Verfügbarkeit: Design and analysis of an integrated impulse radio ultra-wideband primary radar system

Design and analysis of an integrated impulse radio ultra-wideband primary radar system:

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Bibliographische Detailangaben
1. Verfasser:	An, Xin 1988- (VerfasserIn)
Format:	Abschlussarbeit Buch
Sprache:	English
Veröffentlicht:	Dresden VOGT 2023
Schlagworte:	Impulsradio Ultraweitband Systemanalyse Funkempfänger Funkortung Systementwicklung Industrie 4.0 Mobilfunk URLLC Hochschulschrift
Online-Zugang:	Ausführliche Beschreibung Inhaltsverzeichnis
Beschreibung:	XI, 159 Seiten Illustrationen, Diagramme 21 cm x 14.8 cm
ISBN:	9783959470605 3959470606

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Datensatz im Suchindex

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adam_text	CONTENTS 1. INTRODUCTION 1 1.1. BACKGROUND AND MOTIVATION ................................................................ 1 1.2. OBJECTIVES AND STRUCTURE ...................................................................... 3 2. RADAR PRINCIPLES AND COMPARISON 5 2.1. RADAR PRINCIPLES .................................................................................. 5 2.1.1. RADAR CLASSIFICATION ............................................................... 5 2.1.2. BASIC RADAR EQUATIONS ............................................................ 10 2.2. CONVENTIONAL PULSE RADAR ................................................................... 15 2.2.1. TIME DOMAIN CHARACTERISTICS ................................................ 15 2.2.2. FREQUENCY DOMAIN CHARACTERISTICS ....................................... 17 2.3. FMCW RADAR ..................................................................................... 22 2.3.1. RANGE DETERMINATION ............................................................ 22 2.3.2. MAXIMUM UNAMBIGUOUS RANGE ............................................. 26 2.3.3. RANGE RESOLUTION ..................................................................... 27 2.3.4. DOPPLER EFFECT ........................................................................ 29 2.4. UWB RADAR ........................................................................................... 32 2.4.1. DEFINITIONS AND REGULATIONS OF THE UWB BAND .................. 32 2.4.2. DIFFERENT WAYS TO GENERATE A UWB PULSE ........................... 35 3. UWB RADAR ANALYSIS 37 3.1. DERIVATIVES OF THE GAUSSIAN PULSE ....................................................... 37 3.1.1. TIME DOMAIN EXPRESSION ....................................................... 37 3.1.2. FREQUENCY SPECTRUM ................................................................ 39 3.1.3. SELECTION OF THE DERIVATIVE ORDER AND THE PULSE WIDTH ... 42 3.2. ADVANTAGES OF AN IR-UWB RADAR IN THE USE SCENARIO .................. 43 3.2.1. COMPARISON WITH CONVENTIONAL PULSE RADARS ..................... 43 3.2.2. COMPARISON WITH FMCW RADARS .......................................... 45 4. RADAR SYSTEM MODELING AND SIMULATION 49 4.1. PATH-LOSS OF UWB SIGNALS ................................................................... 49 4.2. HUMAN RADAR CROSS-SECTION IN THE UWB FREQUENCY BAND ............ 53 4.3. SYSTEM-LEVEL MODELING AND SIMULATION .............................................. 54 4.3.1. SOT A IR-UWB DESIGNS ............................................................. 54 4.3.2. SYSTEM DESIGN FOR LOW LATENCY .............................................. 55 IX CONTENTS 4.3.3. RADAR SYSTEM SIMULATION ....................................................... 57 5. IR-UWB RADAR DESIGN: ANALOG FRONT-END 65 5.1. UWB VIVALDI ANTENNA ......................................................................... 65 5.1.1. ANTENNA TYPE SELECTION ......................................................... 65 5.1.2. DESIGN OF AN ANTIPODAL VIVALDI ANTENNA ............................... 66 5.1.3. SIMULATION AND MEASUREMENT RESULTS ................................... 67 5.2. SEVENTH-ORDER DERIVATIVE GAUSSIAN PULSE GENERATOR ....................... 70 5.2.1. CIRCUIT DESCRIPTION ................................................................... 70 5.2.2. MEASUREMENT RESULTS ............................................................. 73 5.2.3. COMPARISON ............................................................................... 74 5.3. UWB LOW-NOISE AMPLIFIER ............................................................... 74 5.3.1. DESIGN CONSIDERATION ................................................................ 74 5.3.2. AMPLIFIER TOPOLOGY ................................................................... 76 5.3.3. DESIGN OF THE TRANSFORMER ...................................................... 79 5.3.4. MEASUREMENT RESULTS ............................................................. 80 5.3.5. COMPARISON ............................................................................... 82 5.4. IR-UWB TRANSMITTER ......................................................................... 84 5.4.1. DESIGN CONSIDERATION ................................................................ 84 5.4.2. CIRCUIT DESIGN ......................................................................... 84 5.4.3. MEASUREMENT RESULTS ............................................................. 86 5.4.4. COMPARISON ............................................................................... 87 5.5. UWB HIGH-GAIN PREAMPLIFIER ............................................................ 88 5.5.1. DESIGN CONSIDERATION ................................................................ 88 5.5.2. CIRCUIT DESIGN ......................................................................... 91 5.5.3. MEASUREMENT RESULTS ............................................................. 96 5.5.4. COMPARISON ............................................................................... 97 5.6. 10-GBIT/S 1-BIT SAMPLER ........................................................................ 100 5.7. RADAR SYSTEM ........................................................................................... 102 5.7.1. RADAR TRX ASIC AND SYSTEM BOARD ........................................ 103 5.7.2. SIMULATION AND MEASUREMENT RESULTS ........................................ 105 6. IR-UWB RADAR DESIGN: SIGNAL PROCESSING 107 6.1. PULSE RECOVERY ........................................................................................ 107 6.2. IMPLEMENTATION ON FPGA ..................................................................... 109 7. RADAR SYSTEM TEST 113 7.1. TEST PREPARATION .................................................................................... 113 7.2. ONE TARGET RANGING .............................................................................. 116 7.3. EFFECT OF ACCUMULATION ........................................................................... 118 7.4. RANGE RESOLUTION .................................................................................... 118 7.5. MEASUREMENT OF A MOVING TARGET ......................................................... 119 X CONTENTS 7.6. LATENCY MEASUREMENT ............................................................................ 122 7.7. OVERVIEW ................................................................................................. 123 8. CONCLUSION AND OUTLOOK 127 REFERENCES 129 PUBLICATIONS 137 LIST OF ABBREVIATIONS 139 LIST OF SYMBOLS 143 LIST OF FIGURES 147 LIST OF TABLES 151 APPENDIX 153 A. DERIVATIVES OF THE GAUSSIAN FUNCTION .................................................... 153 B. THE LAMBERT W FUNCTION ...................................................................... 154 C. GAIN OF A CASCODE AMPLIFIER WITH TRANSFORMER AT INPUT .................. 155 D. INPUT IMPEDANCE OF A CASCODE AMPLIFIER WITH TRANSFORMER AT INPUT 157 E. GAIN OF THE HIGH-GAIN AMPLIFIER ............................................................. 158 CURRICULUM VITAE 159 XI
adam_txt	CONTENTS 1. INTRODUCTION 1 1.1. BACKGROUND AND MOTIVATION . 1 1.2. OBJECTIVES AND STRUCTURE . 3 2. RADAR PRINCIPLES AND COMPARISON 5 2.1. RADAR PRINCIPLES . 5 2.1.1. RADAR CLASSIFICATION . 5 2.1.2. BASIC RADAR EQUATIONS . 10 2.2. CONVENTIONAL PULSE RADAR . 15 2.2.1. TIME DOMAIN CHARACTERISTICS . 15 2.2.2. FREQUENCY DOMAIN CHARACTERISTICS . 17 2.3. FMCW RADAR . 22 2.3.1. RANGE DETERMINATION . 22 2.3.2. MAXIMUM UNAMBIGUOUS RANGE . 26 2.3.3. RANGE RESOLUTION . 27 2.3.4. DOPPLER EFFECT . 29 2.4. UWB RADAR . 32 2.4.1. DEFINITIONS AND REGULATIONS OF THE UWB BAND . 32 2.4.2. DIFFERENT WAYS TO GENERATE A UWB PULSE . 35 3. UWB RADAR ANALYSIS 37 3.1. DERIVATIVES OF THE GAUSSIAN PULSE . 37 3.1.1. TIME DOMAIN EXPRESSION . 37 3.1.2. FREQUENCY SPECTRUM . 39 3.1.3. SELECTION OF THE DERIVATIVE ORDER AND THE PULSE WIDTH . 42 3.2. ADVANTAGES OF AN IR-UWB RADAR IN THE USE SCENARIO . 43 3.2.1. COMPARISON WITH CONVENTIONAL PULSE RADARS . 43 3.2.2. COMPARISON WITH FMCW RADARS . 45 4. RADAR SYSTEM MODELING AND SIMULATION 49 4.1. PATH-LOSS OF UWB SIGNALS . 49 4.2. HUMAN RADAR CROSS-SECTION IN THE UWB FREQUENCY BAND . 53 4.3. SYSTEM-LEVEL MODELING AND SIMULATION . 54 4.3.1. SOT A IR-UWB DESIGNS . 54 4.3.2. SYSTEM DESIGN FOR LOW LATENCY . 55 IX CONTENTS 4.3.3. RADAR SYSTEM SIMULATION . 57 5. IR-UWB RADAR DESIGN: ANALOG FRONT-END 65 5.1. UWB VIVALDI ANTENNA . 65 5.1.1. ANTENNA TYPE SELECTION . 65 5.1.2. DESIGN OF AN ANTIPODAL VIVALDI ANTENNA . 66 5.1.3. SIMULATION AND MEASUREMENT RESULTS . 67 5.2. SEVENTH-ORDER DERIVATIVE GAUSSIAN PULSE GENERATOR . 70 5.2.1. CIRCUIT DESCRIPTION . 70 5.2.2. MEASUREMENT RESULTS . 73 5.2.3. COMPARISON . 74 5.3. UWB LOW-NOISE AMPLIFIER . 74 5.3.1. DESIGN CONSIDERATION . 74 5.3.2. AMPLIFIER TOPOLOGY . 76 5.3.3. DESIGN OF THE TRANSFORMER . 79 5.3.4. MEASUREMENT RESULTS . 80 5.3.5. COMPARISON . 82 5.4. IR-UWB TRANSMITTER . 84 5.4.1. DESIGN CONSIDERATION . 84 5.4.2. CIRCUIT DESIGN . 84 5.4.3. MEASUREMENT RESULTS . 86 5.4.4. COMPARISON . 87 5.5. UWB HIGH-GAIN PREAMPLIFIER . 88 5.5.1. DESIGN CONSIDERATION . 88 5.5.2. CIRCUIT DESIGN . 91 5.5.3. MEASUREMENT RESULTS . 96 5.5.4. COMPARISON . 97 5.6. 10-GBIT/S 1-BIT SAMPLER . 100 5.7. RADAR SYSTEM . 102 5.7.1. RADAR TRX ASIC AND SYSTEM BOARD . 103 5.7.2. SIMULATION AND MEASUREMENT RESULTS . 105 6. IR-UWB RADAR DESIGN: SIGNAL PROCESSING 107 6.1. PULSE RECOVERY . 107 6.2. IMPLEMENTATION ON FPGA . 109 7. RADAR SYSTEM TEST 113 7.1. TEST PREPARATION . 113 7.2. ONE TARGET RANGING . 116 7.3. EFFECT OF ACCUMULATION . 118 7.4. RANGE RESOLUTION . 118 7.5. MEASUREMENT OF A MOVING TARGET . 119 X CONTENTS 7.6. LATENCY MEASUREMENT . 122 7.7. OVERVIEW . 123 8. CONCLUSION AND OUTLOOK 127 REFERENCES 129 PUBLICATIONS 137 LIST OF ABBREVIATIONS 139 LIST OF SYMBOLS 143 LIST OF FIGURES 147 LIST OF TABLES 151 APPENDIX 153 A. DERIVATIVES OF THE GAUSSIAN FUNCTION . 153 B. THE LAMBERT W FUNCTION . 154 C. GAIN OF A CASCODE AMPLIFIER WITH TRANSFORMER AT INPUT . 155 D. INPUT IMPEDANCE OF A CASCODE AMPLIFIER WITH TRANSFORMER AT INPUT 157 E. GAIN OF THE HIGH-GAIN AMPLIFIER . 158 CURRICULUM VITAE 159 XI
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spelling	An, Xin 1988- Verfasser (DE-588)1279215615 aut Design and analysis of an integrated impulse radio ultra-wideband primary radar system Xin An Dresden VOGT 2023 XI, 159 Seiten Illustrationen, Diagramme 21 cm x 14.8 cm txt rdacontent n rdamedia nc rdacarrier Dissertation Technische Universität Dresden 2022 Impulsradio (DE-588)7657947-5 gnd rswk-swf Ultraweitband (DE-588)4830023-8 gnd rswk-swf Systemanalyse (DE-588)4116673-5 gnd rswk-swf Funkempfänger (DE-588)4113650-0 gnd rswk-swf Funkortung (DE-588)4018904-1 gnd rswk-swf Systementwicklung (DE-588)4126945-7 gnd rswk-swf Industrie 4.0 Mobilfunk URLLC (DE-588)4113937-9 Hochschulschrift gnd-content Funkempfänger (DE-588)4113650-0 s Impulsradio (DE-588)7657947-5 s Funkortung (DE-588)4018904-1 s Ultraweitband (DE-588)4830023-8 s Systementwicklung (DE-588)4126945-7 s Systemanalyse (DE-588)4116673-5 s DE-604 X:MVB text/html http://www.vogtverlag.de/wissenschaft.html Ausführliche Beschreibung DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=034120083&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	An, Xin 1988- Design and analysis of an integrated impulse radio ultra-wideband primary radar system Impulsradio (DE-588)7657947-5 gnd Ultraweitband (DE-588)4830023-8 gnd Systemanalyse (DE-588)4116673-5 gnd Funkempfänger (DE-588)4113650-0 gnd Funkortung (DE-588)4018904-1 gnd Systementwicklung (DE-588)4126945-7 gnd
subject_GND	(DE-588)7657947-5 (DE-588)4830023-8 (DE-588)4116673-5 (DE-588)4113650-0 (DE-588)4018904-1 (DE-588)4126945-7 (DE-588)4113937-9
title	Design and analysis of an integrated impulse radio ultra-wideband primary radar system
title_auth	Design and analysis of an integrated impulse radio ultra-wideband primary radar system
title_exact_search	Design and analysis of an integrated impulse radio ultra-wideband primary radar system
title_exact_search_txtP	Design and analysis of an integrated impulse radio ultra-wideband primary radar system
title_full	Design and analysis of an integrated impulse radio ultra-wideband primary radar system Xin An
title_fullStr	Design and analysis of an integrated impulse radio ultra-wideband primary radar system Xin An
title_full_unstemmed	Design and analysis of an integrated impulse radio ultra-wideband primary radar system Xin An
title_short	Design and analysis of an integrated impulse radio ultra-wideband primary radar system
title_sort	design and analysis of an integrated impulse radio ultra wideband primary radar system
topic	Impulsradio (DE-588)7657947-5 gnd Ultraweitband (DE-588)4830023-8 gnd Systemanalyse (DE-588)4116673-5 gnd Funkempfänger (DE-588)4113650-0 gnd Funkortung (DE-588)4018904-1 gnd Systementwicklung (DE-588)4126945-7 gnd
topic_facet	Impulsradio Ultraweitband Systemanalyse Funkempfänger Funkortung Systementwicklung Hochschulschrift
url	http://www.vogtverlag.de/wissenschaft.html http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=034120083&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT anxin designandanalysisofanintegratedimpulseradioultrawidebandprimaryradarsystem

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