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Pseudo distance between a satellite and a navigation satellite receiver
The pseudorange is the pseudo distance between a satellite and a navigation satellite receiver (see GNSS positioning calculation), for instance Global
Pseudorange
Algorithm to assess the integrity of GPS signals
redundant GPS pseudorange measurement. That is, when more satellites are available than needed to produce a position fix, the extra pseudoranges should all
Receiver autonomous integrity monitoring
Receiver_autonomous_integrity_monitoring
Use of distances for determining unknown coordinates of a point
Trilateration is the use of distances (or "ranges") for determining the unknown position coordinates of a point of interest. When more than three distances
Trilateration
Enhancement to the Global Positioning System providing improved accuracy
ships. If the corrections are of the pseudorange type, the receiver applies the corrections to apparent pseudoranges before it calculates the position.
Differential_GPS
Satellite navigation technique used to enhance the precision of position data
techniques from precise point positioning (PPP). Instead of receiving local pseudorange corrections ("observation-space") from nearby base stations, PPP uses
Real-time kinematic positioning
Real-time_kinematic_positioning
Detail of the global positioning system
assumption of 1% phase error. The receiver needs to have a way to resolve the pseudorange ambiguity from the phase resetting every 19 cm. This is possible by comparing
Error analysis for the Global Positioning System
Error_analysis_for_the_Global_Positioning_System
Propagation of error with varying topology
geometry of any given satellite to a receiver, the precision in the pseudorange of the satellite translates to a corresponding component in each of the
Dilution_of_precision
American satellite-based radio navigation service
the approximation is likely to be. If the pseudorange between the receiver and satellite i and the pseudorange between the receiver and satellite j are
Global_Positioning_System
Elevation of a location above a standardized sea level
Satellite System (such as GPS), where a receiver determines a location from pseudoranges to multiple satellites. A geoid is needed to convert the 3D position
Height_above_mean_sea_level
Calculation of position based on satellite signal timing
of GNSS signals emitted from four or more GNSS satellites (giving the pseudorange) and these measurements are used to obtain its position (i.e., spatial
Satellite_navigation_solution
Method of improving a navigation system
as opposed to observation-space corrections consisting of location or pseudorange errors at specific stations. Current and upcoming SBAS systems implementing
GNSS_augmentation
Signals broadcast by GPS satellites
computation of the transit time and thus the pseudorange. The receiver is potentially capable of getting a new pseudorange measurement at the beginning of each
GPS_signals
Type of data transmission method
may be useful for real-life data: for example, the measured distance (pseudorange) to a navigation satellite over time is best compressed using a third-order
Delta_encoding
Receiver Independent Exchange Format for raw satellite navigation system data
and adopted several times. RINEX enables storage of measurements of pseudorange, carrier-phase, Doppler and signal-to-noise from GPS (including GPS modernization
RINEX
European global navigation satellite system
'marginal' status flag in the Galileo data could have experienced a pseudorange error of up to almost 80 km. The problem was related to an abnormal behaviour
Galileo (satellite navigation system)
Galileo_(satellite_navigation_system)
Earth observation technology
the GNSS receiver measures the signal delay from the satellite (the pseudorange measurement) and the rate of change of the range between satellite and
GNSS_reflectometry
When a radio signal reaches a remote receiver
resolve the precise position to a single point. TDOA techniques such as pseudorange multilateration use the measured time difference between TOAs. The concept
Time_of_arrival
Measurement of the Earth using satellites
multiplies the difference by the speed of light to obtain a "pseudorange." Four pseudoranges are needed to obtain the precise time and the receiver's position
Satellite_geodesy
Japanese regional navigation satellite system
and is called L1S. It contains differential GPS data in the form of pseudorange errors at monitoring stations. It augments multiple constellations. The
Quasi-Zenith_Satellite_System
American engineer
MIT. Parkinson, U.S. Patent 5,726,659, “Multipath calibration in GPS pseudorange measurements” Parkinson, U.S. Patent 6,434,462, “GPS control of a tractor-towed
Bradford_Parkinson
GPS data processing technique
wavelength of the carrier (roughly 20 cm) allows for more precise tracking of pseudorange. However, the carrier does not include information about how many carrier-cycles
Precise_Point_Positioning
Communication protocol for DGPS data
5-bit identifier. The correction itself was in two parts, the 16-bit "pseudorange correction" (PRC) and 8-bit "range-rate correction" (RRC), and finally
RTCM_SC-104
Device to deduce location from satellite signals
time tag the measurements and combine them when all four satellite pseudoranges have been measured. These receivers are among the least expensive available
Satellite_navigation_device
Royal Observatory of Belgium in Brussels. EPN data are raw multi-GNSS pseudorange and phase observations, broadcast ephemerides, and supporting types of
EUREF_Permanent_Network
Ways in which length, distance or range can be measured
methods without accurate time synchronization of the receiver are called pseudorange, used, for example, in GPS positioning. With other systems ranging is
Length_measurement
European Space Agency satellites
and contents viewpoint (demonstration only purpose). The generation of pseudorange measurements and detailed analysis of the tracking noise and multipath
GIOVE
3, May–June 2009 SVN49 and other GPS anomalies: Elevation-dependent pseudorange errors in Block IIRs and IIR-Ms Archived 2017-06-15 at the Wayback Machine
Inside_GNSS
PSEUDORANGE
PSEUDORANGE
PSEUDORANGE
PSEUDORANGE
Boy/Male
Bengali, Gujarati, Hindu, Indian, Malayalam, Marathi
An Ancient King
Boy/Male
American, Australian, British, Chinese, Christian, Danish, English, Finnish, French, German, Hawaiian, Hebrew, Jamaican, Portuguese
United; Combined; Attached; Possibly Governor; Guide; Joined; Governor; Adhesion; Joined to; Crown; Garland
Female
Spanish
Spanish feminine form of Latin Angelus, ÃNGELA means "angel, messenger."
Boy/Male
Tamil
Joyful, Kings of the hills, Kind hearted a sweet
Boy/Male
Tamil
Shubhanand | à®·à¯à®ªà®¾à®¨à®‚த
Good bliss
Boy/Male
Hindu, Indian, Marathi
Straightforward; Lord Shiva
Boy/Male
Hindu
Daughter God
Girl/Female
Arabic, Muslim, Pashtun
Necklace of Flowers; Garland
Boy/Male
Muslim/Islamic
Clever Smart
Surname or Lastname
English
English : variant spelling of Smithey.
PSEUDORANGE
PSEUDORANGE
PSEUDORANGE
PSEUDORANGE
PSEUDORANGE