Verfügbarkeit: Space time adaptive processing

Space time adaptive processing: principles and applications

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Bibliographische Detailangaben
1. Verfasser:	Klemm, Richard (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	London Institution of Electrical Engineers 1998
Schriftenreihe:	Institution of Electrical Engineers: IEE radar, sonar, navigation and avionics series 9
Schlagworte:	Adaptive antennas Sonar Adaptive signal processing Radar Adaptive Signalverarbeitung
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XXIV, 424 S. :Ill., zahlr. graph. Darst.
ISBN:	0852969465

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Datensatz im Suchindex

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adam_text	SPACE-TIME ADAPTIVE PROCESSING PRINCIPLES AND APPLICATIONS RICHARD KLEMM THE INSTITUTION OF ELECTRICAL ENGINEERS CONTENTS PREFACE GLOSSARY 1 INTRODUCTION 1.1 1.2 PRELIMINARY REMARKS 1.1.1 1.1.2 1.1.3 1.1.4 1.1.5 1.1.6 1.1.7 RADAR 1.2.1 1.2.2 1.2.3 1.2.4 BASICS OF MTI RADAR ONE-DIMENSIONAL CLUTTER CANCELLATION ASPECTS OF AIR- AND SPACEBORNE RADAR IMPACT OF PLATFORM MOTION SOME NOTES ON PHASED-ARRAY RADAR SYSTEMS AND EXPERIMENTS VALIDITY OF MODEIS IIGNAL-PROCESSING TOOLS THE OPTIMUM PROCESSOR SOME PROPERTIES OF THE OPTIMUM PROCESSOR SIMULATION OF INTERFERENCE DATA EXAMPLES ORTHOGONAL PROJECTION KNOWN INTERFERENCE UNKNOWN INTERFERENCE EXAMPLES COMPARISON WITH OPTIMUM PROCESSING LINEAR SUBSPACE TRANSFORMS SIDELOBE CANCELLER MULTIPLE BEAMS DISJOINT SUBGROUPS OVERLAPPING SUBGROUPS CLUTTER SUPPRESSION WITH DIGITAL FILTERS FIR FILTERS HR FILTERS PAGE XV XX 1 1 2 3 4 4 9 9 10 12 12 15 16 16 20 20 21 21 22 23 24 26 29 30 30 31 32 VI SPACE-TIME ADAPTIVE PROCESSING WHITENING ALTERS BASED ON THE AUTOCORRELATION EQUATIONS 33 WHITENING ALTERS BASED ON THE CROSSCORRELATION EQUATIONS 34 IMPROVEMENT FACTOR FOR FIR WHITENING ALTERS 35 EXAMPLE 36 1.2.5 ANGLE OR FREQUENCY-DOMAIN PROCESSING 37 1.3 SPECTRAL ESTIMATION 38 1.3.1 SIGNAL MATCH (SM) 39 1.3.2 MINIMUM-VARIANCE ESTIMATOR, MVE 40 1.3.3 MAXIMUM-ENTROPY METHOD, MEM 41 1.3.4 ORTHOGONAL PROJECTION, MUSIC 42 1.3.5 COMPARISON OF SPECTRAL ESTIMATORS 42 1.4 SUMMARY 44 SIGNAL AND INTERFERENCE MODEIS 46 2.1 TRANSMIT AND RECEIVE PROCESS 46 2.2 THE DOPPLER EFFECT 47 2.3 SPACE-TIME SIGNALS 49 2.3.1 THE SPATIAL DIMENSION: ARRAY GEOMETRY 49 SENSOR DIRECTIVITY PATTERNS 50 2.3.2 THE TEMPORAL DIMENSION: PULSE TRAINS 50 RESPONSE TO A SINGLE CLUTTER PATCH 51 RESPONSE TO A MOVING TARGET 52 2.4 INTERFERENCE 53 2.4.1 GROUND CLUTTER 53 2.4.2 MOVING CLUTTER 55 2.4.3 JAMMING 56 2.4.4 NOISE 57 2.5 BANDWIDTH EFFECTS 57 2.5.1 CLUTTER BANDWIDTH 57 2.5.2 SYSTEM BANDWIDTH 58 RECTANGULAR IMPULSE RESPONSE 58 RECTANGULAR FREQUENCY RESPONSE 59 2.5.3 TOTAL CORRELATION MODEL 59 2.6 THE STANDARD PARAMETER SET 60 2.6.1 MULTIPLE-TIME-AROUND CLUTTER 62 IH SUMMARY GO PROPERTIES OF AIRBORNE CLUTTER 64 3.1 SPACE-DOPPLER CHARACTERISTICS 64 3.1.1 ISODOPS 64 3.1.2 DOPPLER-AZIMUTH CLUTTER TRAJECTORIES 65 SIDE-LOOKING LINEAR ARRAY 67 CONTENTS VII FORWARD-LOOKING LINEAR ARRAY 68 RANGE DEPENDENCE OF CLUTTER DOPPLER 68 OTHER ARRAY CONFIGURATIONS 68 CONCLUSIONS CONCERNING THE DESIGN OF MTI SYSTEMS 71 3.2 THE SPACE-TIME COVARIANCE MATRIX 71 3.2.1 THE COMPONENTS 72 CLUTTER 73 JAMMING 75 NOISE 76 3.2.2 THE DPCA PRINCIPLE 76 A CLOSER LOOK AT THE CLUTTER COMPONENT OF Q 76 THE DPCA TWO-PULSE CANCELLER 79 THE CPCT TECHNIQUE 81 3.2.3 EIGENSPECTRA 81 A GENERALISED FORMULA FOR THE NUMBER OF EIGENVALUES 84 3.3 POWER SPECTRA 87 3.3.1 FOURIER SPECTRA 87 3.3.2 HIGH-RESOLUTION SPECTRA 89 MINIMUM-VARIANCE ESTIMATOR 89 3.4 EFFECT OF RADAR PARAMETERS ON INTERFERENCE SPECTRA 90 3.4.1 ARRAY ORIENTATION 90 3.4.2 TEMPORAL AND SPATIAL SAMPLING 91 TEMPORAL UNDERSAMPLING 91 SPATIAL UNDERSAMPLING 94 3.4.3 BANDWIDTH EFFECTS 94 CLUTTER BANDWIDTH 94 SYSTEM BANDWIDTH 96 3.4.4 CLUTTER AND JAMMER SPECTRA 101 3.5 ASPECTS OF ADAPTIVE SPACE-TIME CLUTTER REJECTION 104 3.5.1 ILLUSTRATION OF THE PRINCIPLE 104 OPTIMUM TEMPORAL FILTERING 105 OPTIMUM SPATIAL FILTERING 105 SPACE-TIME ADAPTIVE FILTERING 105 3.5.2 SOME CONCLUSIONS 106 BANDWIDTH LIMITATIONS 106 THE ROLE OF DPCA IN SPACE-TIME ADAPTIVE PROCESSING 107 3.6 SUMMARY 107 FULLY ADAPTIVE SPACE-TIME PROCESSORS 110 4.1 INTRODUCTION 110 4.2 GENERAL DESCRIPTION 111 VIII SPACE-TIME ADAPTIVE PROCESSING 4.2.1 THE OPTIMUM-ADAPTIVE PROCESSOR (OAP) 111 THE POTENTIAL OF SPACE-TIME ADAPTIVE PROCESSING 114 4.2.2 THE ORTHOGONAL-PROJECTION PROCESSOR (OPP) 115 SIDE-LOOKING ARRAY, DPCA CONDITIONS 117 4.3 OPTIMUM PROCESSING AND MOTION COMPENSATION 118 4.3.1 PRINCIPLE OF PVF MOTION COMPENSATION 118 4.3.2 CORRECTION PATTERNS 120 4.3.3 INTERRELATION WITH THE OPTIMUM PROCESSOR 121 EXAMPLE: THE INVERSE OF Q FOR M=2 121 CORRECTION PATTERNS 121 COMPARISON 123 4.4 INFLUENCE OF RADAR PARAMETERS 125 4.4.1 TRANSMIT BEAMWIDTH 125 4.4.2 ARRAY AND SAMPLE SIZE 126 4.4.3 SAMPLING EFFECTS 128 TEMPORAL UNDERSAMPLING 128 SPATIAL UNDERSAMPLING 129 NONDPCA SAMPLING 132 4.4.4 INFLUENCE OF THE CNR 133 4.4.5 BANDWIDTH EFFECTS 134 CLUTTER BANDWIDTH 134 SYSTEM BANDWIDTH 135 4.4.6 MOVING CLUTTER 138 4.5 RANGE-DOPPLER IF MATRIX 138 4.6 SUMMARY 149 SPACE-TIME SUBSPACE TECHNIQUES 142 5.1 PRINCIPLE OF SPACE-TIME SUBSPACE TRANSFORMS 142 5.2 THE AUXILIARY EIGENVECTOR PROCESSOR (AEP) 144 5.2.1 COMPARISON WITH THE OPTIMUM ADAPTIVE PROCESSOR (OAP) 145 5.2.2 REDUCTION OF THE NUMBER OF CHANNELS 146 5.2.3 BANDWIDTH EFFECTS 147 CLUTTER BANDWIDTH 148 SYSTEM BANDWIDTH 148 5.3 AUXILIARY-CHANNEL PROCESSOR (ACP) 149 5.3.1 COMPARISON WITH OPTIMUM PROCESSOR 152 5.3.2 REDUCTION OF THE NUMBER OF CHANNELS 152 5.3.3 BANDWIDTH EFFECTS 153 CLUTTER BANDWIDTH 154 SYSTEM BANDWIDTH 154 5.4 OTHER SPACE-TIME TRANSFORMS 155 5.4.1 SINGLE AUXILIARY ELEMENTS AND ECHO SAMPLES TRANSFORM 155 CONTENTS IX 5.5 5.6 5.4.2 5.4.3 ASPECTS 5.5.1 5.5.2 5.5.3 SPACE-TIME SAMPLE SUBGROUPS SPACE-TIME BLOCKING MATRICES ; OF IMPLEMENTATION GENERAL PROPERTIES NUMBER OF OPERATIONS SYSTEM BANDWIDTH CALCULATION OF THE MATRIX INVERSE AUXILIARY-EIGENVECTOR PROCESSOR GENERATION OF AUXILIARY CHANNELS AUXILIARY-CHANNEL PROCESSOR GENERATION OF AUXILIARY CHANNELS NUMBER OF CHANNELS RELATED CONCEPT SUMMARY SPATIAL TRANSFORMS FOR LINEAR ARRAYS 6.1 6.2 6.3 6.4 6.5 SUBARRAYS 6.1.1 6.1.2 6.1.3 OVERLAPPING UNIFORM SUBARRAYS (OUS) COMPARISON WITH OPTIMUM PROCESSING NUMBER OF CHANNELS THE OVERLAPPING SUBARRAY PROCESSOR EFFECT OF SUBARRAY DISPLACEMENT NONUNIFORM SUBARRAYS SOME BACKGROUND EXAMPLES AUXILIARY-SENSOR TECHNIQUES 6.2.1 6.2.2 6.2.3 6.2.4 SPATIAL SYMMETRIE AUXILIARY-SENSOR CONFIGURATION (SAS) COMPARISON WITH OPTIMUM PROCESSING NUMBER OF CHANNELS THE PROCESSOR FURTHER REDUETION OF THE SIGNAL VECTOR SPACE BANDWIDTH EFFECTS CLUTTER BANDWIDTH SYSTEM BANDWIDTH ASYMMETRIE AUXILIARY SENSOR CONFIGURATION OPTIMUM PLANAR ANTENNAS BLOCKING-MATRIX TRANSFORM NUMERICAL EXAMPLE X-A PROCESSING SUMMARY 156 156 157 157 157 157 158 159 159 159 159 159 160 160 162 163 163 165 165 166 166 169 169 171 173 173 175 175 179 180 180 181 182 183 185 186 188 189 191 7 ADAPTIVE SPACE-TIME DIGITAL FILTERS 193 7.1 LEAST-SQUARES FIR FILTERS 194 X SPACE-TIME ADAPTIVE PROCESSING 7.1.1 PRINCIPLE OF SPACE-TIME LEAST-SQUARES FIR FILTERS 194 SOME REMARKS ON PREDICTION-ERROR FILTERS 194 EXTENSION TO SPACE-TIME RADAR DATA 195 PREBEAMFORMING 197 IMPROVEMENT FACTOR 197 FILTER LENGTH AND EIGENVALUES 198 7.1.2 FUELL ANTENNA ARRAY 199 7.1.3 SPATIAL TRANSFORMS AND FIR FILTERING 200 UNIFORM OVERLAPPING SUBARRAYS 201 SYMMETRIE AUXILIARY SENSORS 201 DISJOINT SUBARRAYS 202 COMPARISON OF PROCESSORS 202 COMPUTATIONAL COMPLEXITY 203 7.2 IMPACT OF RADAR PARAMETERS 204 7.2.1 SAMPLE SIZE 204 SPATIAL FILTER DIMENSION 206 TEMPORAL FILTER DIMENSION 207 DOPPLER FILTER LENGTH 208 7.2.2 BANDWIDTH EFFECTS 209 SYSTEM BANDWIDTH 209 CLUTTER BANDWIDTH 210 7.2.3 COMPUTATION OF THE FILTER COEFFICIENTS 210 7.3 OTHER FILTER TECHNIQUES 210 7.3.1 FIR FILTERS FOR SPATIAL AND TEMPORAL DIMENSION 210 7.3.2 THE PROJEETION TECHNIQUE 211 7.3.3 SPACE-TIME HR FILTERS 214 7.3.4 ADAPTIVE DPCA (ADPCA) 214 7.4 SUMMARY 214 ANTENNA-RELATED ASPECTS 216 8.1 INTRODUCTION 216 8.2 NONLINEAR ARRAY CONFIGURATIONS 217 8.2.1 CIRCULAR PLANAR ARRAYS 218 SPACE-TIME PROCESSOR WITH APERTURE TAPERING 218 CLUTTER-REJECTION PERFORMANCE 223 IMPACT OF CLUTTER REJEETION ON BEAMPATTERNS 225 DIFFERENCE-PATTERN GENERATION AT SUBARRAY LEVEL 228 REDUCTION OF THE NUMBER OF SUBARRAYS 230 2-A PROCESSING 235 8.2.2 RANDOMLY SPACED ARRAYS 238 EXAMPLE FOR PLANAR ARRAYS: THE ELRA ANTENNA 238 VOLUME ARRAYS 241 8.2.3 CONFORMAL ARRAYS 243 CYLINDRICAL ARRAYS 244 CONTENTS XI FORWARD-LOOKING CONFORMAL ARRAYS 244 8.2.4 HORIZONTAL PLANAR ARRAYS 245 8.3 STAP AND CONVENTIONAL MTI PROCESSING 245 8.3.1 INTRODUCTION 245 8.3.2 LINEAR ARRAYS 247 8.3.3 CIRCULAR PLANAR ARRAY 249 NO TAPERING 250 INFLUENCE OF TAPERING 251 EFFECT OF TEMPORAL FILTER LENGTH 252 EFFECT OFPRF 253 8.3.4 VOLUME ARRAY 257 8.4 SUMMARY 257 SPACE-FREQUENCY PROCESSING 259 9.1 INTRODUCTION 259 9.2 THE AUXILIARY SPACE-TIME CHANNEL PROCESSOR (ACP) 260 9.3 THE 2D SYMMETRIE AUXILIARY-SENSOR/ECHO PROCESSOR (ASEP) 260 9.3.1 COMPUTING THE INVERSES OF THE SPECTRAL COVARIANCE MATRICES 264 9.4 FREQUENCY-DOMAIN FIR FILTER (FDFF) 264 9.5 FREQUENCY-DEPENDENT SPATIAL PROCESSING (FDSP) 266 SPATIAL BLOCKING MATRICES 269 9.6 COMPARISON OF PROCESSORS 269 9.7 ANGLE-DOPPLER SUBGROUPS 270 9.7.1 GENERAL DESCRIPTION 270 9.7.2 COMPARISON WITH OTHER TECHNIQUES 272 9.7.3 OTHER POSTDOPPLER TECHNIQUES 274 9.8 SUMMARY 275 10 CLUTTER REJEETION UNDER JAMMING CONDITIONS 276 10.1 INTRODUCTION 276 10.2 SIMULTANEOUS JAMMER AND CLUTTER CANCELLATION 277 10.2.1 OPTIMUM ADAPTIVE PROCESSING (OAP) 278 10.2.2 COHERENT REPEATER JAMMERS 280 10.2.3 SPACE-TIME AUXILIARY-CHANNEL PROCESSORS 280 AUXILIARY-EIGENVECTOR PROCESSOR (AEP) 281 AUXILIARY-CHANNEL PROCESSOR (ACP) 282 10.2.4 SPATIAL AUXILIARY-CHANNEL PROCESSORS 283 SIDE-LOOKING LINEAR ARRAY 283 FORWARD-LOOKING ARRAY 283 COMPARISON OF SPATIAL AND SPACE-TIME AUXILIARY-CHANNEL PROCESSING 286 XII SPACE-TIME ADAPTIVE PROCESSING 10.2.5 CIRCULAR ARRAY WITH SUBARRAY PROCESSOR 286 10.3 SEPARATE JAMMER WITH CLUTTER CANCELLATION 288 10.3.1 OPTIMUM JAMMER CANCELLATION AND AUXILIARY-CHANNEL CLUTTER FILTER 288 THE PRINCIPLE 289 A NOTE ON SYMMETRY 290 RESULTS 291 10.3.2 JAMMER AND CLUTTER AUXILIARY-CHANNEL FILTERS CASCADED 292 THE PRINCIPLE 292 RESULTS 296 COMPUTATIONAL EXPENSE 297 SIDEBAND JAMMER CANCELLATION 299 10.4 JAMMING IN THE RANGE-DOPPLER IF MATRIX 300 10.5 TERRAIN-SCATTERED JAMMING 300 TRANSMIT WAVEFORM 301 ADAPTIVE MULTIPATH CANCELLATION 302 10.6 SUMMARY 303 11 INTERRELATED PROBLEMS IN SAR AND ISAR 305 11.1 CLUTTER REJECTION FOR MULTICHANNEL ISAR 306 11.1.1 MODELS 306 SIGNAL 307 CLUTTER 308 NOISE 309 11.1.2 SPACE-TIME FIR FILTERING 310 CHOICEOFPRF 310 11.1.3 EFFECT OF CLUTTER CANCELLATION ON ISAR RESOLUTION 311 TEMPORAL FILTER LENGTH 312 LENGTH OF COHERENT ECHO BURST 312 BEHAVIOUR CLOSE TO CLUTTER NOTCH 313 11.2 JAMMER NULLING FOR MULTICHANNEL RADAR/SAR 314 11.2.1 MODELS 31 6 JAMMING 318 NOISE 31G SIGNAL 319 11.2.2 COMPARISON OF MODEIS 320 SIGNAL 320 INTERFERENCE 320 NOISE 320 11.2.3 MV SPECTRA OF JAMMERS AND NOISE 321 11.2.4 SPACE-TIME FIR FILTER APPROACH 323 11.2.5 EFFECT OFBROADBAND JAMMER CANCELLATION ON SAR RESOLUTION 324 BEHAVIOUR IN THE FILTER PASSBAND 325 BEHAVIOUR CLOSE TO THE INTERFERENCE DIRECTION 326 CONTENTS XIII 11.3 SUMMARY 327 12 SPECIAL ASPECTS OF AIRBORNE MTI RADAR 330 12.1 ANTENNA-ARRAY ERRORS 330 12.1.1 TOLERANCES OF SENSOR POSITIONS 331 THE OPTIMUM ADAPTIVE PROCESSOR(OAP) 331 THE AUXILIARY-CHANNEL PROCESSOR (ACP) 331 THE SYMMETRIE AUXILIARY-SENSOR FIR FILTER (ASFF) 333 12.1.2 ARRAY-CHANNEL ERRORS 335 IQ ERRORS 336 ADDITIONAL DELAY ERRORS 338 DC OFFSET ERROR 339 TOLERANCES OF THE FILTER CHARACTERISTICS 339 12.1.3 CHANNEL EQUALISATION 340 ARRAY CALIBRATION 340 STEERING-VECTOR OPTIMISATION 341 SPATIAL COMPENSATION FOR CHANNEL ERRORS 341 ENDER S APPROACH: FREQUENCY-FREQUENCY CALIBRATION 341 ESTIMATION OF THE ARRAY MANIFOLD 343 COMBINED COVARIANCE MATRIX/BEAMFORMER ESTIMATION 343 12.2 RANGE DEPENDENCE OF CLUTTER DOPPLER FREQUENCY 344 12.2.1 MULTIPLE-TIME-AROUND CLUTTER 344 FORWARD-LOOKING ARRAY 346 SIDE4OOKING ARRAY 350 12.2.2 MULTIPLE CLUTTER IN THE RANGETLOPPLER IF MATRIX 350 12.2.3 IMPACT ON ADAPTION AND FILTERING 353 12.3 ASPECTS OF IMPLEMENTATION 354 12.3.1 COMPARISON OF TECHNIQUES IN TERMS OF COMPUTATIONAL COMPLEXITY 354 REAL-TIME IMPLEMENTATIONS OF STAP ALGORITHMS 356 12.3.2 EFFECT OF SHORT-TIME DATA PROCESSING 357 12.3.3 INCLUSION OF SIGNAL IN ADAPTION 357 12.3.4 HOMOGENEITY OF CLUTTER BACKGROUND 360 ORTHOGONAL-PROJECTION FIR ALTERS 360 PROCESSING OF UNDERNULLED CLUTTER 361 KNOWLEDGE-BASED SPACE-TIME FILTERING 361 NONHOMOGENEITY DETECTION 362 12.3.5 NONADAPTIVE SPACE-TIME FILTERING 362 DESIGN OF A ROBUST FILTER 362 CHOICE OF ALTERS 363 12.3.6 FURTHER LIMITATIONS 363 NEAR-FIELD OBSTACLES 363 MANOEUVRING RADAR PLATFORM 364 XIV SPACE-TIME ADAPTIVE PROCESSING STAGGERED-PULSE OPERATION 364 RANGE WALK 364 RADOME EFFECTS 365 12.4 ADAPTIVE ALGORITHMS 366 12.4.1 APPROXIMATIONS OF THE OPTIMUM PROCESSOR 366 SAMPLE MATRIX INVERSION (SMI) 366 UPDATED INVERSE 367 STEEPEST-DESCENT TECHNIQUES 368 12.4.2 QR DECOMPOSITION 369 12.4.3 ORTHOGONAL-PROJECTION ALGORITHMS 370 GRAM-SCHMIDT ORTHOGONALISATION 371 HUNG-TURNER METHOD 371 CONVERGENCE 372 A GENERAL REMARK ON ORTHOGONAL-PROJECTION TECHNIQUES 373 12.5 ALTERNATIVE PROCESSOR CONCEPTS 375 12.5.1 LEAST-SQUARES PREDICTIVE TRANSFORM 375 12.5.2 DETERMINISTIC EIGENVALUE APPROACH 375 12.5.3 POLARISATION-SPACE-TIME PROCESSING 376 12.5.4 ANGLE AND DOPPLER ESTIMATION 377 12.6 SUMMARY 37G BIBLIOGRAPHY 37G APPENDIX: SONAR APPLICATIONS 395 A.1 INTRODUCTION 395 A.2 SIGNAL PROCESSING IN THE MODAL ENVIRONMENT 396 A.2.1 SIGNAL MODEIS 395 COVARIANCE MATRIX ACROSS SENSOR ARRAY 396 STEERING VECTOR 39G A.2.2 EXTENSION TO SPACE-TIME MATCHED-FIELD PROCESSING 399 A.3 ACTIVE SONAR APPLICATION: SUPPRESSION OF REVERBERATION 400 A.4 ESTIMATION OF TARGET POSITION AND VELOCITY 401 INFLUENCE OF SURFACE FLUCTUATIONS 408 APPLICATION: A MULTISTATIC CW SURVEILLANCE SYSTEM 408 A.5 SUMMARY 409 INDEX 411
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id	DE-604.BV012938215
illustrated	Not Illustrated
indexdate	2024-07-09T18:36:21Z
institution	BVB
isbn	0852969465
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-008808304
oclc_num	605631651
open_access_boolean
owner	DE-91 DE-BY-TUM DE-83
owner_facet	DE-91 DE-BY-TUM DE-83
physical	XXIV, 424 S. :Ill., zahlr. graph. Darst.
publishDate	1998
publishDateSearch	1998
publishDateSort	1998
publisher	Institution of Electrical Engineers
record_format	marc
series	Institution of Electrical Engineers: IEE radar, sonar, navigation and avionics series
series2	Institution of Electrical Engineers: IEE radar, sonar, navigation and avionics series
spelling	Klemm, Richard Verfasser aut Space time adaptive processing principles and applications Richard Klemm Space-time adaptive processing London Institution of Electrical Engineers 1998 XXIV, 424 S. :Ill., zahlr. graph. Darst. txt rdacontent n rdamedia nc rdacarrier Institution of Electrical Engineers: IEE radar, sonar, navigation and avionics series 9 Adaptive antennas Sonar Adaptive signal processing Radar Adaptive Signalverarbeitung (DE-588)4128146-9 gnd rswk-swf Radar (DE-588)4176765-2 gnd rswk-swf Sonar (DE-588)4181785-0 gnd rswk-swf Adaptive Signalverarbeitung (DE-588)4128146-9 s Radar (DE-588)4176765-2 s DE-604 Sonar (DE-588)4181785-0 s Institution of Electrical Engineers: IEE radar, sonar, navigation and avionics series 9 (DE-604)BV001895737 9 GBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=008808304&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Klemm, Richard Space time adaptive processing principles and applications Institution of Electrical Engineers: IEE radar, sonar, navigation and avionics series Adaptive antennas Sonar Adaptive signal processing Radar Adaptive Signalverarbeitung (DE-588)4128146-9 gnd Radar (DE-588)4176765-2 gnd Sonar (DE-588)4181785-0 gnd
subject_GND	(DE-588)4128146-9 (DE-588)4176765-2 (DE-588)4181785-0
title	Space time adaptive processing principles and applications
title_alt	Space-time adaptive processing
title_auth	Space time adaptive processing principles and applications
title_exact_search	Space time adaptive processing principles and applications
title_full	Space time adaptive processing principles and applications Richard Klemm
title_fullStr	Space time adaptive processing principles and applications Richard Klemm
title_full_unstemmed	Space time adaptive processing principles and applications Richard Klemm
title_short	Space time adaptive processing
title_sort	space time adaptive processing principles and applications
title_sub	principles and applications
topic	Adaptive antennas Sonar Adaptive signal processing Radar Adaptive Signalverarbeitung (DE-588)4128146-9 gnd Radar (DE-588)4176765-2 gnd Sonar (DE-588)4181785-0 gnd
topic_facet	Adaptive antennas Sonar Adaptive signal processing Radar Adaptive Signalverarbeitung
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=008808304&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
volume_link	(DE-604)BV001895737
work_keys_str_mv	AT klemmrichard spacetimeadaptiveprocessingprinciplesandapplications AT klemmrichard spacetimeadaptiveprocessing

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