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Transcript 
Coordinate Systems
Coordinate Systems – key
concepts
► Projections
and Coordinate Systems
► Data Quality
► Meta Data
Projections and Coordinate Systems:
Geographic Coordinate System
► Uses
3D spherical surface to define
locations
► Often incorrectly called a datum
► Includes angular unit of measure, prime
meridian and datum
► Point referenced by longitude/latitude
► Angles measured by degrees
Parallels – Lines of Latitude
Latitude lines are parallel
The equator defines the line of zero latitude
Every degree of latitude is theoretically equal
Parallels run east/west; measure distances north and south of equator
Meridians – Lines of Longitude
Meridians converge at the poles
Line of zero longitude is called the Prime Meridian
Distance of 1° longitude decreases toward the poles
Meridians run north/south; measure distance east & west of Prime Meridian
Graticular Network
Network of Lat/Long called a graticule
Origin of graticule (0,0) where Equator and Prime Meridian intersect
4 geographic quadrants based on compass bearings from Origin
Degrees, Minutes, Seconds (DMS)
► Point
on Earth’s
surface referenced by
Lat/Long values
► Lat/Long based on
360°
► Each degree has 60
minutes
► Each minute has 60
seconds
Decimal Degrees (DD)
► Similar
to DMS
► Minutes and seconds expressed as decimal
values
► ESRI products require DD in geodatasets
Converting from DMS to DD
37° 36' 30" (DMS)
► Divide each value by the number of minutes
or seconds in a degree:
36 minutes = .60 degrees (36/60)
30 seconds = .00833 degrees (30/3600)
►
Add up the degrees to get the answer:
► 37° + .60° + .00833° = 37.60833 DD
Spheres and Spheroids
Sphere
Spheroid
•Shape and size of GCS surface defined by sphere or spheroid.
•Mathematical calculations easier on a sphere.
•Sphere can be used for small-scale maps (< 1:5,000,000)
•Spheroid gives better accuracy for large-scale maps (>1:1,000,000
Major and Minor Axes of Ellipse
Minor
Major
Axis
Axis
Semiminor
Axis
Semimajor Axis
Shape of ellipse defined by two radii.
Longer radius: Semimajor Axis
Shorter radius: Semiminor Axis
Rotating spheroid around semiminor axis creates a spheroid
Spheroids for Accurate Mapping
► Earth
has been surveyed many times
► Surveys result in many spheroids
► Spheroid chosen to fit one country
► Best fit for one regions not same for another
region
► Earth is neither perfect sphere nor spheroid
► Changing coordinate system’s spheroid changes all
previously measured values
Datums
► Spheroids
approximate earth’s shape
► Datum defines position of spheroid relative
to center of the earth
► Datum defines origin and orientation of
lat/long lines
► Local datum aligns spheroid to fit surface in
a particular area
Datum Comparisons
Local geographic
Coordinate system
Earth-centered geographic
Coordinate system
Earth’s surface
Earth-centered datum
Local datum
North American Datums
► NAD27
ƒ
ƒ
ƒ
–
uses Clarke 1866 spheroid
Origin – Meade Ranch Kansas
Manually calculated control points
► NAD83
ƒ
ƒ
ƒ
ƒ
Based on earth and satellite observations
Uses GRS80 spheroid
Origin is earth’s center of mass
Previous control points shift as much as 500’
Projected Coordinate Systems
► Defined
on flat, 2D surface
► Has constant lengths, angles and area
► Always based on geographic coordinate
system
► X,Y coordinates on grid
What is a Map Projection?
► Transformation
of 3D surface to 2D flat sheet
► Causes distortion in the shape, area, distance or
direction of data
► Uses mathematical formulas to relate spherical
coordinates to planar coordinates
► Different projections cause different distortions
► Map projections designed for specific purpose –
i.e. large-scale data in limited area
Relevance to GIS
► maps
1)
2)
are a common source of input data for a GIS
often input maps will be in different projections, requiring
transformation of one or all maps to make coordinates
compatible
thus, mathematical functions of projections are needed in
a GIS
► often
GIS are used for projects of global or
regional scales so consideration of the effect of
the earth's curvature is necessary
► monitor screens are analogous to a flat sheet of
paper
1) thus, need to provide transformations from the
curved surface to the plane for displaying data
Conclusion
► What
is a coordinate system?
ƒ A coordinate system is a grid that may be used
to define where a particular location is
► Connection
between projection and
coordinate system
ƒ The projection defines the coordinate system by
defining the 2-D surface of the earth
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