How to use the earthpy.spatial.hillshade function in earthpy

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github earthlab / earthpy / examples / plot_dem_hillshade.py View on Github external
cbar=False,
    title="Hillshade with Azimuth set to 210 Degrees",
    figsize=(10, 6),
)
plt.show()

####################################################################################
# Change the Angle Altitude of the Sun
# -------------------------------------
# Another variable you can adjust for hillshade is what angle of the sun.
# The ``angle_altitude`` parameter values range from 0 to 90. 90 represents the sun
# shining from directly above the scene. The default value for ``angle_altitude`` in
# ``es.hillshade()`` is 30 degrees.

# Adjust the azimuth value
hillshade_angle_10 = es.hillshade(elevation, altitude=10)

# Plot the hillshade layer with the modified angle altitude
ep.plot_bands(
    hillshade_angle_10,
    scale=False,
    cbar=False,
    title="Hillshade with Angle Altitude set to 10 Degrees",
    figsize=(10, 6),
)
plt.show()

####################################################################################
# Overlay a DEM on top of the Hillshade
# -------------------------------------
# A hillshade can be used to visually enhance a DEM.
# To overlay the data, use the ``ep.plot_bands()`` function in EarthPy combined with
github earthlab / earthpy / examples / plot_dem_hillshade.py View on Github external
ep.plot_bands(
    elevation,
    scale=False,
    cmap="gist_earth",
    title="DTM Without Hillshade",
    figsize=(10, 6),
)
plt.show()

####################################################################################
# Create the Hillshade
# --------------------
# Once the DEM is read in, call ``es.hillshade()`` to create the hillshade.

# Create and plot the hillshade with earthpy
hillshade = es.hillshade(elevation)

ep.plot_bands(
    hillshade,
    scale=False,
    cbar=False,
    title="Hillshade made from DTM",
    figsize=(10, 6),
)
plt.show()

####################################################################################
# Change the Azimuth of the Sun
# -------------------------------
# The angle that sun light hits the landscape, impacts the shadows and highlights
# created on the landscape. You can adjust the azimuth values to adjust angle of the
# highlights and shadows that are created in your output hillshade. Azimuth numbers can
github earthlab / earthpy / examples / plot_dem_hillshade.py View on Github external
title="Hillshade made from DTM",
    figsize=(10, 6),
)
plt.show()

####################################################################################
# Change the Azimuth of the Sun
# -------------------------------
# The angle that sun light hits the landscape, impacts the shadows and highlights
# created on the landscape. You can adjust the azimuth values to adjust angle of the
# highlights and shadows that are created in your output hillshade. Azimuth numbers can
# range from 0 to 360 degrees, where 0 is due North. The default value for azimuth
# in ``es.hillshade()`` is 30 degrees.

# Change the azimuth of the hillshade layer
hillshade_azimuth_210 = es.hillshade(elevation, azimuth=210)

# Plot the hillshade layer with the modified azimuth
ep.plot_bands(
    hillshade_azimuth_210,
    scale=False,
    cbar=False,
    title="Hillshade with Azimuth set to 210 Degrees",
    figsize=(10, 6),
)
plt.show()

####################################################################################
# Change the Angle Altitude of the Sun
# -------------------------------------
# Another variable you can adjust for hillshade is what angle of the sun.
# The ``angle_altitude`` parameter values range from 0 to 90. 90 represents the sun

earthpy

A set of helper functions to make working with spatial data in open source tools easier. This package is maintained by Earth Lab and was originally designed to support the earth analytics education program.

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Latest version published 3 years ago

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