Document Outline

• Cover
• Contents
• View of chapters
• Preface
• 1. What is GPS and what does it do ?
• 2. System Overview
• 2.1 The Space Segment
• 2.2 The Control Segment
• 2.3 The User Segment
• 3. How GPS works
• 3.1 Simple Navigation
• 3.1.1 Satellite ranging
• 3.1.2 Calculating the distance to the satellite
• 3.1.3 Error Sources
• 3.1.4 Why are military receivers more accurate ?
• 3.2 Differentially corrected positions (DGPS)
• 3.2.1 The Reference Receiver
• 3.2.2 The Rover receiver
• 3.2.3 Further details
• 3.3 Differential Phase GPS and Ambiguity Resolution
• 3.3.1 The Carrier Phase, C/A and P-codes
• 3.3.2 Why use Carrier Phase?
• 3.3.3 Double Differencing
• 3.3.4 Ambiguity and Ambiguity Resolution
• 4. Geodetic Aspects
• 4.1 Introduction
• 4.2. The GPS coordinate system
• 4.3 Local coordinate systems
• 4.4 Problems with height
• 4.5 Transformations
• 4.6 Map Projections and Plane Coordinates
• 4.6.1 The Transverse Mercator Projection
• 4.6.2 The Lambert Projection
• 5. Surveying with GPS
• 5.1 GPS Measuring Techniques
• 5.1.1 Static Surveys
• 5.1.2 Rapid Static Surveys
• 5.1.3 Kinematic Surveys
• 5.1.4 RTK Surveys
• 5.2 Pre-survey preparation
• 5.3 Tips during operation
• Glossary
• Further Reading
• Index
• A
  • Almanac
  • Ambiguity
  • Ambiguity Resolution
  • Anti-Spoofing (A-S). See Error Sources
  • Atmospheric propagation delay
  • Azimuth
• B
  • Bandwidth
  • Baseline
  • Bearing
  • Beat frequency
  • Binary biphase modulation
• C
  • C/A code
  • Carrier
  • Carrier beat phase
  • Carrier phase
  • Cartesian coordinates
  • Central Meridian
  • Chip
  • Chip rate
  • Choke-Ring Antenna
  • Clock (Satellite and Receiver)
  • Clock offset
  • Code
  • Compacted data
  • Conformal Projection
  • Control segment
  • Coordinate system
    • Cartesian
    • GPS
    • Local
  • Coordinate transformation
    • Helmert
    • Interpolation
    • One Step
    • Stepwise
  • Cutoff angle
  • Cycle slip
• D
  • Data message
  • Deflection of the vertical
  • Delay lock
  • DGPS
  • Differenced measurements
  • Differential positioning
  • Differential phase
  • Dilution of precision (DOP)
    • GDOP
    • HDOP
    • HTDOP
    • PDOP
    • TDOP
    • VDOP
  • Distance to satellite
  • Doppler shift
  • Double difference
• E
  • Eccentricity
  • Elevation
  • Ellipsoid
  • Ellipsoid height
  • Ephemeris
  • Epoch
  • Equipotential Surface
  • Error Sources
    • Anti-Spoofing (A-S)
    • Dilution of Precision
    • Multipath
    • Satellite and Receiver clock
    • Selective Availability (S/A)
    • Water Vapour
• F
  • False Easting
  • False Northing
  • Flattening
  • Fundamental frequency
• G
  • GDOP. See Dilution of precision (DOP)
  • Geocentric
  • Geodesy
  • Geodetic Datum
  • Geoid
  • Geoid separation
  • GPS
  • GPS time
  • Graticule
  • Gravitational constant
  • Great circle cours
  • Greenwich mean time (GMT)
• H
  • Helmert Transformation
• I
  • Inclination
  • Integer bias term
  • Ionospheric Delay
• K
  • Keplerian orbital elements
  • Kinematic
  • Kinematic On the Fly (OTF)
• L
  • L-band
  • Lambert Projection
  • Latitude
  • Latitude of Origin
  • Least squares estimation
  • Longitude
• M
  • Map projection
    • Lambert
    • Transverse Mercator
    • Universal Transverse Mercator
  • Measuring techniques (GPS)
    • Kinematic
    • Kinematic On the Fly (OTF)
    • Rapid Static
    • Real Time Kinematic (RTK)
    • Static
  • Meridian
  • Multipath error
• N
  • NAVSTAR
  • NMEA
• O
  • Orthometric height
• P
  • P-code
  • Phase observable
  • Point Positioning
  • Post processing
  • Precise positioning service (PPS)
  • Projection. See Map projection
  • Propagation delay
  • Pseudolite
  • Pseudorandom noise (PRN) code
  • Pseudorange
• R
  • Radio link
  • Range
  • Rapid Static
  • Rapid static survey
  • Raw data
  • Real Time Kinematic (RTK)
  • Receiver channel
  • Reconstructed carrier phase
  • Reference Receiver
  • Relative positioning
  • Rhumb line
  • RINEX
  • Rover receiver
  • RTCM
  • RTK
• S
  • Satellite Configuration
  • Satellite Constellation
  • Selective Availability (S/A). See Error Sources
  • Sidereal day
  • Site
  • Solar day
  • Space segment
  • Squared reception mode
  • Squaring-type channel
  • Standard Parallel
  • Standard positioning service (SPS)
  • Static
  • Static Survey
  • Stop & Go Survey
• T
  • Time Zone
  • Topography
  • Transformation
    • Helmert transformation
    • Interpolation approach
    • One Step approach
    • Stepwise approach
  • Transit
  • Translocation
  • Transverse Mercator Projection
• U
  • Universal time
  • User equivalent range error (UERE)
  • User segment
  • UTM
• W
  • Water Vapour. See Error Sources
  • WGS 84
• Y
  • Y-code
• Z
  • Zenith angle
  • Zone Width
• GPSBook_EN01.pdf
  • Preface
  • 1. What is GPS and what does it do ?
  • 2. System Overview
  • 2.1 The Space Segment
  • 2.3 The User Segment
  • 3. How GPS works
  • 3.1 Simple Navigation
  • 3.1.1 Satellite ranging
  • 3.1.2 Calculating the distance to the satellite
  • 3.1.3 Error Sources
  • 3.1.4 Why are military receivers more accurate ?
  • 3.2 Differentially corrected positions (DGPS)
  • 3.2.1 The Reference Receiver
  • 3.2.2 The Rover receiver
  • 3.2.3 Further details
  • 3.3 Differential Phase GPS and Ambiguity Resolution
  • 3.3.1 The Carrier Phase, C/A and P-codes
  • 3.3.2 Why use Carrier Phase?
  • 3.3.3 Double Differencing
  • 3.3.4 Ambiguity and Ambiguity Resolution
  • 4. Geodetic Aspects
  • 4.1 Introduction
  • 4.2. The GPS coordinate system
  • 4.3 Local coordinate systems
  • 4.6 Map Projections and Plane Coordinates
  • 4.6.1 The Transverse Mercator Projection
  • 4.6.2 The Lambert Projection
  • 5. Surveying with GPS
  • 5.1 GPS Measuring Techniques
  • 5.1.1 Static Surveys
  • 5.1.2 Rapid Static Surveys
  • 5.1.3 Kinematic Surveys
  • 5.1.4 RTK Surveys
  • 5.2 Pre-survey preparation
  • 5.3 Tips during operation
  • Glossary
  • Further Reading
  • Index
• GPSBook_EN01.pdf
  • Preface
  • 1. What is GPS and what does it do ?
  • 2. System Overview
  • 2.1 The Space Segment
  • 2.3 The User Segment
  • 3. How GPS works
  • 3.1 Simple Navigation
  • 3.1.1 Satellite ranging
  • 3.1.2 Calculating the distance to the satellite
  • 3.1.3 Error Sources
  • 3.1.4 Why are military receivers more accurate ?
  • 3.2 Differentially corrected positions (DGPS)
  • 3.2.1 The Reference Receiver
  • 3.2.2 The Rover receiver
  • 3.2.3 Further details
  • 3.3 Differential Phase GPS and Ambiguity Resolution
  • 3.3.1 The Carrier Phase, C/A and P-codes
  • 3.3.2 Why use Carrier Phase?
  • 3.3.3 Double Differencing
  • 3.3.4 Ambiguity and Ambiguity Resolution
  • 4. Geodetic Aspects
  • 4.1 Introduction
  • 4.2. The GPS coordinate system
  • 4.3 Local coordinate systems
  • 4.6 Map Projections and Plane Coordinates
  • 4.6.1 The Transverse Mercator Projection
  • 4.6.2 The Lambert Projection
  • 5. Surveying with GPS
  • 5.1 GPS Measuring Techniques
  • 5.1.1 Static Surveys
  • 5.1.2 Rapid Static Surveys
  • 5.1.3 Kinematic Surveys
  • 5.1.4 RTK Surveys
  • 5.2 Pre-survey preparation
  • 5.3 Tips during operation
  • Glossary
  • Further Reading
  • Index