A workflow headed up to identify crops growing under plastic-covered greenhouses (PCG) and based on multi-temporal and multi-sensor satellite data is developed in this article. This workflow is made up of four steps: (i) data pre-processing, (ii) PCG segmentation, (iii) binary preclassification between greenhouses and non-greenhouses, and (iv) classification of horticultural crops under greenhouses regarding two agronomic seasons (autumn and spring). The segmentation stage was carried out by applying a multi-resolution segmentation algorithm on the pre-processed WorldView-2 data. The free access AssesSeg command line tool was used to determine the more suitable multi-resolution algorithm parameters. Two decision tree models mainly based on ...
Classification of selected agricultural crops from time series of Sentinel-2 and PlanetScope imagery...
Remote sensing technologies have been commonly used to perform greenhouse detection and mapping. In ...
We investigated the use of phenological information extracted from satellite imagery combined with c...
A workflow headed up to identify crops growing under plastic-covered greenhouses (PCG) and based on ...
A workflow headed up to identify crops growing under plastic-covered greenhouses (PCG) and based on ...
Greenhouse detection and mapping via remote sensing is a complex task, which has already been addres...
Greenhouse detection and mapping via remote sensing is a complex task, which has already been addres...
Greenhouse mapping through remote sensing has received extensive attention over the last decades. In...
Pixel-based classification method is widely used with the purpose of detecting land use and land cov...
Accurate classification and mapping of crops is essential for supporting sustainable land management...
Greenhouse detection using remote sensing technologies is an important research area for yield estim...
In this study a very high resolution image from the QuickBird satellite was used to detect new green...
International audienceTimely and efficient land-cover mapping is of high interest, especially in agr...
Geo-parcel based crop identification plays an important role in precision agriculture. It meets the ...
tThis paper shows the first comparison between data from Sentinel-2 (S2) Multi Spectral Instrument (...
Classification of selected agricultural crops from time series of Sentinel-2 and PlanetScope imagery...
Remote sensing technologies have been commonly used to perform greenhouse detection and mapping. In ...
We investigated the use of phenological information extracted from satellite imagery combined with c...
A workflow headed up to identify crops growing under plastic-covered greenhouses (PCG) and based on ...
A workflow headed up to identify crops growing under plastic-covered greenhouses (PCG) and based on ...
Greenhouse detection and mapping via remote sensing is a complex task, which has already been addres...
Greenhouse detection and mapping via remote sensing is a complex task, which has already been addres...
Greenhouse mapping through remote sensing has received extensive attention over the last decades. In...
Pixel-based classification method is widely used with the purpose of detecting land use and land cov...
Accurate classification and mapping of crops is essential for supporting sustainable land management...
Greenhouse detection using remote sensing technologies is an important research area for yield estim...
In this study a very high resolution image from the QuickBird satellite was used to detect new green...
International audienceTimely and efficient land-cover mapping is of high interest, especially in agr...
Geo-parcel based crop identification plays an important role in precision agriculture. It meets the ...
tThis paper shows the first comparison between data from Sentinel-2 (S2) Multi Spectral Instrument (...
Classification of selected agricultural crops from time series of Sentinel-2 and PlanetScope imagery...
Remote sensing technologies have been commonly used to perform greenhouse detection and mapping. In ...
We investigated the use of phenological information extracted from satellite imagery combined with c...