Physics of Automatic Target Recognition

Hardcover | February 6, 2007

EditorFirooz Sadjadi

not yet rated|write a review
This book examines the roles of sensors, physics-based attributes, classification methods, and performance evaluation in automatic target recognition. It details target classification from small mine-like objects to large tactical vehicles. Also explored in the book are invariants of sensor and transmission transformations, which are crucial in the development of low latency and computationally manageable automatic target recognition systems.

Pricing and Purchase Info

$362.95

In stock online
Ships free on orders over $25

From the Publisher

This book examines the roles of sensors, physics-based attributes, classification methods, and performance evaluation in automatic target recognition. It details target classification from small mine-like objects to large tactical vehicles. Also explored in the book are invariants of sensor and transmission transformations, which are c...

From the Jacket

Physics of Automatic Target Recognition addresses the fundamental physical bases of sensing, and information extraction in the state-of-the art automatic target recognition field. It explores both passive and active multispectral sensing, polarimetric diversity, complex signature exploitation, sensor and processing adaptation, transfor...

Format:HardcoverDimensions:262 pages, 9.25 × 6.1 × 0.04 inPublished:February 6, 2007Publisher:Springer New YorkLanguage:English

The following ISBNs are associated with this title:

ISBN - 10:038736742X

ISBN - 13:9780387367422

Look for similar items by category:

Customer Reviews of Physics of Automatic Target Recognition

Reviews

Extra Content

Table of Contents

Kernal-based nonlinear subspace target detection for hyperspectral imagery.- Theory of invariant algebra and its use in automatic target recognition.- automatic recognition of underground targets using time-frequency analysis and optimization techniques.- A weighted Zak transform, its properties, and applications to signal processing.- Using polarization features of visible light for automatic landmine detection.- The physics of polarization sensitive optical imaging.- Dispersion, its effects and compensation.- Multi-Sensor target recognition in image response space using evolutionary algorithms.- Biophysics of the eye in computer vision: Methods and advanced technologies.- Two approaches to 3D microorganism recognition using single exposure online (SEOL) digital holography.- Distortion-tolerant 3-D object recognition by using single exposure on-axis digital holography.- Design of distortion-invariant optical ID tags for remote identifications and verification of objects.- Speckle elimination with a maximum likelihood estimation and an isoline regularization.