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Potential of Sentinel-1 and Sentinel-2 data for mapping irrigated areas at plot scale

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HAL Id: hal-02881880

https://hal.inrae.fr/hal-02881880

Submitted on 26 Jun 2020

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Potential of Sentinel-1 and Sentinel-2 data for mapping irrigated areas at plot scale

Hassan Bazzi, Nicolas Baghdadi, Dino Ienco, Mehrez Zribi, Hatem Belhouchette

To cite this version:

Hassan Bazzi, Nicolas Baghdadi, Dino Ienco, Mehrez Zribi, Hatem Belhouchette. Potential of Sentinel-

1 and Sentinel-2 data for mapping irrigated areas at plot scale. EGU General Assenbly 2020, May

2020, Vienna, Austria. �hal-02881880�

(2)

Potential of Sentinel-1 and Sentinel-2 data for Mapping Irrigated areas at plot scale

Hassan Bazzi, Nicolas Baghdadi, Dino Ienco, Mehrez Zribi, Hatem Belhouchette

Irrigation plays a significant role in agricultural production in order to meet the global food requirement under changing climatic conditions. To fulfil the high demand of food with an ever-increasing global population, better planning of irrigation is required. Therefore, more focus is being set on the assessment of irrigation performance for improving water management in order to achieve higher water productivity and increase the agricultural water sustainability.

In the context of mapping irrigated areas, we propose an innovative approach to map irrigated areas using Sentinel-1 (S1) SAR (Synthetic Aperture Radar) and Sentinel-2 (S2) optical time series. Our proposed approach is based on the use of S1 and/or S2 time series combined with statistical and mathematical functions such as principal component analysis (PCA) and wavelet transformation (WT). The proposed approach was tested over the Catalonia region, Spain with a dataset containing 126 000 irrigated and 67 000 non-irrigated plots. The novelty of our study resides in eliminating the ambiguity between irrigation and rainfall by comparing between the SAR backscattering signal of each plot and that of the corresponding grid (10 km × 10 km).The potential of S2 images to classify irrigated areas by means of NDVI time series was also investigated in this study. Random forest (RF) and convolutional neural network (CNN) approaches were used to build up classification models using the PCA or WT parameters in three different scenarios: The first using only S1 data, the second using only S2 data, and the third using both S1 and S2 data.

The RF classifiers built using the PCA or WT on S1 time series perform well in mapping irrigated areas with

an accuracy of 90.7% and 89.1% respectively. However, the CNN classification on the S1 temporal series

produces a significant overall accuracy of 94.1%. Finally, the combined use of the SAR and optical data enhanced

the accuracy of the RF classification but did not significantly change the overall accuracy of the CNN model.

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