site calibration for 3d gps operations presenter name
TRANSCRIPT
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Site Calibration for 3D GPS Operations
Presenter Name
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GPS Site Calibration
Site reconnaissance– Control point availability– GPS base station location
Performing the Calibration
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Control point availability
• Control points are measured to “calibrate” the site for GPS-based systems
• Do control points exist on site?– Check the site plans for control point lists and locations– You need a minimum of 3 and 5 or more are recommended
– For more information, contact: Land Surveyor Engineering firm
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GPS base station locations – considerations
• Obstructions
– Setup GPS base station antenna with 360° view of the sky. If limited try to set up with clear visibility to the south.
– GPS 55° latitude limit– Glonass 65° latitude limit
– Avoid sources of multipath (deflection of the GPS satellite signal) – Chain link fence– Trees – Flat, reflective surfaces – metal roofs, glass windows, water, etc
– Setup GPS base radio link for maximum broadcast range– Elevate the radio antenna to increase range– Correct antenna (high gain and low gain)– Avoid sources of RF interference (Microwave, Power lines, etc)
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GPS Site Calibration
What is it…
Requirements
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GPS Site Calibration
What is a site calibration?– A measurement procedure that defines the relationship
between GPS coordinates and local coordinates– GPS in Latitude, Longitude, and Ellipsoid Height– Local Coordinates in Northing, Easting, Elevation (MSL)– We are pairing coordinates on a sphere surface and to those
on a flat planar surface
GPSCoordinates NEE
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GPS Site Calibration
Why is a site calibration required?– Allows GPS-based rover systems to work in your local site
coordinate system
What is needed for site calibration– Onsite control base on local coordinates
= GPS observation= Control Point
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GPS Site Calibration
The calibration locally adjusts the– Projection
Includes shift grids, projection grids, datum grid Includes Azimuth orientation (e.g.North or South)
– Datum
Site Calibration is comprised of 2 parts– Horizontal adjustment
Rotate, Translate, & Scale
– Vertical adjustment Block shift & Tilted Plane Geoid
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GPS Site Calibration
Measuring a Site Calibration will assume– Projection – Transverse Mercator– Datum – WGS84
If you want to use an alternative to this, then a DC file containing that information should be created and used as the starting point e.g. State Plane etc.– Can then be localized through site calibration
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Horizontal Translation
Points shifted X & Y– Same Amount & Direction
1 Control Point
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Horizontal Rotation
Rotation about project centroid 2 control points
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Horizontal Scale
Ratio– GPS to Local Coordinates
2 Control Points
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Residuals
Residuals– Best effort translation between pairs (Control &
WGS-84)– SCS900 has a Tolerance for Calibration
Value should be 50% of acceptable project tolerance Tolerance used to test calibration result worst residual
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Calibration Requirements
Single point site calibration Requirements– Requires a single, 3D control point – known or “arbitrary”
Single point defines coordinate system orientation Used when control does not exist Recommended for initial site topos and for quick stockpile or volume
topos etc Recommend measuring control points to tie to design reference frame
later Not recommend on long linear projects
= GPS observation
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Calibration Requirements
Multi-point site calibration Requirements– Minimum of 3 (3D) control points
Recommend 5+ control points with good geometry for better results
– Combination of horizontal and vertical points - Minimums 3 horizontal control points & 3 vertical control points
– or – 1 vertical + 3 horizontal + Geoid model
– Used when control exists and references a design frame
= GPS observation= Control Point
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Control Point Locations
3 points – will work, but yields only 3
baselines– Geometry could be weak– Control should encompass
the entire site
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Control Point Locations
4 Points– Better, 6 baselines– 4th point - independent
height check– Geometry is stronger
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Control Point Locations
Optimal control-– Multiple control points– Geometry strongest,
balanced– Points encompass the
site.
– This example - 7 points, 18 baselines.
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Control Point Locations Control point network geometry is key
= Poor network geometry
= Ideal network geometry
• Enclose the project area with control• More control points and good network geometry can improve site
calibration results and identify problems early
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Tilted Plane
Tilted Plane– Effectively models the effect of the local Geoid i.e.
local variations in gravity over the site– Minimizes height residuals on control points after
block shift– User selectable when to occur in SCS900
SCS900 has a minimum of 3 points, default is 5 With only 3 points there is no check and it will zero all
residuals to create the tilted plane
– Occurs after 2 points in Survey Controller to eliminate height residuals after block shift
– SCS900 and Survey Controller will only agree when the tilted plane has been applied in both
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Block Shift and Tilted Plane ProcessIn Cross Section View
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Details of how this works Measured Points Provided local coordinates The difference between them
– Some high, some low compared to average shift Block Shift from measured to local using average shift Rotate i.e. Tilt the plane through the measured points to
minimize residuals and get a best fit of measured control to local control
In an ideal world we would get a perfect fit We don’t have an ideal world so we get residuals after the
tilted plane – those residuals dictate whether we are in tolerance for the Site Calibration or not.
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Geoids
Trimble GeoData folder added in SCS900 v2.3– Geoids will apply at Site Level– Store multiple Geoids in Trimble Geodata folder– If no Geoids exist in the Trimble Geodata folder
then you will not be asked this question
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Geoids
Should I use a Geoid model?– Geoids will never hurt– Geoids will allow you to go outside your project
calibration– Geoids allow for fewer vertical control points– Provides better detection of errors in control– Recommended on long linear projects
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Geoids
– A geoid height is the separation between the Ellipsoid and the Geoid at any location on the earths surface
H
H = Orthometric Height
H = h - N
TOPOGRAPHIC SURFACE
h = Ellipsoidal Height (WGS84)
N = Geoid Height (GEOID 03)
h
Ellipsoid(WGS84)
N
GeoidGeoid Height (GEOID03)
AB
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Geoids
Geoid Model (Nm)– Approximates Geoid
Geoid Values (N)– Computed from BM
Elevations (h-H=N)
∆N at each Control Point
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Geoids
Tilted Plane through ∆N
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Shift Grids
SCS900 now supports SHIFT GRIDS– There are three different types of Shift
Grids in Europe Belgium and Netherlands use SHIFT GRID FILES UK uses PROJECTION GRID FILES France uses DATUM GRID FILES
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Shift Grids
SHIFT GRID FILES– A standard projection is used to get grid coordinates and
then the shift grids are applied to get the correct national coordinates. One .sgf file contains both northings and eastings shifts
PROJECTION GRID FILES– A standard projection is used to get grid coordinates and
then the shift grids are applied to get the correct national coordinates. One .pgf file contains northings and another .pgf file contains eastings shifts
DATUM GRID FILES– The shift is applied before the projection. One .dgf file
contains the datum shift
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GPS Site Calibration
Improving my calibration results
– Continue to calibrate on additional control points– Change tolerance– Edit Calibration Components after measuring all
control points for the calibration by switching on/off Hz or VT components…
– Careful, it is extremely risky to remove one component of a point unless Horizontal and Vertical components of control were established under separate processes
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Moving the GPS base station
Before calibration – no problem After calibration – location requirement– Must be moved to control point
Control used during the calibration Control measured before moving based and using
calibration
– Same rules for calibration obtained under VRS
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Conclusion
In conclusion, remember these key points
– Good Base Station location for good observables
– Adequate number of control points (5+)
– Good Geometry among control points
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Questions?