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Latest revision as of 18:08, 13 January 2014
DescriptionOn this page you will find all GNSS fundamentals related articles on Navipedia. A Global Navigation Satellite System (GNSS) involves a constellation of satellites orbiting at about twenty thousand kilometeres altitude over the earth surface, continuously transmitting signals that enable users to determine their three-dimensional position with global coverage. |
Subcategories
This category has the following 9 subcategories, out of 9 total.
C
- Coordinate Systems (9 P)
G
- GNSS Measurements Modelling (31 P)
- GNSS Signal Structure (2 P)
P
- PPP (7 P)
S
- Solving Navigation Equations (16 P)
T
- Time Systems (9 P)
Pages in category "Fundamentals"
The following 181 pages are in this category, out of 181 total.
A
B
C
- Carrier Phase Ambiguity Fixing
- Carrier phase ambiguity fixing with three frequencies
- Carrier phase ambiguity fixing with two frequencies
- Carrier Phase Cycle-Slip Detection
- Carrier Phase Wind-up Effect
- Carrier-smoothing of code pseudoranges
- Cartesian and ellipsoidal coordinates
- CBCS Modulation
- CDMA FDMA Techniques
- Celestial Ephemeris Pole
- CEP to ITRF
- Clock Modelling
- Code and Carrier Based Positioning (PPP)
- Code Based Positioning (SPS)
- Code-Carrier Divergence Effect
- Coherent Adaptive Sub-Carrier Modulation (CASM) and Interplex
- Combination of GNSS Measurements
- Combining pairs of signals and clock definition
- Composite BOC (CBOC)
- Computation of GNSS Satellite Coordinates
- Continuity
- Conventional Celestial Reference System
- Conventional Terrestrial Reference System
- Coordinate Systems
- Coordinates Computation from Almanac Data
- Cramér Rao Lower Bound
- Cycle-Slips Detection with three-frequency signals
D
E
- Earth Deformation Effect
- Earth Revolution Time
- Earth Rotation Time
- Electromagnetic Beam Bending
- Ellipsoidal and Cartesian Coordinates Conversion
- Emission Time Computation
- Equivalent Carrier to Noise Ratio in presence of RF interference
- Examples of multi-frequency Cycle-Slip Detectors
- Examples of single frequency Cycle-Slip Detectors
G
- Galileo Integrity Concept
- Galileo Navigation Message
- Galileo Tropospheric Correction Model
- Gaussian Minimum Shift Keying (GMSK)
- GBAS Fundamentals
- GBAS Standards
- GBAS Systems
- Generic BCS Signals
- Geometric Range Modelling
- GLONASS Navigation Message
- GLONASS Satellite Coordinates Computation
- GLONASS Signal Plan
- GNSS Augmentation
- GNSS Authentication and encryption
- GNSS Basic Observables
- GNSS Broadcast Orbits
- GNSS Interference Model
- GNSS Measurement features and noise
- GNSS Measurements Modelling
- GNSS Modulation Schemes
- GNSS Performances
- GNSS Satellites Orbit
- GNSS signal
- GPS and Galileo Satellite Coordinates Computation
- GPS C1, P1 and P2 Codes and Receiver Types
- GPS Navigation Message
- GPS Time and Frequency Transfer Techniques
- Ground-Based Augmentation System (GBAS)
I
M
P
- Parameters adjustment
- Parameters adjustment for PPP
- Perturbed Motion
- Phase & Group Velocity
- Pole Tide
- Positioning Error
- Power Spectral Density of Cosine-phased BOC signals
- Power Spectral Density of Sine-phased BOC signals
- Power Spectral Density of the AltBOC Modulation
- Power Spectral Density of the CBCS Modulation
- PPP Fundamentals
- PPP Standards
- PPP Systems
- Precise GNSS Satellite Coordinates Computation
- Precise modelling terms for PPP
- Precise Point Positioning
- Principles of Compatibility among GNSS
- Principles of Interoperability among GNSS
R
S
- Satellite Antenna Phase Centre
- Satellite Coordinates
- Satellite Coordinates Computation
- Satellite Eclipses
- SBAS Fundamentals
- SBAS General Introduction
- SBAS Standards
- SBAS Systems
- Sidereal Time
- Signal Multiplex Techniques for GNSS
- Sinusoidal Binary Offset Carrier (SOC) Signals
- Sinusoidal Multilevel Coded Symbol (SMCS) Signals
- Solar and Sidereal Times relationship
- Solar Time
- Solid Tides
- Solving navigation equations
- Spectral Separation Coefficient (SSC)
- Square-Root Raised Cosine Signals (SRRC)
T
- Time References
- Time References in GNSS
- Time Systems
- Time-Multiplexed BOC (TMBOC)
- Transformation between Celestial and Terrestrial Frames
- Transformation between Terrestrial Frames
- Transformations between ECEF and ENU coordinates
- Transformations between Time Systems
- Transforming Celestial to Terrestrial Frames
- Tropospheric Delay
- TTFF
- Two-body Problem