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Learning Geospatial Analysis with Python

You're reading from   Learning Geospatial Analysis with Python Understand GIS fundamentals and perform remote sensing data analysis using Python 3.7

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Product type Paperback
Published in Sep 2019
Publisher
ISBN-13 9781789959277
Length 456 pages
Edition 3rd Edition
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Author (1):
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Joel Lawhead Joel Lawhead
Author Profile Icon Joel Lawhead
Joel Lawhead
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Table of Contents (15) Chapters Close

Preface 1. Section 1: The History and the Present of the Industry FREE CHAPTER
2. Learning about Geospatial Analysis with Python 3. Learning Geospatial Data 4. The Geospatial Technology Landscape 5. Section 2: Geospatial Analysis Concepts
6. Geospatial Python Toolbox 7. Python and Geographic Information Systems 8. Python and Remote Sensing 9. Python and Elevation Data 10. Section 3: Practical Geospatial Processing Techniques
11. Advanced Geospatial Python Modeling 12. Real-Time Data 13. Putting It All Together 14. Other Books You May Enjoy

Calculating line direction

In addition to distance, you will often want to know the bearing of a line between its endpoints. We can calculate this line direction from one of the points using only the Python math module:

  1. First, we import the math functions we'll need:
from math import atan2, cos, sin, degrees
  1. Next, we set up some variables for our two points:
lon1 = -90.21
lat1 = 32.31
lon2 = -88.95
lat2 = 30.43
  1. Next, we'll calculate the angle between the two points:
angle = atan2(cos(lat1)*sin(lat2)-sin(lat1) * \
cos(lat2)*cos(lon2-lon1), sin(lon2-lon1)*cos(lat2))
  1. Finally, we'll calculate the bearing of the line in degrees:
bearing = (degrees(angle) + 360) % 360
print(bearing)
309.3672990606595

Sometimes, you end up with a negative bearing value. To avoid this issue, we add 360 to the result to avoid a negative number and use the Python modulo operator to keep...

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