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地球卫星遥感（卷2）

作者: 曲

出版社: 清华大学出版社

出版时间: 2006-09

版次: 1

ISBN: 9787302128557

定价: 118.00

装帧: 精装

开本: 16开

纸张: 铜版纸

页数: 335页

字数: 674千字

分类: 自然科学

6人买过

《地球卫星遥感（卷2）：数据、计算的过程和工具（国内版）》共有两卷。此为第2卷，共有18章，主要内容为（1）提供了有关地球科学遥感数据的信息；（2）讨论了MODIS探测器的校正和特点；（3）对当前数据处理方法进行分析和评价；（4）介绍了不同数据中心的数据查询和定购；以及（5）探讨了遥感和地理信息系统产品——网络GIS应用和工具等内容。
该书作者均为相关领域具有权威性的专家与学者。图书内容既包括现代遥感技术的基础知识，又涉及卫星遥感的前沿领域，有广泛的实用性，可作为遥感、地学、环境、空间信息等地球科学领域的专业参考书。 Prof.JohnJ.QuisafacultymemberoftheESGSdepartmentattheschoolofComputationalSciencesandisTechnicalDirectorofEastFIRELabatGeorgeMasonUniversity.HeisalsowithNASAGoddardSpaceFlightCentertosupporttheNPOESSPreparatoryProject（NPP）mission.Hismajorresearchareasaresatelliteremotesensing，Earthsystemsscience，firescienceandGISapplications ListofContributorsxv
1IntroductiontoData，ComputationalProcessingandToolsofSatelliteRemoteSensing1
References9

2EarthScienceSatelliteRemoteSensingDatafromtheEOSDataandInformationSystem11
2.1Introduction11
2.2EOSDISCoreSystem14
2.3ScienceComputingFacilitiesandScienceInvestigator-LedProcessingSystems14
2.4DataAccess15
2.5Perspectives16

3RemotelySensedDataAvailablefromtheUSGeologicalSurveyEROSDataCenter18
3.1Introduction18
3.2DataProducts19
3.2.1AircraftScanners23
3.2.2SatelliteData25
3.2.3DerivedSatelliteDataProducts46
3.3Conclusions50
Acknowledgements51
References51

4NASADirectReadoutforItsPolarOrbitingSatellites52
4.1Introduction52
4.2ContextinHistory52
4.3TheNextStep56
4.4DBCommunity57
4.5TechnologiesandDataFlowsinDirectBroadcastandDirectReadout58
4.6ADBModel60
4.7TechnologyRoadmap61
4.7.1Multi-MissionScheduler62
4.7.2Real-TimeSoftwareTelemetryProcessingSystem63
4.7.3Simulcast69
4.7.4NEpster71
4.8ScienceProcessingAlgorithmWrapper（SPA）72
4.9TheFutureofDBandDR74
Acknowledgements75
References76

5MODISCalibrationandCharacterization77
5.1InstrumentBackground77
5.2MODISPre-LaunchCalibrationandCharacterization80
5.2.1Pre-LaunchCalibrationoftheReflectiveSolarBands80
5.2.2Pre-LaunchCalibrationoftheThermalEmissiveBands82
5.2.3Pre-LaunchSpatialandSpectralCharacterization83
5.2.4Pre-LaunchCalibrationandCharacterizationSummary85
5.3MODISOn-OrbitCalibrationandCharacterization86
5.3.1ReflectiveSolarBandsCalibrationAlgorithmandPerformance86
5.3.2ThermalEmissiveBandsCalibrationAlgorithmandPerformance89
5.3.3On-OrbitSpatialandSpectralCharacterization91
5.3.4SpecialConsiderationsandActivities94
5.4Summary96
References96

6UseoftheMoonforCalibrationandCharacterizationofMODIS，SeaWiFS，andVIRS98
6.1Introduction98
6.1.1TheLunarRadiometricModel99
6.1.2MODIS99
6.1.3SeaWiFS101
6.1.4VIRS102
6.2LunarCalibrationandCharacterizationofMODIS103
6.2.1MODISLunarCalibrationApproachesandApplications103
6.2.2MODISLunarCalibrationResults105
6.3LunarCalibrationandCharacterizationofSeaWiFS108
6.3.1SeaWiFSLunarCalibrationApproachesandApplications108
6.3.2SeaWiFSLunarCalibrationResults110
6.4LunarCalibrationandCharacterizationofVisibleandInfraredScanner113
6.4.1VIRSLunarCalibrationApproachesandApplications113
6.4.2VIRSLunarCalibrationResults114
6.5UsingtheMoonforInter-ComparisonofSensorsOn-Orbit
RadiometricCalibrations116
6.6Summary118
References118

7AReviewofRemoteSensingDataFormatsforEarthSystemObservations120
7.1Introduction120
7.1.1VectorandRaster（orFeatureandGrid）Data120
7.1.2GeorectifiedDataandGeoreferencedData121
7.1.3Metadata122
7.2HierarchicalDataFormat123
7.2.1ThePhysicalLayoutofHDF123
7.2.2Attribute124
7.2.3HDFDataModels125
7.2.4TheHDFSDSDataModel125
7.2.5TheHDFSDAPIandProgrammingModel126
7.3HDF-EOS126
7.3.1ThePointDataModel127
7.3.2TheSwathDataModel127
7.3.3TheGridDataModel129
7.3.4TheHDF-EOSAPIsandProgrammingModels129
7.3.5HDF-EOSVersusNativeHDF130
7.4HDF5131
7.4.1ThePhysicalLayoutofHDF5131
7.4.2HDF5DataModels133
7.4.3HDF5APIandProgrammingModel134
7.5HDF5-BasedHDF-EOS136
7.5.1HDF-EOS5DataStructure136
7.5.2HDF-EOS5ProgrammingModel137
7.6NITF137
7.6.1ThePhysicalLayoutofNITF138
7.6.2TheNITFHeader138
7.6.3TheNITFImageDataSegment139
7.6.4TheNITFRelatedSo，are139
7.7TIFFandGeoTIFF140
7.7.1ThePhysicalLayoutofTIFF140
7.7.2TheTIFFDataModel141
7.7.3GeoTIFF142
7.8Summary144
Acknowledgements144
References145

8ASimple，Scalable，Script-BasedScienceProcessor146
8.1GenesisoftheSimple，Scalable，Script-BasedScienceProcessor146
8.2ArchitectureandDesign147
8.2.1TheS4PKernel147
8.2.2LessonsLearnedfromOtherSystems148
8.3DesignPrinciples149
8.3.1DesignforTrouble149
8.3.2KeepItSimple151
8.4HowS4PWorks152
8.4.1StationsandtheStationmasterDaemon152
8.4.2MonitoringStationsandJobs153
8.4.3StationConfigurability154
8.5S4PReuse154
8.5.1On-DemandSubsetting155
8.5.2Near-ArchiveDataMining155
8.5.3DirectBroadcastProcessingatIMaRS156
8.5.4S4PforMissions156
8.6S4PforMissionsImplementation156
8.6.1DataFlowInitiation157
8.6.2AlgorithmPreparation158
8.6.3AlgorithmExecution159
8.6.4DataArchiveInterface159
8.6.5DataManagement159
8.7FutureDevelopment160
8.7.1Case-BasedReasoning160
8.7.2Open-SourceS4PM160
8.8Conclusions160
References161

9TheMODISReprojectionTool162
9.1Introduction162
9.2MRTFunctionalCapabilities163
9.2.1TheMRTGUI163
9.2.2ParameterFiles166
9.2.3LogFile166
9.2.4Mosaicking166
9.2.5MapProjections167
9.2.6ResamplingProcess169
9.2.7SDSSubsets171
9.2.8SpatialSubsets171
9.2.9FormatConversion172
9.2.10Metadata173
9.3SpecialConsiderations：.176
9.3.1BoundingTiles176
9.3.2CrossingtheInternationalDateline176
9.4Summary177
Acknowledgements177
References177

10AToolforConversionofEarthObservingSystemDataProductstoGISCompatibleFormatsandfortheProvisionof
Post-Processing
Functionality178
10.1Introduction178
10.2Functionality180
10.3GUIOverview181
10.4Access183
10.5DataSetsTestedandExamplesofUsage184
10.6Conclusions189
References189

11HDFLook--MultifunctionalHDF-EOSToolforMODISandAIRSDataProcessingatGESDISCDAAC190
11.1Introduction190
11.2HDFLookMainFeatures190
11.2.1CommonHDFLookHDF-EOSFeatures191
11.2.2HDFLookMODISFunctions192
11.2.3HDFLookAIRSFunctions194
11.2.4High-LevelScriptFeatures195
11.3GESDISCDAACHDFLookApplications197
11.3.1MODIS/TerraandMODIS/AquaBrowseImagery197
11.3.2On-the-FlySpatialSubsettingofDatafromtheGESDISCDAACDataPool198
11.3.3MODISL3AtmosphericProductsOnlineVisualizationandAnalysisSystem198
11.4GlobalMODISBrowseImagery198
11.5HDFLookReleasesandDistribution200
11.6Conclusions200
Acknowledgements200
References200

12TropicalRainfallMeasuringMissionDataandAccessTools202
12.1Introduction202
12.1.1TRMMScience202
12.1.2TRMMOrbitandInstruments203
12.1.3TRMMGroundValidationSitesandFieldExperiments204
12.2TRMMProducts206
12.2.1TRMMStandardProducts206
12.2.2TRMMSubsets206
12.3TRMMFieldExperimentDataSets212
12.3.1FieldExperimentData212
12.3.2AncillaryData212
12.4ToolsforDataVisualizationandAnalysis213
12.4.1TSDISOrbitViewer213
12.4.2TOVAS215
12.5TRMMDataAccessandUsage215
12.6TRMMApplications217
Acknowledgements218
References218

13TheOpenGISWebServiceSpecificationsforInteroperableAccessandServicesofNASAEOSData220
13.1Introduction220
13.2NASAEOSDISDataEnvironment221
13.3TheOGCWeb-BasedInteroperableDataAccessTechnology223
13.3.1WebCoverageServiceImplementationSpecification224
13.3.2WebFeatureServiceSpecification225
13.3.3WebMapServiceSpecification226
13.3.4WebRegistryServiceSpecification227
13.3.5Results228
13.4ApplyingOGCTechnologytotheNASAEOSDataEnvironment228
13.5TheCurrentImplementationStatusoftheOGCTechnology229
13.6TheAnticipatedImpactsonEndUsers230
References231

14GlobalMODISRemoteSensingDataforLocalUsage：Vaccess/MAGIC233
14.1Introduction233
14.2MODISDataProcessingforRegionalUse235
14.2.1MODISVegetationIndexandLAIDataProcessing236
14.2.2MODISCloudMaskDataProcessing239
14.3MODISReal-TimeDataProcessing240
14.4SummaryandDiscussions243
References243

15TheNASAHDF-EOSWebGISSoftwareSuite245
15.1Introduction245
15.2TheCurrentNWGISSComponentsandTheirFunctionalities246
15.3TheIntegrationofNWGISSwithGridTechnology248
15.4TheDevelopmentofGeospatialWebServicesinNWGISS249
15.4.1TheInteroperableDataProviderTier250
15.4.2TheMiddlewareGeospatialServiceandKnowledge
ManagementTier251
15.4.3TheIntegratedMultiple-ProtocolGeoinformationClientTier252
15.5Conclusions252
Acknowledgements252
References253

16NetworkGeographicInformationSystem254
16.1Introduction254
16.2NetworkInfrastructure255
16.3DistributingGISFunctions259
16.4DistributedGIS262
16.5NetworkGISTaxonomy263
16.6ExamplesofNetworkGIS264
16.7ResearchTopicsinNetworkGIS267
Acknowledgements268
References269

17AContent-BasedSearchMethodandItsApplicationforEOS272
17.1Introduction272
17.2Method273
17.2.1PyramidModel274
17.2.2Histograms274
17.2.3ClusteringandTypeIQuery275
17.2.4TypenQueryAlgorithms276
17.3PrototypeSystem279
17.4Results281
17.4.1DataandPyramidStructure281
17.4.2ClusteringCriteria282
17.4.3TypeIQueryProcessingProcedure284
17.4.4ResultsfromthePrototypeSystem286
17.5ConclusionsandFutureWork287
Acknowledgements289
References289

18TheImpactofPrecipitationandTemperatureonNetPrimaryProductivityinXinjiang，Chinafrom1981to2000292
18.1Introduction292
18.2MaterialandMethods293
18.2.1StudyArea293
18.2.2TheNPPEstimationwithGLO-PEMModel294
18.2.3TheNPPEstimationwithCEVSAModel296
18.3ResultsandDiscussion297
18.3.1AComparisonBetweenEstimatedNPPwiththeGLOPEMandCEVSA297
18.3.2PrecipitationandTemperatureImpactonNPP298
18.4Conclusions303
Acknowledgements304
References304

AppendixAEarthScienceRemoteSensingDataandServicesandInformationTechnologyattheNASA/GESDISCDAAC306
A.1Introduction306
A.I.1WhatistheDISC--MissionStatement306
A.1.2WhatelseistheDISC306
A.1.3Disciplines，Measurements，Missions，andApplications307
A.2AnIntegratedOrganization309
A.2.1Engineering309
A.2.2SystemsExecution310
A.2.3DataSupport310
A.2.4MissionSupport310
A.2.5AnIntegratedGESDAAC310
A.3UtilizingInformationTechnology：Data，Information，Services311
A.3.1DataAccess，VisualizationandAnalysisTools311
A.3.2ExaminingAdvancedTechnologies313
A.4EvolvingtheGESDISC314
A.4.1WhyEvolveEarthScienceDataSystems314
A.4.2GESDISCEvolution315
A.4.3TheEvolvedGESDISC316
A.5Summary317
AppendixB318

B.1ACCodeExamplefortheHDFSDAPl318
B.2ACCodeExamplefortheHDF-EOSSWAPI320
B.3ACCodeSegmentfortheHDF-EOSGDAPl322
B.4ACCodeExamplefortheHDF5API323
B.5ACCodeExamplefortheHDF-EOS5SWAPI326
AppendixCInternetLinksforDataAccess（SearchandOrder）329
Index330
内容简介:
《地球卫星遥感（卷2）：数据、计算的过程和工具（国内版）》共有两卷。此为第2卷，共有18章，主要内容为（1）提供了有关地球科学遥感数据的信息；（2）讨论了MODIS探测器的校正和特点；（3）对当前数据处理方法进行分析和评价；（4）介绍了不同数据中心的数据查询和定购；以及（5）探讨了遥感和地理信息系统产品——网络GIS应用和工具等内容。
该书作者均为相关领域具有权威性的专家与学者。图书内容既包括现代遥感技术的基础知识，又涉及卫星遥感的前沿领域，有广泛的实用性，可作为遥感、地学、环境、空间信息等地球科学领域的专业参考书。
作者简介:
Prof.JohnJ.QuisafacultymemberoftheESGSdepartmentattheschoolofComputationalSciencesandisTechnicalDirectorofEastFIRELabatGeorgeMasonUniversity.HeisalsowithNASAGoddardSpaceFlightCentertosupporttheNPOESSPreparatoryProject（NPP）mission.Hismajorresearchareasaresatelliteremotesensing，Earthsystemsscience，firescienceandGISapplications
目录:
ListofContributorsxv
1IntroductiontoData，ComputationalProcessingandToolsofSatelliteRemoteSensing1
References9

2EarthScienceSatelliteRemoteSensingDatafromtheEOSDataandInformationSystem11
2.1Introduction11
2.2EOSDISCoreSystem14
2.3ScienceComputingFacilitiesandScienceInvestigator-LedProcessingSystems14
2.4DataAccess15
2.5Perspectives16

3RemotelySensedDataAvailablefromtheUSGeologicalSurveyEROSDataCenter18
3.1Introduction18
3.2DataProducts19
3.2.1AircraftScanners23
3.2.2SatelliteData25
3.2.3DerivedSatelliteDataProducts46
3.3Conclusions50
Acknowledgements51
References51

4NASADirectReadoutforItsPolarOrbitingSatellites52
4.1Introduction52
4.2ContextinHistory52
4.3TheNextStep56
4.4DBCommunity57
4.5TechnologiesandDataFlowsinDirectBroadcastandDirectReadout58
4.6ADBModel60
4.7TechnologyRoadmap61
4.7.1Multi-MissionScheduler62
4.7.2Real-TimeSoftwareTelemetryProcessingSystem63
4.7.3Simulcast69
4.7.4NEpster71
4.8ScienceProcessingAlgorithmWrapper（SPA）72
4.9TheFutureofDBandDR74
Acknowledgements75
References76

5MODISCalibrationandCharacterization77
5.1InstrumentBackground77
5.2MODISPre-LaunchCalibrationandCharacterization80
5.2.1Pre-LaunchCalibrationoftheReflectiveSolarBands80
5.2.2Pre-LaunchCalibrationoftheThermalEmissiveBands82
5.2.3Pre-LaunchSpatialandSpectralCharacterization83
5.2.4Pre-LaunchCalibrationandCharacterizationSummary85
5.3MODISOn-OrbitCalibrationandCharacterization86
5.3.1ReflectiveSolarBandsCalibrationAlgorithmandPerformance86
5.3.2ThermalEmissiveBandsCalibrationAlgorithmandPerformance89
5.3.3On-OrbitSpatialandSpectralCharacterization91
5.3.4SpecialConsiderationsandActivities94
5.4Summary96
References96

6UseoftheMoonforCalibrationandCharacterizationofMODIS，SeaWiFS，andVIRS98
6.1Introduction98
6.1.1TheLunarRadiometricModel99
6.1.2MODIS99
6.1.3SeaWiFS101
6.1.4VIRS102
6.2LunarCalibrationandCharacterizationofMODIS103
6.2.1MODISLunarCalibrationApproachesandApplications103
6.2.2MODISLunarCalibrationResults105
6.3LunarCalibrationandCharacterizationofSeaWiFS108
6.3.1SeaWiFSLunarCalibrationApproachesandApplications108
6.3.2SeaWiFSLunarCalibrationResults110
6.4LunarCalibrationandCharacterizationofVisibleandInfraredScanner113
6.4.1VIRSLunarCalibrationApproachesandApplications113
6.4.2VIRSLunarCalibrationResults114
6.5UsingtheMoonforInter-ComparisonofSensorsOn-Orbit
RadiometricCalibrations116
6.6Summary118
References118

7AReviewofRemoteSensingDataFormatsforEarthSystemObservations120
7.1Introduction120
7.1.1VectorandRaster（orFeatureandGrid）Data120
7.1.2GeorectifiedDataandGeoreferencedData121
7.1.3Metadata122
7.2HierarchicalDataFormat123
7.2.1ThePhysicalLayoutofHDF123
7.2.2Attribute124
7.2.3HDFDataModels125
7.2.4TheHDFSDSDataModel125
7.2.5TheHDFSDAPIandProgrammingModel126
7.3HDF-EOS126
7.3.1ThePointDataModel127
7.3.2TheSwathDataModel127
7.3.3TheGridDataModel129
7.3.4TheHDF-EOSAPIsandProgrammingModels129
7.3.5HDF-EOSVersusNativeHDF130
7.4HDF5131
7.4.1ThePhysicalLayoutofHDF5131
7.4.2HDF5DataModels133
7.4.3HDF5APIandProgrammingModel134
7.5HDF5-BasedHDF-EOS136
7.5.1HDF-EOS5DataStructure136
7.5.2HDF-EOS5ProgrammingModel137
7.6NITF137
7.6.1ThePhysicalLayoutofNITF138
7.6.2TheNITFHeader138
7.6.3TheNITFImageDataSegment139
7.6.4TheNITFRelatedSo，are139
7.7TIFFandGeoTIFF140
7.7.1ThePhysicalLayoutofTIFF140
7.7.2TheTIFFDataModel141
7.7.3GeoTIFF142
7.8Summary144
Acknowledgements144
References145

8ASimple，Scalable，Script-BasedScienceProcessor146
8.1GenesisoftheSimple，Scalable，Script-BasedScienceProcessor146
8.2ArchitectureandDesign147
8.2.1TheS4PKernel147
8.2.2LessonsLearnedfromOtherSystems148
8.3DesignPrinciples149
8.3.1DesignforTrouble149
8.3.2KeepItSimple151
8.4HowS4PWorks152
8.4.1StationsandtheStationmasterDaemon152
8.4.2MonitoringStationsandJobs153
8.4.3StationConfigurability154
8.5S4PReuse154
8.5.1On-DemandSubsetting155
8.5.2Near-ArchiveDataMining155
8.5.3DirectBroadcastProcessingatIMaRS156
8.5.4S4PforMissions156
8.6S4PforMissionsImplementation156
8.6.1DataFlowInitiation157
8.6.2AlgorithmPreparation158
8.6.3AlgorithmExecution159
8.6.4DataArchiveInterface159
8.6.5DataManagement159
8.7FutureDevelopment160
8.7.1Case-BasedReasoning160
8.7.2Open-SourceS4PM160
8.8Conclusions160
References161

9TheMODISReprojectionTool162
9.1Introduction162
9.2MRTFunctionalCapabilities163
9.2.1TheMRTGUI163
9.2.2ParameterFiles166
9.2.3LogFile166
9.2.4Mosaicking166
9.2.5MapProjections167
9.2.6ResamplingProcess169
9.2.7SDSSubsets171
9.2.8SpatialSubsets171
9.2.9FormatConversion172
9.2.10Metadata173
9.3SpecialConsiderations：.176
9.3.1BoundingTiles176
9.3.2CrossingtheInternationalDateline176
9.4Summary177
Acknowledgements177
References177

10AToolforConversionofEarthObservingSystemDataProductstoGISCompatibleFormatsandfortheProvisionof
Post-Processing
Functionality178
10.1Introduction178
10.2Functionality180
10.3GUIOverview181
10.4Access183
10.5DataSetsTestedandExamplesofUsage184
10.6Conclusions189
References189

11HDFLook--MultifunctionalHDF-EOSToolforMODISandAIRSDataProcessingatGESDISCDAAC190
11.1Introduction190
11.2HDFLookMainFeatures190
11.2.1CommonHDFLookHDF-EOSFeatures191
11.2.2HDFLookMODISFunctions192
11.2.3HDFLookAIRSFunctions194
11.2.4High-LevelScriptFeatures195
11.3GESDISCDAACHDFLookApplications197
11.3.1MODIS/TerraandMODIS/AquaBrowseImagery197
11.3.2On-the-FlySpatialSubsettingofDatafromtheGESDISCDAACDataPool198
11.3.3MODISL3AtmosphericProductsOnlineVisualizationandAnalysisSystem198
11.4GlobalMODISBrowseImagery198
11.5HDFLookReleasesandDistribution200
11.6Conclusions200
Acknowledgements200
References200

12TropicalRainfallMeasuringMissionDataandAccessTools202
12.1Introduction202
12.1.1TRMMScience202
12.1.2TRMMOrbitandInstruments203
12.1.3TRMMGroundValidationSitesandFieldExperiments204
12.2TRMMProducts206
12.2.1TRMMStandardProducts206
12.2.2TRMMSubsets206
12.3TRMMFieldExperimentDataSets212
12.3.1FieldExperimentData212
12.3.2AncillaryData212
12.4ToolsforDataVisualizationandAnalysis213
12.4.1TSDISOrbitViewer213
12.4.2TOVAS215
12.5TRMMDataAccessandUsage215
12.6TRMMApplications217
Acknowledgements218
References218

13TheOpenGISWebServiceSpecificationsforInteroperableAccessandServicesofNASAEOSData220
13.1Introduction220
13.2NASAEOSDISDataEnvironment221
13.3TheOGCWeb-BasedInteroperableDataAccessTechnology223
13.3.1WebCoverageServiceImplementationSpecification224
13.3.2WebFeatureServiceSpecification225
13.3.3WebMapServiceSpecification226
13.3.4WebRegistryServiceSpecification227
13.3.5Results228
13.4ApplyingOGCTechnologytotheNASAEOSDataEnvironment228
13.5TheCurrentImplementationStatusoftheOGCTechnology229
13.6TheAnticipatedImpactsonEndUsers230
References231

14GlobalMODISRemoteSensingDataforLocalUsage：Vaccess/MAGIC233
14.1Introduction233
14.2MODISDataProcessingforRegionalUse235
14.2.1MODISVegetationIndexandLAIDataProcessing236
14.2.2MODISCloudMaskDataProcessing239
14.3MODISReal-TimeDataProcessing240
14.4SummaryandDiscussions243
References243

15TheNASAHDF-EOSWebGISSoftwareSuite245
15.1Introduction245
15.2TheCurrentNWGISSComponentsandTheirFunctionalities246
15.3TheIntegrationofNWGISSwithGridTechnology248
15.4TheDevelopmentofGeospatialWebServicesinNWGISS249
15.4.1TheInteroperableDataProviderTier250
15.4.2TheMiddlewareGeospatialServiceandKnowledge
ManagementTier251
15.4.3TheIntegratedMultiple-ProtocolGeoinformationClientTier252
15.5Conclusions252
Acknowledgements252
References253

16NetworkGeographicInformationSystem254
16.1Introduction254
16.2NetworkInfrastructure255
16.3DistributingGISFunctions259
16.4DistributedGIS262
16.5NetworkGISTaxonomy263
16.6ExamplesofNetworkGIS264
16.7ResearchTopicsinNetworkGIS267
Acknowledgements268
References269

17AContent-BasedSearchMethodandItsApplicationforEOS272
17.1Introduction272
17.2Method273
17.2.1PyramidModel274
17.2.2Histograms274
17.2.3ClusteringandTypeIQuery275
17.2.4TypenQueryAlgorithms276
17.3PrototypeSystem279
17.4Results281
17.4.1DataandPyramidStructure281
17.4.2ClusteringCriteria282
17.4.3TypeIQueryProcessingProcedure284
17.4.4ResultsfromthePrototypeSystem286
17.5ConclusionsandFutureWork287
Acknowledgements289
References289

18TheImpactofPrecipitationandTemperatureonNetPrimaryProductivityinXinjiang，Chinafrom1981to2000292
18.1Introduction292
18.2MaterialandMethods293
18.2.1StudyArea293
18.2.2TheNPPEstimationwithGLO-PEMModel294
18.2.3TheNPPEstimationwithCEVSAModel296
18.3ResultsandDiscussion297
18.3.1AComparisonBetweenEstimatedNPPwiththeGLOPEMandCEVSA297
18.3.2PrecipitationandTemperatureImpactonNPP298
18.4Conclusions303
Acknowledgements304
References304

AppendixAEarthScienceRemoteSensingDataandServicesandInformationTechnologyattheNASA/GESDISCDAAC306
A.1Introduction306
A.I.1WhatistheDISC--MissionStatement306
A.1.2WhatelseistheDISC306
A.1.3Disciplines，Measurements，Missions，andApplications307
A.2AnIntegratedOrganization309
A.2.1Engineering309
A.2.2SystemsExecution310
A.2.3DataSupport310
A.2.4MissionSupport310
A.2.5AnIntegratedGESDAAC310
A.3UtilizingInformationTechnology：Data，Information，Services311
A.3.1DataAccess，VisualizationandAnalysisTools311
A.3.2ExaminingAdvancedTechnologies313
A.4EvolvingtheGESDISC314
A.4.1WhyEvolveEarthScienceDataSystems314
A.4.2GESDISCEvolution315
A.4.3TheEvolvedGESDISC316
A.5Summary317
AppendixB318

B.1ACCodeExamplefortheHDFSDAPl318
B.2ACCodeExamplefortheHDF-EOSSWAPI320
B.3ACCodeSegmentfortheHDF-EOSGDAPl322
B.4ACCodeExamplefortheHDF5API323
B.5ACCodeExamplefortheHDF-EOS5SWAPI326
AppendixCInternetLinksforDataAccess（SearchandOrder）329
Index330

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