Zeyliger, A.; Muzalevskiy, K.; Ermolaeva, O.; Grecheneva, A.; Zinchenko, E.; Gerts, J.
Mapping Soil Surface Moisture of an Agrophytocenosis via a Neural Network Based on Synchronized Radar and Multispectral Optoelectronic Data of SENTINEL-1,2—Case Study on Test Sites in the Lower Volga Region. Sustainability 2024, 16, 9606.
https://doi.org/10.3390/su16219606
AMA Style
Zeyliger A, Muzalevskiy K, Ermolaeva O, Grecheneva A, Zinchenko E, Gerts J.
Mapping Soil Surface Moisture of an Agrophytocenosis via a Neural Network Based on Synchronized Radar and Multispectral Optoelectronic Data of SENTINEL-1,2—Case Study on Test Sites in the Lower Volga Region. Sustainability. 2024; 16(21):9606.
https://doi.org/10.3390/su16219606
Chicago/Turabian Style
Zeyliger, Anatoly, Konstantin Muzalevskiy, Olga Ermolaeva, Anastasia Grecheneva, Ekaterina Zinchenko, and Jasmina Gerts.
2024. "Mapping Soil Surface Moisture of an Agrophytocenosis via a Neural Network Based on Synchronized Radar and Multispectral Optoelectronic Data of SENTINEL-1,2—Case Study on Test Sites in the Lower Volga Region" Sustainability 16, no. 21: 9606.
https://doi.org/10.3390/su16219606
APA Style
Zeyliger, A., Muzalevskiy, K., Ermolaeva, O., Grecheneva, A., Zinchenko, E., & Gerts, J.
(2024). Mapping Soil Surface Moisture of an Agrophytocenosis via a Neural Network Based on Synchronized Radar and Multispectral Optoelectronic Data of SENTINEL-1,2—Case Study on Test Sites in the Lower Volga Region. Sustainability, 16(21), 9606.
https://doi.org/10.3390/su16219606
