TopoLT.com
Description
pulled from site's meta descriptionTopography and cadaster CAD software running on AutoCAD and other CAD platforms. Fast, simple and accessible.
This is an automatically generated AboutUs page for Topolt.com. Click the "Edit" button at the top of the page to make changes. Please read our Getting Started page if you need any help.
Categories:
- AboutUs AutoGen
- topolt
- proflt
- survey
- cadastral plans
- topographical software
- lisp program
- autodesk
- autocad
- zwcad
- cadian
- progecad
- bricscad
- land survey
- autocad civil
- autocad map
- autocad LT
- points
- surface
- 3d model
- contours
- total station
- coordinate files
- dwg drawing
- point codes
- labels
- 3D surface
- raster image
- coordinate system
- volume calculation
- cut and fill volume
- grading
- parcels
- plots
- detachment
- create parcels from objects
- 3d visualization
- 3D model of the terrain and contour lines
- coordinates tables
- georeferencing
- automatic printing
- cadware engineering
- longitudinal profiles
- cross profiles
- cross sections
- model
- point insertion
- automatic generation of longitudinal and cross alignment
- draw table
- create profile by layout
- create profile from surface
- profiles using the point codes
- axis
- exporting the profiles
- micropiste SdrMap file
- aligning the profiles on the page
- online shop
- tutorial
- user manual
- video
- distributor
- partner
- Translt
- transdat
- coordinate sistem
- ellipsoidal elevations
- geocentric cartesian coordinates
- projection plane coordinates
- translations
- datum
- GPS tehnology
- map projections
- transformations and conversion geographic coordinates
- Cartesian geocentric coordinates
- plane coordinates
- ellipsoid
- spheroid
- UTM
- Universal Transversal Mercator
- lambert
- bonne
- American polyconic
- Oblique Stereographic
- Polar Stereographic
- Orthographic
- General polynomial
- The geometrical parameters of the rotational ellipsoid
- Transforming the geographic coordinates (φ
- λ
- h) into geocentric Cartesian coordinates (X
- Y
- Z)
- Transforming the geocentric Cartesian coordinates (X
- Z) into geographic coordinates (φ
- h)
- Conformal 2D Helmert transformation with rotation origin (6 parameters)
- Affine 2D orthogonal transformation (5 parameters)
- Affine 2D non-orthogonal transformation (6 parameters)
- Conformal 3D Helmert transformation the Bursa-Wolf method (7 parameters)
- Conformal 3D Helmert transformation the Molodenski-Badekas method (10 parameters)
- Affine 3D transformation with 7
- 8 or 9 parameters
- Affine 3D transformation with the rotation origin (12 parameters)
- coordinates files conversions
- ETRS89
- Krasovski 1942
- Hayford 1910