Verfügbarkeit: Space debris :: THWS Bibkatalog

Space debris: models and risk analysis

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Bibliographische Detailangaben
1. Verfasser:	Klinkrad, Heiner 1953- (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Berlin Springer u.a. 2006
Schlagworte:	Mathematisches Modell Space debris Space debris > Risk assessment > Mathematical models Risikoanalyse Weltraummüll Geostationäre Umlaufbahn
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	X, 430 S. Ill., graph. Darst. 235 mm x 155 mm
ISBN:	354025448X 9783540254485

Internformat

MARC


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Datensatz im Suchindex

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adam_text	HEINER KLINKRAD SPACE DEBRIS MODELS AN D RISK ANALYSIS FURNISHED IN ASSOCIATION WITH SPRINGE R PRAXIS PUBLISHING PR TABLE OF CONTENTS PROLOG IX 1 INTRODUCTION 1 1.1 HISTORY OF THE EVOLVING SPACE DEBRIS RESEARCH 1 1.2 GUIDANCE FOR READING THIS BOOK 4 1.3 REFERENCES 4 2 THE CURRENT SPACE DEBRIS ENVIRONMENT AND ITS SOURCES 5 2.1 LAUNCH HISTORY AND THE RESULTING ORBITAL ENVIRONMENT 5 2.2 HISTORIC ON-ORBIT BREAK-UP EVENTS 18 2.3 NON-FRAGMENTATION DEBRIS SOURCES 23 2.4 GROUND-BASED RADAR AND OPTICAL MEASUREMENTS 27 2.5 IN-SITU MEASUREMENTS AN D RETRIEVED SURFACES 47 2.6 REFERENCES 57 3 MODELING OF THE CURRENT SPACE DEBRIS ENVIRONMENT 59 3.1 ORBIT PROPAGATION METHODS FOR LARGE POPULATIONS 59 3.2 VOLUME DISCRETIZATION AND CELL-PASSAGE EVENTS 61 3.3 THE TRACKABLE SPACE OBJECT POPULATION 66 3.4 MODELING EXPLOSION AN D COLLISION FRAGMENTS 67 3.5 MODELING SOLID ROCKET MOTOR SLAG AND DUST 76 3.6 MODELING SODIUM-POTASSIUM COOLANT DROPLETS 83 3.7 MODELING WESTFORD NEEDLE CLUSTERS 86 3.8 MODELING SURFACE DEGRADATION AND IMPACT EJECTA 87 3.9 HISTORIC EVOLUTION AND SPATIAL DISTRIBUTION OF DEBRIS 91 3.10 COMPARISON OF MEASUREMENTS AND MODELED DATA 104 3.11 ALTERNATIVE SPACE DEBRIS ENVIRONMENT MODELS IL L 3.12 REFERENCES 112 VI TABLE OF CONTENTS 4 MODELING OF COLLISION FLUX FOR THE CURRENT SPACE DEBRIS ENVIRONMENT 115 4.1 DETERMINATION OF COLLISION FLUX 115 4.2 ANALYSIS OF COLLISION GEOMETRIES 119 4.3 COLLISION FLUX ASSESSMENT FOR TYPICAL TARGET ORBITS 122 4.4 REFERENCES 142 5 MODELING OF THE FUTURE SPACE DEBRIS ENVIRONMENT 143 5.1 ORBIT PROPAGATION METHODS FOR LONG-TERM PREDICTIONS 143 5.2 CONCEPTS OF A LONG-TERM DEBRIS ENVIRONMENT PROJECTION 144 5.3 MODELING FUTURE LAUNCH TRAFFIC AND RELEASE EVENTS 145 5.4 DEPLOYMENTS OF CONSTELLATIONS AND NANO-SATELLITES 148 5.5 DEFINITION OF A BUSINESS-AS-USUAL FORECAST SCENARIO 151 5.6 VARIATIONS OF A BUSINESS-AS-USUAL FORECAST SCENARIO 159 5.7 ALTERNATIVE DEBRIS ENVIRONMENT PROJECTION MODELS 161 5.8 REFERENCES 162 6 EFFECTS OF DEBRIS MITIGATION MEASURES ON ENVIRONMENT PROJECTIONS 165 6.1 SPACE DEBRIS MITIGATION OPTIONS 165 6.2 EXPLOSION PREVENTION BY END-OF-LIFE PASSIVATION 168 6.3 POST-MISSION DISPOSAL FROM LOW-EARTH ORBITS 170 6.4 POST-MISSION DISPOSAL FROM GEO-SYNCHRONOUS ORBITS 183 6.5 DE-ORBIT OF GTO UPPER STAGES 190 6.6 DEFINITION OF PROTECTED REGIONS 192 6.7 REFERENCES 197 7 HYPERVELOCITY IMPACT DAMAGE ASSESSMENT AND PROTECTION TECHNIQUES 199 7.1 HYPERVELOCITY ACCELERATORS AN D HYDROCODE SIMULATIONS 199 7.2 EFFECTS OF HYPERVELOCITY IMPACTS 203 7.3 SINGLE-WALL DAMAGE EQUATIONS 205 7.4 MULTIPLE-WALL DAMAGE EQUATIONS 208 7.5 HVI SHIELD DESIGNS AN D IMPLEMENTATIONS 212 7.6 REFERENCES 214 8 OPERATIONAL COLLISION AVOIDANCE WITH REGARD TO CATALOG OBJECTS 215 8.1 ORBIT PREDICTION AND ASSOCIATED UNCERTAINTIES 215 8.2 DETERMINATION OF NEAR-MISS CONJUNCTION EVENTS 219 8.3 COLLISION RISK ESTIMATE FOR NEAR-MISS CONJUNCTIONS 222 8.4 STATISTICAL FORECAST OF AVOIDANCE MANEUVER FREQUENCY 226 8.5 COLLISION AVOIDANCE FOR OPERATIONAL SATELLITES 233 8.6 REFERENCES 239 9 RE-ENTRY PREDICTION AND ON-GROUND RISK ESTIMATION 241 9.1 HISTORY OF HAZARDOUS RE-ENTRY EVENTS 241 9.2 LONG- AN D MEDIUM-TERM RE-ENTRY PREDICTIONS 244 9.3 SHORT-TERM RE-ENTRY PREDICTIONS 249 9.4 PREDICTION OF BREAK-UP AN D SURVIVAL OF ENTRY OBJECTS 256 TABLE OF CONTENTS VII 9.5 ESTIMATION OF ON-GROUND RISK DUE TO RE-ENTRIES 266 9.6 LONG- AN D SHORT-TERM RE-ENTRY RISK MANAGEMENT 272 9.7 HAZARDOUS RE-ENTRY MATERIALS 285 9.8 REFERENCES 287 10 MODELING OF THE TERRESTRIAL METEOROID ENVIRONMENT 289 10.1 THE DIVINE-STAUBACH METEOROID MODEL 289 10.2 METEOROID FLUX ASSESSMENT FOR TYPICAL TARGET ORBITS 294 10.3 MODELING METEOROID STREAM EVENTS 296 10.4 NEAR-EARTH OBJECTS AND ASSOCIATED RISKS 301 10.5 REFERENCES 309 11 SPACE DEBRIS ACTIVITIES IN AN INTERNATIONAL CONTEXT 311 11.1 INTERNATIONAL FORUMS FOR INFORMATION EXCHANGE 311 11.2 INTERNATIONAL COOPERATION AT A TECHNICAL LEVEL 312 11.3 INTERNATIONAL STANDARDS AN D POLICIES 313 11.4 REFERENCES 314 EPILOG 315 A BASICS OF ORBIT MECHANICS 317 A.I KEPLER ORBITS 317 A.2 PLANAR ORBIT TRANSFER MANEUVERS 321 A.3 SHAPE OF THE EARTH AND THE GEODETIC POSITION 322 A.4 MAJOR PERTURBATIONS ON EARTH ORBITS 322 A.5 THE PERTURBED NEWTON EQUATIONS 324 A.6 THE GAUSS PERTURBATION EQUATIONS 325 A.7 THE LAGRANGE PERTURBATION EQUATIONS 326 A.8 INTEGRATING THE PERTURBATION EQUATIONS 326 A.9 RESULTING PERTURBATIONS ON EARTH ORBITS 328 A. 10 REFERENCES 330 B TH E ATMOSPHER E OF TH E EARTH 331 B.I STRUCTURE OF THERMOSPHERE MODELS 331 B.2 IMPLEMENTATIONS OF THERMOSPHERE MODELS 334 B.3 SOLAR AND GEOMAGNETIC ACTIVITIES 336 B.4 REFERENCES 347 C TH E GRAVITATIONA L POTENTIA L OF THE EARTH 349 C.I MATHEMATICAL FORMULATION OF THE GEOPOTENTIAL 349 C.2 HARMONIC COEFFICIENTS OF THE GEOPOTENTIAL 350 C.3 REFERENCES 354 VIII TABLE OF CONTENTS D THE WORLD POPULATION VIEWED FROM ORBIT 355 D.I MODEL OF THE WORLD POPULATION DENSITY DISTRIBUTION 355 D.2 SAMPLING THE WORLD POPULATION ALONG GROUND TRACKS 356 D.3 REFERENCES 369 E COLOR SUPPLEMENT 371 LIST OF SYMBOLS 387 LIST OF ABBREVIATIONS 393 LIST OF TABLES 399 LIST OF FIGURES 401 BIBLIOGRAPHY 407 INDEX 417
adam_txt	HEINER KLINKRAD SPACE DEBRIS MODELS AN D RISK ANALYSIS FURNISHED IN ASSOCIATION WITH SPRINGE R PRAXIS PUBLISHING PR TABLE OF CONTENTS PROLOG IX 1 INTRODUCTION 1 1.1 HISTORY OF THE EVOLVING SPACE DEBRIS RESEARCH 1 1.2 GUIDANCE FOR READING THIS BOOK 4 1.3 REFERENCES 4 2 THE CURRENT SPACE DEBRIS ENVIRONMENT AND ITS SOURCES 5 2.1 LAUNCH HISTORY AND THE RESULTING ORBITAL ENVIRONMENT 5 2.2 HISTORIC ON-ORBIT BREAK-UP EVENTS 18 2.3 NON-FRAGMENTATION DEBRIS SOURCES 23 2.4 GROUND-BASED RADAR AND OPTICAL MEASUREMENTS 27 2.5 IN-SITU MEASUREMENTS AN D RETRIEVED SURFACES 47 2.6 REFERENCES 57 3 MODELING OF THE CURRENT SPACE DEBRIS ENVIRONMENT 59 3.1 ORBIT PROPAGATION METHODS FOR LARGE POPULATIONS 59 3.2 VOLUME DISCRETIZATION AND CELL-PASSAGE EVENTS 61 3.3 THE TRACKABLE SPACE OBJECT POPULATION 66 3.4 MODELING EXPLOSION AN D COLLISION FRAGMENTS 67 3.5 MODELING SOLID ROCKET MOTOR SLAG AND DUST 76 3.6 MODELING SODIUM-POTASSIUM COOLANT DROPLETS 83 3.7 MODELING WESTFORD NEEDLE CLUSTERS 86 3.8 MODELING SURFACE DEGRADATION AND IMPACT EJECTA 87 3.9 HISTORIC EVOLUTION AND SPATIAL DISTRIBUTION OF DEBRIS 91 3.10 COMPARISON OF MEASUREMENTS AND MODELED DATA 104 3.11 ALTERNATIVE SPACE DEBRIS ENVIRONMENT MODELS IL L 3.12 REFERENCES 112 VI TABLE OF CONTENTS 4 MODELING OF COLLISION FLUX FOR THE CURRENT SPACE DEBRIS ENVIRONMENT 115 4.1 DETERMINATION OF COLLISION FLUX 115 4.2 ANALYSIS OF COLLISION GEOMETRIES 119 4.3 COLLISION FLUX ASSESSMENT FOR TYPICAL TARGET ORBITS 122 4.4 REFERENCES 142 5 MODELING OF THE FUTURE SPACE DEBRIS ENVIRONMENT 143 5.1 ORBIT PROPAGATION METHODS FOR LONG-TERM PREDICTIONS 143 5.2 CONCEPTS OF A LONG-TERM DEBRIS ENVIRONMENT PROJECTION 144 5.3 MODELING FUTURE LAUNCH TRAFFIC AND RELEASE EVENTS 145 5.4 DEPLOYMENTS OF CONSTELLATIONS AND NANO-SATELLITES 148 5.5 DEFINITION OF A BUSINESS-AS-USUAL FORECAST SCENARIO 151 5.6 VARIATIONS OF A BUSINESS-AS-USUAL FORECAST SCENARIO 159 5.7 ALTERNATIVE DEBRIS ENVIRONMENT PROJECTION MODELS 161 5.8 REFERENCES 162 6 EFFECTS OF DEBRIS MITIGATION MEASURES ON ENVIRONMENT PROJECTIONS 165 6.1 SPACE DEBRIS MITIGATION OPTIONS 165 6.2 EXPLOSION PREVENTION BY END-OF-LIFE PASSIVATION 168 6.3 POST-MISSION DISPOSAL FROM LOW-EARTH ORBITS 170 6.4 POST-MISSION DISPOSAL FROM GEO-SYNCHRONOUS ORBITS 183 6.5 DE-ORBIT OF GTO UPPER STAGES 190 6.6 DEFINITION OF PROTECTED REGIONS 192 6.7 REFERENCES 197 7 HYPERVELOCITY IMPACT DAMAGE ASSESSMENT AND PROTECTION TECHNIQUES 199 7.1 HYPERVELOCITY ACCELERATORS AN D HYDROCODE SIMULATIONS 199 7.2 EFFECTS OF HYPERVELOCITY IMPACTS 203 7.3 SINGLE-WALL DAMAGE EQUATIONS 205 7.4 MULTIPLE-WALL DAMAGE EQUATIONS 208 7.5 HVI SHIELD DESIGNS AN D IMPLEMENTATIONS 212 7.6 REFERENCES 214 8 OPERATIONAL COLLISION AVOIDANCE WITH REGARD TO CATALOG OBJECTS 215 8.1 ORBIT PREDICTION AND ASSOCIATED UNCERTAINTIES 215 8.2 DETERMINATION OF NEAR-MISS CONJUNCTION EVENTS 219 8.3 COLLISION RISK ESTIMATE FOR NEAR-MISS CONJUNCTIONS 222 8.4 STATISTICAL FORECAST OF AVOIDANCE MANEUVER FREQUENCY 226 8.5 COLLISION AVOIDANCE FOR OPERATIONAL SATELLITES 233 8.6 REFERENCES 239 9 RE-ENTRY PREDICTION AND ON-GROUND RISK ESTIMATION 241 9.1 HISTORY OF HAZARDOUS RE-ENTRY EVENTS 241 9.2 LONG- AN D MEDIUM-TERM RE-ENTRY PREDICTIONS 244 9.3 SHORT-TERM RE-ENTRY PREDICTIONS 249 9.4 PREDICTION OF BREAK-UP AN D SURVIVAL OF ENTRY OBJECTS 256 TABLE OF CONTENTS VII 9.5 ESTIMATION OF ON-GROUND RISK DUE TO RE-ENTRIES 266 9.6 LONG- AN D SHORT-TERM RE-ENTRY RISK MANAGEMENT 272 9.7 HAZARDOUS RE-ENTRY MATERIALS 285 9.8 REFERENCES 287 10 MODELING OF THE TERRESTRIAL METEOROID ENVIRONMENT 289 10.1 THE DIVINE-STAUBACH METEOROID MODEL 289 10.2 METEOROID FLUX ASSESSMENT FOR TYPICAL TARGET ORBITS 294 10.3 MODELING METEOROID STREAM EVENTS 296 10.4 NEAR-EARTH OBJECTS AND ASSOCIATED RISKS 301 10.5 REFERENCES 309 11 SPACE DEBRIS ACTIVITIES IN AN INTERNATIONAL CONTEXT 311 11.1 INTERNATIONAL FORUMS FOR INFORMATION EXCHANGE 311 11.2 INTERNATIONAL COOPERATION AT A TECHNICAL LEVEL 312 11.3 INTERNATIONAL STANDARDS AN D POLICIES 313 11.4 REFERENCES 314 EPILOG 315 A BASICS OF ORBIT MECHANICS 317 A.I KEPLER ORBITS 317 A.2 PLANAR ORBIT TRANSFER MANEUVERS 321 A.3 SHAPE OF THE EARTH AND THE GEODETIC POSITION 322 A.4 MAJOR PERTURBATIONS ON EARTH ORBITS 322 A.5 THE PERTURBED NEWTON EQUATIONS 324 A.6 THE GAUSS PERTURBATION EQUATIONS 325 A.7 THE LAGRANGE PERTURBATION EQUATIONS 326 A.8 INTEGRATING THE PERTURBATION EQUATIONS 326 A.9 RESULTING PERTURBATIONS ON EARTH ORBITS 328 A. 10 REFERENCES 330 B TH E ATMOSPHER E OF TH E EARTH 331 B.I STRUCTURE OF THERMOSPHERE MODELS 331 B.2 IMPLEMENTATIONS OF THERMOSPHERE MODELS 334 B.3 SOLAR AND GEOMAGNETIC ACTIVITIES 336 B.4 REFERENCES 347 C TH E GRAVITATIONA L POTENTIA L OF THE EARTH 349 C.I MATHEMATICAL FORMULATION OF THE GEOPOTENTIAL 349 C.2 HARMONIC COEFFICIENTS OF THE GEOPOTENTIAL 350 C.3 REFERENCES 354 VIII TABLE OF CONTENTS D THE WORLD POPULATION VIEWED FROM ORBIT 355 D.I MODEL OF THE WORLD POPULATION DENSITY DISTRIBUTION 355 D.2 SAMPLING THE WORLD POPULATION ALONG GROUND TRACKS 356 D.3 REFERENCES 369 E COLOR SUPPLEMENT 371 LIST OF SYMBOLS 387 LIST OF ABBREVIATIONS 393 LIST OF TABLES 399 LIST OF FIGURES 401 BIBLIOGRAPHY 407 INDEX 417
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publisher	Springer u.a.
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spelling	Klinkrad, Heiner 1953- Verfasser (DE-588)110384024 aut Space debris models and risk analysis Heiner Klinkrad Berlin Springer u.a. 2006 X, 430 S. Ill., graph. Darst. 235 mm x 155 mm txt rdacontent n rdamedia nc rdacarrier Mathematisches Modell Space debris Space debris Risk assessment Mathematical models Risikoanalyse (DE-588)4137042-9 gnd rswk-swf Weltraummüll (DE-588)4322449-0 gnd rswk-swf Mathematisches Modell (DE-588)4114528-8 gnd rswk-swf Geostationäre Umlaufbahn (DE-588)4276417-8 gnd rswk-swf Weltraummüll (DE-588)4322449-0 s Geostationäre Umlaufbahn (DE-588)4276417-8 s Mathematisches Modell (DE-588)4114528-8 s DE-604 Risikoanalyse (DE-588)4137042-9 s DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=014595361&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Klinkrad, Heiner 1953- Space debris models and risk analysis Mathematisches Modell Space debris Space debris Risk assessment Mathematical models Risikoanalyse (DE-588)4137042-9 gnd Weltraummüll (DE-588)4322449-0 gnd Mathematisches Modell (DE-588)4114528-8 gnd Geostationäre Umlaufbahn (DE-588)4276417-8 gnd
subject_GND	(DE-588)4137042-9 (DE-588)4322449-0 (DE-588)4114528-8 (DE-588)4276417-8
title	Space debris models and risk analysis
title_auth	Space debris models and risk analysis
title_exact_search	Space debris models and risk analysis
title_exact_search_txtP	Space debris models and risk analysis
title_full	Space debris models and risk analysis Heiner Klinkrad
title_fullStr	Space debris models and risk analysis Heiner Klinkrad
title_full_unstemmed	Space debris models and risk analysis Heiner Klinkrad
title_short	Space debris
title_sort	space debris models and risk analysis
title_sub	models and risk analysis
topic	Mathematisches Modell Space debris Space debris Risk assessment Mathematical models Risikoanalyse (DE-588)4137042-9 gnd Weltraummüll (DE-588)4322449-0 gnd Mathematisches Modell (DE-588)4114528-8 gnd Geostationäre Umlaufbahn (DE-588)4276417-8 gnd
topic_facet	Mathematisches Modell Space debris Space debris Risk assessment Mathematical models Risikoanalyse Weltraummüll Geostationäre Umlaufbahn
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=014595361&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT klinkradheiner spacedebrismodelsandriskanalysis

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