tecznotes

Michal Migurski's notebook, listening post, and soapbox. Subscribe to this blog. Check out the rest of my site as well.

Dec 14, 2016 6:16am

landsat satellite imagery is easy to use

Helping Bobbie Johnson with the Medium Ghost Boat series about a boat of migrants that’s been missing since 2014, I had need of satellite imagery for context to illustrate a dataset of boat sightings in the Mediterranean Sea off the coast of Libya.

(near Zurawah, Libya)

Fortunately, Landsat 8 public domain U.S. government imagery exists and is easy to consume and use if you’re familiar with the GDAL collection of raster data tools. Last year, Development Seed worked with Astro Digital to create Libra, a simple browser of Landsat imagery over time and space:

At libra.developmentseed.org, you can browse images spatially and sort by cloud cover to pick the best recent Landsat products by clicking a circle and using the dated images in the right side of your browser window. Imagery is not provided as simple JPEG files, and is instead divided into spectral bands described at landsat.usgs.gov. Four of them can be used to generate output that looks like what a person might see looking down on the earth: Blue (2), Green (3), Red (4), and Panchromatic (8). Download and extract these four bands using curl and tar; a bundle of bands will be approximately 760MB:

curl -O https://storage.googleapis.com/earthengine-public/landsat/L8/038/032/LC80380322016233LGN00.tar.bz
tar -xjvf LC80380322016233LGN00.tar.bz LC80380322016233LGN00_B{2,3,4,8}.TIF

Combining these bands is possible with a processing script I’ve adapted from Andy Mason, which corrects each band before merging and pansharpening them into a single RGB output like this:

So that’s a good start, but it’s only a corner of Utah’s Great Salt Lake when you might want an image of the whole lake. Each file has large, useless areas of black around the central square. Download four images overlapping the lake and extract the four bands from each:

Use gdalwarp to convert each of the separate band raster files into a single geographic projection, in this case the common web spherical mercator:

gdalwarp -t_srs EPSG:900913 LC80380322016233LGN00_B2.TIF LC80380322016233LGN00_B2-merc.TIF
gdalwarp -t_srs EPSG:900913 LC80390312016240LGN00_B2.TIF LC80390312016240LGN00_B2-merc.TIF
# repeat for 14 more bands

Then, use gdal_merge to combine them into individual band mosaics that cover the whole area:

gdal_merge.py -o mosaic_B2.TIF -n 0 LC*_B2-merc.TIF
gdal_merge.py -o mosaic_B3.TIF -n 0 LC*_B3-merc.TIF
gdal_merge.py -o mosaic_B4.TIF -n 0 LC*_B4-merc.TIF
gdal_merge.py -o mosaic_B8.TIF -n 0 LC*_B8-merc.TIF

Now, Andy’s processing script can combine a larger area and color-correct all four images together:

Comments (2)

  1. Great article, thanks for all the details explained, thanks!

    Posted by WritingsGuru on Tuesday, January 17 2017 12:41pm UTC

  2. Great article, thanks for all the details explained, thanks! https://writingsguru.com/

    Posted by WritingsGuru on Tuesday, January 17 2017 12:41pm UTC

Sorry, no new comments on old posts.

December 2024
Su M Tu W Th F Sa
    

Recent Entries

  1. Mapping Remote Roads with OpenStreetMap, RapiD, and QGIS
  2. How It’s Made: A PlanScore Predictive Model for Partisan Elections
  3. Micromobility Data Policies: A Survey of City Needs
  4. Open Precinct Data
  5. Scoring Pennsylvania
  6. Coming To A Street Near You: Help Remix Create a New Tool for Street Designers
  7. planscore: a project to score gerrymandered district plans
  8. blog all dog-eared pages: human transit
  9. the levity of serverlessness
  10. three open data projects: openstreetmap, openaddresses, and who’s on first
  11. building up redistricting data for North Carolina
  12. district plans by the hundredweight
  13. baby steps towards measuring the efficiency gap
  14. things I’ve recently learned about legislative redistricting
  15. oh no
  16. landsat satellite imagery is easy to use
  17. openstreetmap: robots, crisis, and craft mappers
  18. quoted in the news
  19. dockering address data
  20. blog all dog-eared pages: the best and the brightest

Archives