Ultra wideband signals and systems in communication engineering:
Gespeichert in:
| Hauptverfasser: | , , |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Chichester
Wiley
2007
|
| Ausgabe: | 2. ed. |
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | Literaturverz. S. 288- 296 |
| Beschreibung: | XXX, 304 S. Ill., graph. Darst. |
| ISBN: | 9780470027639 |
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| 245 | 1 | 0 | |a Ultra wideband signals and systems in communication engineering |c M. Ghavani ; L. B. Michael ; R. Kohno |
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| 650 | 4 | |a Télécommunications à large bande, Systèmes de | |
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Datensatz im Suchindex
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| adam_text | ULTRA WIDEBAND SIGNALS AND SYSTEMS IN COMMUNICATION ENGINEERING SECOND
EDITION M. GHAVAMI KING S COLLEGE LONDON, UK L. B. MICHAEL JAPAN R.
KOHNO YOKOHAMA NATIONAL UNIVERSITY, JAPAN BICENTENNIAL 3 I CE NTE N NIA
L JOHN WILEY & SONS, LTD CONTENTS PREFACE ACKNOWLEDGMENTS LIST OF
FIGURES LIST OF TABLES INTRODUCTION LI ULTRA WIDEBAND OVERVIEW 1.2 A
NOTE ON TERMINOLOGY 1.3 HISTORICAL DEVELOPMENT OF UWB 1.4 UWB REGULATION
OVERVIEW 1.4-1 BASIC DEFINITIONS AND RULES 1.5 KEY BENEFITS OF UWB 1.6
UWB AND SHANNON S THEORY 1.7 CHALLENGES FOR UWB 1.8 SUMMARY BASIC
PROPERTIES OF UWB SIGNALS AND SYSTEMS 1.1 INTRODUCTION 1.2 POWER
SPECTRAL DENSITY 1.3 PULSE SHAPE XIII XVII XIX JBJB LJUE 1 1 2 2 3 4 5 6
7 7 9 9 10 11 CONTENTS 1.4 1.5 1.6 1.7 1.8 1.9 1.10 1.11 1.12 1.13 PULSE
TRAINS SPECTRAL MASKS MULTIPATH PENETRATION CHARACTERISTICS SPATIAL AND
SPECTRAL CAPACITIES SPEED OF DATA TRANSMISSION COST SIZE POWER
CONSUMPTION SUMMARY 14 16 17 20 20 21 23 23 GENERATION OF UWB WAVEFORMS
25 2.1 INTRODUCTION 25 2.1.1 DAMPED SINE WAVES 26 2.2 GAUSSIAN WAVEFORMS
28 2.3 DESIGNING WAVEFORMS FOR SPECIFIC SPECTRAL MASKS 31 2.3.1
INTRODUCTION 32 2.3.2 MULTIBAND MODULATION 33 2.4 PRACTICAL CONSTRAINTS
AND EFFECTS OF IMPERFECTIONS 39 2.5 SUMMARY 40 SIGNAL-PROCESSING
TECHNIQUES FOR UWB SYSTEMS 43 3.1 THE EFFECTS OF A LOSSY MEDIUM ON A UWB
TRANSMITTED SIGNAL 43 3.2 TIME DOMAIN ANALYSIS 46 3.2.1 CLASSIFICATION
OF SIGNALS 46 3.2.2 SOME USEFUL FUNCTIONS 48 3.2.3 SOME USEFUL
OPERATIONS 51 3.2.4 CLASSIFICATION OF SYSTEMS 54 3.2.5 IMPULSE RESPONSE
57 3.2.6 DISTORTIONLESS TRANSMISSION 57 3.3 FREQUENCY DOMAIN TECHNIQUES
57 3.3.1 FOURIER TRANSFORMS 57 3.3.2 FREQUENCY RESPONSE APPROACHES 58
3.3.3 TRANSFER FUNCTION 60 3.3.4 LAPLACE TRANSFORM 63 3.3.5 Z-TRANSFORM
64 3.3.6 THE RELATIONSHIP BETWEEN THE LAPLACE TRANSFORM, THE FOURIER
TRANSFORM, AND THE Z-TRANSFORM 67 CONTENTS VU 3-4 UWB SIGNAL-PROCESSING
ISSUES AND ALGORITHMS 68 3.5 DETECTION AND AMPLIFICATION 71 3.6 SUMMARY
72 4 UWB CHANNEL MODELING 75 4-1 A SIMPLIFIED UWB MULTIPATH CHANNEL
MODEL 76 4-1.1 NUMBER OF RESOLVABLE MULTIPATH COMPONENTS 78 4-1-2
MULTIPATH DELAY SPREAD 78 4-1.3 MULTIPATH INTENSITY PROFILE 79 4-1-4
MULTIPATH AMPLITUDE-FADING DISTRIBUTION 80 4-1.5 MULTIPATH ARRIVAL TIMES
81 4.2 PATH LOSS MODEL 83 4-2.1 FREE SPACE LOSS 83 4.2.2 REFRACTION 84
4-2.3 REFLECTION 84 4.2.4 DIFFRACTION 85 4.2.5 WAVE CLUTTER 85 4-2.6
APERTURE-MEDIUM COUPLING LOSS 85 4-2.7 ABSORPTION 85 4-2.8 EXAMPLE OF
FREE SPACE PATH LOSS MODEL 85 4-3 TWO-RAY UWB PROPAGATION MODEL 87 4-3.1
TWO-RAY PATH LOSS 88 4-3.2 TWO-RAY PATH LOSS MODEL 91 4-3.3 IMPACT OF
PATH LOSS FREQUENCY SELECTIVITY ON UWB TRANSMISSION 93 4-4 FREQUENCY
DOMAIN AUTOREGRESSIVE MODEL 96 4.4.I POLES OF THE AR MODEL 99 4-5 IEEE
PROPOSALS FOR UWB CHANNEL MODEIS 100 4-5.1 AN ANALYTICAL DESCRIPTION OF
THE IEEE UWB INDOOR CHANNEL MODEL 101 4-6 SUMMARY 106 5 UWB
COMMUNICATIONS 109 5.1 INTRODUCTION 109 5.2 UWB MODULATION METHODS 110
5.2.1 PPM 111 5.2.2 BPM 112 5.3 OTHER MODULATION METHODS 113 5.3.1 OPM
115 CONTENTS 5.3.2 PAM 115 5.3.3 OOK 116 5.3.4 SUVAMARY OF UWB
MODULATION METHODS 116 5.4 PULSE TRAINS 116 5.4-1 GAUSSIAN PULSE TRAIN
111 5-4-2 PN CHANNEL CODING 111 5-4-3 TIME-HOPPING PPM UWB SYSTEM 119
5.5 UWB TRANSMITTER 120 5.6 UWB RECEIVER 121 5.6.1 DETECTION 122 5.6.2
PULSE INTEGRATION 123 5.6.3 TRACKING 123 5.6-4 RAKE RECEIVERS 123 5.1
MULTIPLE ACCESS TECHNIQUES IN UWB 123 5.1.1 FREQUENCY DIVISION MULTIPLE
ACCESS UWB 124 5.1.2 TIME DIVISION MULTIPLE ACCESS 124 5.1.3 CODE
DIVISION MULTIPLE ACCESS 124 5.1.4 ORTHOGONAL PULSE MULTIPLE ACCESS
SYSTEM 124 5.8 CAPACITY OF UWB SYSTEMS 125 5.9 COMPARISON OF UWB WITH
OTHER WIDEBAND COMMUNICATION SYSTEMS 128 5.9.1 CDMA 130 5.9.2 COMPARISON
OF UWB WITH DSSS AND FHSS 130 5.9.3 OFDM 133 5.10 INTERFERENCE AND
COEXISTENCE OF UWB WITH OTHER SYSTEMS 136 5.10.1 WLANS 131 5.10.2
BLUETOOTH 139 5.10.3 GPS 140 5.10.4 CELLULAR SYSTEMS 141 5.10.5 WI-MAX
141 5.10.6 THE EFFECT OF NARROWBAND INTERFERENCE ON UWB SYSTEMS 143 5.11
SUMMARY 146 ADVANCED UWB PULSE GENERATION 149 6.1 HERMITE PULSES 149
6.1.1 HERMITE POLYNOMIALS 150 6.1.2 ORTHOGONAL MODIFIED HERMITE PULSES
151 IX 6.1.3 MODULATED AND MODIFIED HERMITE PULSES 154 6.2 ORTHOGONAL
PROLATE SPHEROIDAL WAVE FUNCTIONS 156 6.2.1 INTRODUCTION 157 6.2.2
FUNDAMENTALS OF PSWFS 158 6.2.3 PSWF PULSE GENERATOR 161 6.3 WAVELET
PACKETS IN UWB PSM 166 6.3.1 PSM SYSTEM MODEL 168 6.3.2 RECEIVER
STRUCTURE 169 6.4 SUMMARY 170 UWB ANTENNAS AND ARRAYS 173 7.1 ANTENNA
FUNDAMENTALS 174 7.1.1 MAXWELL S EQUATIONS FOR FREE SPACE 174 7.1.2
WAVELENGTH 176 7.1.3 ANTENNA DUALITY 176 7.1.4 IMPEDANCE MATCHING 176
7.1.5 VOLTAGE STANDING WAVE RATIO AND REFLECTED POWER 177 7.1.6 ANTENNA
BANDWIDTH 177 7.1.7 DIRECTIVITY AND GAIN 177 7.1.8 ANTENNA FIELD REGIONS
178 7.1.9 ANTENNA DIRECTIONAL PATTERN 178 7.1.10 BEAMMDTH 180 7.2
ANTENNA RADIATION FOR UWB SIGNALS 180 7.2.1 DISPERSION DUE TO NEAR-FIELD
EFFECTS 183 7.3 SUITABILITY OF CONVENTIONAL ANTENNAS FOR THE UWB SYSTEM
184 7.3.1 RESONANT ANTENNAS 184 7.3.2 NONRESONANT ANTENNAS 187 7.3.3
DIFFICULTIES WITH UWB ANTENNA DESIGN 187 7.4 IMPULSE ANTENNAS 188 7-4-1
CONICAL ANTENNA 188 7.4-2 MONOPOLE ANTENNA 189 7.4-3 D-DOT PROBE ANTENNA
190 7.4.4 TEM HOERN ANTENNA 190 7-4-5 SMALL-SIZE UWB ANTENNA 191 7-4-6
CONCLUSION 192 X CONTENTS 7.5 BEAMFORMING FOR UWB SIGNALS 192 7.5.1
BASIC CONCEPTS 193 7.5.2 A SIMPLE DELAY-LINE TRANSMITTER WIDEBAND ARRAY
194 7.6 RADAR UWB ARRAY SYSTEMS 201 7.7 SUMMARY 202 8 POSITION AND
LOCATION WITH UWB SIGNALS 205 8.1 WIRELESS POSITIONING AND LOCATION 205
8.1.1 TYPES OF WIRELESS POSITIONING SYSTEMS 206 8.1.2 WIRELESS DISTANCE
MEASUREMENT 206 8.1.3 MICROWAVE POSITIONING SYSTEMS 207 8.2 GPS
TECHNIQUES 210 8.2.1 DIFFERENTIAL GPS (DGPS) 211 8.2.2 GPS TRACKING
MODES 211 8.2.3 GPS ERROR SOURCES 212 8.3 POSITIONING TECHNIQUES 213
8.3.1 INTRODUCTION 213 8.3.2 NETWORK-BASED TECHNIQUES 213 8.3.3
HANDSET-BASED TECHNIQUES 218 8.3.4 HYBRID TECHNIQUES 220 8.3.5 OTHER
TECHNIQUES 220 8.4 TIME RESOLUTION ISSUES 221 8.4-1 NARROWBAND SYSTEMS
221 8.4.2 WIDEBAND SYSTEMS 221 8.4-3 SUPER-RESOLUTION TECHNIQUES 222
8.4.4 UWB SYSTEMS 225 8.5 UWB POSITIONING AND COMMUNICATIONS 227 8.5.1
POTENTIAL USER SCENARIOS 227 8.5.2 POTENTIAL APPLICATIONS 227 8.6
SUMMARY 228 9 APPLICATIONS USING UWB SYSTEMS 231 9.1 MILITARY
APPLICATIONS 231 9.1.1 PRECISION ASSET LOCATION SYSTEM 232 9.2
COMMERCIAL APPLICATIONS 233 9.2.1 TIME DOMAIN 234 9.2.2 XTREME SPECTRUM
236 9.2.3 INTEL CORPORATION 236 XI 9.2.4 MOTOROLA 237 9.2.5 FREESCALE
237 9.2.6 COMMUNICATION RESEARCH LABORATORY 238 9.2.7 GENERAL ATOMICS
238 9.2.8 WISAIR 239 9.2.9 ARTIMI 239 9.2.10 UBISENSE 240 9.2.11 HOME
NETWORKING AND HOME ELECTRONICS 240 9.2.12 PAL SYSTEM 242 9.3 UWB
POTENTIALS IN MEDICINE 243 9.3.1 FUNDAMENTALS OF MEDICAL UWB RADAR 246
9.3.2 UWB RADAR FOR REMOTE MONITORING OF PATIENT S VITAL ACTIVITIES 246
9.3.3 UWB RESPIRATORY MONITORING SYSTEM 247 9.4 SUMMARY 249 10 UWB
COMMUNICATION STANDARDS 251 10.1 UWB STANDARDIZATION IN WIRELESS
PERSONAL AREA NETWORKS 251 10.1.1 WPAN STANDARDIZATION OVERVIEW 252
10.1.2 IEEE 802.15.3A 253 10.1.3 IEEE 802.15.4A 255 10.2 DS-UWB PROPOSAL
255 10.2.1 DS-UWB OPERATING BANDS 256 10.2.2 ADVANTAGES OF DS-UWB 258
10.3 MB-OFDM UWB PROPOSAL 258 10.3.1 FREQUENCY BAND ALLOCATION 259
10.3.2 CHANNELIZATION 260 10.3.3 ADVANTAGES OF MB-OFDM UWB 261 10.4 A
SHORT COMMENT ON THE TERM IMPULSE RADIO 261 10.5 SUMMARY 262 11
ADVANCED TOPICS IN UWB COMMUNICATION SYSTEMS 263 11.1 UWB AD-HOC
NETWORKS 263 11.1.1 INTRODUCTION 263 11.1.2 APPLICATIONS OF AN UWB
AD-HOC NETWORK 264 11.1.3 TECHNOLOGIES INVOLVED IN UWB AD-HOC NETWORKS
264 11.2 UWB SENSOR NETWORKS 267 XLL CONTENTS 11.3 MULTIPLE INPUTS
MULTIPLE OUTPUTS AND SPACE-TIME CODING FOR UWB SYSTEMS 270 11.4
SELF-INTERFERENCE IN HIGH-DATA-RATE UWB COMMUNICATIONS 271 11.5
COEXISTENCE OF DS-UWB WITH WI-MAX 275 11.5.1 INTERFERENCE THRESHOLDS 276
11.5.2 UWB SIGNAL MODEL 278 11.5.3 INTERFERENCE MODEL 279 11.5.4
INTERFERENCE SCENARIO 281 11.5.5 SOME NUMERICAL RESULTS 281 11.5.6
CONCLUSION 282 11.6 VEHICULAR RADARS IN THE 22-29 GHZ BAND 283 11.6.1
ENVIRONMENT SENSING FOR VEHICULAR RADAR 284 11.7 SUMMARY 286 REFERENCES
287 INDEX 297
|
| adam_txt |
ULTRA WIDEBAND SIGNALS AND SYSTEMS IN COMMUNICATION ENGINEERING SECOND
EDITION M. GHAVAMI KING'S COLLEGE LONDON, UK L. B. MICHAEL JAPAN R.
KOHNO YOKOHAMA NATIONAL UNIVERSITY, JAPAN BICENTENNIAL 3 I CE NTE N NIA
L JOHN WILEY & SONS, LTD CONTENTS PREFACE ACKNOWLEDGMENTS LIST OF
FIGURES LIST OF TABLES INTRODUCTION LI ULTRA WIDEBAND OVERVIEW 1.2 A
NOTE ON TERMINOLOGY 1.3 HISTORICAL DEVELOPMENT OF UWB 1.4 UWB REGULATION
OVERVIEW 1.4-1 BASIC DEFINITIONS AND RULES 1.5 KEY BENEFITS OF UWB 1.6
UWB AND SHANNON'S THEORY 1.7 CHALLENGES FOR UWB 1.8 SUMMARY BASIC
PROPERTIES OF UWB SIGNALS AND SYSTEMS 1.1 INTRODUCTION 1.2 POWER
SPECTRAL DENSITY 1.3 PULSE SHAPE XIII XVII XIX JBJB LJUE 1 1 2 2 3 4 5 6
7 7 9 9 10 11 CONTENTS 1.4 1.5 1.6 1.7 1.8 1.9 1.10 1.11 1.12 1.13 PULSE
TRAINS SPECTRAL MASKS MULTIPATH PENETRATION CHARACTERISTICS SPATIAL AND
SPECTRAL CAPACITIES SPEED OF DATA TRANSMISSION COST SIZE POWER
CONSUMPTION SUMMARY 14 16 17 20 20 21 23 23 GENERATION OF UWB WAVEFORMS
25 2.1 INTRODUCTION 25 2.1.1 DAMPED SINE WAVES 26 2.2 GAUSSIAN WAVEFORMS
28 2.3 DESIGNING WAVEFORMS FOR SPECIFIC SPECTRAL MASKS 31 2.3.1
INTRODUCTION 32 2.3.2 MULTIBAND MODULATION 33 2.4 PRACTICAL CONSTRAINTS
AND EFFECTS OF IMPERFECTIONS 39 2.5 SUMMARY 40 SIGNAL-PROCESSING
TECHNIQUES FOR UWB SYSTEMS 43 3.1 THE EFFECTS OF A LOSSY MEDIUM ON A UWB
TRANSMITTED SIGNAL 43 3.2 TIME DOMAIN ANALYSIS 46 3.2.1 CLASSIFICATION
OF SIGNALS 46 3.2.2 SOME USEFUL FUNCTIONS 48 3.2.3 SOME USEFUL
OPERATIONS 51 3.2.4 CLASSIFICATION OF SYSTEMS 54 3.2.5 IMPULSE RESPONSE
57 3.2.6 DISTORTIONLESS TRANSMISSION 57 3.3 FREQUENCY DOMAIN TECHNIQUES
57 3.3.1 FOURIER TRANSFORMS 57 3.3.2 FREQUENCY RESPONSE APPROACHES 58
3.3.3 TRANSFER FUNCTION 60 3.3.4 LAPLACE TRANSFORM 63 3.3.5 Z-TRANSFORM
64 3.3.6 THE RELATIONSHIP BETWEEN THE LAPLACE TRANSFORM, THE FOURIER
TRANSFORM, AND THE Z-TRANSFORM 67 CONTENTS VU 3-4 UWB SIGNAL-PROCESSING
ISSUES AND ALGORITHMS 68 3.5 DETECTION AND AMPLIFICATION 71 3.6 SUMMARY
72 4 UWB CHANNEL MODELING 75 4-1 A SIMPLIFIED UWB MULTIPATH CHANNEL
MODEL 76 4-1.1 NUMBER OF RESOLVABLE MULTIPATH COMPONENTS 78 4-1-2
MULTIPATH DELAY SPREAD 78 4-1.3 MULTIPATH INTENSITY PROFILE 79 4-1-4
MULTIPATH AMPLITUDE-FADING DISTRIBUTION 80 4-1.5 MULTIPATH ARRIVAL TIMES
81 4.2 PATH LOSS MODEL 83 4-2.1 FREE SPACE LOSS 83 4.2.2 REFRACTION 84
4-2.3 REFLECTION 84 4.2.4 DIFFRACTION 85 4.2.5 WAVE CLUTTER 85 4-2.6
APERTURE-MEDIUM COUPLING LOSS 85 4-2.7 ABSORPTION 85 4-2.8 EXAMPLE OF
FREE SPACE PATH LOSS MODEL 85 4-3 TWO-RAY UWB PROPAGATION MODEL 87 4-3.1
TWO-RAY PATH LOSS 88 4-3.2 TWO-RAY PATH LOSS MODEL 91 4-3.3 IMPACT OF
PATH LOSS FREQUENCY SELECTIVITY ON UWB TRANSMISSION 93 4-4 FREQUENCY
DOMAIN AUTOREGRESSIVE MODEL 96 4.4.I POLES OF THE AR MODEL 99 4-5 IEEE
PROPOSALS FOR UWB CHANNEL MODEIS 100 4-5.1 AN ANALYTICAL DESCRIPTION OF
THE IEEE UWB INDOOR CHANNEL MODEL 101 4-6 SUMMARY 106 5 UWB
COMMUNICATIONS 109 5.1 INTRODUCTION 109 5.2 UWB MODULATION METHODS 110
5.2.1 PPM 111 5.2.2 BPM 112 5.3 OTHER MODULATION METHODS 113 5.3.1 OPM
115 CONTENTS 5.3.2 PAM 115 5.3.3 OOK 116 5.3.4 SUVAMARY OF UWB
MODULATION METHODS 116 5.4 PULSE TRAINS 116 5.4-1 GAUSSIAN PULSE TRAIN
111 5-4-2 PN CHANNEL CODING 111 5-4-3 TIME-HOPPING PPM UWB SYSTEM 119
5.5 UWB TRANSMITTER 120 5.6 UWB RECEIVER 121 5.6.1 DETECTION 122 5.6.2
PULSE INTEGRATION 123 5.6.3 TRACKING 123 5.6-4 RAKE RECEIVERS 123 5.1
MULTIPLE ACCESS TECHNIQUES IN UWB 123 5.1.1 FREQUENCY DIVISION MULTIPLE
ACCESS UWB 124 5.1.2 TIME DIVISION MULTIPLE ACCESS 124 5.1.3 CODE
DIVISION MULTIPLE ACCESS 124 5.1.4 ORTHOGONAL PULSE MULTIPLE ACCESS
SYSTEM 124 5.8 CAPACITY OF UWB SYSTEMS 125 5.9 COMPARISON OF UWB WITH
OTHER WIDEBAND COMMUNICATION SYSTEMS 128 5.9.1 CDMA 130 5.9.2 COMPARISON
OF UWB WITH DSSS AND FHSS 130 5.9.3 OFDM 133 5.10 INTERFERENCE AND
COEXISTENCE OF UWB WITH OTHER SYSTEMS 136 5.10.1 WLANS 131 5.10.2
BLUETOOTH 139 5.10.3 GPS 140 5.10.4 CELLULAR SYSTEMS 141 5.10.5 WI-MAX '
141 5.10.6 THE EFFECT OF NARROWBAND INTERFERENCE ON UWB SYSTEMS 143 5.11
SUMMARY 146 ADVANCED UWB PULSE GENERATION 149 6.1 HERMITE PULSES 149
6.1.1 HERMITE POLYNOMIALS 150 6.1.2 ORTHOGONAL MODIFIED HERMITE PULSES
151 IX 6.1.3 MODULATED AND MODIFIED HERMITE PULSES 154 6.2 ORTHOGONAL
PROLATE SPHEROIDAL WAVE FUNCTIONS 156 6.2.1 INTRODUCTION 157 6.2.2
FUNDAMENTALS OF PSWFS 158 6.2.3 PSWF PULSE GENERATOR 161 6.3 WAVELET
PACKETS IN UWB PSM 166 6.3.1 PSM SYSTEM MODEL 168 6.3.2 RECEIVER
STRUCTURE 169 6.4 SUMMARY 170 UWB ANTENNAS AND ARRAYS 173 7.1 ANTENNA
FUNDAMENTALS 174 7.1.1 MAXWELL'S EQUATIONS FOR FREE SPACE 174 7.1.2
WAVELENGTH 176 7.1.3 ANTENNA DUALITY 176 7.1.4 IMPEDANCE MATCHING 176
7.1.5 VOLTAGE STANDING WAVE RATIO AND REFLECTED POWER 177 7.1.6 ANTENNA
BANDWIDTH 177 7.1.7 DIRECTIVITY AND GAIN 177 7.1.8 ANTENNA FIELD REGIONS
178 7.1.9 ANTENNA DIRECTIONAL PATTERN 178 7.1.10 BEAMMDTH 180 7.2
ANTENNA RADIATION FOR UWB SIGNALS 180 7.2.1 DISPERSION DUE TO NEAR-FIELD
EFFECTS 183 7.3 SUITABILITY OF CONVENTIONAL ANTENNAS FOR THE UWB SYSTEM
184 7.3.1 RESONANT ANTENNAS 184 7.3.2 NONRESONANT ANTENNAS 187 7.3.3
DIFFICULTIES WITH UWB ANTENNA DESIGN 187 7.4 IMPULSE ANTENNAS 188 7-4-1
CONICAL ANTENNA 188 7.4-2 MONOPOLE ANTENNA 189 7.4-3 D-DOT PROBE ANTENNA
190 7.4.4 TEM HOERN ANTENNA 190 7-4-5 SMALL-SIZE UWB ANTENNA 191 7-4-6
CONCLUSION 192 X CONTENTS 7.5 BEAMFORMING FOR UWB SIGNALS 192 7.5.1
BASIC CONCEPTS 193 7.5.2 A SIMPLE DELAY-LINE TRANSMITTER WIDEBAND ARRAY
194 7.6 RADAR UWB ARRAY SYSTEMS 201 7.7 SUMMARY 202 8 POSITION AND
LOCATION WITH UWB SIGNALS 205 8.1 WIRELESS POSITIONING AND LOCATION 205
8.1.1 TYPES OF WIRELESS POSITIONING SYSTEMS 206 8.1.2 WIRELESS DISTANCE
MEASUREMENT 206 8.1.3 MICROWAVE POSITIONING SYSTEMS 207 8.2 GPS
TECHNIQUES 210 8.2.1 DIFFERENTIAL GPS (DGPS) 211 8.2.2 GPS TRACKING
MODES 211 8.2.3 GPS ERROR SOURCES 212 8.3 POSITIONING TECHNIQUES 213
8.3.1 INTRODUCTION 213 8.3.2 NETWORK-BASED TECHNIQUES 213 8.3.3
HANDSET-BASED TECHNIQUES 218 8.3.4 HYBRID TECHNIQUES 220 8.3.5 OTHER
TECHNIQUES 220 8.4 TIME RESOLUTION ISSUES 221 8.4-1 NARROWBAND SYSTEMS
221 8.4.2 WIDEBAND SYSTEMS 221 8.4-3 SUPER-RESOLUTION TECHNIQUES 222
8.4.4 UWB SYSTEMS 225 8.5 UWB POSITIONING AND COMMUNICATIONS 227 8.5.1
POTENTIAL USER SCENARIOS 227 8.5.2 POTENTIAL APPLICATIONS 227 8.6
SUMMARY 228 9 APPLICATIONS USING UWB SYSTEMS 231 9.1 MILITARY
APPLICATIONS 231 9.1.1 PRECISION ASSET LOCATION SYSTEM 232 9.2
COMMERCIAL APPLICATIONS 233 9.2.1 TIME DOMAIN 234 9.2.2 XTREME SPECTRUM
236 9.2.3 INTEL CORPORATION 236 XI 9.2.4 MOTOROLA 237 9.2.5 FREESCALE
237 9.2.6 COMMUNICATION RESEARCH LABORATORY 238 9.2.7 GENERAL ATOMICS
238 9.2.8 WISAIR 239 9.2.9 ARTIMI 239 9.2.10 UBISENSE 240 9.2.11 HOME
NETWORKING AND HOME ELECTRONICS 240 9.2.12 PAL SYSTEM 242 9.3 UWB
POTENTIALS IN MEDICINE 243 9.3.1 FUNDAMENTALS OF MEDICAL UWB RADAR 246
9.3.2 UWB RADAR FOR REMOTE MONITORING OF PATIENT'S VITAL ACTIVITIES 246
9.3.3 UWB RESPIRATORY MONITORING SYSTEM 247 9.4 SUMMARY 249 10 UWB
COMMUNICATION STANDARDS 251 10.1 UWB STANDARDIZATION IN WIRELESS
PERSONAL AREA NETWORKS 251 10.1.1 WPAN STANDARDIZATION OVERVIEW 252
10.1.2 IEEE 802.15.3A 253 10.1.3 IEEE 802.15.4A 255 10.2 DS-UWB PROPOSAL
255 10.2.1 DS-UWB OPERATING BANDS 256 10.2.2 ADVANTAGES OF DS-UWB 258
10.3 MB-OFDM UWB PROPOSAL 258 10.3.1 FREQUENCY BAND ALLOCATION 259
10.3.2 CHANNELIZATION 260 10.3.3 ADVANTAGES OF MB-OFDM UWB 261 10.4 A
SHORT COMMENT ON THE TERM 'IMPULSE RADIO' 261 10.5 SUMMARY 262 11
ADVANCED TOPICS IN UWB COMMUNICATION SYSTEMS 263 11.1 UWB AD-HOC
NETWORKS 263 11.1.1 INTRODUCTION 263 11.1.2 APPLICATIONS OF AN UWB
AD-HOC NETWORK 264 11.1.3 TECHNOLOGIES INVOLVED IN UWB AD-HOC NETWORKS
264 11.2 UWB SENSOR NETWORKS 267 XLL CONTENTS 11.3 MULTIPLE INPUTS
MULTIPLE OUTPUTS AND SPACE-TIME CODING FOR UWB SYSTEMS 270 11.4
SELF-INTERFERENCE IN HIGH-DATA-RATE UWB COMMUNICATIONS 271 11.5
COEXISTENCE OF DS-UWB WITH WI-MAX 275 11.5.1 INTERFERENCE THRESHOLDS 276
11.5.2 UWB SIGNAL MODEL 278 11.5.3 INTERFERENCE MODEL 279 11.5.4
INTERFERENCE SCENARIO 281 11.5.5 SOME NUMERICAL RESULTS 281 11.5.6
CONCLUSION 282 11.6 VEHICULAR RADARS IN THE 22-29 GHZ BAND 283 11.6.1
ENVIRONMENT SENSING FOR VEHICULAR RADAR 284 11.7 SUMMARY 286 REFERENCES
287 INDEX 297 |
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| author | Ghavami, Mohammad Michael, Lachlan B. Kohno, Ryuji |
| author_facet | Ghavami, Mohammad Michael, Lachlan B. Kohno, Ryuji |
| author_role | aut aut aut |
| author_sort | Ghavami, Mohammad |
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| building | Verbundindex |
| bvnumber | BV022459832 |
| callnumber-first | T - Technology |
| callnumber-label | TK5103 |
| callnumber-raw | TK5103.4 |
| callnumber-search | TK5103.4 |
| callnumber-sort | TK 45103.4 |
| callnumber-subject | TK - Electrical and Nuclear Engineering |
| classification_rvk | ZN 6230 |
| ctrlnum | (OCoLC)72868171 (DE-599)BVBBV022459832 |
| dewey-full | 621.3821 |
| dewey-hundreds | 600 - Technology (Applied sciences) |
| dewey-ones | 621 - Applied physics |
| dewey-raw | 621.3821 |
| dewey-search | 621.3821 |
| dewey-sort | 3621.3821 |
| dewey-tens | 620 - Engineering and allied operations |
| discipline | Elektrotechnik / Elektronik / Nachrichtentechnik |
| discipline_str_mv | Elektrotechnik / Elektronik / Nachrichtentechnik |
| edition | 2. ed. |
| format | Book |
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| id | DE-604.BV022459832 |
| illustrated | Illustrated |
| index_date | 2024-07-02T17:39:43Z |
| indexdate | 2024-07-09T20:58:03Z |
| institution | BVB |
| isbn | 9780470027639 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-015667530 |
| oclc_num | 72868171 |
| open_access_boolean | |
| owner | DE-573 |
| owner_facet | DE-573 |
| physical | XXX, 304 S. Ill., graph. Darst. |
| publishDate | 2007 |
| publishDateSearch | 2007 |
| publishDateSort | 2007 |
| publisher | Wiley |
| record_format | marc |
| spelling | Ghavami, Mohammad Verfasser aut Ultra wideband signals and systems in communication engineering M. Ghavani ; L. B. Michael ; R. Kohno 2. ed. Chichester Wiley 2007 XXX, 304 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Literaturverz. S. 288- 296 Antennes-réseaux Dispositifs à ultra-large bande Traitement du signal Télécommunications à large bande, Systèmes de Broadband communication systems Ultra-wideband devices Telekommunikation (DE-588)4059360-5 gnd rswk-swf Breitbandübertragung (DE-588)4146534-9 gnd rswk-swf Signalverarbeitung (DE-588)4054947-1 gnd rswk-swf Signalverarbeitung (DE-588)4054947-1 s DE-604 Telekommunikation (DE-588)4059360-5 s Breitbandübertragung (DE-588)4146534-9 s 1\p DE-604 Michael, Lachlan B. Verfasser aut Kohno, Ryuji Verfasser aut GBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=015667530&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk |
| spellingShingle | Ghavami, Mohammad Michael, Lachlan B. Kohno, Ryuji Ultra wideband signals and systems in communication engineering Antennes-réseaux Dispositifs à ultra-large bande Traitement du signal Télécommunications à large bande, Systèmes de Broadband communication systems Ultra-wideband devices Telekommunikation (DE-588)4059360-5 gnd Breitbandübertragung (DE-588)4146534-9 gnd Signalverarbeitung (DE-588)4054947-1 gnd |
| subject_GND | (DE-588)4059360-5 (DE-588)4146534-9 (DE-588)4054947-1 |
| title | Ultra wideband signals and systems in communication engineering |
| title_auth | Ultra wideband signals and systems in communication engineering |
| title_exact_search | Ultra wideband signals and systems in communication engineering |
| title_exact_search_txtP | Ultra wideband signals and systems in communication engineering |
| title_full | Ultra wideband signals and systems in communication engineering M. Ghavani ; L. B. Michael ; R. Kohno |
| title_fullStr | Ultra wideband signals and systems in communication engineering M. Ghavani ; L. B. Michael ; R. Kohno |
| title_full_unstemmed | Ultra wideband signals and systems in communication engineering M. Ghavani ; L. B. Michael ; R. Kohno |
| title_short | Ultra wideband signals and systems in communication engineering |
| title_sort | ultra wideband signals and systems in communication engineering |
| topic | Antennes-réseaux Dispositifs à ultra-large bande Traitement du signal Télécommunications à large bande, Systèmes de Broadband communication systems Ultra-wideband devices Telekommunikation (DE-588)4059360-5 gnd Breitbandübertragung (DE-588)4146534-9 gnd Signalverarbeitung (DE-588)4054947-1 gnd |
| topic_facet | Antennes-réseaux Dispositifs à ultra-large bande Traitement du signal Télécommunications à large bande, Systèmes de Broadband communication systems Ultra-wideband devices Telekommunikation Breitbandübertragung Signalverarbeitung |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=015667530&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
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