🛰️ Process raster data in python
Project description
georeader
georeader is a package to process raster data from different satellite missions. georeader makes easy to read specific areas of your image, to reproject images from different satellites to a common grid (georeader.read
), to go from vector to raster formats (georeader.vectorize
and georeader.rasterize
) or to do radiance to reflectance conversions (georeader.reflectance
).
georeader is mainly used to process satellite data for scientific usage, to create ML-ready datasets and to implement end-to-end operational inference pipelines (e.g. the Kherson Dam Break floodmap).
Install
The core package dependencies are numpy
, rasterio
, shapely
and geopandas
.
pip install georeader-spaceml
Getting started
Read from a Sentinel-2 image a fixed size subimage on an specific
lon,lat
location (directly from the S2 public Google Cloud bucket):
# This snippet requires:
# pip install fsspec gcsfs google-cloud-storage
import os
os.environ["GS_NO_SIGN_REQUEST"] = "YES"
from georeader.readers import S2_SAFE_reader
from georeader import read
cords_read = (-104.394, 32.026) # long, lat
crs_cords = "EPSG:4326"
s2_safe_path = S2_SAFE_reader.s2_public_bucket_path("S2B_MSIL1C_20191008T173219_N0208_R055_T13SER_20191008T204555.SAFE")
s2obj = S2_SAFE_reader.s2loader(s2_safe_path,
out_res=10, bands=["B04","B03","B02"])
# copy to local avoids http errors specially when not using a Google Cloud project.
# This will only copy the bands set up above B04, B03 and B02
s2obj = s2obj.cache_product_to_local_dir(".")
# See also read.read_from_bounds, read.read_from_polygon for different ways of croping an image
data = read.read_from_center_coords(s2obj,cords_read, shape=(2040, 4040),
crs_center_coords=crs_cords)
data_memory = data.load() # this loads the data to memory
data_memory # GeoTensor object
>> Transform: | 10.00, 0.00, 537020.00|
| 0.00,-10.00, 3553680.00|
| 0.00, 0.00, 1.00|
Shape: (3, 2040, 4040)
Resolution: (10.0, 10.0)
Bounds: (537020.0, 3533280.0, 577420.0, 3553680.0)
CRS: EPSG:32613
fill_value_default: 0
In the .values
attribute we have the plain numpy array that we can plot with show
:
from rasterio.plot import show
show(data_memory.values/3500, transform=data_memory.transform)
Saving the GeoTensor
as a COG GeoTIFF:
from georeader.save import save_cog
# Supports writing in bucket location (e.g. gs://bucket-name/s2_crop.tif)
save_cog(data_memory, "s2_crop.tif", descriptions=s2obj.bands)
Tutorials
Sentinel-2
- Reading Sentinel-2 images from the public Google bucket
- Explore metadata of Sentinel-2 object
- Query Sentinel-2 images over a location and time span, mosaic and plot them
- Sentinel-2 images from GEE and CloudSEN12 cloud detection
Read rasters from different satellites
- Tutorial to read overlapping tiles from a GeoTIFF and a Sentinel-2 image
- Example of reading a Proba-V image overlapping with Sentinel-2 forcing same resolution
- Work with EMIT images
- Read overlapping images of PRISMA and EMIT
- Read EnMAP images, integrate them to Sentinel-2 bands, convert radiance to TOA reflectance and run CloudSEN12 cloud detection model
Used in other projects
- georeader with ml4floods to automatically download and produce flood extent maps: the Kherson Dam Break example
- georeader with STARCOP to simulate Sentinel-2 from AVIRIS images
- georeader with STARCOP to run plume detection in EMIT images
- georeader with CloudSEN12 to run cloud detection in Sentinel-2 images
Citation
If you find this code useful please cite:
@article{portales-julia_global_2023,
title = {Global flood extent segmentation in optical satellite images},
volume = {13},
issn = {2045-2322},
doi = {10.1038/s41598-023-47595-7},
number = {1},
urldate = {2023-11-30},
journal = {Scientific Reports},
author = {Portalés-Julià, Enrique and Mateo-García, Gonzalo and Purcell, Cormac and Gómez-Chova, Luis},
month = nov,
year = {2023},
pages = {20316},
}
@article{ruzicka_starcop_2023,
title = {Semantic segmentation of methane plumes with hyperspectral machine learning models},
volume = {13},
issn = {2045-2322},
url = {https://www.nature.com/articles/s41598-023-44918-6},
doi = {10.1038/s41598-023-44918-6},
number = {1},
journal = {Scientific Reports},
author = {Růžička, Vít and Mateo-Garcia, Gonzalo and Gómez-Chova, Luis and Vaughan, Anna, and Guanter, Luis and Markham, Andrew},
month = nov,
year = {2023},
pages = {19999},
}
Acknowledgments
This research has been supported by the DEEPCLOUD project (PID2019-109026RB-I00) funded by the Spanish Ministry of Science and Innovation (MCIN/AEI/10.13039/501100011033) and the European Union (NextGenerationEU).
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