MARC Record from marc_columbia

LEADER: 16945cam a2200589 i 4500
001 13555258
005 20220219224246.0
006 m o d
007 cr un|||||||||
008 180208s2017 mauab ob 001 0 eng d
035 $a(OCoLC)on1022790269
035 $a(NNC)13555258
040 $aCOO$beng$erda$epn$cCOO$dOCLCO$dUAB$dK6U$dOCLCF$dD6H$dOCLCQ$dN$T$dSTF$dYDX$dVLB$dMERER$dOCLCQ$dCEF$dERL$dOCLCQ$dLVT$dG3B$dIGB$dUWW$dKNOVL$dAU@$dOCLCQ$dERF$dOCLCQ$dUKAHL$dESU$dOCLCQ$dUX1$dOCLCO$dOCLCQ
019 $a1027650429$a1043555318$a1097104148$a1175644996
020 $a9781630814427$q(electronic)
020 $a1630814423
020 $a9781523117697$q(electronic bk.)
020 $a1523117699$q(electronic bk.)
020 $z9781630810580
020 $z1630810584
035 $a(OCoLC)1022790269$z(OCoLC)1027650429$z(OCoLC)1043555318$z(OCoLC)1097104148$z(OCoLC)1175644996
050 4 $aG109.5$b.K37 2017
072 7 $aTEC$x025000$2bisacsh
082 04 $a623.89/3$223
049 $aZCUA
130 0 $aUnderstanding GPS.
245 10 $aUnderstanding GPS/GNSS :$bprinciples and applications /$cElliott D. Kaplan, Christopher J. Hegarty, editors.
246 3 $aUnderstanding Global Positioning System/Global Navigation Satellite Systems
250 $aThird edition.
264 1 $aBoston ;$aLondon :$bArtech House,$c[2017]
264 4 $c©2017
300 $a1 online resource (xxi, 993 pages) :$billustrations, maps
336 $atext$btxt$2rdacontent
337 $acomputer$bc$2rdamedia
338 $aonline resource$bcr$2rdacarrier
490 1 $aGNSS Technology and Applications Series
588 0 $aPrint version record.
504 $aIncludes bibliographical references and index.
505 00 $gMachine generated contents note:$g1.1.$tIntroduction --$g1.2.$tGNSS Overview --$g1.3.$tGlobal Positioning System --$g1.4.$tRussian GLONASS System --$g1.5.$tGalileo Satellite System --$g1.6.$tChinese BeiDou System --$g1.7.$tRegional Systems --$g1.7.1.$tQuasi-Zenith Satellite System (QZSS) --$g1.7.2.$tNavigation with Indian Constellation (NavIC) --$g1.8.$tAugmentations --$g1.9.$tMarkets and Applications --$g1.10.$tOrganization of the Book --$tReferences --$g2.1.$tConcept of Ranging Using Time-of-Arrival Measurements --$g2.1.1.$tTwo-Dimensional Position Determination --$g2.1.2.$tPrinciple of Position Determination via Satellite-Generated Ranging Codes --$g2.2.$tReference Coordinate Systems --$g2.2.1.$tEarth-Centered Inertial (ECI) Coordinate System --$g2.2.2.$tEarth-Centered Earth-Fixed (ECEF) Coordinate System --$g2.2.3.$tLocal Tangent Plane (Local Level) Coordinate Systems --$g2.2.4.$tLocal Body Frame Coordinate Systems --$g2.2.5.$tGeodetic (Ellipsoidal) Coordinates --$g2.2.6.$tHeight Coordinates and the Geoid --$g2.2.7.$tInternational Terrestrial Reference Frame (ITRF) --$g2.3.$tFundamentals of Satellite Orbits --$g2.3.1.$tOrbital Mechanics --$g2.3.2.$tConstellation Design --$g2.4.$tGNSS Signals --$g2.4.1.$tRadio Frequency Carrier --$g2.4.2.$tModulation --$g2.4.3.$tSecondary Codes --$g2.4.4.$tMultiplexing Techniques --$g2.4.5.$tSignal Models and Characteristics --$g2.5.$tPositioning Determination Using Ranging Codes --$g2.5.1.$tDetermining Satellite-to-User Range --$g2.5.2.$tCalculation of User Position --$g2.6.$tObtaining User Velocity --$g2.7.$tFrequency Sources, Time, and GNSS --$g2.7.1.$tFrequency Sources --$g2.7.2.$tTime and GNSS --$tReferences --$g3.1.$tOverview --$g3.1.1.$tSpace Segment Overview --$g3.1.2.$tControl Segment Overview --$g3.1.3.$tUser Segment Overview --$g3.2.$tSpace Segment Description --$g3.2.1.$tGPS Satellite Constellation Description --$g3.2.2.$tConstellation Design Guidelines --$g3.2.3.$tSpace Segment Phased Development --$g3.3.$tControl Segment Description --$g3.3.1.$tOCS Current Configuration --$g3.3.2.$tOCS Transition --$g3.3.3.$tOCS Planned Upgrades --$g3.4.$tUser Segment --$g3.4.1.$tGNSS Receiver Characteristics --$g3.5.$tGPS Geodesy and Time Scale --$g3.5.1.$tGeodesy --$g3.5.2.$tTime Systems --$g3.6.$tServices --$g3.6.1.$tSPS Performance Standard --$g3.6.2.$tPPS Performance Standard --$g3.7.$tGPS Signals --$g3.7.1.$tLegacy Signals --$g3.7.2.$tModernized Signals --$g3.7.3.$tCivil Navigation (CNAV) and CNAV-2 Navigation Data --$g3.8.$tGPS Ephemeris Parameters and Satellite Position Computation --$g3.8.1.$tLegacy Ephemeris Parameters --$g3.8.2.$tCNAV and CNAV-2 Ephemeris Parameters --$tReferences --$g4.1.$tIntroduction --$g4.2.$tSpace Segment --$g4.2.1.$tConstellation --$g4.2.2.$tSpacecraft --$g4.3.$tGround Segment --$g4.3.1.$tSystem Control Center (SCC) --$g4.3.2.$tCentral Synchronizer (CS) --$g4.3.3.$tTelemetry, Tracking, and Command (TT & C) --$g4.3.4.$tLaser Ranging Stations (SLR) --$g4.4.$tGLONASS User Equipment --$g4.5.$tGeodesy and Time Systems --$g4.5.1.$tGeodetic Reference System --$g4.5.2.$tGLONASS Time --$g4.6.$tNavigation Services --$g4.7.$tNavigation Signals --$g4.7.1.$tFDMA Navigation Signals --$g4.7.2.$tFrequencies --$g4.7.3.$tModulation --$g4.7.4.$tCode Properties --$g4.7.5.$tGLONASS P-Code --$g4.7.6.$tNavigation Message --$g4.7.7.$tC/A Navigation Message --$g4.7.8.$tP-Code Navigation Message --$g4.7.9.$tCDMA Navigation Signals --$tAcknowledgments --$tReferences --$g5.1.$tProgram Overview and Objectives --$g5.2.$tGalileo Implementation --$g5.3.$tGalileo Services --$g5.3.1.$tGalileo Open Service --$g5.3.2.$tPublic Regulated Service --$g5.3.3.$tCommercial Service --$g5.3.4.$tSearch and Rescue Service --$g5.3.5.$tSafety of Life --$g5.4.$tSystem Overview --$g5.4.1.$tGround Mission Segment --$g5.4.2.$tGround Control Segment --$g5.4.3.$tSpace Segment --$g5.4.4.$tLaunchers --$g5.5.$tGalileo Signal Characteristics --$g5.5.1.$tGalileo Spreading Codes and Sequences --$g5.5.2.$tNavigation Message Structure --$g5.5.3.$tForward Error Correction Coding and Block Interleaving --$g5.6.$tInteroperability --$g5.6.1.$tGalileo Terrestrial Reference Frame --$g5.6.2.$tTime Reference Frame --$g5.7.$tGalileo Search and Rescue Mission --$g5.7.1.$tSAR/Galileo Service Description --$g5.7.2.$tEuropean SAR/Galileo Coverage and MEOSAR Context --$g5.7.3.$tOverall SAR/Galileo System Architecture --$g5.7.4.$tSAR Frequency Plan --$g5.8.$tGalileo System Performance --$g5.8.1.$tTiming Performance --$g5.8.2.$tRanging Performance --$g5.8.3.$tPositioning Performance --$g5.8.4.$tFinal Operation Capability Expected Performances --$g5.9.$tSystem Deployment Completion up to FOC --$g5.10.$tGalileo Evolution Beyond FOC --$tReferences --$g6.1.$tOverview --$g6.1.1.$tIntroduction to BDS --$g6.1.2.$tBDS Evolution --$g6.1.3.$tBDS Characteristics --$g6.2.$tBDS Space Segment --$g6.2.1.$tBDS Constellation --$g6.2.2.$tBDS Satellites --$g6.3.$tBDS Control Segment --$g6.3.1.$tConfiguration of the BDS Control Segment --$g6.3.2.$tOperation of the BDS Control Segment --$g6.4.$tGeodesy and Time Systems --$g6.4.1.$tBDS Coordinate System --$g6.4.2.$tBDS Time System --$g6.5.$tThe BDS Services --$g6.5.1.$tBDS Service Types --$g6.5.2.$tBDS RDSS Service --$g6.5.3.$tBDS RNSS Service --$g6.5.4.$tBDS SBAS Service --$g6.6.$tBDS Signals --$g6.6.1.$tRDSS Signals --$g6.6.2.$tRNSS Signals of the BDS Regional System --$g6.6.3.$tRNSS Signals of the BDS Global System --$tReferences --$g7.1.$tQuasi-Zenith Satellite System --$g7.1.1.$tOverview --$g7.1.2.$tSpace Segment --$g7.1.3.$tControl Segment --$g7.1.4.$tGeodesy and Time Systems --$g7.1.5.$tServices --$g7.1.6.$tSignals --$g7.2.$tNavigation with Indian Constellation (NavIC) --$g7.2.1.$tOverview --$g7.2.2.$tSpace Segment --$g7.2.3.$tNavIC Control Segment --$g7.2.4.$tGeodesy and Time Systems --$g7.2.5.$tNavigation Services --$g7.2.6.$tSignals --$g7.2.7.$tApplications and NavIC User Equipment --$tReferences --$g8.1.$tOverview --$g8.1.1.$tAntenna Elements and Electronics --$g8.1.2.$tFront End --$g8.1.3.$tDigital Memory (Buffer and Multiplexer) and Digital Receiver Channels --$g8.1.4.$tReceiver Control and Processing and Navigation Control and Processing --$g8.1.5.$tReference Oscillator and Frequency Synthesizer --$g8.1.6.$tUser and/or External Interfaces --$g8.1.7.$tAlternate Receiver Control Interface --$g8.1.8.$tPower Supply --$g8.1.9.$tSummary --$g8.2.$tAntennas --$g8.2.1.$tDesired Attributes --$g8.2.2.$tAntenna Designs --$g8.2.3.$tAxial Ratio --$g8.2.4.$tVSWR --$g8.2.5.$tAntenna Noise --$g8.2.6.$tPassive Antenna --$g8.2.7.$tActive Antenna --$g8.2.8.$tSmart Antenna --$g8.2.9.$tMilitary Antennas --$g8.3.$tFront End --$g8.3.1.$tFunctional Description --$g8.3.2.$tGain --$g8.3.3.$tDownconversion Scheme --$g8.3.4.$tOutput to ADC --$g8.3.5.$tADC, Digital Gain Control, and Analog Frequency Synthesizer Functions --$g8.3.6.$tADC Implementation Loss and a Design Example --$g8.3.7.$tADC Sampling Rate and Antialiasing --$g8.3.8.$tADC Undersampling --$g8.3.9.$tNoise Figure --$g8.3.10.$tDynamic Range, Situational Awareness, and Effects on Noise Figure --$g8.3.11.$tCompatibility with GLONASS FDMA Signals --$g8.4.$tDigital Channels --$g8.4.1.$tFast Functions --$g8.4.2.$tSlow Functions --$g8.4.3.$tSearch Functions --$g8.5.$tAcquisition --$g8.5.1.$tSingle Trial Detector --$g8.5.2.$tTong Search Detector --$g8.5.3.$tM of N Search Detector --$g8.5.4.$tCombined Tong and M of N Search Detectors --$g8.5.5.$tFFT-Based Techniques --$g8.5.6.$tDirect Acquisition of GPS Military Signals --$g8.5.7.$tVernier Doppler and Peak Code Search --$g8.6.$tCarrier Tracking --$g8.6.1.$tCarrier Loop Discriminator --$g8.7.$tCode Tracking --$g8.7.1.$tCode Loop Discriminators --$g8.7.2.$tBPSK-R Signals --$g8.7.3.$tBOC Signals --$g8.7.4.$tGPS P(Y)-Code Codeless/Semicodeless Processing --$g8.8.$tLoop Filters --$g8.8.1.$tPLL Filter Design --$g8.8.2.$tFLL Filter Design --$g8.8.3.$tFLL-Assisted PLL Filter Design --$g8.8.4.$tDLL Filter Design --$g8.8.5.$tStability --$g8.9.$tMeasurement Errors and Tracking Thresholds --$g8.9.1.$tPLL Tracking Loop Measurement Errors --$g8.9.2.$tPLL Thermal Noise --$g8.9.3.$tVibration-Induced Oscillator Phase Noise --$g8.9.4.$tAllan Deviation Oscillator Phase Noise --$g8.9.5.$tDynamic Stress Error --$g8.9.6.$tReference Oscillator Acceleration Stress Error --$g8.9.7.$tTotal PLL Tracking Loop Measurement Errors and Thresholds --$g8.9.8.$tFLL Tracking Loop Measurement Errors --$g8.9.9.$tCode-Tracking Loop Measurement Errors --$g8.9.10.$tBOC Code Tracking Loop Measurement Errors --$g8.10.$tFormation of Pseudorange, Delta Pseudorange, and Integrated Doppler --$g8.10.1.$tPseudorange --$g8.10.2.$tDelta Pseudorange --$g8.10.3.$tIntegrated Doppler --$g8.10.4.$tCarrier Smoothing of Pseudorange --$g8.11.$tSequence of Initial Receiver Operations --$g8.12.$tData Demodulation --$g8.12.1.$tLegacy GPS Signal Data Demodulation --$g8.12.2.$tOther GNSS Signal Data Demodulation --$g8.12.3.$tData Bit Error Rate Comparison --$g8.13.$tSpecial Baseband Functions --$g8.13.1.$tSignal-to-Noise Power Ratio Estimation --$g8.13.2.$tLock Detectors --$g8.13.3.$tCycle Slip Editing --$tReferences --$g9.1.$tOverview --$g9.2.$tInterference --$g9.2.1.$tTypes and Sources --$g9.2.2.$tEffects --$g9.2.3.$tInterference Mitigation --$g9.3.$tIonospheric Scintillation --$g9.3.1.$tUnderlying Physics --$g9.3.2.$tAmplitude Fading and Phase Perturbations --$g9.3.3.$tReceiver Impacts --$g9.3.4.$tMitigation --$g9.4.$tSignal Blockage --$g9.4.1.$tVegetation --$g9.4.2.$tTerrain --$g9.4.3.$tMan-Made Structures --$g9.5.$tMultipath --$g9.5.1.$tMultipath Characteristics and Models --$g9.5.2.$tEffects of Multipath on Receiver Performance --$g9.5.3.$tMultipath Mitigation --$tReferences.
505 00 $gNote continued:$g10.1.$tIntroduction --$g10.2.$tMeasurement Errors --$g10.2.1.$tSatellite Clock Error --$g10.2.2.$tEphemeris Error --$g10.2.3.$tRelativistic Effects --$g10.2.4.$tAtmospheric Effects --$g10.2.5.$tReceiver Noise and Resolution --$g10.2.6.$tMultipath and Shadowing Effects --$g10.2.7.$tHardware Bias Errors --$g10.3.$tPseudorange Error Budgets --$tReferences --$g11.1.$tIntroduction --$g11.2.$tPosition, Velocity, and Time Estimation Concepts --$g11.2.1.$tSatellite Geometry and Dilution of Precision in GNSS --$g11.2.2.$tDOP Characteristics of GNSS Constellations --$g11.2.3.$tAccuracy Metrics --$g11.2.4.$tWeighted Least Squares --$g11.2.5.$tAdditional State Variables --$g11.2.6.$tKalman Filtering --$g11.3.$tGNSS Availability --$g11.3.1.$tPredicted GPS Availability Using the Nominal 24-Satellite GPS Constellation --$g11.3.2.$tEffects of Satellite Outages on GPS Availability --$g11.4.$tGNSS Integrity --$g11.4.1.$tDiscussion of Criticality --$g11.4.2.$tSources of Integrity Anomalies --$g11.4.3.$tIntegrity Enhancement Techniques --$g11.5.$tContinuity --$g11.5.1.$tGPS --$g11.5.2.$tGLONASS --$g11.5.3.$tGalileo --$g11.5.4.$tBeiDou --$tReferences --$g12.1.$tIntroduction --$g12.2.$tCode-Based DGNSS --$g12.2.1.$tLocal-Area DGNSS --$g12.2.2.$tRegional-Area DGNSS --$g12.2.3.$tWide-Area DGNSS --$g12.3.$tCarrier-Based DGNSS --$g12.3.1.$tPrecise Baseline Determination in Real Time --$g12.3.2.$tStatic Application --$g12.3.3.$tAirborne Application --$g12.3.4.$tAttitude Determination --$g12.4.$tPrecise Point Positioning --$g12.4.1.$tConventional PPP --$g12.4.2.$tPPP with Ambiguity Resolution --$g12.5.$tRTCM SC-104 Message Formats --$g12.5.1.$tVersion 2.3 --$g12.5.2.$tVersion 3.3 --$g12.6.$tDGNSS and PPP Examples --$g12.6.1.$tCode-Based DGNSS --$g12.6.2.$tCarrier-Based --$g12.6.3.$tPPP --$tReferences --$g13.1.$tOverview --$g13.2.$tGNSS/Inertial Integration --$g13.2.1.$tGNSS Receiver Performance Issues --$g13.2.2.$tReview of Inertial Navigation Systems --$g13.2.3.$tThe Kalman Filter as System Integrator --$g13.2.4.$tGNSSI Integration Methods --$g13.2.5.$tTypical GPS/INS Kalman Filter Design --$g13.2.6.$tKalman Filter Implementation Considerations --$g13.2.7.$tIntegration with Controlled Reception Pattern Antenna --$g13.2.8.$tInertial Aiding of the Tracking Loops --$g13.3.$tSensor Integration in Land Vehicle Systems --$g13.3.1.$tIntroduction --$g13.3.2.$tLand Vehicle Augmentation Sensors --$g13.3.3.$tLand Vehicle Sensor Integration --$g13.4.$tA-GNSS: Network Based Acquisition and Location Assistance --$g13.4.1.$tHistory of Assisted GNSS --$g13.4.2.$tEmergency Response System Requirements and Guidelines --$g13.4.3.$tThe Impact of Assistance Data on Acquisition Time --$g13.4.4.$tGNSS Receiver Integration in Wireless Devices --$g13.4.5.$tSources of Network Assistance --$g13.5.$tHybrid Positioning in Mobile Devices --$g13.5.1.$tIntroduction --$g13.5.2.$tMobile Device Augmentation Sensors --$g13.5.3.$tMobile Device Sensor Integration --$tReferences --$g14.1.$tGNSS: A Complex Market Based on Enabling Technologies --$g14.1.1.$tIntroduction --$g14.1.2.$tDefining the Market Challenges --$g14.1.3.$tPredicting the GNSS Market --$g14.1.4.$tChanges in the Market over Time --$g14.1.5.$tMarket Scope and Segmentation --$g14.1.6.$tDependence on Policies --$g14.1.7.$tUnique Aspects of GNSS Market --$g14.1.8.$tSales Forecasting --$g14.1.9.$tMarket Limitations, Competitive Systems and Policy --$g14.2.$tCivil Applications of GNSS --$g14.2.1.$tLocation-Based Services --$g14.2.2.$tRoad --$g14.2.3.$tGNSS in Surveying, Mapping, and Geographical Information Systems --$g14.2.4.$tAgriculture --$g14.2.5.$tMaritime --$g14.2.6.$tAviation --$g14.2.7.$tUnmanned Aerial Vehicles (UAV) and Drones --$g14.2.8.$tRail --$g14.2.9.$tTiming and Synchronization --$g14.2.10.$tSpace Applications --$g14.2.11.$tGNSS Indoor Challenges --$g14.3.$tGovernment and Military Applications --$g14.3.1.$tMilitary User Equipment: Aviation, Shipboard, and Land --$g14.3.2.$tAutonomous Receivers: Smart Weapons --$g14.4.$tConclusions --$tReferences --$tReference --$gB.1.$tIntroduction --$gB.2.$tFrequency Standard Stability --$gB.3.$tMeasures of Stability --$gB.3.1.$tAllan Variance --$gB.3.2.$tHadamard Variance --$tReferences --$gC.1.$tIntroduction --$gC.2.$tFree-Space Propagation Loss --$gC.3.$tConversion Between Power Spectral Densities and Power Flux Densities --$tReferences.
520 $aProviding a comprehensive treatment of the Global Navigation Satellite System (GNSS), this reference offers both a quick overview of GNSS essentials and an in-depth treatment of advanced topics exploring all the latest advances in technology, applications, and systems. --$cEdited summary from book.
650 0 $aGlobal Positioning System.
650 7 $aTECHNOLOGY & ENGINEERING$xMilitary Science.$2bisacsh
650 7 $aGlobal Positioning System.$2fast$0(OCoLC)fst00943460
655 4 $aElectronic books.
700 1 $aKaplan, Elliott D.,$eeditor.
700 1 $aHegarty, C.$q(Christopher J.),$eeditor.
776 08 $iPrint version:$tUnderstanding GPS/GNSS.$bThird edition.$dBoston ; London : Artech House, [2017]$z9781630810580$w(OCoLC)992572120
830 0 $aGNSS technology and applications series.
856 40 $uhttp://www.columbia.edu/cgi-bin/cul/resolve?clio13555258.001$zACADEMIC - General Engineering & Project Administration
856 40 $uhttp://www.columbia.edu/cgi-bin/cul/resolve?clio13555258.002$zACADEMIC - Aerospace & Radar Technology
852 8 $blweb$hEBOOKS