- Source: Cassini projection
The Cassini projection (also sometimes known as the Cassini–Soldner projection or Soldner projection) is a map projection first described in an approximate form by César-François Cassini de Thury in 1745. Its precise formulas were found through later analysis by Johann Georg von Soldner around 1810. It is the transverse aspect of the equirectangular projection, in that the globe is first rotated so the central meridian becomes the "equator", and then the normal equirectangular projection is applied. Considering the earth as a sphere, the projection is composed of the operations:
x
=
arcsin
(
cos
φ
sin
λ
)
y
=
arctan
(
tan
φ
cos
λ
)
.
{\displaystyle x=\arcsin(\cos \varphi \sin \lambda )\qquad y=\arctan \left({\frac {\tan \varphi }{\cos \lambda }}\right).}
where λ is the longitude from the central meridian and φ is the latitude. When programming these equations, the inverse tangent function used is actually the atan2 function, with the first argument sin φ and the second cos φ cos λ.
The reverse operation is composed of the operations:
φ
=
arcsin
(
sin
y
cos
x
)
λ
=
atan2
(
tan
x
,
cos
y
)
.
{\displaystyle \varphi =\arcsin(\sin y\cos x)\qquad \lambda =\operatorname {atan2} (\tan x,\cos y).}
In practice, the projection has always been applied to models of the earth as an ellipsoid, which greatly complicates the mathematical development but is suitable for surveying. Nevertheless, the use of the Cassini projection has largely been superseded by the transverse Mercator projection, at least with central mapping agencies.
Distortions
Areas along the central meridian, and at right angles to it, are not distorted. Elsewhere, the distortion is largely in a north–south direction, and varies by the square of the distance from the central meridian. As such, the greater the longitudinal extent of the area, the worse the distortion becomes.
Due to this, the Cassini projection works best for areas with greater north–south extent than east–west. For example, Ordnance Survey maps of Great Britain used the Cassini projection from 1924 until the introduction of the National Grid.
Elliptical form
Cassini is known as a spherical projection, but can be generalised as an elliptical form.
Considering the earth as an ellipse, the projection is composed of these operations:
N
=
(
1
−
e
2
sin
2
φ
)
−
1
/
2
{\displaystyle N=(1-e^{2}\sin ^{2}\varphi )^{-1/2}}
T
=
tan
2
φ
{\displaystyle T=\tan ^{2}\varphi }
A
=
λ
cos
φ
{\displaystyle A=\lambda \cos \varphi }
C
=
e
2
1
−
e
2
cos
2
φ
{\displaystyle C={\frac {e^{2}}{1-e^{2}}}\cos ^{2}\varphi }
x
=
N
(
A
−
T
A
3
6
−
(
8
−
T
+
8
C
)
T
A
5
120
)
{\displaystyle x=N\left(A-T{\frac {A^{3}}{6}}-(8-T+8C)T{\frac {A^{5}}{120}}\right)}
y
=
M
(
φ
)
−
M
(
φ
0
)
+
(
N
tan
φ
)
(
A
2
2
+
(
5
−
T
+
6
C
)
A
4
24
)
{\displaystyle y=M(\varphi )-M(\varphi _{0})+(N\tan \varphi )\left({\frac {A^{2}}{2}}+(5-T+6C){\frac {A^{4}}{24}}\right)}
and M is the meridional distance function.
The reverse operation is composed of the operations:
φ
′
=
M
−
1
(
M
(
φ
0
)
+
y
)
{\displaystyle \varphi '=M^{-1}(M(\varphi _{0})+y)}
If
φ
′
=
π
2
{\displaystyle \varphi '={\frac {\pi }{2}}}
then
φ
=
φ
′
{\displaystyle \varphi =\varphi '}
and
λ
=
0.
{\displaystyle \lambda =0.}
Otherwise calculate T and N as above with
φ
′
{\displaystyle \varphi '}
, and
R
=
(
1
−
e
2
)
(
1
−
e
2
sin
2
φ
′
)
−
3
/
2
{\displaystyle R=(1-e^{2})(1-e^{2}\sin ^{2}\varphi ')^{-3/2}}
D
=
x
/
N
{\displaystyle D=x/N}
φ
=
φ
′
−
N
tan
φ
′
R
(
D
2
2
−
(
1
+
3
T
)
D
4
24
)
{\displaystyle \varphi =\varphi '-{\frac {N\tan \varphi '}{R}}\left({\frac {D^{2}}{2}}-(1+3T){\frac {D^{4}}{24}}\right)}
λ
=
D
−
T
D
3
3
+
(
1
+
3
T
)
T
D
5
15
cos
φ
′
{\displaystyle \lambda ={\frac {D-T{\frac {D^{3}}{3}}+(1+3T)T{\frac {D^{5}}{15}}}{\cos \varphi '}}}
See also
Cassini Grid
References
External links
Media related to Cassini projection at Wikimedia Commons
Table of examples and properties of all common projections, from radicalcartography.net
Ordnance Survey GeoFacts on the Cassini Projection
Cassini dans proj4
Kata Kunci Pencarian:
- Bumi
- Cassini projection
- Cassini
- César-François Cassini de Thury
- Equirectangular projection
- Mercator projection
- Cassini (surname)
- Gall–Peters projection
- Cassini Grid
- Map projection
- 1745 in science