Aster Global Digital Elevation Model: Difference between revisions

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[[Category:Online Data]][[Category: Digital Elevation Models]]
[[Category:Online Data]][[Category: Digital Elevation Models]]
[[File:AsterMountEtna.jpg|right|thumb|NASA / Aster image draped over terrain model of Mount Etna]]The Aster (Advanced Spaceborne Thermal Emission and Reflection Radiometer) Global Digital Elevation Model - or short just Aster GDEM - is a joint US and Japanese effort. It is based on data from sensors on board on the NASA Terra satellite launched in 1999. The first release of the Aster GDEM dataset was in June 2009.  
[[File:AsterMountEtna.jpg|right|thumb|NASA / Aster image draped over terrain model of Mount Etna]]The Aster (Advanced Spaceborne Thermal Emission and Reflection Radiometer) Global Digital Elevation Model - or Aster GDEM for short - is a joint US and Japanese effort. It is based on data from sensors on board on the NASA Terra satellite launched in 1999. The first release of the Aster GDEM dataset was in June 2009.  


== Data Coverage ==
== Data Coverage ==
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== Availability in WindPRO ==
== Availability in WindPRO ==
Currently, the dataset is not included with WindPRO, primarily because the data license does not allow redistribution of the raw data.
Currently, the dataset is not included with WindPRO, primarily because the data license does not allow redistribution of the raw data.
However, you may choose to manually download the source DEM’s yourself and then import it into WindPRO.
However, you may choose to manually download the source DEMs yourself and then import them into WindPRO.


== Data Evaluations ==
== Data Evaluations ==
Unfortunately the dataset is not of a very good quality. Possibly, this seems to be not a data-processing problem but rather an inherent problem with the method. If this is the case, then we might not expect a ‘better’ release of the dataset. Typically the data is polluted with many artifacts, artificial spikes, rendering the highly questionable for wind energy purposes. A spike typically rises about 50-100 m from the general terrain.
Unfortunately the dataset is not of a very good quality. Possibly, this seems to be an inherent problem with the data collection method rather than a data-processing problem. If this is the case, then we might not expect a ‘better’ release of the dataset. Typically the data is polluted with many artifacts and artificial spikes, rendering them highly questionable for wind energy purposes. A spike typically rises about 50-100 m from the general terrain.


As seen from the pictures here - where Aster GDEM and SRTM 90 m data are compared - then the Aster GDEM data is much more 'noisy', even if the ASTER data is made by a 30 m grid as opposed to the SRTM 90 m grid. Below you can see two DEM’s from a Danish site near Skive (about 75 km west from Aalborg). Contours are generated from the original raw grid files using WindPRO and a 5 m equidistance.
As seen from the pictures here - where Aster GDEM and SRTM 90 m data are compared - then the Aster GDEM data is much more 'noisy', even if the ASTER data is made by a 30 m grid as opposed to the SRTM's 90 m grid. Below you can see two DEMs from a Danish site near Skive (about 75 km west from Aalborg). Contours are generated from the original raw grid files using WindPRO with a 5 m equidistance.


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Latest revision as of 12:10, 6 June 2013

NASA / Aster image draped over terrain model of Mount Etna

The Aster (Advanced Spaceborne Thermal Emission and Reflection Radiometer) Global Digital Elevation Model - or Aster GDEM for short - is a joint US and Japanese effort. It is based on data from sensors on board on the NASA Terra satellite launched in 1999. The first release of the Aster GDEM dataset was in June 2009.

Data Coverage

The Aster GDEM dataset has a 30 m resolution with a 99% global coverage. However, the current version of the dataset is marked as ‘research grade’, and is reported to contain serious artifacts and spikes.

Availability in WindPRO

Currently, the dataset is not included with WindPRO, primarily because the data license does not allow redistribution of the raw data. However, you may choose to manually download the source DEMs yourself and then import them into WindPRO.

Data Evaluations

Unfortunately the dataset is not of a very good quality. Possibly, this seems to be an inherent problem with the data collection method rather than a data-processing problem. If this is the case, then we might not expect a ‘better’ release of the dataset. Typically the data is polluted with many artifacts and artificial spikes, rendering them highly questionable for wind energy purposes. A spike typically rises about 50-100 m from the general terrain.

As seen from the pictures here - where Aster GDEM and SRTM 90 m data are compared - then the Aster GDEM data is much more 'noisy', even if the ASTER data is made by a 30 m grid as opposed to the SRTM's 90 m grid. Below you can see two DEMs from a Danish site near Skive (about 75 km west from Aalborg). Contours are generated from the original raw grid files using WindPRO with a 5 m equidistance.

DHM's at Skive, Denmark. Left: Aster GDEM. Right: SRTM data (click the pictures to enlarge).

Other authors have reported simmilar issues.

Jonathan de Ferranti of http://www.viewfinderpanoramas.org has published a study on ASTER GDEM data it is available here http://www.viewfinderpanoramas.org/reviews.html#aster

Download of ASTER GDEM data

You may download the data from the Aster GDEM site at:

External Links