Blue Wide Dynamic Range Vegetation Index
A blue-based variant of WDRVI that uses blue instead of red bands. This index maintains sensitivity at high biomass levels while using the blue spectral region, which can be advantageous in certain applications.
Used in crop monitoring, and forest monitoring.
When to use
- Time-series monitoring of crop health, growth stages, and stress detection
- Land cover classification and vegetation type discrimination
- Biomass estimation and net primary productivity studies
- Drought impact assessment over agricultural and forest areas
- Phenology tracking — green-up, peak season, and senescence
- High biomass vegetation monitoring
- LAI estimation in dense canopies
Limitations
- Saturates in dense canopies (LAI > 3) — values plateau and lose discrimination ability
- Sensitive to atmospheric scattering, especially blue-band haze
- Soil background contaminates measurements in sparsely vegetated areas
- Sun-sensor geometry (BRDF effects) introduces variability across acquisitions
- Cloud cover and shadows produce invalid pixels that need masking
What the values mean
| Surface type | Typical BWDRVI |
|---|---|
| Open water, snow | -0.3 to -0.1 |
| Bare soil, urban | -0.1 to 0.2 |
| Sparse or stressed crops | 0.2 to 0.4 |
| Healthy crops, grassland | 0.4 to 0.7 |
| Dense forest, peak season | 0.7 to 0.9 |
General Formula
Sensor-Specific Formulas
Most-used sensors — click to show code below
| Sensor | Provider | Formula | Band Mapping |
|---|---|---|---|
| 21AT | (0.1 * NIR - Blue) / (0.1 * NIR + Blue) | blue→Blue, nir→NIR | |
| CG Satellite | (0.1 * NIR - Blue) / (0.1 * NIR + Blue) | blue→Blue, nir→NIR | |
| USGS/NASA | (0.1 * B5 - B1) / (0.1 * B5 + B1) | blue→B1, nir→B5 | |
| USDA | (0.1 * NIR - Blue) / (0.1 * NIR + Blue) | blue→Blue, nir→NIR | |
| ESA | (0.1 * B8 - B1) / (0.1 * B8 + B1) | blue→B1, nir→B8 | |
| MAXAR | (0.1 * NIR1 - Blue) / (0.1 * NIR1 + Blue) | blue→Blue, nir→NIR1 | |
| MAXAR | (0.1 * NIR1 - Blue) / (0.1 * NIR1 + Blue) | blue→Blue, nir→NIR1 |
Spectral Band Visualization — BJ3A
Code Examples
Adapted for BJ3A bands —
Frequently Asked Questions
What is the BWDRVI (Blue Wide Dynamic Range Vegetation Index) and when should I use it?
A blue-based variant of WDRVI that uses blue instead of red bands. This index maintains sensitivity at high biomass levels while using the blue spectral region, which can be advantageous in certain applications. Vegetation indices quantify plant health, biomass, and photosynthetic activity by exploiting the contrast between how plants absorb visible light for photosynthesis and reflect near-infrared radiation from their cellular structure. BWDRVI is particularly suited for high biomass vegetation monitoring, lai estimation in dense canopies, agricultural yield prediction. The general formula is (0.1 * NIR - Blue) / (0.1 * NIR + Blue), which requires blue and nir spectral bands.
Which satellite sensors can I use to calculate BWDRVI?
BWDRVI is supported by 22 satellite sensors in our database, including BJ3A, BJ3N, Dragonette-2/3, Gaofen-1, Gaofen-2 and 17 more. Each sensor uses different band designations — for example, BJ3A uses the formula (0.1 * NIR - Blue) / (0.1 * NIR + Blue), while BJ3N uses (0.1 * NIR - Blue) / (0.1 * NIR + Blue). Select a sensor above to see its specific band mapping.
What spectral bands does BWDRVI require and why?
BWDRVI requires blue (420-480), nir (780-900). Vegetation strongly absorbs red light for photosynthesis while reflecting near-infrared light from its mesophyll cell structure, making this contrast a reliable indicator of plant vigour.
How do I calculate BWDRVI in Python or R?
Both Python and R code samples are provided above. In Python, use rasterio to load individual band GeoTIFF files and numpy for the arithmetic. In R, the terra package handles raster operations efficiently. The key is to load bands as floating-point arrays to avoid integer division, and to handle division-by-zero cases where the denominator equals zero. For production use, consider applying a valid data mask to exclude no-data pixels before calculation.
How does BWDRVI compare to NDVI and other vegetation indices?
While NDVI is the most common vegetation index, BWDRVI incorporates additional spectral bands to reduce atmospheric interference and soil background effects. The choice of index depends on your application, sensor availability, and atmospheric conditions.
BWDRVI vs other vegetation indices
| Index | Name | How it differs |
|---|---|---|
| ARI | Anthocyanin Reflectance Index | Alternative vegetation index — different band combination |
| mARI | Modified Anthocyanin Reflectance Index | Refined formulation for specific conditions |
| ARVI | Atmospherically Resistant Vegetation Index | Atmospherically corrected version |
| ARVI2 | Atmospherically Resistant Vegetation Index 2 | Atmospherically corrected version |
Related Vegetation Indices
References
Need help choosing?
Ask our AI assistant for sensor recommendations, code examples, or how BWDRVI compares to other indices for your specific use case.