Reprojecting images from a Geostationary projectionΒΆ
This example demonstrates Cartopy’s ability to project images into the desired projection on-the-fly. The image itself is retrieved from a URL and is loaded directly into memory without storing it intermediately into a file. It represents pre-processed data from the Spinning Enhanced Visible and Infrared Imager onboard Meteosat Second Generation, which has been put into an image in the data’s native Geostationary coordinate system - it is then projected by cartopy into a global Miller map.
"""
Reprojecting images from a Geostationary projection
---------------------------------------------------
This example demonstrates Cartopy's ability to project images into the desired
projection on-the-fly. The image itself is retrieved from a URL and is loaded
directly into memory without storing it intermediately into a file. It
represents pre-processed data from the Spinning Enhanced Visible and Infrared
Imager onboard Meteosat Second Generation, which has been put into an image in
the data's native Geostationary coordinate system - it is then projected by
cartopy into a global Miller map.
"""
try:
from urllib2 import urlopen
except ImportError:
from urllib.request import urlopen
from io import BytesIO
import cartopy.crs as ccrs
import matplotlib.pyplot as plt
def geos_image():
"""
Return a specific SEVIRI image by retrieving it from a github gist URL.
Returns
-------
img : numpy array
The pixels of the image in a numpy array.
img_proj : cartopy CRS
The rectangular coordinate system of the image.
img_extent : tuple of floats
The extent of the image ``(x0, y0, x1, y1)`` referenced in
the ``img_proj`` coordinate system.
origin : str
The origin of the image to be passed through to matplotlib's imshow.
"""
url = ('https://gist.github.com/pelson/5871263/raw/'
'EIDA50_201211061300_clip2.png')
img_handle = BytesIO(urlopen(url).read())
img = plt.imread(img_handle)
img_proj = ccrs.Geostationary(satellite_height=35786000)
img_extent = (-5500000, 5500000, -5500000, 5500000)
return img, img_proj, img_extent, 'upper'
def main():
ax = plt.axes(projection=ccrs.Miller())
ax.coastlines()
ax.set_global()
img, crs, extent, origin = geos_image()
plt.imshow(img, transform=crs, extent=extent, origin=origin, cmap='gray')
plt.show()
if __name__ == '__main__':
main()