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 using cascading (chain) registration: bands are processed in two passes from the reference band toward shorter and longer wavelengths respectively. Each step uses the previous step's registered output as the new reference, exploiting the higher spectral similarity between adjacent bands for more robust NCC matching. The reference band is copied directly to the output. 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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