These data analyses suggest that replacing the red band with the red-SWIR band can reduce the sensitivity of VIs to soil background. We recommend employing the ...
PDF | Most vegetation indices (VIs) of remote sensing were designed based on the concept of soil-line, which represents a linear correlation between.
Replacing the Red Band with the Red-SWIR Band (0.74ρred+0.26ρswir) Can Reduce the Sensitivity of Vegetation Indices to Soil Background. Language: English
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A new moisture adjusted vegetation index (MAVI) is proposed using the red, near infrared, and shortwave infrared (SWIR) reflectance in band-ratio form, ...
Replacing the Red Band with the Red-SWIR Band (0.74ρred+0.26ρswir) Can Reduce the Sensitivity of Vegetation Indices to Soil Background. Remote Sens. 2019 ...
Replacing the Red Band with the Red-SWIR Band (0.74ρred+0.26ρswir) Can Reduce the Sensitivity of Vegetation Indices to Soil Background · Remote Sensing ( IF 5 ) ...
Jul 15, 2020 · Replacing the red band with the red-SWIR band (0.74ρred+0.26ρswir) can reduce the sensitivity of vegetation indices to soil background ...
May 5, 2024 · The Modified Soil-Adjusted Vegetation Index plus (MSAVI+) measures vegetation health by replacing the red band with the red-SWIR band to reduce ...
Replacing the Red Band with the Red-SWIR Band (0.74 ρred+ 0.26 ρswir) Can Reduce the Sensitivity of Vegetation Indices to Soil Background. Article. Full-text ...
Chen et al. Replacing the Red Band with the Red-SWIR Band (0.74ρred+0.26ρswir) Can Reduce the Sensitivity of Vegetation Indices to Soil Background. Remote ...