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Advanced radar detection schemes under mismatched signal models

Adaptive detection of signals embedded in correlated Gaussian noise has been an active field of research in the last decades. This topic is important in many areas of signal processing such as, just to give some examples, radar, sonar, communications, and hyperspectral imaging. Most of the existing...

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Bibliographic Details
Main Author: Bandiera, Francesco, 1963-
Other Authors: Orlando, Danilo., Ricci, Giuseppe.
Format: Electronic
Language:English
Published: San Rafael, Calif. (1537 Fourth Street, San Rafael, CA 94901 USA) : Morgan & Claypool Publishers, c2009.
Series:Synthesis lectures on signal processing (Online) ; # 8.
Subjects:
Adaptive signal processing > Mathematical models.
Signal detection > Mathematical models.
Radar > Automatic detection > Mathematical models.
Online Access:View fulltext via EzAccess
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020 # # |a 9781598298420 (electronic bk.) 
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024 7 # |a 10.2200/S00170ED1V01Y200902SPR008  |2 doi 
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100 1 # |a Bandiera, Francesco,  |d 1963- 
245 1 0 |a Advanced radar detection schemes under mismatched signal models  |c Francesco Bandiera, Danilo Orlando, Giuseppe Ricci.  |h [electronic resource] / 
260 # # |a San Rafael, Calif. (1537 Fourth Street, San Rafael, CA 94901 USA) :  |b Morgan & Claypool Publishers,  |c c2009. 
300 # # |a 1 electronic text (viii, 95 p. : ill.) :  |b digital file. 
490 1 # |a Synthesis lectures on signal processing,  |v # 8  |x 1932-1694 ; 
500 # # |a Part of: Synthesis digital library of engineering and computer science. 
500 # # |a Title from PDF t.p. (viewed on March 9, 2009). 
500 # # |a Series from website. 
504 # # |a Includes bibliographical references (p. 91-95). 
505 0 # |a Introduction -- Adaptive radar detection of targets with perfectly known steering vector -- The radar scenario -- Discrete-time target and noise models -- The GLRT and the two-step GLRT-based design procedure with application to adaptive detection of a signal known up to a complex factor -- Adaptive detection of a signal known up to a complex factor -- Adaptive detection schemes for mismatched signals -- Mismatched signals -- Robust receivers -- Selective receivers -- Tunable receivers -- Parametric receivers -- Two-stage receivers -- Enhanced adaptive sidelobe blanking algorithms -- The subspace-based adaptive sidelobe blanker (S-ASB) -- Pfa and Pd of the S-ASB -- Performance prediction in presence of mismatched signals -- The W-ABORT and subspace-based adaptive sidelobe blanker (WAS-ASB) -- Pfa and Pd of the WAS-ASB -- Performance prediction in presence of mismatched signals -- Conclusions -- Complex normal related statistics -- Statistical characterization of Kelly's detector, AMF, ACE, and W-ABORT -- Statistical characterization of S-ASB and WAS-ASB -- Stochastic representations for tSD and β -- Statistical characterization of b and c -- Distributions under H0 -- Distributions under H1 87 -- Bibliography. 
506 # # |a Abstract freely available; full-text restricted to subscribers or individual document purchasers. 
510 0 # |a Compendex 
510 0 # |a INSPEC 
510 0 # |a Google scholar 
510 0 # |a Google book search 
520 # # |a Adaptive detection of signals embedded in correlated Gaussian noise has been an active field of research in the last decades. This topic is important in many areas of signal processing such as, just to give some examples, radar, sonar, communications, and hyperspectral imaging. Most of the existing adaptive algorithms have been designed following the lead of the derivation of Kelly's detector which assumes perfect knowledge of the target steering vector. However, in realistic scenarios, mismatches are likely to occur due to both environmental and instrumental factors. When a mismatched signal is present in the data under test, conventional algorithms may suffer severe performance degradation. The presence of strong interferers in the cell under test makes the detection task even more challenging. An effective way to cope with this scenario relies on the use of "tunable" detectors, i.e., detectors capable of changing their directivity through the tuning of proper parameters. The aim of this book is to present some recent advances in the design of tunable detectors and the focus is on the so-called two-stage detectors, i.e., adaptive algorithms obtained cascading two detectors with opposite behaviors. We derive exact closed-form expressions for the resulting probability of false alarm and the probability of detection for both matched and mismatched signals embedded in homogeneous Gaussian noise. It turns out that such solutions guarantee a wide operational range in terms of tunability while retaining, at the same time, an overall performance in presence of matched signals commensurate with Kelly's detector. 
530 # # |a Also available in print. 
538 # # |a Mode of access: World Wide Web. 
538 # # |a System requirements: Adobe Acrobat reader. 
650 # 0 |a Adaptive signal processing  |x Mathematical models. 
650 # 0 |a Signal detection  |x Mathematical models. 
650 # 0 |a Radar  |x Automatic detection  |x Mathematical models. 
690 # # |a Adaptive radar detection 
690 # # |a Constant false alarm rate (CFAR) 
690 # # |a Interference rejection 
690 # # |a Mismatched signals 
690 # # |a Tunable detectors 
700 1 # |a Orlando, Danilo. 
700 1 # |a Ricci, Giuseppe. 
730 0 # |a Synthesis digital library of engineering and computer science. 
830 # 0 |a Synthesis lectures on signal processing (Online) ;  |v # 8. 
856 4 2 |u https://ezaccess.library.uitm.edu.my/login?url=http://dx.doi.org/10.2200/S00170ED1V01Y200902SPR008  |z View fulltext via EzAccess 

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