Shuttle Radar Topography Mission: Difference between revisions

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== Coverage ==
== Coverage ==
[[File:SRTMCoverage.png|right|300px|thumb|Near-global coverage of the SRTM dataset]]About 80% of the total landmass of the Earth is mapped by the STRM data, covering all land between 56 degrees south and 60 degrees northern latitude. A view of the data coverage is shown in the figure below.
[[File:SRTMCoverage.png|right|300px|thumb|Near-global coverage of the SRTM dataset]]About 80% of the total landmass of the Earth is mapped by the STRM data, covering all land between 56 degrees south and 60 degrees northern latitude. A view of the data coverage is shown in the figure below.
 
The coverage is the same in both the 1 arc-second (30 m) and the 3 arc-second (90 m) data as currently distributed from the version windPRO 3.0.


== Versions and Data Sources ==
== Versions and Data Sources ==

Revision as of 13:14, 22 September 2015

Introduction

NASA image of Endeavour taking off on its STS-99 mission

The Shuttle Radar Topography Mission (SRTM) data originate from an 11-day mission flown by the space shuttle Endeavour back in February 2000, on its STS-99 mission. The raw data were collected using an instrument named “Spaceborne Imaging Radar-C”. The raw data were later processed and released as usable digital grid files.

Availability from within WindPRO

Satellite Image with DEM Overlay. The image shows a part of the Ometepe Island in Lake Nicaragua with SRTM height contour data.

The data are available directly from within WindPRO. The data can be accessed from the online-services in the following objects:

  • Line Object (with purpose to height contour lines)
  • Elevation Grid Object

In addition to loading the data directly from the EMD online services, WindPRO also supports importing the original *.hgt files that can also be downloaded from other internet sources.

Data Type

The SRTM data are delivered as gridded data with a spatial resolution of the dataset corresponding to 1 arc second and 3 arc seconds, i.e. approximately 30 m and 90 m distance between grid points. As a part of the processing of the SRTM data from our EMD server, the user has an option of choosing whether the data downloaded should be received as either raw gridded data or converted to height contour lines. In order to use the data for energy yield calculations, the data must be converted to contours.

The original SRTM data are stored as tiles sized 1 degree x 1 degree.

Coverage

Near-global coverage of the SRTM dataset

About 80% of the total landmass of the Earth is mapped by the STRM data, covering all land between 56 degrees south and 60 degrees northern latitude. A view of the data coverage is shown in the figure below.

The coverage is the same in both the 1 arc-second (30 m) and the 3 arc-second (90 m) data as currently distributed from the version windPRO 3.0.

Versions and Data Sources

SRTM 1 arc-second (colored lines) and 3 arc-second data (black line) for a site in Egypt.

Different versions of the SRTM data exist; at EMD we currently distribute the STRM data version 3.

The difference between various versions is primarily that more error checking and validation is applied at later versions.

In 2014-2015, a 1 arc-second resolution dataset (30 m grid resolution) were made available in the near-global coverage (same coverage as the 3 arc-second dataset). This dataset is now also available in windPRO - in addition to the original dataset in a 3 arc-second resolution (90 m grid resolution). Our experience with the 1 arc-second dataset is still limited, but our intitial analysis' indicate that it does have a higher noise-to-information ratio as compared to the original 3-arc-second dataset.

The 1 arc-second and 3 arc-second dataset is available in windPRO 3.0 and later.

External Links

SRTM data in Northern Ireland: Left: As Height Contours, Right: As Gridded Data.

Acknowledgement

NASA, team around STS-99 and the US public are thanked for making this great digital elevation dataset available in the public domain and thus for aiding the development of renewable energy.