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GEODESY OUTLINE: definition and history three major models how are reference shapes used geodetic systems mapping involves determining locations on earth ... – PowerPoint PPT presentation

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Title: OUTLINE:

1
GEODESY

OUTLINE
definition and history
three major models
how are reference shapes used
geodetic systems

2
GEODESY

mapping involves
determining locations on earth,
transforming positions onto flat map,
graphically symbolizing those positions
to establish a system of geographic coordinates,
we first have to know the Earths size and shape

3
GEODESY

Geodesy discipline that deals with measurement
and representation of earth in a
three-dimensional time varying space
uses spaceborne and airborne remotely sensed, and
ground-based measurements

4
GEODESY

study of
size and shape of earth
measurements of the position and motion of points
on the earths surface
configuration and area of large portions of
earths surface

5
HISTORY OF GEODESY

has been around since approximately 500 BC, not
taken seriously until 100 AD (Ptolemy)

Toscanelli (1397-1482) famous incorrect vision of
the world

6
HISTORY OF GEODESY

notion of the earths gravity started to form in
the late 1500s and early 1600s
mid 18th C to present - position determined by
terrestrial and astronomical means was needed for
making maps

7
IMPORTANCE OF GEODESY

geodesy has a symbiotic relationship with some
other sciences

8
MAJOR MODEL OF GEODESY

Sphere
based on observations of ships going over horizon
and astronomical phenomena
Authalic sphere sphere with the same surface
area of earth as a more regular surface called
ellipsoid
used today for short range navigation and global
distance approximations

9
MAJOR MODEL OF GEODESY

Ellipse
earth is ellipse with a slightly larger
equatorial axis than polar axis (20 km) due to
spinning of earth
most commonly used model to calculate position on
earth

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MAJOR MODEL OF GEODESY
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MAJOR MODEL OF GEODESY
12

at least 20 different determination of parameters
for ellipsoid since 1800
geodesists use semi-major axis and flattening to
identify ellipsoids

13
MAJOR MODEL OF GEODESY

Geoid
surface where strength of gravity equals that at
mean sea level

variations in rock density and topography causes
deviations up to 100 m
irregular (geoid) vs regular (ellipsoid)

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rises over continents, depressed in oceanic areas

highest point over New Guinea lowest point,
south of India

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MAJOR MODEL OF GEODESY

Current geoid model available in Canada
Canadian Gravimetric Geoid 2000 (CGG2000)
A geoid model to be released in 2006 is being
considered as a new vertical datum to replace
CGVD28

Geoid representation from GRACE satellite gravity
mission data
18
MAJOR MODEL OF GEODESY

small scale maps locations defined by authalic
sphere
detailed large scale
horizontal positions ellipsoid
elevations geoid surface

19
GEODETIC SYSTEMS

Datum any numerical or geometrical quantity
which serve as a reference or base of other
quantities (coordinates of points)
in GIS geodetic datums define the reference
system that describes the size and shape of the
earth

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GEODETIC SYSTEMS

two types horizontal and vertical datum
horizontal datum - forms the basis for the
computations of horizontal control surveys in
which the curvature of the earth is considered
vertical datum elevations are referred

22
HORIZONTAL DATUMS

may consist of
latitude and longitude of an initial point
(origin),
azimuth of a line (direction) to some other
triangulation station,
parameters (semi-major axis and flattening) of
the ellipsoid selected for the computations
geoid separation at the origin
change in any of these quantities affects every
point on the datum

23
DATUM TRANSFORMATION