Verfügbarkeit: Astrometry and satellite orbits

Astrometry and satellite orbits: theoretical considerations and typical applications

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Bibliographische Detailangaben
1. Verfasser:	Hugentobler, Urs (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Zürich Schweizerische Geodät. Kommission 1998
Schriftenreihe:	Geodätisch-geophysikalische Arbeiten in der Schweiz 57
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	209 S. Ill., graph Darst.

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Datensatz im Suchindex

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adam_text	GEODATISCH-GEOPHYSIKALISCHE ARBEITEN IN DER SCHWEIZ (FORTSETZUNG DER PUBLIKATIONSREIHE ASTRONOMISCH-GEODATISCHE ARBEITEN IN DER SCHWEIZ») HERAUSGEGEBEN VON DER SCHWEIZERISCHEN GEODATISCHEN KOMMISSION (ORGAN DER SCHWEIZERISCHEN AKADEMIE DER NATURWISSENSCHAFTEN) SUB GOTTINGEN 7 210 423 994 99 B4316 SIEBENUNDFIINFZIGSTER BAND ASTROMETRY AND SATELLITE ORBITS: VOLUME 57 THEORETICAL CONSIDERATIONS AND TYPICAL APPLICATIONS URS HUGENTOBLER 1998 CONTENTS INTRODUCTION 5 1 ASTROMETRY OF ARTIFICIAL SATELLITES 11 1.1 OPTICAL OBSERVATIONS AND REDUCTION METHODS 11 1.1.1 INSTRUMENTATION IN ZIMMERWALD 11 1.1.2 OBSERVATION TECHNIQUE FOR FAST MOVING OBJECTS WITH CCD 11 1.1.3 ASTROMETRIC CATALOGUES 16 1.1.4 REDUCTION OF SATELLITE POSITIONS TO STANDARD COORDINATES 17 1.1.5 SEARCH FOR EARTH ORBITING OBJECTS 22 1.2 SLOW MOVING SATELLITES 25 1.2.1 GEOSTATIONARY ORBITS 25 1.2.2 DENSITY OF CATALOGUED OBJECTS IN GEOSTATIONARY RING 31 1.2.3 GEOSTATIONARY TRANSFER ORBITS 36 1.2.4 MOLNIYA ORBITS 38 1.2.5 GPS AND GLONASS ORBITS 39 1.2.6 OTHER HIGH ALTITUDE ORBITS 40 2 INITIAL ORBIT DETERMINATION 43 2.1 THE ALGORITHMS 43 2.1.1 CIRCULAR ORBIT 43 2.1.2 ELLIPTIC ORBIT 44 2.1.3 ELLIPTIC ORBIT WITH GIVEN SEMIMAJOR AXIS AND ECCENTRICITY 46 2.2 HOW ACCURATE IS AN INITIAL ORBIT? 47 2.2.1 METHODS OF ANALYSIS 47 2.2.2 CIRCULAR ORBIT 49 2.2.3 ELLIPTIC ORBIT 61 2.2.4 ELLIPTIC ORBIT WITH GIVEN ECCENTRICITY AND SEMIMAJOR AXIS 73 2.3 CONCLUSIONS AND EXAMPLES 78 2 CONTENTS 3 ORBIT DETERMINATION 85 3.1 METHODS AND ROUTINES 85 3.1.1 THE ORBIT DETERMINATION PROGRAM 85 3.1.2 OBSERVATION TYPES AND PARAMETERS 87 3.1.3 THE FORCE MODEL 91 3.1.4 ORBIT COMBINATION 94 3.1.5 COVARIANCE STUDIES 95 3.2 DISTRIBUTION OF THE OBSERVATIONS 97 3.2.1 OBSERVATIONS WITHIN ONE NIGHT 97 3.2.2 OBSERVATIONS DISTRIBUTED OVER SEVERAL NIGHTS 100 3.2.3 ERRORS IN THE EXTRAPOLATED POSITION OF THE SATELLITES 101 3.2.4 DETERMINATION OF RADIATION PRESSURE COEFFICIENTS 105 4 RESONANCE OF SATELLITE MOTION WITH THE GEOPOTENTIAL 111 4.1 INTRODUCTION ILL 4.1.1 COMMENSURABILITY AND RESONANCE 112 4.1.2 THE EARTH S POTENTIAL 113 4.1.3 THE OSCILLATION EQUATION FOR A GEOSYNCHRONOUS SATELLITE 114 4.2 THE RESONANCE TERMS 116 4.2.1 THE PERTURBATION EQUATION FOR THE SEMIMAJOR AXIS 116 4.2.2 RESONANCE 118 4.2.3 THE LUMPED COEFFICIENTS 120 4.2.4 COVARIANCE STUDIES FOR THE DETERMINATION OF RESONANT GEOPOTENTIAL COEFFICIENTS 124 4.3 RESONANCE FOR GPS SATELLITES 128 4.3.1 HEURISTIC IDENTIFICATION OF RESONANT POTENTIAL TERMS 128 4.3.2 DEPENDENCE ON THE INCLINATION 129 4.3.3 DERIVATION OF THE OSCILLATION EQUATION FOR A GPS SATELLITE 130 4.3.4 MEAN ELEMENTS 132 4.3.5 RESONANT DRIFT RATES COMPUTED FROM THEORY 132 4.3.6 CONTRIBUTION OF THE Y-BIAS TO THE DRIFT IN THE SEMIMAJOR AXIS . . . 135 CONTENTS 3 5 METEOSAT: OBSERVATIONS AND RESULTS 139 5.1 OBSERVATION CAMPAIGN OF METEOSAT 4 AND 5 139 5.1.1 BACKGROUND 139 5.1.2 THE ZIMMERWALD OBSERVATIONS 140 5.2 ORBIT DETERMINATION FOR FOUR DAYS AND THE PRECISION OF THE OBSERVATIONS . 143 5.2.1 ORBIT DETERMINATION WITH AND WITHOUT RADIATION PRESSURE 143 5.2.2 PRECISION OF THE OBSERVATIONS 146 5.3 ORBIT DETERMINATION FOR THE THREE ARCS AND THE RADIATION PRESSURE .... 148 5.3.1 THE SOLUTIONS FOR THE THREE ARCS 148 5.3.2 THE RADIATION PRESSURE 150 5.4 COMBINATION OF ARCS AND DETERMINATION OF RESONANCE TERMS 153 5.4.1 COMBINATION OF TWO ARCS OF METEOSAT 4 153 5.4.2 DETERMINATION OF THE RESONANT GEOPOTENTIAL TERMS 156 5.4.3 COMBINATION OF ASTROMETRIC OBSERVATIONS FROM ZIMMERWALD AND GRAZ 158 6 COMBINATION OF RADAR AND ASTROMETRIC MEASUREMENTS 161 6.1 OBSERVATION OF GEOSTATIONARY OBJECTS BY THE FGAN RADAR 161 6.1.1 THE FGAN RADAR 161 6.1.2 THE FGAN OBSERVATIONS 162 6.2 QUASI-SIMULTANEOUS RADAR AND OPTICAL OBSERVATIONS 164 6.2.1 THE OBSERVATIONS 164 6.2.2 COMBINATION OF DIFFERENT OBSERVATION TYPES 164 6.3 COVARIANCE STUDIES 172 6.3.1 ORBIT DETERMINATION FROM RADAR OBSERVATIONS 172 6.3.2 EFFECTS OF OFFSETS IN THE RADAR OBSERVABLES 178 6.3.3 DETERMINATION OF RADAR OFFSETS USING ASTROMETRIC OBSERVATIONS . . 180 A TRANSFORMATION FORMULAE 187 A.I DIFFERENT SETS OF ORBITAL ELEMENTS AND TRANSFORMATION OF DERIVATIVES . . . 187 A.2 JACOBIAN MATRICES FOR TRANSFORMATIONS OF THE COVARIANCE MATRIX 190 B COMBINING ARCS SEPARATED BY A MANOEUVER 193 4 CONTENTS C RADIATION PRESSURE MODEL FOR THE METEOSAT SATELLITES 195 ABBREVIATIONS 199 ACKNOWLEDGEMENTS 202 REFERENCES 203
adam_txt	GEODATISCH-GEOPHYSIKALISCHE ARBEITEN IN DER SCHWEIZ (FORTSETZUNG DER PUBLIKATIONSREIHE ASTRONOMISCH-GEODATISCHE ARBEITEN IN DER SCHWEIZ») HERAUSGEGEBEN VON DER SCHWEIZERISCHEN GEODATISCHEN KOMMISSION (ORGAN DER SCHWEIZERISCHEN AKADEMIE DER NATURWISSENSCHAFTEN) SUB GOTTINGEN 7 210 423 994 99 B4316 SIEBENUNDFIINFZIGSTER BAND ASTROMETRY AND SATELLITE ORBITS: VOLUME 57 THEORETICAL CONSIDERATIONS AND TYPICAL APPLICATIONS URS HUGENTOBLER 1998 CONTENTS INTRODUCTION 5 1 ASTROMETRY OF ARTIFICIAL SATELLITES 11 1.1 OPTICAL OBSERVATIONS AND REDUCTION METHODS 11 1.1.1 INSTRUMENTATION IN ZIMMERWALD 11 1.1.2 OBSERVATION TECHNIQUE FOR FAST MOVING OBJECTS WITH CCD 11 1.1.3 ASTROMETRIC CATALOGUES 16 1.1.4 REDUCTION OF SATELLITE POSITIONS TO STANDARD COORDINATES 17 1.1.5 SEARCH FOR EARTH ORBITING OBJECTS 22 1.2 SLOW MOVING SATELLITES 25 1.2.1 GEOSTATIONARY ORBITS 25 1.2.2 DENSITY OF CATALOGUED OBJECTS IN GEOSTATIONARY RING 31 1.2.3 GEOSTATIONARY TRANSFER ORBITS 36 1.2.4 MOLNIYA ORBITS 38 1.2.5 GPS AND GLONASS ORBITS 39 1.2.6 OTHER HIGH ALTITUDE ORBITS 40 2 INITIAL ORBIT DETERMINATION 43 2.1 THE ALGORITHMS 43 2.1.1 CIRCULAR ORBIT 43 2.1.2 ELLIPTIC ORBIT 44 2.1.3 ELLIPTIC ORBIT WITH GIVEN SEMIMAJOR AXIS AND ECCENTRICITY 46 2.2 HOW ACCURATE IS AN INITIAL ORBIT? 47 2.2.1 METHODS OF ANALYSIS 47 2.2.2 CIRCULAR ORBIT 49 2.2.3 ELLIPTIC ORBIT 61 2.2.4 ELLIPTIC ORBIT WITH GIVEN ECCENTRICITY AND SEMIMAJOR AXIS 73 2.3 CONCLUSIONS AND EXAMPLES 78 2 CONTENTS 3 ORBIT DETERMINATION 85 3.1 METHODS AND ROUTINES 85 3.1.1 THE ORBIT DETERMINATION PROGRAM 85 3.1.2 OBSERVATION TYPES AND PARAMETERS 87 3.1.3 THE FORCE MODEL 91 3.1.4 ORBIT COMBINATION 94 3.1.5 COVARIANCE STUDIES 95 3.2 DISTRIBUTION OF THE OBSERVATIONS 97 3.2.1 OBSERVATIONS WITHIN ONE NIGHT 97 3.2.2 OBSERVATIONS DISTRIBUTED OVER SEVERAL NIGHTS 100 3.2.3 ERRORS IN THE EXTRAPOLATED POSITION OF THE SATELLITES 101 3.2.4 DETERMINATION OF RADIATION PRESSURE COEFFICIENTS 105 4 RESONANCE OF SATELLITE MOTION WITH THE GEOPOTENTIAL 111 4.1 INTRODUCTION ILL 4.1.1 COMMENSURABILITY AND RESONANCE 112 4.1.2 THE EARTH'S POTENTIAL 113 4.1.3 THE OSCILLATION EQUATION FOR A GEOSYNCHRONOUS SATELLITE 114 4.2 THE RESONANCE TERMS 116 4.2.1 THE PERTURBATION EQUATION FOR THE SEMIMAJOR AXIS 116 4.2.2 RESONANCE 118 4.2.3 THE LUMPED COEFFICIENTS 120 4.2.4 COVARIANCE STUDIES FOR THE DETERMINATION OF RESONANT GEOPOTENTIAL COEFFICIENTS 124 4.3 RESONANCE FOR GPS SATELLITES 128 4.3.1 HEURISTIC IDENTIFICATION OF RESONANT POTENTIAL TERMS 128 4.3.2 DEPENDENCE ON THE INCLINATION 129 4.3.3 DERIVATION OF THE OSCILLATION EQUATION FOR A GPS SATELLITE 130 4.3.4 MEAN ELEMENTS 132 4.3.5 RESONANT DRIFT RATES COMPUTED FROM THEORY 132 4.3.6 CONTRIBUTION OF THE Y-BIAS TO THE DRIFT IN THE SEMIMAJOR AXIS . . . 135 CONTENTS 3 5 METEOSAT: OBSERVATIONS AND RESULTS 139 5.1 OBSERVATION CAMPAIGN OF METEOSAT 4 AND 5 139 5.1.1 BACKGROUND 139 5.1.2 THE ZIMMERWALD OBSERVATIONS 140 5.2 ORBIT DETERMINATION FOR FOUR DAYS AND THE PRECISION OF THE OBSERVATIONS . 143 5.2.1 ORBIT DETERMINATION WITH AND WITHOUT RADIATION PRESSURE 143 5.2.2 PRECISION OF THE OBSERVATIONS 146 5.3 ORBIT DETERMINATION FOR THE THREE ARCS AND THE RADIATION PRESSURE . 148 5.3.1 THE SOLUTIONS FOR THE THREE ARCS 148 5.3.2 THE RADIATION PRESSURE 150 5.4 COMBINATION OF ARCS AND DETERMINATION OF RESONANCE TERMS 153 5.4.1 COMBINATION OF TWO ARCS OF METEOSAT 4 153 5.4.2 DETERMINATION OF THE RESONANT GEOPOTENTIAL TERMS 156 5.4.3 COMBINATION OF ASTROMETRIC OBSERVATIONS FROM ZIMMERWALD AND GRAZ 158 6 COMBINATION OF RADAR AND ASTROMETRIC MEASUREMENTS 161 6.1 OBSERVATION OF GEOSTATIONARY OBJECTS BY THE FGAN RADAR 161 6.1.1 THE FGAN RADAR 161 6.1.2 THE FGAN OBSERVATIONS 162 6.2 QUASI-SIMULTANEOUS RADAR AND OPTICAL OBSERVATIONS 164 6.2.1 THE OBSERVATIONS 164 6.2.2 COMBINATION OF DIFFERENT OBSERVATION TYPES 164 6.3 COVARIANCE STUDIES 172 6.3.1 ORBIT DETERMINATION FROM RADAR OBSERVATIONS 172 6.3.2 EFFECTS OF OFFSETS IN THE RADAR OBSERVABLES 178 6.3.3 DETERMINATION OF RADAR OFFSETS USING ASTROMETRIC OBSERVATIONS . . 180 A TRANSFORMATION FORMULAE 187 A.I DIFFERENT SETS OF ORBITAL ELEMENTS AND TRANSFORMATION OF DERIVATIVES . . . 187 A.2 JACOBIAN MATRICES FOR TRANSFORMATIONS OF THE COVARIANCE MATRIX 190 B COMBINING ARCS SEPARATED BY A MANOEUVER 193 4 CONTENTS C RADIATION PRESSURE MODEL FOR THE METEOSAT SATELLITES 195 ABBREVIATIONS 199 ACKNOWLEDGEMENTS 202 REFERENCES 203
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spellingShingle	Hugentobler, Urs Astrometry and satellite orbits theoretical considerations and typical applications Geodätisch-geophysikalische Arbeiten in der Schweiz
title	Astrometry and satellite orbits theoretical considerations and typical applications
title_auth	Astrometry and satellite orbits theoretical considerations and typical applications
title_exact_search	Astrometry and satellite orbits theoretical considerations and typical applications
title_exact_search_txtP	Astrometry and satellite orbits theoretical considerations and typical applications
title_full	Astrometry and satellite orbits theoretical considerations and typical applications Urs Hugentobler
title_fullStr	Astrometry and satellite orbits theoretical considerations and typical applications Urs Hugentobler
title_full_unstemmed	Astrometry and satellite orbits theoretical considerations and typical applications Urs Hugentobler
title_short	Astrometry and satellite orbits
title_sort	astrometry and satellite orbits theoretical considerations and typical applications
title_sub	theoretical considerations and typical applications
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=015632769&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
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