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Optimization of spectral pre-processing techniques for estimation of surface soil properties from airborne AVIRIS-NG
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  • SAGAR TANEJA,
  • Raj Setia,
  • Baban K Bansod,
  • Rahul Nigam,
  • Sharad K Gupta,
  • Bimal K Bhattacharya,
  • Brijendra Pateriya
SAGAR TANEJA
Academy of Scientific and Innovative Research- AcSIR

Corresponding Author:sagart06@gmail.com

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Raj Setia
Punjab Remote Sensing Centre
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Baban K Bansod
CSIR- Central Scientific Instruments Organization, Chandigarh
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Rahul Nigam
Space Applications Centre, ISRO, Ahmedabad
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Sharad K Gupta
Punjab Remote Sensing Centre
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Bimal K Bhattacharya
Space Applications Centre, ISRO, Ahmedabad
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Brijendra Pateriya
Punjab Remote Sensing Centre
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Abstract

Remote sensing approaches based on VIS-NIR spectroscopy can be used for getting near real-time information about soil fertility. However, the main challenge limiting the application of spectroscopy in soil fertility evaluation is finding suitable data pre-processing and calibration strategies. We have compared various pre-processing techniques using the reflectance spectra obtained from AVIRIS-NG hyperspectral images, for quantification of organic carbon (OC), available phosphorus (P) and available potassium (K) in the surface soils of Surendranagar area (Western parts of India) and Raichur (Southern parts of India). Surface (0 - 0.15 m) soil samples were collected from these two areas synchronously with the dates of the AVIRIS-NG campaign. The soil samples were air dried, sieved to <2 mm, and analyzed for OC, P, and K using standard methods. The AVIRIS spectra (spectral range of 380-2500 nm with an interval of 5 nm) corresponding to soil sampling points were extracted. The pre-processing steps were used in the order: Continuum Removal (Yes/No), Moving Window Abstraction (Yes/No), No transformation or Euclidean Normalization or Standard Normal Variate (SNV), No transformation or Savitsky-Golay (SG) first-order smoothing, and No transformation or first derivative OR second derivative. We have used the partial least squares regression (PLSR) to calibrate the model from pre-processed spectra. The PLSR with Continuum Removal, SNV, SG first-order smoothing, and first derivative was selected as the best algorithm for estimating soil properties from the Western parts of India, and the corresponding R2 were 0.77 for OC, 0.79 for P and 0.83 for K (RMSE <0.3 for all the parameters). The PLSR with Moving Window Abstraction, SG first-order smoothing, and second derivative were selected as the best algorithm for estimating soil properties from the Southern parts of India, and the corresponding R2 were 0.54 for OC, 0.49 for P and 0.56 for K (RMSE <0.3 for all the parameters). These results suggest that the optimization of AVIRIS spectra using various pre-processing techniques and modeling approaches is required for rapid and non-destructive assessment and monitoring of soil health for precision agriculture.