Verfügbarkeit: Satellite geodesy

Satellite geodesy:

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Bibliographische Detailangaben
1. Verfasser:	Seeber, Günter 1941- (VerfasserIn)
Format:	Buch
Sprache:	English German
Veröffentlicht:	Berlin [u.a.] de Gruyter 2003
Ausgabe:	2., completely rev. and extended ed.
Schlagworte:	Géodésie par satellite Satellite geodesy Satellitengeodäsie
Online-Zugang:	Inhaltsverzeichnis Inhaltsverzeichnis
Beschreibung:	Literaturverz. S. 539 - 574
Beschreibung:	XIX, 589 S. Ill., graph. Darst., Kt.
ISBN:	3110175495

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MARC


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100	1		\|a Seeber, Günter \|d 1941- \|e Verfasser \|0 (DE-588)122944259 \|4 aut
240	1	0	\|a Satellitengeodäsie
245	1	0	\|a Satellite geodesy \|c Günter Seeber
250			\|a 2., completely rev. and extended ed.
264		1	\|a Berlin [u.a.] \|b de Gruyter \|c 2003
300			\|a XIX, 589 S. \|b Ill., graph. Darst., Kt.
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500			\|a Literaturverz. S. 539 - 574
650		4	\|a Géodésie par satellite
650		4	\|a Satellite geodesy
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adam_text	GUENTER SEEBER SATELLITE GEODESY 2ND COMPLETELY REVISED AND EXTENDED EDITION WALTER DE GRUYTER BERLIN NEW YORK 2003 CONTENTS PREFACE VII ABBREVIATIONS XVII 1 INTRODUCTION 1 1.1 SUBJECT OF SATELLITE GEODESY ...................... 1 1.2 CLASSIFICATION AND BASIC CONCEPTS OF SATELLITE GEODESY ........ 3 1.3 HISTORICAL DEVELOPMENT OF SATELLITE GEODESY .............. 5 1.4 APPLICATIONS OF SATELLITE GEODESY .................... 7 1.5 STRUCTURE AND OBJECTIVE OF THE BOOK .................. 9 2 FUNDAMENTALS 10 2.1 REFERENCE COORDINATE SYSTEMS ..................... 10 2.1.1 CARTESIAN COORDINATE SYSTEMS AND COORDINATE TRANSFORMATIONS 10 2.1.2 REFERENCE COORDINATE SYSTEMS AND FRAMES IN SATELLITE GEODESY 12 2.1.2.1 CONVENTIONAL INERTIAL SYSTEMS AND FRAMES ..... 13 2.1.2.2 CONVENTIONAL TERRESTRIAL SYSTEMS AND FRAMES .... 15 2.1.3 REFERENCE COORDINATE SYSTEMS IN THE GRAVITY FIELD OF EARTH . 2 1 2.1.2.3 RELATIONSHIP BETWEEN CIS AND CTS ......... 17 2.1.4 ELLIPSOIDAL REFERENCE COORDINATE SYSTEMS ........... 23 2.1.5 ELLIPSOID, GEOID AND GEODETIC DATUM ............. 25 2.1.6 WORLD GEODETIC SYSTEM 1984 (WGS 84) ............ 28 2.1.7 THREE-DIMENSIONAL ECCENTRICITY COMPUTATION ......... 30 2.2.1 BASIC CONSIDERATIONS ...................... 31 2.2.2 SIDEREAL TIME AND UNIVERSAL TIME ............... 32 2.2.3 ATOMIC TIME .......................... 35 2.2.4 EPHEMERIS TIME, DYNAMICAL TIME, TERRESTRIAL TIME ...... 37 2.2.5 CLOCKS AND FREQUENCY STANDARDS ................ 39 2.3 SIGNAL PROPAGATION ........................... 42 2.3.1 SOME FUNDAMENTALS OF WAVE PROPAGATION ........... 43 2.3.1.1 BASIC RELATIONS AND DEFINITIONS ........... 43 2.3.1.2 DISPERSION, PHASE VELOCITY AND GROUP VELOCITY ... 45 2.3.1.3 FREQUENCY DOMAINS ................. 46 2.3.2 STRUCTURE AND SUBDIVISION OF THE ATMOSPHERE ......... 48 2.3.3.1 IONOSPHERIC REFRACTION ............... 54 2.3.3.2 TROPOSPHERIC REFRACTION ............... 56 ................................... 2.2 TIME 31 2.3.3 SIGNAL PROPAGATION THROUGH THE IONOSPHERE AND THE TROPOSPHERE 52 X CONTENTS 3 SATELLITE ORBITAL MOTION 62 3.1 FUNDAMENTALS OF CELESTIAL MECHANICS. TWO-BODY PROBLEM ...... 62 3.1.1 KEPLERIAN MOTION ........................ 63 3.1.2.1 EQUATION OF MOTION ................. 66 3.1.2.2 ELEMENTARY INTEGRATION ............... 69 3.1.2.3 VECTORIAL INTEGRATION ................. 74 3.1.3 ORBIT GEOMETRY AND ORBITAL MOTION .............. 77 3.2 PERTURBED SATELLITE MOTION ....................... 82 3.1.2 NEWTONIAN MECHANICS. TWO-BODY PROBLEM .......... 66 3.2.1 REPRESENTATION OF THE PERTURBED ORBITAL-MOTION ........ 84 3.2.1.1 OSCULATING AND MEAN ORBITAL ELEMENTS ....... 84 3.2.1.3 GAUSSIAN FORM OF PERTURBATION EQUATION ...... 87 3.2.2 DISTURBED MOTION DUE TO EARTHS ANOMALOUS GRAVITY FIELD . . 88 3.2.2.1 PERTURBATION EQUATION AND GEOPOTENTIAL ...... 89 3.2.2.2 PERTURBATIONS OF THE ELEMENTS ............ 94 3.2.2.3 PERTURBATIONS CAUSED BY THE ZONAL COEFFICIENTS JN . 96 3.2.3 OTHER PERTURBATIONS ....................... 98 3.2.3.1 PERTURBING FORCES CAUSED BY THE SUN AND MOON . . 98 3.2.3.2 SOLID EARTH TIDES AND OCEAN TIDES ......... 101 3.2.3.4 DIRECT AND INDIRECT SOLAR RADIATION PRESSURE .... 104 3.2.1.2 LAGRANGES PERTURBATION EQUATIONS ......... 85 3.2.3.3 ATMOSPHERIC DRAG .................. 102 3.2.3.5 FURTHER PERTURBATIONS ................ 105 3.2.3.6 RESONANCES ..................... 107 IMPLICATIONS OF PERTURBATIONS ON SELECTED SATELLITE ORBITS ... 108 3.3 ORBIT DETERMINATION ........................... 109 INTEGRATION OF THE UNDISTURBED ORBIT .............. 110 3.3.2 INTEGRATION OF THE PERTURBED ORBIT ............... 114 3.3.2.1 ANALYTICAL METHODS OF ORBIT INTEGRATION ...... 114 3.3.2.2 NUMERICAL METHODS OF ORBIT INTEGRATION ...... 116 3.3.3 ORBIT REPRESENTATION ...................... 120 3.3.3.2 POLYNOMIAL APPROXIMATION ............. 122 3.3.3.3 SIMPLIFIED SHORT ARC REPRESENTATION ........ 124 3.4 SATELLITE ORBITS AND CONSTELLATIONS ................... 126 3.4.1 BASIC ASPECTS .......................... 126 3.4.2 ORBITS AND CONSTELLATIONS .................... 128 3.4.3 SUN-SYNCHRONOUS, GEOSTATIONARY, AND TRANSFER ORBITS ..... 131 3.2.4 3.3.1 3.3.2.3 PRECISE ORBIT DETERMINATION WITH SPACEBORNE GPS . 119 3.3.3.1 EPHEMERIS REPRESENTATION FOR NAVIGATION SATELLITES 121 CONTENTS XI 4 BASIC OBSERVATION CONCEPTS AND SATELLITES USED IN GEODESY 135 4.1 4.2 SATELLITE GEODESY AS A PARAMETER ESTIMATION PROBLEM ......... 135 OBSERVABLES AND BASIC CONCEPTS .................... 139 4.2.1 DETERMINATION OF DIRECTIONS .................. 139 DETERMINATION OF RANGES .................... 141 4.2.4 SATELLITE ALTIMETRY ....................... 144 4.2.6 INTERFEROMETRIC MEASUREMENTS ................. 145 FURTHER OBSERVATION TECHNIQUES ................ 147 4.3 SATELLITES USED IN GEODESY ....................... 147 4.3.1 BASIC CONSIDERATIONS ...................... 147 4.3.2 SOME SELECTED SATELLITES .................... 149 4.3.3 SATELLITE SUBSYSTEMS ...................... 152 4.3.3.1 DRAG FREE SYSTEMS .................. 152 4.3.3.2 ATTITUDE CONTROL ................... 153 4.3.3.3 NAVIGATION PAYLOAD, PRARE ............ 154 4.3.4 PLANNED SATELLITES AND MISSIONS ................ 156 SOME EARLY OBSERVATION TECHNIQUES (CLASSICAL METHODS) ....... 158 4.4.1 ELECTRONIC RANGING SECOR .................. 159 OTHER EARLY OBSERVATION TECHNIQUES .............. 160 PHOTOGRAPHIC DETERMINATION OF DIRECTIONS ............... 161 SATELLITES USED FOR CAMERA OBSERVATIONS ............ 162 5.1.2 SATELLITE CAMERAS ........................ 163 OBSERVATION AND PLATE REDUCTION ................ 164 5.1.4 SPATIAL TRIANGULATION ...................... 169 5.1.5 RESULTS ............................. 170 DIRECTIONS WITH CCD TECHNOLOGY .................... 172 IMAGE COORDINATES FROM CCD OBSERVATIONS .......... 172 5.2.3 APPLICATIONS, RESULTS AND PROSPECTS .............. 176 DIRECTIONS FROM SPACE PLATFORMS .................... 176 5.3.1 STAR TRACKER . .......................... 177 ASTROMETRIC SATELLITES, HIPPARCOS .............. 177 5.3.3 PLANNED MISSIONS ........................ 178 4.2.2 4.2.3 4.2.5 DETERMINATION OF RANGE DIFFERENCES (DOPPLER METHOD) .... 143 DETERMINATION OF RANGES AND RANGE-RATES (SATELLITE-TO-SATELLITE TRACKING) ................. 144 4.2.7 4.4 4.4.2 5 OPTICAL METHODS FOR THE DETERMINATION OF DIRECTIONS 161 5.1 5.1.1 5.1.3 5.2 5.2.1 5.2.2 STAR CATALOGS, STAR IDENTIFICATION AND PLATE REDUCTION ..... 174 5.3 5.3.2 6 DOPPLER TECHNIQUES 181 DOPPLER EFFECT AND BASIC POSITIONING CONCEPT ............. 183 6.2.1 SYSTEM ARCHITECTURE ...................... 187 6.2.2 BROADCAST AND PRECISE EPHEMERIDES .............. 188 6.1 6.2 ONE SUCCESSFUL EXAMPLE: THE NAVY NAVIGATION SATELLITE SYSTEM . . 186 XII CONTENTS 6.3 DOPPLER RECEIVERS ............................ 190 6.3.1 BASIC CONCEPT .......................... 190 EXAMPLES OF DOPPLER SURVEY SETS ............... 192 ERROR BUDGET AND CORRECTIONS ...................... 193 6.4.1 SATELLITE ORBITS ......................... 194 6.4.2 IONOSPHERIC AND TROPOSPHERIC REFRACTION ........... 195 6.4.3 RECEIVER SYSTEM ........................ 196 6.4.5 MOTION OF THE RECEIVER ANTENNA ................ 198 6.5 OBSERVATION STRATEGIES AND ADJUSTMENT MODELS ............ 199 6.5.1 EXTENDED OBSERVATION EQUATION ................ 199 6.5.2 SINGLE STATION POSITIONING ................... 201 6.5.3 MULTI-STATION POSITIONING ..................... 202 6.6 APPLICATIONS .............................. 203 APPLICATIONS FOR GEODETIC CONTROL ............... 204 6.6.2 FURTHER APPLICATIONS ...................... 205 6.7 DORIS ................................. 207 6.3.2 6.4 6.4.4 EARTH ROTATION AND RELATIVISTIC EFFECTS ............. 197 6.6.1 7 THE GLOBAL POSITIONING SYSTEM (GPS) 21 1 7.1 FUNDAMENTALS .............................. 211 7.1.1 INTRODUCTION ........................... 211 7.1.2 SPACE SEGMENT ......................... 213 7.1.3 CONTROL SEGMENT ........................ 217 7.1.4 OBSERVATION PRINCIPLE AND SIGNAL STRUCTURE .......... 218 ORBIT DETERMINATION AND ORBIT REPRESENTATION ......... 222 ORBIT REPRESENTATION ................. 223 COORDINATES ..................... 225 STRUCTURE OF THE GPS NAVIGATION DATA ........ 227 7.1.6 INTENTIONAL LIMITATION OF THE SYSTEM ACCURACY ........ 229 7.1.7 SYSTEM DEVELOPMENT ...................... 230 GPS RECEIVERS (USER SEGMENT) ..................... 234 RECEIVER CONCEPTS AND MAIN RECEIVER COMPONENTS ...... 234 7.2.2 CODE DEPENDENT SIGNAL PROCESSING .............. 239 CODELESS AND SEMICODELESS SIGNAL PROCESSING ......... 240 EXAMPLES OF GPS RECEIVERS ................... 243 7.2.4.1 CLASSICAL RECEIVERS ................. 243 RECEIVERS ...................... 245 7.2.4.3 NAVIGATION AND HANDHELD RECEIVERS ........ 248 7.2.5 FUTURE DEVELOPMENTS AND TRENDS ............... 250 GPS OBSERVABLES AND DATA PROCESSING ................. 252 7.1.5 7.1.5.1 7.1 S.2 7.1.5.3 7.1 S.4 DETERMINATION OF THE BROADCAST EPHEMERIDES .... 222 COMPUTATION OF SATELLITE TIME AND SATELLITE 7.2 7.2.1 7.2.3 7.2.4 7.2.4.2 EXAMPLES OF CURRENTLY AVAILABLE GEODETIC 7.3 ... CONTENTS XIII 7.3.1 OBSERVABLES ........................... 252 7.3.1.1 CLASSICAL VIEW .................... 252 CODE AND CARRIER PHASES ............... 255 7.3.2 PARAMETER ESTIMATION ...................... 258 LINEAR COMBINATIONS AND DERIVED OBSERVABLES ... 258 CONCEPTS OF PARAMETRIZATION ............. 265 RESOLUTION OF AMBIGUITIES .............. 269 7.3.3 DATA HANDLING ......................... 277 7.3.3.1 CYCLE SLIPS ...................... 277 ADJUSTMENT STRATEGIES AND SOFTWARE CONCEPTS ......... 283 CONCEPTS OF RAPID METHODS WITH GPS ............. 289 7.3.5.1 BASIC CONSIDERATIONS ................ 289 RAPID STATIC METHODS ................ 290 7.3.5.3 SEMI KINEMATIC METHODS .............. 292 PURE KINEMATIC METHOD ............... 294 NAVIGATION WITH GPS ...................... 295 ERROR BUDGET AND CORRECTIONS ...................... 297 7.4.1 BASIC CONSIDERATIONS ...................... 297 SATELLITE GEOMETRY AND ACCURACY MEASURES .......... 300 ORBITS AND CLOCKS ........................ 304 BROADCAST EPHEMERIDES AND CLOCKS ......... 304 7.4.3.2 PRECISE EPHEMERIDES AND CLOCKS, IGS ....... 307 7.4.4 SIGNAL PROPAGATION ....................... 309 IONOSPHERIC EFFECTS ON GPS SIGNALS ......... 309 TROPOSPHERIC PROPAGATION EFFECTS .......... 314 7.4.4.3 MULTIPATH ...................... 316 INTERFERENCE ..................... 319 7.4.5 RECEIVING SYSTEM ........................ 320 ANTENNA PHASE CENTER VARIATION ........... 320 SYSTEM ........................ 323 FURTHER INFLUENCES, SUMMARY, THE ISSUE OF INTEGRITY ...... 323 7.5 DIFFERENTIAL GPS AND PERMANENT REFERENCE NETWORKS ......... 325 DIFFERENTIAL GPS (DGPS) .................... 326 7.5.1.1 DGPS CONCEPTS ................... 326 7.5.1.2 DATA FORMATS AND DATA TRANSMISSION ........ 329 7.5.1.3 EXAMPLES OF SERVICES ................ 332 REAL TIME KINEMATIC GPS ................... 336 7.5.3 MULTIPLE REFERENCE STATIONS . ................. 338 7.5.3.1 WIDE AREA DIFFERENTIAL GPS ............. 339 7.5.3.2 HIGH PRECISION NETWORKED REFERENCE STATIONS ... 341 7.3.1.2 7.3.2.1 7.3.2.2 7.3.2.3 7.3.3.2 THE RECEIVER INDEPENDENT DATA FORMAT RINEX . . 281 7.3.4 7.3.5 7.3.5.2 7.3.5.4 7.3.6 7.4 7.4.2 7.4.3 7.4.3.1 7.4.4.1 7.4.4.2 7.4.4.4 FURTHER PROPAGATION EFFECTS, DIFFRACTION AND SIGNAL 7.4.5.1 7.4.5.2 OTHER ERROR SOURCES RELATED TO THE RECEIVING 7.4.6 7.5.1 7.5.2 XIV CONTENTS 7.6 APPLICATIONS ............................... 345 7.6.1 PLANNING AND REALIZATION OF GPS OBSERVATION ......... 345 7.6.1.1 SETTING UP AN OBSERVATION PLAN ........... 346 7.6.1.2 PRACTICAL ASPECTS IN FIELD OBSERVATIONS ....... 348 7.6.1.3 OBSERVATION STRATEGIES AND NETWORK DESIGN .... 350 POSSIBLE APPLICATIONS AND EXAMPLES OF GPS OBSERVATIONS . . 356 7.6.2.1 GEODETIC CONTROL SURVEYS . ............. 357 7.6.2.2 GEODYNAMICS .................... 362 7.6.2.3 HEIGHT DETERMINATION ................ 366 7.6.2.4 CADASTRAL SURVEYING, GEOGRAPHIC INFORMATION SYSTEMS ....................... 368 7.6.2.5 FLEET MANAGEMENT, TELEMATICS, LOCATION BASED SERVICES ....................... 371 7.6.2.6 ENGINEERING AND MONITORING ............. 372 7.6.2.7 PRECISE MARINE NAVIGATION, MARINE GEODESY, AND HYDROGRAPHY .................. 375 7.6.2.8 PHOTOGRAMMETRY, REMOTE SENSING, AIRBORNE GPS . 378 7.6.2.9 SPECIAL APPLICATIONS OF GPS ............ 380 GNSS - GLOBAL NAVIGATION SATELLITE SYSTEM .............. 383 7.7.1 GLONASS ........................... 384 7.7.2 GPS/GLONASS AUGMENTATIONS ................ 392 7.7.3 GALILEO ........................... 393 7.8 SERVICES AND ORGANIZATIONS RELATED TO GPS .............. 397 7.8.1 THE INTERNATIONAL GPS SERVICE (IGS) ............. 397 7.8.2 OTHER SERVICES ......................... 401 7.6.2 7.7 8 LASER RANGING 404 8.1 INTRODUCTION ............................... 404 8.2 SATELLITES EQUIPPED WITH LASER REFLECTORS ............... 406 8.3 LASER RANGING SYSTEMS AND COMPONENTS ................ 411 8.3.1 LASER OSCILLATORS ........................ 411 8.3.2 OTHER SYSTEM COMPONENTS ................... 412 8.3.3 CURRENTLY AVAILABLE FIXED AND TRANSPORTABLE LASER SYSTEMS . 414 8.3.4 TRENDS IN SLR SYSTEM DEVELOPMENTS ............. 416 8.4 CORRECTIONS, DATA PROCESSING AND ACCURACY .............. 418 8.4.1 EXTENDED RANGING EQUATION .................. 418 8.4.2 DATA CONTROL, DATA COMPRESSION, AND NORMAL POINTS ..... 422 8.5 APPLICATIONS OF SATELLITE LASER RANGING ................ 424 8.5.1 REALIZATION OF OBSERVATION PROGRAMS. LNTERNATIONAL LASER RANGING SERVICE (ILRS) .................... 424 8.5.2 PARAMETER ESTIMATION ...................... 427 8.5.3 EARTH GRAVITY FIELD, PRECISE ORBIT DETERMINATION (POD) ... 428 8.5.4 POSITIONS AND POSITION CHANGES ................ 431 ! CONTENTS XV 8.5.5 EARTH ROTATION. POLAR MOTION .................. 432 8.5.6 OTHER APPLICATIONS ....................... 435 8.6 LUNAR LASER RANGING .......................... 436 8.7 SPACEBORNE LASER ............................ 441 9 SATELLITE ALTIMETRY 443 9.1 BASIC CONCEPT .............................. 443 9.2 SATELLITES AND MISSIONS ......................... 444 9.3 MEASUREMENTS, CORRECTIONS. ACCURACY ................. 451 GEOMETRY OF ALTIMETER OBSERVATIONS .............. 451 9.3.2 DATA GENERATION ........................ 452 9.3.3 CORRECTIONS AND ERROR BUDGET ................. 454 9.4 DETERMINATION OF THE MEAN SEA SURFACE ................ 460 APPLICATIONS OF SATELLITE ALTIMETRY ................... 461 9.5.1 GEOID AND GRAVITY FIELD DETERMINATION ............ 462 9.5.2 GEOPHYSICAL INTERPRETATION ................... 464 OCEANOGRAPHY AND GLACIOLOGY ................. 465 9.3.1 9.5 9.5.3 10 GRAVITY FIELD MISSIONS 469 10.1 BASIC CONSIDERATIONS .......................... 469 10.2 SATELLITE-TO-SATELLITE TRACKING (SST) .................. 473 10.2.1 CONCEPTS ............................ 473 10.2.2 HIGH-LOW MODE, CHAMP ................... 476 10.2.3 LOW-LOW MODE. GRACE ................... 477 10.3 SATELLITE GRAVITY GRADIOMETRY ...................... 480 10.3.1 CONCEPTS ............................ 480 10.3.2 GOCE MISSION ......................... 482 11 RELATED SPACE TECHNIQUES 485 1 1.1.1 BASIC CONCEPT. OBSERVATION EQUATIONS. AND ERROR BUDGET . .. 485 11.1.3 INTERNATIONAL COOPERATION. INTERNATIONAL VLBI SERVICE (IVS) . 496 11 . 1 VERY LONG BASELINE INTERFEROMETRY ................... 485 11.1.2 APPLICATIONS .......................... 491 11.1.4 VLBI WITH SATELLITES ...................... 498 11.2 INTERFEROMETRIC SYNTHETIC APERTURE RADAR (INSAR) ........... 500 11.2.1 BASIC CONCEPTS, SYNTHETIC APERTURE RADAR (SAR) ....... 500 1 1.2.2 INTERFEROMETRIC SAR ...................... 502 I 1.2.3 DIFFERENTIAL RADAR INTERFEROMETRY ............... 505 12 OVERVIEW AND APPLICATIONS 506 12.1 POSITIONING ............................... 506 12.1.1 CONCEPTS. ABSOLUTE AND RELATIVE POSITIONING ......... 506 12.1.2 GLOBAL AND REGIONAL NETWORKS ................. 510 12.1.3 OPERATIONAL POSITIONING .................... 511 XVI CONTENTS 12.2 GRAVITY FIELD AND EARTH MODELS .................... 514 12.2.1 FUNDAMENTALS .......................... 514 12.2.2 EARTH MODELS .......................... 519 12.3 NAVIGATION AND MARINE GEODESY .................... 523 POSITIONING ........................... 523 12.3.2 MARINE POSITIONING TECHNIQUES ................. 524 12.4 GEODYNAMICS .............................. 527 12.4.1 RECENT CRUSTAL MOVEMENTS ................... 527 12.4.2 EARTH ROTATION, REFERENCE FRAMES. IERS ........... 529 12.5 COMBINATION OF GEODETIC SPACE TECHNIQUES .............. 534 12.5.1 BASIC CONSIDERATIONS ...................... 534 12.5.2 FUNDAMENTAL STATIONS ...................... 535 12.5.3 INTEGRATED GLOBAL GEODETIC OBSERVING SYSTEM (IGGOS) ... 537 12.3.1 POSSIBLE APPLICATIONS AND ACCURACY REQUIREMENTS IN MARINE REFERENCES 539 INDEX 575
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edition	2., completely rev. and extended ed.
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id	DE-604.BV017256889
illustrated	Illustrated
indexdate	2024-08-01T11:28:50Z
institution	BVB
isbn	3110175495
language	English German
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-010402154
oclc_num	52258226
open_access_boolean
owner	DE-29 DE-20 DE-91 DE-BY-TUM DE-706 DE-863 DE-BY-FWS DE-Eb1 DE-634 DE-83 DE-B768 DE-M100 DE-2174
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physical	XIX, 589 S. Ill., graph. Darst., Kt.
publishDate	2003
publishDateSearch	2003
publishDateSort	2003
publisher	de Gruyter
record_format	marc
spellingShingle	Seeber, Günter 1941- Satellite geodesy Géodésie par satellite Satellite geodesy Satellitengeodäsie (DE-588)4051744-5 gnd
subject_GND	(DE-588)4051744-5
title	Satellite geodesy
title_alt	Satellitengeodäsie
title_auth	Satellite geodesy
title_exact_search	Satellite geodesy
title_full	Satellite geodesy Günter Seeber
title_fullStr	Satellite geodesy Günter Seeber
title_full_unstemmed	Satellite geodesy Günter Seeber
title_short	Satellite geodesy
title_sort	satellite geodesy
topic	Géodésie par satellite Satellite geodesy Satellitengeodäsie (DE-588)4051744-5 gnd
topic_facet	Géodésie par satellite Satellite geodesy Satellitengeodäsie
url	http://www3.ub.tu-berlin.de/ihv/000894688.pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=010402154&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT seebergunter satellitengeodasie AT seebergunter satellitegeodesy

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