Geology-1 satellite data preprocessing algorithms
Project description
dzsat
dzsat is a Python toolkit for preprocessing Geology-1 satellite imagery, developed at China University of Geosciences. The library focuses on geometric correction and band-to-band coregistration, with plans to expand to radiometric calibration and other preprocessing workflows.
Features
- Band-to-band coregistration — Local cross-correlation coregistration (via arosics) across all 16 spectral bands of Geology-1 Level-3 products.
- Sobel gradient preprocessing — Eliminates spectral contrast-reversal artifacts between VNIR bands before NCC matching.
- Bad-data masking — Automatically excludes zero-fill and nodata regions from tie-point computation.
- Tie-point thinning — Spatially thins low-displacement tie points to accelerate DESHIFTER interpolation without sacrificing accuracy.
- Fully parameterised — All matching parameters (grid resolution, window size, max shift, reliability threshold, etc.) are exposed as function arguments.
Installation
pip install dzsat
Dependencies
| Package | Purpose |
|---|---|
numpy |
Array operations |
GDAL |
Geospatial raster I/O |
rasterio |
GeoTIFF read/write |
scipy |
Sobel gradient computation |
arosics |
Local coregistration engine |
geoarray |
Geo-referenced array wrapper |
Pillow |
Image utilities |
Note: GDAL must be installed before
pip install dzsat. On Windows it is recommended to install GDAL via OSGeo4W or a pre-built wheel from Christoph Gohlke's repository.
Quick Start
Coregister all bands in a scene folder
from dzsat.geometry.registration import coregister_folder
coregister_folder(
folder_path=r"D:\data\DZ01V_L3_E30.2_S25.9_20260211_01_T1",
ref_band=9, # reference band (default: B9)
)
Output is written to folder_path + "_registration".
Coregister a single band pair
from dzsat.geometry.registration import coregister_scene
coregister_scene(
ref_path=r"D:\data\scene\B9.TIF",
warp_path=r"D:\data\scene\B7.TIF",
out_path=r"D:\data\output\B7_coreg.TIF",
)
Advanced — custom parameters
coregister_folder(
folder_path=r"D:\data\scene",
ref_band=9,
grid_res=64, # coarser grid → faster
window_size=(80, 80), # smaller matching window
max_shift=50, # allow larger displacements
min_reliability=70, # stricter NCC quality filter
preprocess_gradient=True, # Sobel preprocessing (recommended)
thin_low_shift=True, # thin tie points in low-shift areas
thin_shift_threshold_m=28.0, # threshold ≈ 2 px at 14 m GSD
thin_factor=2, # keep 1/4 of low-shift tie points
)
API Reference
coregister_folder
coregister_folder(folder_path, ref_band=9, grid_res=32, window_size=(120,120),
max_shift=30, min_reliability=60, tieP_filter_level=2,
preprocess_gradient=True, thin_low_shift=True,
thin_shift_threshold_m=28.0, thin_factor=2)
Coregisters all 16 bands in folder_path against the reference band. Results are saved to folder_path + "_registration".
| Parameter | Type | Default | Description |
|---|---|---|---|
folder_path |
str |
— | Directory containing *B<n>.TIF files |
ref_band |
int |
9 |
Reference band number (1–16) |
grid_res |
int |
32 |
Tie-point grid spacing in pixels |
window_size |
tuple |
(120,120) |
NCC matching window in pixels |
max_shift |
int |
30 |
Maximum allowed shift in pixels |
min_reliability |
float |
60 |
Minimum NCC reliability (0–100) |
tieP_filter_level |
int |
2 |
Tie-point filter level (0–3) |
preprocess_gradient |
bool |
True |
Use Sobel gradient images for matching |
thin_low_shift |
bool |
True |
Thin tie points in low-shift regions |
thin_shift_threshold_m |
float |
28.0 |
Displacement threshold for thinning (m) |
thin_factor |
int |
2 |
Thinning step size |
coregister_scene
Same parameters as above (excluding folder_path / ref_band), plus:
| Parameter | Type | Description |
|---|---|---|
ref_path |
str |
Path to the reference GeoTIFF |
warp_path |
str |
Path to the target GeoTIFF |
out_path |
str |
Output path for the corrected GeoTIFF |
Project Structure
dzsat/
├── dzsat/
│ ├── __init__.py
│ └── geometry/
│ ├── __init__.py
│ └── registration.py # coregistration algorithms
├── pyproject.toml
└── README.md
Roadmap
- Radiometric calibration (DN → Radiance → Reflectance)
- Atmospheric correction
- Orthorectification
- Cloud / shadow masking
- Multi-scene mosaicking
License
MIT © HaixuHe, China University of Geosciences
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