Physics of multiantenna systems and broadband processing:
Gespeichert in:
| Hauptverfasser: | , |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Hoboken, NJ
Wiley
2008
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| Schriftenreihe: | Wiley series in microwave and optical engineering
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| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis lizenzfrei Inhaltsverzeichnis lizenzfrei Inhaltsverzeichnis |
| Beschreibung: | Weitere Ausgabe: Sarkar, Tapan K.: Physics of multiantenna systems and broadband processing Literaturangaben |
| Beschreibung: | XXI, 562 S. Ill., graph. Darst. 25 cm |
| ISBN: | 047019040X 9780470190401 |
Internformat
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| 500 | |a Literaturangaben | ||
| 650 | 0 | |a Antenna arrays / Mathematical models | |
| 650 | 0 | |a MIMO systems / Mathematical models | |
| 650 | 0 | |a Broadband communication systems / Mathematical models | |
| 650 | 4 | |a Mathematisches Modell | |
| 650 | 4 | |a Antenna arrays |x Mathematical models | |
| 650 | 4 | |a Broadband communication systems |x Mathematical models | |
| 650 | 4 | |a MIMO systems |x Mathematical models | |
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Datensatz im Suchindex
| _version_ | 1804139093938929664 |
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| adam_text | PHYSICS OF MULTIANTENNA SYSTEMS AND BROADBAND PROCESSING TAPAN K. SARKAR
MAGDALENA SALAZAR-PALMA ERIC L. MOKOLE WITH CONTRIBUTIONS FROM: SANTANA
BURINTRAMART JEFFREY T. CARLO WONSUK CHOI ARIJIT DE DEBALINA GHOSH
SEUNGHYEON HWANG JINHWAN KOH RAUL FERNAENDEZ RECIO MARY TAYLOR NURI
YILMAZER YU ZHANG WILEY A JOHN WILEY & SONS, INC., PUBLICATION
CONTENTS PREFACE . . . . . . . . XV ACKNOWLEDGMENTS . . . . . . XXI
CHAPTER 1 WHAT IS AN ANTENNA AND HOW DOES IT WORK? 1 1.0 SUMMARY 1 1.1
HISTORICAL OVERVIEW OF MAXWELL S EQUATIONS 2 1.2 REVIEW OF
MAXWELL-HEAVISIDE-HERTZ EQUATIONS 4 1.2.1 FARADAY S LAW 4 1.2.2
GENERALIZED AMPERE S LAW 7 1.2.3 GENERALIZED GAUSS S LAW OF
ELECTROSTATICS 8 1.2.4 GENERALIZED GAUSS S LAW OF MAGNETOSTATICS 9 1.2.5
EQUATION OF CONTINUITY 10 1.3 SOLUTION OF MAXWELL S EQUATIONS 10 1.4
RADIATION AND RECEPTION PROPERTIES OF A POINT SOURCE ANTENNA IN
FREQUENCY AND IN TIME DOMAIN 15 1.4.1 RADIATION OF FIELDS FROM POINT
SOURCES 15 1.4.1.1 FAR FIELD IN FREQUENCY DOMAIN OF A POINT RADIATOR 16
1.4.1.2 FAR FIELD IN TIME DOMAIN OF A POINT RADIATOR. 17 1.4.2 RECEPTION
PROPERTIES OF A POINT RECEIVER 18 1.5 RADIATION AND RECEPTION PROPERTIES
OF FINITE-SIZED DIPOLE-LIKE STRUCTURES IN FREQUENCY AND IN TIME 20 1.5.1
RADIATION FIELDS FROM WIRE-LIKE STRUCTURES IN THE FREQUENCY DOMAIN 20
1.5.2 RADIATION FIELDS FROM WIRE-LIKE STRUCTURES IN THE TIME DOMAIN 21
1.5.3 INDUCED VOLTAGE ON A FINITE-SIZED RECEIVE WIRE-LIKE STRUCTURE DUE
TO A TRANSIENT INCIDENT FIELD 21 1.6 CONCLUSION 22 REFERENCES 23 CHAPTER
2 FUNDAMENTALS OFANTENNA THEORY IN THEFREQUENCY DOMAIN 25 2.0 SUMMARY 25
2.1 FIELD PRODUCED BY AHERTZIAN DIPOLE 25 2.2 CONCEPT OF NEAR AND FAR
FIELDS 28 V VI PHYSICS OF MULTIANTENNA SYSTEMS & BROADBAND PROCESSING
2.3 FIELD RADIATED BY A SMALL CIRCULAR LOOP 30 2.4 FIELD PRODUCED BY A
FINITE-SIZED DIPOLE 32 2.5 RADIATION FIELD FROM A LINEAR ANTENNA 34 2.6
NEAR- AND FAR-FIELD PROPERTIES OF ANTENNAS 36 2.6.1 WHAT IS BEAMFORMING
USING ANTENNAS 36 2.6.2 USE OF SPATIAL ANTENNA DIVERSITY 43 2.7 THE
MATHEMATICS AND PHYSICS OF AN ANTENNA ARRAY 46 2.8 PROPAGATION MODELING
IN THE FREQUENCY DOMAIN 49 2.9 CONCLUSION 57 REFERENCES 57 CHAPTER 3
FUNDAMENTALS OF AN ANTENNA IN THE TIME DOMAIN 59 3.0 SUMMARY 59 3.1
INTRODUCTION 59 3.2 UWB INPUT PULSE 61 3.3 TRAVELLING-WAVE ANTENNA 62
3.4 RECIPROCITY RELATION BETWEEN ANTENNAS 63 3.5 ANTENNA SIMULATIONS 65
3.6 LOADED ANTENNAS 65 3.6.1 DIPOLE 65 3.6.2 BICONES 71 3.6.3 TEM HOERN
74 3.6.4 LOG-PERIODIC 78 3.6.5 SPIRAL 80 3.7 CONVENTIONAL WIDEBAND
ANTENNAS 83 3.7.1 VOLCANO SMOKE 83 3.7.2 DIAMOND DIPOLE 85 3.7.3
MONOFILAR HELIX 86 3.7.4 CONICAL SPIRAL 88 3.7.5 MONOLOOP 90 3.7.6
QUAD-RIDGED CIRCULAR HOERN 91 3.7.7 BI-BLADE WITH CENTURY BANDWIDTH 93
3.7.8 CONE-BLADE 94 3.7.9 VIVALDI 96 3.7.10 IMPULSE RADIATING ANTENNA
(IRA) 97 3.7.11 CIRCULAR DISC DIPOLE 99 3.7.12 BOW-TIE 100 3.7.13
PLANARSLOT 101 3.8 EXPERIMENTAL VERIFICATION OF THE WIDEBAND RESPONSES
FROM ANTENNAS 102 3.9 CONCLUSION 108 REFERENCES 109 CHAPTER 4 A LOOK AT
THE CONCEPT OF CHANNEL CAPACITY FROM A MAXWELLIAN VIEWPOINT 113 CONTENTS
VII 4.0 SUMMARY 113 4.1 INTRODUCTION 114 4.2 HISTORY OF ENTROPY AND ITS
EVOLUTION 117 4.3 DIFFERENT FORMULATIONS FOR THE CHANNEL CAPACITY 118
4.4 INFORMATION CONTENT OF A WAVEFORM 124 4.5 NUMERICAL EXAMPLES
ILLUSTRATING THE RELEVANCE OF THE MAXWELLIAN PHYSICS IN CHARACTERIZING
THE CHANNEL CAPACITY 130 4.5.1 MATCHED VERSUS UNMATCHED RECEIVING DIPOLE
ANTENNA WITH A MATCHED TRANSMITTING ANTENNA OPERATING IN FREE SPACE 131
4.5.2 USE OF DIRECTIVE VERSUS NONDIRECTIVE MATCHED TRANSMITTING ANTENNAS
LOCATED AT DIFFERENT HEIGHTS ABOVE THE EARTH FOR A FIXED MATCHED
RECEIVER HEIGHT ABOVE GROUND 133 4.5.2.1 TRANSMITTING HOERN ANTENNA AT A
HEIGHT OF20 M 135 4.5.2.2 TRANSMITTING DIPOLE ANTENNA AT A HEIGHT OF20 M
136 4.5.2.3 ORIENTING THE TRANSMITTING HOERN OR THE DIPOLE ANTENNA
LOCATED AT A HEIGHT OF 20 M TOWARDS THE RECEIVING ANTENNA 137 4.5.2.4
THE TRANSMITTING HOERN AND DIPOLE ANTENNA LOCATED AT A HEIGHT OF 2 M
ABOVE GROUND 137 4.5.2.5 TRANSMITTING HOERN AND DIPOLE ANTENNA LOCATED
CLOSE TO THE GROUND BUT TILTED TOWARDS THE SKY ... 138 4.5.2.6 CHANNEL
CAPACITY AS A FUNCTION OF THE HEIGHT OF THE TRANSMITTING DIPOLE ANTENNA
FROM THE EARTH 139 4.5.2.7 PRESENCE OF A DIELECTRIC WALL INTERRUPTING
THE DIRECT LINE-OFSIGHT BETWEEN TRANSMITTING AND RECEIVING ANTENNAS 141
4.5.2.8 INCREASE IN CHANNEL CAPACITY WHEN MATCHED RECEIVING ANTENNA IS
ENCAPSULATED BY A DIELECTRIC BOX 143 4.6 CONCLUSION 146 4.7 APPENDIX:
HISTORY OF ENTROPY AND ITS EVOLUTION 148 REFERENCES 164 CHAPTER 5
MULTIPLE-INPUT-MULTIPLE-OUTPUT (MIMO) ANTENNA SYSTEMS 167 VIII PHYSICS
OF MULTIANTENNA SYSTEMS & BROADBAND PROCESSING 5.0 SUMMARY 167 5.1
INTRODUCTION 168 5.2 DIVERSITY IN WIRELESS COMMUNICATIONS 168 5.2.1 TIME
DIVERSITY 169 5.2.2 FREQUENCY DIVERSITY 170 5.2.3 SPACE DIVERSITY 170
5.3 MULTIANTENNA SYSTEMS 172 5.4 MULTIPLE-INPUT-MULTIPLE-OUTPUT (MIMO)
SYSTEMS 173 5.5 CHANNEL CAPACITY OF THE MIMO ANTENNA SYSTEMS 176 5.6
CHANNEL KNOWN AT THE TRANSMITTER 178 5.6.1 WATER-FILLING ALGORITHM 179
5.7 CHANNEL UNKNOWN AT THE TRANSMITTER 180 5.7.1 ALAMOUTI SCHEME 180 5.8
DIVERSITY-MULTIPLEXING TRADEOFF 182 5.9 MIMO UNDER A VECTOR
ELECTROMAGNETIC METHODOLOGY 183 5.9.1 MIMO VERSUS SISO 184 5.10 MORE
APPEALING RESULTS FOR A MIMO SYSTEM 189 5.10.1 CASE STUDY: 1 189 5.10.2
CASE STUDY: 2 190 5.10.3 CASE STUDY: 3 191 5.10.4 CASE STUDY: 4 194
5.10.5 CASE STUDY: 5 197 5.11 PHYSICS OF MIMO IN A NUTSHELL 199 5.11.1
LINE-OF-SIGHT (LOS) MIMO SYSTEMS WITH PARALLEL ANTENNA ELEMENTS ORIENTED
ALONG THE BROADSIDE DIRECTION 200 5.11.2 LINE-OF-SIGHT MIMO SYSTEMS WITH
PARALLEL ANTENNA ELEMENTS ORIENTED ALONG THE BROADSIDE DIRECTION 202
5.11.3 NON-LINE-OF-SIGHT MIMO SYSTEMS WITH PARALLEL ANTENNA ELEMENTS
ORIENTED ALONG THE BROADSIDE DIRECTION : 204 5.12 CONCLUSION 206
REFERENCES 207 CHAPTER 6 USEOF THE OUTPUT ENERGY FILTER IN MULTIANTENNA
SYSTEMS FOR ADAPTIVE ESTIMATION 209 6.0 SUMMARY 209 6.1 VARIOUSFORMS
OFTHE OPTIMUM FILTERS 210 6.1.1 MATCHED FILTER (CROSS-CORRELATION
FILTER) 211 6.1.2 A WIENER FILTER 212 6.1.3 AN OUTPUT ENERGY FILTER
(MINIMUM VARIANCE FILTER) 213 6.1.4 EXAMPLE OFTHE FILTERS 214 CONTENTS
IX 6.2 DIRECT DATA DOMAIN LEAST SQUARES APPROACHES TO ADAPTIVE
PROCESSING BASED ON A SINGLE SNAPSHOT OF DATA ...215 6.2.1 EIGENVALUE
METHOD 218 6.2.2 FORWARD METHOD 220 6.2.3 BACKWARD METHOD 221 6.2.4
FORWARD-BACKWARD METHOD 222 6.2.5 REAL TIME IMPLEMENTATION OF THE
ADAPTIVE PROCEDURE 224 6.3 DIRECT DATA DOMAIN LEAST SQUARES APPROACH TO
SPACE- TIME ADAPTIVE PROCESSING 226 6.3.1 TWO-DIMENSIONAL GENERALIZED
EIGENVALUE PROCESSOR 230 6.3.2 LEAST SQUARES FORWARD PROCESSOR 232 6.3.3
LEAST SQUARES BACKWARD PROCESSOR 236 6.3.4 LEAST SQUARES
FORWARD-BACKWARD PROCESSOR 237 6.4 APPLICATION OF THE DIRECT DATA DOMAIN
LEAST SQUARES TECHNIQUES TO AIRBORNE RADAR FOR SPACE-TIME ADAPTIVE
PROCESSING 238 6.5 CONCLUSION 246 REFERENCES 247 CHAPTER 7 MINIMUM NORM
PROPERTY FOR THE SUM OF THE ADAPTIVE WEIGHTS IN ADAPTIVE OR IN
SPACE-TIME PROCESSING 249 7.0 SUMMARY 249 7.1 INTRODUCTION 250 7.2
REVIEW OF THE DIRECT DATA DOMAIN LEAST SQUARES APPROACH 251 7.3 REVIEW
OF SPACE-TIME ADAPTIVE PROCESSING BASED ON THE D3LS METHOD 253 7.4
MINIMUM NORM PROPERTY OF THE ADAPTIVE WEIGHTS AT THE DOA OF THE SOI FOR
THE 1-D CASE AND AT DOPPLER FREQUENCY AND DOA FOR STAP 255 7.5 NUMERICAL
EXAMPLES 258 7.6 CONCLUSION 273 REFERENCES 274 CHAPTER 8 USING REAL
WEIGHTS IN ADAPTIVE AND SPACE-TIME PROCESSING 275 8.0 SUMMARY 275 8.1
INTRODUCTION 275 8.2 FORMULATION OF A DIRECT DATA DOMAIN LEAST SQUARES
APPROACH USING REAL WEIGHTS 277 8.2.1 FORWARD METHOD 277 8.2.2 BACKWARD
METHOD 281 X PHYSICS OF MULTIANTENNA SYSTEMS & BROADBAND PROCESSING
8.2.3. FORWARD-BACKWARD METHOD 282 8.3 SIMULATION RESULTS FOR ADAPTIVE
PROCESSSING 283 8.4 FORMULATION OF AN AMPLITUDE-ONLY DIRECT DATA DOMAIN
LEAST SQUARES SPACE-TIME ADAPTIVE PROCESSING 289 8.4.1 FORWARD METHOD
289 8.4.2 BACKWARD METHOD 291 8.4.3 FORWARD-BACKWARD METHOD 292 8.5
SIMULATION RESULTS 292 8.6 CONCLUSION 299 REFERENCES 300 CHAPTER 9
PHASE-ONLY ADAPTIVE AND SPACE-TIME PROCESSING 303 9.0 SUMMARY 303 9.1
INTRODUCTION 303 9.2 FORMULATION OF THE DIRECT DATA DOMAIN LEAST SQUARES
SOLUTION FOR A PHASE-ONLY ADAPTIVE SYSTEM 304 9.2.1 FORWARD METHOD 304
9.2.2 BACKWARD METHOD 310 9.2.3 FORWARD-BACKWARD METHOD 310 9.3
SIMULATION RESULTS 311 9.4 FORMULATION OF A PHASE-ONLY DIRECT DATA
DOMAIN LEAST SQUARES SPACE-TIME ADAPTIVE PROCESSING 318 9.4.1 FORWARD
METHOD 318 9.4.2 BACKWARD METHOD 318 9.4.3 FORWARD-BACKWARD METHOD 318
9.5 SIMULATION RESULTS 319 9.6 CONCLUSION 322 REFERENCES 322 CHAPTER 10
SIMULTANEOUS MULTIPLE ADAPTIVE BEAMFORMING 323 10.0 SUMMARY 323 10.1
INTRODUCTION 323 10.2 FORMULATION OF A DIRECT DATA DOMAIN APPROACH FOR
MULTIPLE BEAMFORMING 324 10.2.1 FORWARD METHOD 324 10.2.2 BACKWARD
METHOD 327 10.2.3 FORWARD-BACKWARD METHOD 328 10.3 SIMULATION RESULTS
328 10.4 FORMULATION OF A DIRECT DATA DOMAIN LEAST SQUARES APPROACH FOR
MULTIPLE BEAMFORMING IN SPACE-TIME ADAPTIVE PROCESSING 332 10.4.1
FORWARD METHOD 332 10.4.2 BACKWARD METHOD 336 10.4.3 FORWARD-BACKWARD
METHOD 337 CONTENTS XI 10.5 SIMULATION RESULTS 338 10.6 CONCLUSION 345
REFERENCES 345 CHAPTER 11 PERFORMANCE COMPARISON BETWEEN
STATISTICAL-BASED AND DIRECT DATA DOMAIN LEAST SQUARES SPACE-TIME
ADAPTIVE PROCESSING ALGORITHMS 347 11.0 SUMMARY 347 11.1 INTRODUCTION
347 11.2 DESCRIPTION OF THE VARIOUS SIGNALS OF INTEREST 348 11.2.1
MODELINGOFTHESIGNAL-OF-INTEREST 349 11.2.2 MODELING OF THE CLUTTER 349
11.2.3 MODELING OF THE JAMMER 350 11.2.4 MODELING OF THE DISCRETE
INTERFERERS 350 11.3 STATISTICAL-BASED STAP ALGORITHMS 351 11.3.1
FULL-RANK OPTIMUM STAP 351 11.3.2 REDUCED-RANK STAP (RELATIVE IMPORTANCE
OF THE EIGENBEAM METHOD) 352 11.3.3 REDUCED-RANK STAP (BASED ON THE
GENERALIZED SIDELOBE CANCELLER) 353 11.4 DIRECT DATA DOMAIN LEAST
SQUARES STAP ALGORITHMS 356 11.5 CHANNEL MISMATCH 356 11.6 SIMULATION
RESULTS 357 11.7 CONCLUSION 368 REFERENCES 368 CHAPTER 12 APPROXIMATE
COMPENSATION FOR MUTUAL COUPLING USING THE IN SITU ANTENNA ELEMENT
PATTERNS 371 12.0 SUMMARY 371 12.1 INTRODUCTION 371 12.2 FORMULATION OF
THE NEW DIRECT DATA DOMAIN LEAST SQUARES APPROACH APPROXIMATELY
COMPENSATING FOR THE EFFECTS OF MUTUAL COUPLING USING THE IN SITU
ELEMENT PATTERNS 373 12.2.1 FORWARD METHOD 373 12.2.3 BACKWARD METHOD
376 12.2.4 FORWARD-BACKWARD METHOD 377 12.3 SIMULATION RESULTS 378 12.4
REASON FOR A DECLINE IN THE PERFORMANCE OF THE ALGORITHM WHEN THE
INTENSITY OF THE JAMMER IS INCREASED 386 12.5 CONCLUSION 386 REFERENCES
386 XII PHYSICS OF MULTIANTENNA SYSTEMS & BROADBAND PROCESSING CHAPTER
13 SIGNAL ENHANCEMENT THROUGH POLARIZATION ADAPTIVITY ON TRANSMIT IN A
NEAR-FIELD MIMO ENVIRONMENT 389 13.0 SUMMARY 389 13.1 INTRODUCTION 389
13.2 SIGNAL ENHANCEMENT METHODOLOGY THROUGH ADAPTIVITY ON TRANSMIT 391
13.3 EXPLOITATION OF THE POLARIZATION PROPERTIES IN THE PROPOSED
METHODOLOGY 395 13.4 NUMERICAL SIMULATIONS 395 13.4.1 EXAMPLE 1 396
13.4.2 EXAMPLE 2 402 13.4.3 EXAMPLE 3 406 13.5 CONCLUSION 410 REFERENCES
411 CHAPTER 14 DIRECTION OF ARRIVALESTIMATION BY EXPLOITINGUNITARY
TRANSFORM IN THE MATRIX PENCIL METHOD AND ITS COMPARISON WITH ESPRIT 413
14.0 SUMMARY 413 14.1 INTRODUCTION 413 14.2 THE UNITARY TRANSFORM 415
14.3 1-D UNITARY MATRIX PENCIL METHOD REVISITED 416 14.4 SUMMARY OF THE
1-D UNITARY MATRIX PENCIL METHOD 419 14.5 THE 2-D UNITARY MATRIX PENCIL
METHOD 419 14.5.1 POLE PAIRING FOR THE 2-D UNITARY MATRIX PENCIL METHOD
425 14.5.2 COMPUTATIONAL COMPLEXITY 426 14.5.3 SUMMARY OF THE 2-D
UNITARY MATRIX PENCIL METHOD 426 14.6 SIMULATION RESULTS RELATED TO THE
2-D UNITARY MATRIX PENCIL METHOD 427 14.7 THE ESPRIT METHOD 430 14.8
MULTIPLE SNAPSHOT-BASED MATRIX PENCIL METHOD 432 14.9 COMPARISON OF
ACCURACY AND EFFICIENCY BETWEEN ESPRIT AND THE MATRIX PENCIL METHOD 432
14.10 CONCLUSION 435 REFERENCES 436 CHAPTER 15 DOA ESTIMATION USING
ELECTRICALLY SMALL MATCHED DIPOLE ANTENNAS AND THE ASSOCIATED CRAMER-RAO
BOUND 439 15.0 SUMMARY 439 15.1 INTRODUCTION 440 15.2 DOA ESTIMATION
USING A REALISTIC ANTENNA ARRAY 441 15.2.1 TRANSFORMATION MATRIX
TECHNIQUE 441 CONTENTS XIII 15.3 CRAMER-RAO BOUND FOR DOA ESTIMATION 444
15.4 DOA ESTIMATION USING 0.1 X LONG ANTENNAS 445 15.5 DOA ESTIMATION
USING DIFFERENT ANTENNA ARRAY CONFIGURATIONS 448 15.6 CONCLUSION 461
REFERENCES 462 CHAPTER 16 NON-CONVENTIONAL LEAST SQUARES OPTIMIZATION
FOR DOA ESTIMATION USING ARBITRARY-SHAPED ANTENNA ARRAYS 463 16.0
SUMMARY 463 16.1 INTRODUCTION 463 16.2 SIGNAL MODELING 464 16.3
DFT-BASED DOA ESTIMATION 465 16.4 NON-CONVENTIONAL LEAST SQUARES
OPTIMIZATION 466 16.5 SIMULATION RESULTS 467 16.5.1 AN ARRAY OF LINEAR
UNIFORMLY SPACED DIPOLES 468 16.5.2 AN ARRAY OF LINEAR NON-UNIFORMLY
SPACED DIPOLES 470 16.5.3 AN ARRAY CONSISTING OF MIXED ANTENNA ELEMENTS
471 16.5.4. AN ANTENNA ARRAY OPERATING IN THE PRESENCE OF NEAR-FIELD
SCATTERERS 472 16.5.5 SENSITIVITY OF THE PROCEDURE DUE TO A SMALL CHANGE
IN THE OPERATING ENVIRONMENT 473 16.5.6 SENSITIVITY OF THE PROCEDURE DUE
TO A LARGE CHANGE IN THE OPERATING ENVIRONMENT 474 16.5.7 AN ARRAY OF
MONOPOLES MOUNTED UNDERNEATH AN AIRCRAFT 476 16.5.8. A NON-UNIFORMLY
SPACED NONPLANAR ARRAY OF MONOPOLES MOUNTED UNDER AN AIRCRAFT 477 16.6
CONCLUSION 479 REFERENCES 479 CHAPTER 17 BROADBAND DIRECTION OF ARRIVAL
ESTIMATIONS USING THE MATRIX PENCIL METHOD 481 17.0 SUMMARY 481 17.1
INTRODUCTION 481 17.2 BRIEF OVERVIEWOF THE MATRIX PENCIL METHOD 482 17.3
PROBLEM FORMULATION FOR SIMULTANEOUS ESTIMATION OF DOA AND THE FREQUENCY
OF THE SIGNAL 488 17.4 CRAMER-RAO BOUND FOR THE DIRECTION OF ARRIVAL AND
FREQUENCY OF THE SIGNAL 494 17.5 EXAMPLE USING ISOTROPIE POINT SOURCES
505 17.6 EXAMPLE USING REALISTIC ANTENNA ELEMENTS 512 XIV PHYSICS OF
MULTIANTENNA SYSTEMS & BROADBAND PROCESSING 17.7 CONCLUSION 521
REFERENCES 521 CHAPTER 18 ADAPTIVE PROCESSING OF BROADBAND SIGNALS 523
18.0 SUMMARY 523 18.1 INTRODUCTION 523 18.2 FORMULATION OF A DIRECT DATA
DOMAIN LEAST SQUARES METHOD FOR ADAPTIVE PROCESSING OF FINITE BANDWIDTH
SIGNALS HAVING DIFFERENT FREQUENCIES 524 18.2.1 FORWARD METHOD FOR
ADAPTIVE PROCESSING OF BROADBAND SIGNALS 524 18.2.2 BACKWARD METHOD 529
18.2.3 FORWARD-BACKWARD METHOD 529 18.3 NUMERICAL SIMULATION RESULTS 530
18.4 CONCLUSION 535 REFERENCES 535 CHAPTER 19 EFFECT OF RANDOM ANTENNA
POSITION ERRORS ON A DIRECT DATA DOMAIN LEAST SQUARES APPROACH FOR
SPACE-TIME ADAPTIVE PROCESSING 537 19.0 SUMMARY 537 19.1 INTRODUCTION
537 19.2 EIRP DEGRADATION OF ARRAY ANTENNAS DUE TO RANDOM POSITION
ERRORS 540 19.3 EXAMPLE OF EIRP DEGRADATION IN ANTENNA ARRAYS 544 19.4
SIMULATION RESULTS 547 19.5 CONCLUSION 551 REFERENCES 551 INDEX . . . .
. . . 553
|
| any_adam_object | 1 |
| author | Sarkar, Tapan K. Salazar-Palma, Magdalena |
| author_facet | Sarkar, Tapan K. Salazar-Palma, Magdalena |
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| author_sort | Sarkar, Tapan K. |
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| callnumber-subject | TK - Electrical and Nuclear Engineering |
| ctrlnum | (OCoLC)183392677 (DE-599)GBV551982225 |
| dewey-full | 621.384/135 |
| dewey-hundreds | 600 - Technology (Applied sciences) |
| dewey-ones | 621 - Applied physics |
| dewey-raw | 621.384/135 |
| dewey-search | 621.384/135 |
| dewey-sort | 3621.384 3135 |
| dewey-tens | 620 - Engineering and allied operations |
| discipline | Elektrotechnik / Elektronik / Nachrichtentechnik |
| format | Book |
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| id | DE-604.BV035482682 |
| illustrated | Illustrated |
| indexdate | 2024-07-09T21:38:37Z |
| institution | BVB |
| isbn | 047019040X 9780470190401 |
| language | English |
| lccn | 2007050158 |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-017539201 |
| oclc_num | 183392677 |
| open_access_boolean | |
| owner | DE-706 |
| owner_facet | DE-706 |
| physical | XXI, 562 S. Ill., graph. Darst. 25 cm |
| publishDate | 2008 |
| publishDateSearch | 2008 |
| publishDateSort | 2008 |
| publisher | Wiley |
| record_format | marc |
| series2 | Wiley series in microwave and optical engineering |
| spelling | Sarkar, Tapan K. Verfasser aut Physics of multiantenna systems and broadband processing Tapan K. Sarkar ; Magdalena Salazar-Palma ; Eric L. Mokole. With contributions from: Santana Burintramart ... Hoboken, NJ Wiley 2008 XXI, 562 S. Ill., graph. Darst. 25 cm txt rdacontent n rdamedia nc rdacarrier Wiley series in microwave and optical engineering Weitere Ausgabe: Sarkar, Tapan K.: Physics of multiantenna systems and broadband processing Literaturangaben Antenna arrays / Mathematical models MIMO systems / Mathematical models Broadband communication systems / Mathematical models Mathematisches Modell Antenna arrays Mathematical models Broadband communication systems Mathematical models MIMO systems Mathematical models Breitbandkommunikation (DE-588)4008113-8 gnd rswk-swf Antennengruppe (DE-588)4142611-3 gnd rswk-swf MIMO (DE-588)7540075-3 gnd rswk-swf Antennengruppe (DE-588)4142611-3 s MIMO (DE-588)7540075-3 s Breitbandkommunikation (DE-588)4008113-8 s DE-604 Salazar-Palma, Magdalena Verfasser aut http://www.gbv.de/dms/ilmenau/toc/551982225.PDF lizenzfrei Inhaltsverzeichnis http://www.loc.gov/catdir/enhancements/fy0806/2007050158-d.html Publisher description lizenzfrei http://www.loc.gov/catdir/enhancements/fy0806/2007050158-t.html lizenzfrei Inhaltsverzeichnis http://www.loc.gov/catdir/enhancements/fy0828/2007050158-b.html Contributor biographical information lizenzfrei GBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=017539201&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Sarkar, Tapan K. Salazar-Palma, Magdalena Physics of multiantenna systems and broadband processing Antenna arrays / Mathematical models MIMO systems / Mathematical models Broadband communication systems / Mathematical models Mathematisches Modell Antenna arrays Mathematical models Broadband communication systems Mathematical models MIMO systems Mathematical models Breitbandkommunikation (DE-588)4008113-8 gnd Antennengruppe (DE-588)4142611-3 gnd MIMO (DE-588)7540075-3 gnd |
| subject_GND | (DE-588)4008113-8 (DE-588)4142611-3 (DE-588)7540075-3 |
| title | Physics of multiantenna systems and broadband processing |
| title_auth | Physics of multiantenna systems and broadband processing |
| title_exact_search | Physics of multiantenna systems and broadband processing |
| title_full | Physics of multiantenna systems and broadband processing Tapan K. Sarkar ; Magdalena Salazar-Palma ; Eric L. Mokole. With contributions from: Santana Burintramart ... |
| title_fullStr | Physics of multiantenna systems and broadband processing Tapan K. Sarkar ; Magdalena Salazar-Palma ; Eric L. Mokole. With contributions from: Santana Burintramart ... |
| title_full_unstemmed | Physics of multiantenna systems and broadband processing Tapan K. Sarkar ; Magdalena Salazar-Palma ; Eric L. Mokole. With contributions from: Santana Burintramart ... |
| title_short | Physics of multiantenna systems and broadband processing |
| title_sort | physics of multiantenna systems and broadband processing |
| topic | Antenna arrays / Mathematical models MIMO systems / Mathematical models Broadband communication systems / Mathematical models Mathematisches Modell Antenna arrays Mathematical models Broadband communication systems Mathematical models MIMO systems Mathematical models Breitbandkommunikation (DE-588)4008113-8 gnd Antennengruppe (DE-588)4142611-3 gnd MIMO (DE-588)7540075-3 gnd |
| topic_facet | Antenna arrays / Mathematical models MIMO systems / Mathematical models Broadband communication systems / Mathematical models Mathematisches Modell Antenna arrays Mathematical models Broadband communication systems Mathematical models MIMO systems Mathematical models Breitbandkommunikation Antennengruppe MIMO |
| url | http://www.gbv.de/dms/ilmenau/toc/551982225.PDF http://www.loc.gov/catdir/enhancements/fy0806/2007050158-d.html http://www.loc.gov/catdir/enhancements/fy0806/2007050158-t.html http://www.loc.gov/catdir/enhancements/fy0828/2007050158-b.html http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=017539201&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT sarkartapank physicsofmultiantennasystemsandbroadbandprocessing AT salazarpalmamagdalena physicsofmultiantennasystemsandbroadbandprocessing |
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