Elevation model: Difference between revisions

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==How-to's==
==How-to's==
* [[How to change how the default elevation model is generated]]
* [[How to change how the default elevation model is generated]]
* [[How to import a GeoJSON to change the elevation model]]
* [[How to import a GeoTIFF to change the elevation model]]
* [[How to import a GeoTIFF to change the elevation model]]
* [[How to import a GeoJSON to change the elevation model]]
* [[How to import a GeoJSON of waterways]]
* [[How to import a GeoJSON of waterways]]
* [[How to import a GeoTIFF of waterway depths]]
* [[How to use the terrain height brush in selection mode]]
* [[How to use the terrain height brush in selection mode]]
* [[How to use the terrain height brush in live sculpting mode]]
* [[How to use the terrain height brush in live sculpting mode]]

Revision as of 12:09, 26 June 2020

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What is an elevation model

An elevation model (or DEM, Digital Elevation Model), also known as a Digital Surface Model (DSM) or Digital Terrain Model (DTM) as appropriate, is a model representation of terrain heights; the quantitative measurement of vertical elevation change in a landscape. On a small scale, differences in terrain height can affect shade and water distribution. On a larger scale, terrain height has an effect on weather and climate patterns.

How is the elevation model implemented in the Tygron Platform

In the Tygron Platform, the elevation model (also referred to as DEM) offers terrein heights representation as both a DTM and as a DSM. Specifically, it is a 2-dimensional grid with values indicating the terrain height in meters relative to datum. Terrain in this context meaning the soil and everything below it. Features such as Constructions are explicitly not a part of the DTM, but are a part of the DSM. In locations with water, the elevation model follows the bottom of the water body for both the DTM and the DSM.

The 3D World visualizes the elevation model inherently as the bottom plane upon which all other features, such as Constructions, are placed. Changes in terrain height are similarly changes in the height of that plane.

The elevation model consists of a single dataset, which is generated when a Project is first created. Any changes to the elevation model are applied directly to that dataset, including manually drawn changes as well as imported changes.

Heightmap Overlay

Main article: Heightmap Overlay

More insight into the elevation model can be provided by adding the Heightmap Overlay, which is a Grid Overlay showing the (average) height of the terrain per grid cell.

Elevation model generation

The advanced options allow you to select data sources and resolutions for the elevation mode.

In the Netherlands, the following data sources are used to construct the elevation model:

Name Type Detail Description Source
ESRI DTM DTM 3m by 3m Dataset supplied by Rijkswaterstaat to ESRI, based on AHN2. https://www.arcgis.com/home/item.html?id=58a541efc59545e6b7137f961d7de883
AHN DSM DSM 0.5m by 0.5m, 1m by 1m, or 2.5m by 2.5m, depending on selected options. Raw data from Actuele Hoogte Bestand https://www.arcgis.com/home/item.html?id=55df27e20c0d42e3a8bd48bc74c5c8cc (AHN2) or https://www.arcgis.com/home/item.html?id=b87c68ea246c4b17807cdad486279a47 (AHN3)
AHN DTM DTM 0.5m by 0.5m, 1m by 1m, or 2.5m by 2.5m, depending on selected options. Interpolated (surface level) data based on Actuele Hoogte Bestand https://www.arcgis.com/home/item.html?id=fc00e93ca66546399d5b7827f61af1db (AHN2) or https://www.arcgis.com/home/item.html?id=9d62ff8889ba41b2b712a68c7493bd16 (AHN3)
Features Presence of features of the built environment https://www.pdok.nl/introductie/-/article/basisregistratie-grootschalige-topografie-bgt- (BGT) or https://www.pdok.nl/introductie/-/article/basisregistratie-topografie-brt-historie (Top10NL)

By default the AHN3 and BGT are used. If a datasource is deactivated, the alternative is used.

DTM (Terrain height)

The DTM is determined as follows:

  • The ESRI DTM is resampled to the same resolution as the AHN DTM and AHN DSM.
  • The AHN DTM serves as the base data for the resulting elevation model DTM.
  • In locations where the AHN DTM has NO_DATA values (such as waterbodies), the ESRI DTM is used.
  • Optionally, if the option for applying thresholds is selected, the AHN DSM heights are used instead of the so far determined DTM heights, if the difference between the two does not exceed a certain threshold. The following features can have the DSM heights applied instead:
    • Bare land
    • Roads
    • Crop fields/agriculture

DSM (Construction height)

For Constructions, the average height of the AHN DSM is determined for the Construction's footprint polygon from the features data source. That average height of the AHN DSM is then determined to be the height of the Construction.

Using image recognition techniques, the footprint polygon of the Constructions may be split up into multiple Construction sections, each with their own polygon. The AHN DSM's average height is then determined per individual section, so that the variability in the rooftops of the Construction can be taken into account.

The resulting Construction heights are not made part of DTM. Instead, they are stored as properties of the Constructions in the Project.

Water

In locations with water features, the water's depth is "carved" into the DTM as determined up to this point. The following parameters are used to do so:

Starting from the edges of the polygon of the water feature, a downward slope is created at the determined angle of repose. The downward slope continues until either it meets the slope generated from the other end, or it reaches the determined default depth relative to the DTM. This means that thin waterrways will not be as deep as their default water depth allows them to be, and that large water bodies are likely to have flat water bottoms.

The resulting terrain height changes are made part of the DTM.

Elevation model generation (outside the Netherlands)

This section is a stub.

How-to's

See also