MARC Record from marc_columbia

LEADER: 06229cam a2200781Ia 4500
001 13725483
005 20220703224307.0
006 m o d
007 cr cn|||||||||
008 110816s2010 ncua ob 001 0 eng d
010 $a 2010028108
035 $a(OCoLC)ocn746853929
035 $a(NNC)13725483
040 $aKNOVL$beng$epn$cKNOVL$dOCLCQ$dZCU$dDEBSZ$dOCLCQ$dN$T$dYDXCP$dKNOVL$dE7B$dKNOVL$dOCLCF$dKNOVL$dUIU$dOCLCQ$dAGLDB$dREB$dOCLCQ$dVTS$dCEF$dRRP$dCOD$dAU@$dWYU$dSTF$dUKAHL$dHS0$dOCLCO
019 $a849937573$a1026442914$a1058055692$a1065813968
020 $a9781613441572$q(electronic bk.)
020 $a1613441576$q(electronic bk.)
020 $a9781613531501$q(electronic bk.)
020 $a1613531508$q(electronic bk.)
020 $z9781891121951
020 $z1891121952
024 8 $a3350424
035 $a(OCoLC)746853929$z(OCoLC)849937573$z(OCoLC)1026442914$z(OCoLC)1058055692$z(OCoLC)1065813968
037 $bKnovel Corporation$nhttp://www.knovel.com
050 4 $aTK7871.6$b.P75 2010eb
072 7 $aTEC$x061000$2bisacsh
072 7 $aTEC$x034000$2bisacsh
082 04 $a621.384$222
049 $aZCUA
245 00 $aPrinciples of waveform diversity and design /$cMichael C. Wicks [and others].
260 $aRaleigh, NC :$bSciTech Pub.,$c©2010.
300 $a1 online resource (xx, 1208 pages) :$billustrations
336 $atext$btxt$2rdacontent
337 $acomputer$bc$2rdamedia
338 $aonline resource$bcr$2rdacarrier
504 $aIncludes bibliographical references and index.
588 0 $aPrint version record.
505 0 $aDedication: P. M.Woodward and the Ambiguity Function, Lars Falk; Introduction: A Short History of Waveform Diversity, Eric L. Mokole and Michael C. Wicks; Section A: Waveform Diversity Paradigms; 1. Diversity Strategies: Lessons from Natural Systems, Michele Vespe, Gareth Jones, and Chris J. Baker; 2. Distributed and Layered Sensing, Michael C. Wicks and William Moore; 3. Waveform Diversity and Sensors as Robots in Advanced Military Systems, Donald D. Weiner, Michael C. Wicks, and Gerard T. Capraro
505 8 $a4. Implications of Diversity from a Sensing Point of View, Tapan K. Sarkar, Santana Burintramart, N. Yllmazer, Y. Zhang, Arijit De, Magdalena Salazar-Palma, M.A. Lagunas, Eric L. Mokole, and M.C. WicksSection B: Applications; Part I: Multi-mission Systems; 5. An Evolutionary Algorithm Approach to Simultaneous Multi-Mission Radar Waveform Design, Vincent J. Amuso and Jason Enslin; 6. Interlacing of Non-Uniform Doppler Waveforms and MetricSpace Geometry of Negative Curvature, F. Barbaresco
505 8 $a7. Evolutionary Algorithms Based Sparse SpectrumWaveform Optimization, Weixian Liu, Y. L. Lu, and Marc Lesturgie8. Intra-Pulse Radar-Embedded Communications, Shannon D. Blunt and James M. Stiles; 9. Waveform Design for Joint Digital Beamforming Radar and MIMO Communications Operability, Christian Sturm and Werner Wiesbeck; 10. A Transform Domain Communication and Jamming Waveform, Abel Nunez, Vasu Chakravarthy, and James Caldwell; 11. Optimal Space-Time Transmit Signals for Multi-Mode Radar, Jim Stiles and Vishal Sinha; Part II: Long-Range Active Sensing
505 8 $a12. Waveform Diversity and Adaptive Signal Processing to Improve SBR GMTI Performance Degraded by MEO Antenna Mechanical Distortions, Richard S. Pierro, Scott E. Parker, Richard Schneible, Yuhong Zhang, and Abdelhak Hajjari13. Multidimensional Waveform Encoding for Spaceborne Synthetic Aperture Radar Remote Sensing, Gerhard Krieger, Nicolas Gebert, and Alberto Moreira; 14. Time Reversed Over-The-Horizon Radar, Eung G. Paek, Joon Y. Choe, and Eric L. Mokole; 15. Issues with Orthogonal Waveform Use in MIMO HF OTH Radars, Ben A. Johnson, Gordon J. Frazer, and Yuri I. Abramovich
505 8 $aPart III: Distributed Aperture Sensing16. Waveform Diversity and Signal Processing Strategies in Multistatic Radar Systems, Ivan Bradaric, Gerard T. Capraro, and Michael C. Wicks; 17. A Framework for Optimal Code Design for MIMO Radar, Pinaki Ray and Langford White; 18. Space-Time Adaptive Processing for Frequency-Diverse Distributed Aperture Radars, Raviraj Adve, Earnest Lock, and Lorne Applebaum; 19. A Novel Waveform Diversity Model for Distributed Aperture Radars with Consideration on Environment Non-Stationarity, Luciano Landi and Raviraj S. Adve
520 $aThis is the first book to discuss current and future applications of waveform diversity and design in subjects such as radar and sonar, communications systems, passive sensing, and many other technologies. Waveform diversity allows researchers and system designers to optimize electromagnetic and acoustic systems for sensing, communications, electronic warfare or combinations thereof. This book enables solutions to problems, explaining how each system performs its own particular function, as well as how it is affected by other systems and how those other systems may likewise be affected. It is.
650 0 $aAntenna radiation patterns.
650 0 $aBeamforming.
650 0 $aRadar.
650 0 $aRadio waves.
650 0 $aSignal processing.
650 6 $aDiagrammes de rayonnement d'une antenne.
650 6 $aFormation de faisceau.
650 6 $aRadar.
650 6 $aOndes radioélectriques.
650 6 $aTraitement du signal.
650 7 $aradar.$2aat
650 7 $aTECHNOLOGY & ENGINEERING$xMobile & Wireless Communications.$2bisacsh
650 7 $aTECHNOLOGY & ENGINEERING$xRadio.$2bisacsh
650 7 $aAntenna radiation patterns.$2fast$0(OCoLC)fst00810037
650 7 $aBeamforming.$2fast$0(OCoLC)fst01747083
650 7 $aRadar.$2fast$0(OCoLC)fst01086712
650 7 $aRadio waves.$2fast$0(OCoLC)fst01087617
650 7 $aSignal processing.$2fast$0(OCoLC)fst01118281
655 0 $aElectronic books.
655 4 $aElectronic books.
700 1 $aWicks, Michael C.
776 08 $iPrint version:$tPrinciples of waveform diversity and design.$dRaleigh, NC : SciTech Pub., ©2010$z9781891121951$w(DLC) 2010028108$w(OCoLC)607975619
830 0 $aKnovel Library.
856 40 $uhttp://www.columbia.edu/cgi-bin/cul/resolve?clio13725483$zACADEMIC - Aerospace & Radar Technology
852 8 $blweb$hEBOOKS