Resources Frequently asked questions TransLT What types of map projections does TransLT support?
| Nr. | Projection Name | Works on ellipsoid | Works on spheroid | Reversible |
| Cylindrical Projections | ||||
|---|---|---|---|---|
|
1 |
Cassini-Soldner |
√ | √ | √ |
|
2 |
Central Cylindrical |
√ | √ | |
|
3 |
Cylindrical Equal Area (Normal) |
√ | √ | √ |
|
4 |
Cylindrical Equal Area (Oblique) |
√ | √ | √ |
|
5 |
Cylindrical Equal Area (Transverse) |
√ | √ | √ |
|
6 |
Equidistant Cylindrical |
√ | √ | √ |
|
7 |
Gall Stereographic Cylindrical |
√ | √ | |
|
8 |
Hotine Oblique Mercator (Variant A) |
√ | √ | √ |
| 9 |
Hotine Oblique Mercator (Variant B) |
√ | √ |
√ |
|
10 |
Hyperbolic Cassini-Soldner |
√ | √ | |
|
11 |
Laborde for Madagascar |
√ | √ | √ |
|
12 |
Mercator (1SP) (Variant A) |
√ | √ | √ |
|
13 |
Mercator (2SP) (Variant B) |
√ | √ | √ |
| 14 |
Mercator (2SP) (Variant C) |
√ | √ | √ |
|
15 |
Miller Cylindrical |
√ | √ | |
|
16 |
Oblique Mercator |
√ | √ | √ |
|
17 |
Popular Visualisation Pseudo Mercator |
√ | √ | √ |
|
18 |
Swiss. Obl. Mercator |
√ | √ | √ |
|
18 |
Transverse Mercator |
√ | √ | √ |
|
19 |
Transverse Mercator (South Orientated) |
√ | √ | √ |
|
20 |
Transverse Mercator Zoned Grid System |
√ | √ | √ |
|
21 |
Universal Transverse Mercator (UTM) |
√ | √ | √ |
| Pseudocylindrical Projections | ||||
|
22 |
Collignon |
√ | √ | |
|
23 |
Eckert I |
√ | √ | |
|
24 |
Eckert II |
√ | √ | |
|
25 |
Eckert III |
√ | √ | |
|
26 |
Eckert IV |
√ | √ | |
|
27 |
Eckert V |
√ | √ | |
|
28 |
Eckert VI |
√ | √ | |
|
29 |
Fahey (Modified Gall) |
√ | √ | |
|
30 |
Foucaut Sinusoidal |
√ | √ | |
|
31 |
Foucaut Stereographic Equivalent |
√ | √ | |
|
32 |
Hatano Asymmetrical Equal Area |
√ | √ | |
|
33 |
Kavraiskiy V |
√ | √ | |
|
34 |
Kavraiskiy VII |
√ | √ | |
|
35 |
Loximuthal |
√ | √ | |
|
36 |
McBride-Thomas Flat-Polar Parabolic (No. 5) |
√ | √ | |
|
37 |
McBryde-Thomas Flat-Polar Quartic (No. 4) |
√ | √ | |
|
38 |
McBryde-Thomas Flat-Polar Sine (No. 1) |
√ | √ | |
|
39 |
McBryde-Thomas Flat-Polar Sinusoidal (No. 3) |
√ | √ | |
|
40 |
McBryde-Thomas Flat-Pole Sine (No. 2) |
√ | √ | |
|
41 |
Mollweide |
√ | √ | |
|
42 |
Nell |
√ | √ | |
|
43 |
Nell-Hammer |
√ | √ | |
|
44 |
Pseudo Plate Carrée |
√ | √ | √ |
|
45 |
Putnins P1 |
√ | √ | |
|
46 |
Putnins P2 |
√ | √ | |
|
47 |
Putnins P3 |
√ | √ | |
|
48 |
Putnins P3p |
√ | √ | |
|
49 |
Putnins P4 (Craster Parabolic) |
√ | √ | |
|
50 |
Putnins P4p |
√ | √ | |
|
51 |
Putnins P5 |
√ | √ | |
|
52 |
Putnins P5p |
√ | √ | |
|
53 |
Putnins P6 |
√ | √ | |
|
54 |
Putnins P6p |
√ | √ | |
|
55 |
Quartic Authalic |
√ | √ | |
|
56 |
Sinusoidal (Sanson-Flamsteed) |
√ | √ | √ |
|
57 |
Wagner I (Kavraiskiy VI) |
√ | √ | |
|
58 |
Wagner II |
√ | √ | |
|
59 |
Wagner III |
√ | √ | |
|
60 |
Wagner IV |
√ | √ | |
|
61 |
Wagner V |
√ | √ | |
|
62 |
Wagner VI |
√ | √ | |
|
63 |
Werenskiold I |
√ | √ | |
|
64 |
Winkel I |
√ | √ | |
|
65 |
Winkel II |
√ | ||
| Conic Projections | ||||
|
66 |
Albers Equal Area |
√ | √ | √ |
|
67 |
Bipolar conic of western hemisphere |
√ | √ | |
|
68 |
Equidistant Conic |
√ | √ | √ |
|
69 |
Euler (Equidistant Conic) |
√ | √ | |
|
70 |
Krovak Oblique Conformal Conic |
√ | √ | √ |
|
71 |
Krovak Oblique Conformal Conic (North Orientated) |
√ | √ | √ |
| 72 |
Krovak Oblique Conformal Conic Modified |
√ | √ | √ |
| 73 |
Krovak Oblique Conformal Conic Modified (North Orientated) |
√ | √ | √ |
|
74 |
Lambert Conformal Conic (1SP) |
√ | √ | √ |
|
75 |
Lambert Conformal Conic (1SP) West Orientated |
√ | √ | √ |
|
76 |
Lambert Conformal Conic (2SP) |
√ | √ | √ |
|
77 |
Lambert Conformal Conic (2SP) Belgium |
√ | √ | √ |
|
78 |
Lambert Conic Near-Conformal |
√ | √ | |
|
79 |
Murdoch I (Equidistant Conic) |
√ | √ | |
|
80 |
Murdoch II |
√ | √ | |
|
81 |
Murdoch III (Equidistant Conic, minimum error) |
√ | √ | |
|
82 |
Perspective Conic |
√ | √ | |
|
83 |
Tissot |
√ | √ | |
|
84 |
Vitkovskiy I (Equidistant Conic) |
√ | √ | |
| Pseudoconic Projections | ||||
|
85 |
Bonne (South Orientated) |
√ | √ | √ |
|
86 |
Bonne (Werner for lat.1sp = 90°) |
√ | √ | √ |
| Polyconic Projections | ||||
|
87 |
American Polyconic |
√ | √ | √ |
|
88 |
International Map of the World (Modified Polyconic) |
√ | √ | √ |
| Azimuthal Projections | ||||
|
89 |
Azimuthal Equidistant |
√ | √ | √ |
|
90 |
Gnomonic |
√ | √ | |
|
91 |
Guam (Azimuthal Equidistant) |
√ | √ | |
|
92 |
Lambert Azimuthal Equal Area |
√ | √ | √ |
|
93 |
Lee Oblated Stereographic |
√ | √ | |
|
94 |
Miller Oblated Stereographic |
√ | √ | |
|
95 |
Mod. Stererographics of 48 U.S. |
√ | √ | |
|
96 |
Mod. Stererographics of 50 U.S. |
√ | √ | √ |
|
97 |
Mod. Stererographics of Alaska |
√ | √ | √ |
|
98 |
Modified Azimuthal Equidistant (for Micronesia) |
√ | √ | |
|
99 |
Oblique Stereographic |
√ | √ | √ |
|
100 |
Orthographic |
√ | √ | √ |
|
101 |
Polar Stereographic Variant A (Universal) |
√ | √ | √ |
|
102 |
Polar Stereographic Variant B |
√ | √ | √ |
|
103 |
Polar Stereographic Variant C |
√ | √ | √ |
|
104 |
Stereographic (J.P. Snyder formulas) |
√ | √ | √ |
|
105 |
Topocentric local |
√ | √ | √ |
|
106 |
Vertical Perspective |
√ | √ | |
|
107 |
Vertical Perspective (Orthographic case) |
√ | √ | |
| Miscellaneous Projections | ||||
|
108 |
New Zealand Map Grid |
√ | √ | |
|
109 |
Van der Grinten |
√ | √ | |
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