Measurements • DDOP Localization • DDOP+DTOA Localization • DPD (Direct Position Determination) • Outliers Spatial Signal Processing

Contents • Calibration of time, location, gain, phase array orientation • Model Errors • Localization of nodes in Sensors network • Single Site Location • Robust Estimator (M estimator, L estimators, p-norm) • Employment of sparsity for outliers removal Spatial Signal Processing

Spatial Signal Processing with Emphasis on Emitter Localization

Spatial Signal Processing with Emphasis on Emitter Localization

Presentation Transcript

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