Table of Contents
Export of DTM data
Description
With the functions in the tab Export you have the option of converting various DTM objects into other formats exporties.
For the Export of DTM data can be switched between Export as a DXF file, to Excel, as ASCII- or. CSV file, Export according to REB selection, XML, CountryXML and after different GAEB / REB process descriptions to be chosen.
Application
The Export of DTM objects is object-dependent. To do this, select in the window Info (please refer Quick DGM) the tab Export. For example, a triangulation is carried out in an REB data set exported, the assigned point and edge sets are also created in addition to the triangles.
Features
Export as a DXF file
In the Export Optionally, point sets, triangulations, modeling and axes can be transferred as a DXF file in order to, for example, convert them into a Machine control to use.
On the left side of the window are the exportAvailable content that can be selected by checking the box. Specify the file name and path of the file to be created by clicking the […] button.
Activate the option if the polygons of the modeling are to be divided into individual lines Dissolve polygons into single lines.
The Export as a DXF file is only on the top node terrain available in the tree of the Quick-DGM.
Export to Excel
In the Export after Excel, the data is immediately entered in an Excel table and formatted correctly.
Point set
Direct output of the point set, with the point number, the coordinates X, Y, Z and the description being output in columns. Creation of the column headings: point number, X value, Y value, Z value, description.
For example:
| Point number | X | Y | Z | Description |
| 1 | 100.00 | 100.00 | 100.00 | |
| 2 | 103.00 | 90.00 | 99.86 | Tree |
| 3 | 103.00 | 110.00 | 100.13 | |
| 4 | 106.49 | 97.78 | 101.55 | |
| 5 | 110.00 | 83.00 | 99.7 |
triangulation
Direct output of the triangles of the triangulation, whereby the triangle number and the three associated coordinates X, Y and Z are output in columns. Areas are also documented.
Creation of the column headings: Triangle, X value, Y value, Z value, projected area, developed area, mean height.
Example: Prism documentation for triangulation Terrain1.dat
| triangle | X | Y | Z | proj. area | turned away area | average height |
| 1 | 100.00 | 100.00 | 100.00 | |||
| 103.00 | 90.00 | 99.86 | ||||
| 106.49 | 97.78 | 101.55 | 29.12 | 30.30 | 0.96 | |
| 2 | 106.49 | 97.78 | 101.55 | |||
| 103.00 | 110.00 | 100.13 | ||||
| 100.00 | 100.00 | 100.00 | 35.78 | 36.69 | 1.05 |
After calling the function, the triangles can also be labeled with the triangle numbers used. These are important for an overview plan and the verifiability of the documentation.
Grid
Direct output of the grid cells of the surface, whereby the cell number and the three associated coordinates X, Y and Z are output in columns. In addition, the areas are documented. The mean height and volume are not calculated.
Creation of the column headings: grid cell, X value, Y value, Z value, projected area, developed area.
Example: Documentation for grid network Terrain1.dat
| Grid cell | X | Y | Z | proj. area | turned away area | average height | Volume |
| 1 | 100.00 | 79.00 | 99.51 | ||||
| 100.74 | 79.00 | 99.51 | |||||
| 100.00 | 79.74 | 99.51 | |||||
| 100.74 | 79.74 | 99.51 | 0.54 | 0.54 | 0.00 | 0.00 | |
| 2 | 100.74 | 79.00 | 99.51 | ||||
| 101.47 | 79.00 | 99.51 | |||||
| 100.74 | 79.74 | 99.51 | |||||
| 101.47 | 79.74 | 99.51 | 0.54 | 0.54 | 0.00 | 0.00 |
Difference body
For the differential body there are two options for the Export to Excel:
Standard
Direct output of the prisms of the differential body, whereby the prism number and the three associated coordinates X, Y and Z are output in columns. Areas and volumes are also documented.
Creation of the column headings: prism, X value, Y value, Z1 value, Z2 value, projected area, average height, volume (reference Z1 to Z2).
Example: Prism documentation for differential body Terrain1.dat
| Prisma | X | Y | Z1 | Z2 | proj. area | average height | Volume |
| 1 | 116.87 | 99.77 | 100.00 | 103.20 | |||
| 116.87 | 106.04 | 100.00 | 102.16 | ||||
| 112.52 | 106.02 | 102.01 | 102.01 | 13.65 | -1.78 | -24.36 | |
| 2 | 112.52 | 106.02 | 102.01 | 102.01 | |||
| 116.51 | 99.01 | 103.31 | 103.31 | ||||
| 116.87 | 99.77 | 100.00 | 103.20 | 2.80 | -1.07 | -2.99 |
After calling the function, the prisms can also be labeled with the prism numbers used. These are important for an overview plan and the verifiability of the documentation.
similar to REB 22.013
Direct output of the points, the prisms of the reference surface, the prisms of the target surface and the result. The point list with the point number, the associated coordinates X, Y, Z1 and Z2 and the prism lists with the prism number, the three associated point numbers and the average height are output in columns. Areas and volumes are also documented.
Creation of the column headings:
Point list: point, X value, Y value, Z1 value, Z2 value
Prism lists: prism, point 1, point 2, point 3, mean. Height, proj. Area, surface, volume
Example: Documentation for differential body volume 1 / tria 1
| Punkt | X | Y | Z1 | Z2 |
| 1 | 116.87 | 99.77 | 100.00 | 101.00 |
| 2 | 116.87 | 106.04 | 100.00 | 101.00 |
| 3 | 112.52 | 106.02 | 102.01 | 101.00 |
| 4 | 112.52 | 106.02 | 102.01 | 101.00 |
| 5 | 116.51 | 99.01 | 103.31 | 101.00 |
| 6 | 116.87 | 99.77 | 100.00 | 101.00 |
Z1 corresponds to the height on triangulation Tria 1 (unmodeled)
Z2 corresponds to the height on horizon 101
| Prisma | Point 1 | Point 2 | Point 3 | average height | proj. area | Surface | Volume |
| 1 | 1 | 2 | 3 | 101.37 | 22.60 | 23.08 | 42.12 |
| 2 | 1 | 4 | 3 | 101.11 | 7.63 | 7.79 | 12.21 |
| 3 | 5 | 4 | 3 | 100.54 | 32.14 | 32.81 | 33.00 |
| 4 | 6 | 7 | 8 | 99.70 | 11.72 | 12.07 | 2.19 |
| 5 | 9 | 10 | 11 | 100.38 | 23.08 | 23.67 | 20.01 |
| 6 | 9 | 12 | 11 | 100.71 | 7.78 | 7.98 | 9.33 |
| Prisma | Point 1 | Point 2 | Point 3 | average height | proj. area | Surface | Volume |
| 1 | 1 | 2 | 3 | 101.00 | 22.60 | 22.60 | 33.68 |
| 2 | 1 | 4 | 3 | 101.00 | 7.63 | 7.63 | 11.37 |
| 3 | 5 | 4 | 3 | 101.00 | 32.14 | 32.14 | 47.89 |
| 4 | 6 | 7 | 8 | 101.00 | 11.72 | 11.72 | 17.46 |
| 5 | 9 | 10 | 11 | 101.00 | 23.08 | 23.08 | 34.39 |
| 6 | 9 | 12 | 11 | 101.00 | 7.78 | 7.78 | 11.59 |
| Footprint | Surface | Volume | ||
| Reference surface | 1986.00 | 2022.59 | 2743.23 | Triangulation Tria 1 (unmodeled) |
| Target surface | 1986.00 | 1986.00 | 2959.14 | Horizont 101 |
| difference | 0.00 | -36.59 | 215.91 |
After calling the function, the prisms can also be labeled with the prism numbers used. These are important for an overview plan and the verifiability of the documentation.
Export as an ASCII file
In the Export as a ASCII-File, a file format is generated that can be opened and viewed with any editor.
Enter the file name of the file to be created by clicking the button [...] . click
You can optionally post the data X Y Z or after YXZ sorted exportiere. Additionally, you can Point number and the Description with exporties.
Point set
Direct output of the point set, whereby the X coordinate, Y coordinate, Z coordinate and the description are listed for each line.
For example:
| 100.0000000000 | 100.0000000000 | 100.0000000000 |
| 103.0000000000 | 90.0000000000 | 99.8600000000 |
| 103.0000000000 | 110.0000000000 | 100.1300000000 |
| 106.4900000000 | 97.7800000000 | 101.5500000000 |
| 110.0000000000 | 83.0000000000 | 99.700000000 |
triangulation
Direct output of all coordinate points of the triangles, whereby the X-coordinate, Y-coordinate and Z-coordinate are listed per line.
For example:
| 100.0000000000 | 100.0000000000 | 100.0000000000 |
| 103.0000000000 | 90.0000000000 | 99.8600000000 |
| 103.0000000000 | 110.0000000000 | 100.1300000000 |
| 106.4900000000 | 97.7800000000 | 101.5500000000 |
| 110.0000000000 | 83.0000000000 | 99.700000000 |
Grid
Direct output of all coordinate points of the grid, with the X-coordinate, Y-coordinate and Z-coordinate listed per line.
For example:
| 100.0000000000 | 79.0000000000 | 99.5100000000 |
| 100.7373737374 | 79.0000000000 | 99.5100000000 |
| 101.4747474747 | 79.0000000000 | 99.5100000000 |
| 102.2121212121 | 79.0000000000 | 99.5100000000 |
Export as a CSV file
In the Export As a CSV file, identical content is generated as with the Export to Excel. The columns are separated by a comma or semicolon and can therefore be opened by all common table editing programs.
Enter the file name of the file to be created by clicking the button [...] . click
Point set
Direct output of the point set, with the point number, the three associated coordinates X, Y and Z and the description being output in columns. Creation of the column headings: point number, X value, Y value, Z value, description.
Example: Documentation for point set Terrain1.dat
| Point ID; X; Y; Z; Description |
| 1; 100.00; 100.00; 100.00 |
| 2; 103.00; 90.00; 99.86; tree |
| 3; 103.00; 110.00; 100.13 |
triangulation
Direct output of the triangles of the triangulation, whereby the triangle number and the three associated coordinates X, Y and Z are output in columns. Areas are also documented.
Creation of the column headings: Triangle, X value, Y value, Z value, projected area, developed area, mean height.
Example: Prism documentation for triangulation Terrain1.dat
| Triangle, X, Y, Z, proj. Area, angled Area, mean height |
| 1,100.000,100.000,100.000 |
| ,103.000,90.000,99.860 |
| ,106.490,97.780,101.550,29.120,30.302,0.960,27.955 |
| 2,106.490,97.780,101.550 |
| ,103.000,110.000,100.130 |
| ,100.000,100.000,100.000,35.780,36.690,1.050,37.569 |
| 3,103.000,110.000,100.130 |
| ,106.490,97.780,101.550 |
| ,112.520,106.020,102.010,51.222,52.066,1.720,88.102 |
After calling the function, the triangles can also be labeled with the triangle numbers used. These are important for an overview plan and the verifiability of the documentation.
Grid
Direct output of the grid cells of the surface, whereby the cell number and the three associated coordinates X, Y and Z are output in columns. In addition, the areas are documented. The mean height and volume are not calculated.
Creation of the column headings: grid cell, X value, Y value, Z value, projected area, developed area.
Example: Documentation for grid network Terrain1.dat
| Cell, X, Y, Z, proj. Area, developed area, avg. Height, volume |
| 1,100.000,79.000,99.510 |
| ,100.737,79.000,99.510 |
| ,100.000,79.737,99.510 |
| ,100.737,79.737,99.510,0.544,0.544,0.000,0.000 |
| 2,100.737,79.000,99.510 |
| ,101.475,79.000,99.510 |
| ,100.737,79.737,99.510 |
| ,101.475,79.737,99.510,0.544,0.544,0.000,0.000 |
| 3,101.475,79.000,99.510 |
| ,102.212,79.000,99.510 |
| ,101.475,79.737,99.510 |
| ,102.212,79.737,99.510,0.544,0.544,0.000,0.000 |
Difference body
Direct output of the prisms of the differential body, whereby the prism number and the three associated coordinates X, Y and Z are output in columns. Areas and volumes are also documented.
Creation of the column headings: prism, X value, Y value, Z1 value, Z2 value, projected area, average height, volume (reference Z1 to Z2).
Example: Prism documentation for differential body Terrain1.dat
| Prism, X, Y, Z1, Z2, proj. Area, mean Height, volume |
| 1,116.874,99.775,100.000,103.196 |
| ,116.874,106.043,100.000,102.159 |
| , 112.520,106.020,102.010,102.010,13.646, -1.785, -24.357 |
| 2,112.520,106.020,102.010,102.010 |
| ,116.510,99.010,103.310,103.310 |
| , 116.874,99.775,100.000,103.196,2.802, -1.065, -2.985 |
| 3,116.510,99.010,103.310,103.310 |
| ,115.290,91.310,101.790,101.790 |
| , 116.874,92.338,100.000,101.904,5.472, -0.635, -3.473 |
After calling the function, the prisms can also be labeled with the prism numbers used. These are important for an overview plan and the verifiability of the documentation.
Export as an XML file
For triangulations only
Direct output of the triangles of the triangulation, whereby the points and the three associated coordinates X, Y and Z are output first. This is followed by the output of the triangles with the associated point numbers.
Enter the file name of the file to be created by clicking the […] button.
If the triangulation also contains edges, then these are also included exportated.
Example: XML file for Triangulation Terrain1.dat
Export as a LandXML file
For triangulations only
Direct output of the triangles of the triangulation, whereby the points and the three associated coordinates X, Y and Z are output first. This is followed by the output of the triangles with the associated point numbers.
Enter the file name of the file to be created by clicking the […] button.
If the triangulation also contains edges, then these are included exportated.
Example: LandXML file for Triangulation Terrain1.dat
axles exportthe ierr
With this function you can axles in LandXML format exportiere. These are sometimes required as additional information for the machine control.
2D or 3D polylines can be recorded as axes by dragging and dropping them onto the node axles pull.
| 3D axis | Is written as an "alignment" in the LandXML file. The "alignment" consists of a 2D line (CoordGeom) and the associated height information (profiles). |
| 2D axis | Is written as an "alignment" in the LandXML file. The "Alignment" only consists of a 2D line (CoordGeom). |
| 3D polyline | Is written as a "PlanFeature" in the LandXML file. The "PlanFeature" consists of a 3D line (CoordGeom). |
| 2D polyline | Is written as a "PlanFeature" in the LandXML file. The "PlanFeature" consists of a 2D line (CoordGeom). |
Export of REB selection
With this function, DTM data such as Point sentences and triangulations as REB file exportbe ated.
If a triangulation consists of several sets of points or edges, then these are used in Export combined to form a set of points or edges.
The data types can either be created as individual files (data types) or in a file as a REB data record. This REB data record can then contain several types of data.
Enter the file name of the file to be created by clicking the button [...] . click
A DA49 or DA58 cannot be created without the associated DA45.
Is the option DATAflor Export activated, the Export multiple sets of points or edges created if the exportized triangulation contains several sets of points or edges.
With the option Create control objects AutoCAD points (DA45), 3D polylines (DA49) and 3D surfaces (DA58) are created which can be used to check the created DTM data. The data is created on separate layers.
Export according to GAEB / REB procedure description
With this function, DTM data such as Point sentences, Triangulations, Modeling, Difference body and Profile groups according to various process descriptions exportbe ated.
If a triangulation consists of several sets of points or edges, then these are used in Export combined to form a set of points or edges.
The data types can either be available as individual files (data types) or in a file as a VB data record. This VB data record can then contain several types of data.
Enter the file name of the file to be created by clicking the button [...] . click
With the option Create control data AutoCAD points, 3D polylines and 3D surfaces are created that can be used to review the created DTM data. The data is created on separate layers.
More information about the used GAEB / REB process descriptions you can use the button [Process descriptions] . call
According to the REB process description, the current Line numbers the triangular mesh only 4 digits to disposal. As a result, if there are more than 9999 triangles, the REB conforms Export is only carried out incompletely.
You can have one not REB compliant Export carry out. In this case one more digit is used, making up to 99999 triangles exportcan be ed.
According to the REB process description 21.013 make only 3 decimal places permissible. Because of this, inaccurate values can arise compared to the CAD quantity.