Sydor, Petro

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0d9e83b9-5ccf-4756-bbdc-5fb7e7229f7f
  • Sydor, Petro (2)
Projects

Author's Bibliography

Application of Solar Activity Time Series in Machine Learning Predictive Modeling of Precipitation-Induced Floods

Malinović-Milićević, Slavica; Radovanović, Milan M.; Radenković, Sonja D.; Vyklyuk, Yaroslav; Milovanović, Boško; Milanović Pešić, Ana; Milenković, Milan; Popović, Vladimir; Petrović, Marko; Sydor, Petro; Gajić, Mirjana

(MDPI AG, 2023) 

TY  - JOUR
AU  - Malinović-Milićević, Slavica
AU  - Radovanović, Milan M.
AU  - Radenković, Sonja D.
AU  - Vyklyuk, Yaroslav
AU  - Milovanović, Boško
AU  - Milanović Pešić, Ana
AU  - Milenković, Milan
AU  - Popović, Vladimir
AU  - Petrović, Marko
AU  - Sydor, Petro
AU  - Gajić, Mirjana
PY  - 2023
UR  - https://dais.sanu.ac.rs/123456789/14049
AB  - This research is devoted to the determination of hidden dependencies between the flow of particles that come from the Sun and precipitation-induced floods in the United Kingdom (UK). The analysis covers 20 flood events during the period from October 2001 to December 2019. The parameters of solar activity were used as model input data, while precipitations data in the period 10 days before and during each flood event were used as model output. The time lag of 0–9 days was taken into account in the research. Correlation analysis was conducted to determine the degree of randomness for the time series of input and output parameters. For establishing a potential causative link, machine learning classification predictive modeling was applied. Two approaches, the decision tree, and the random forest were used. We analyzed the accuracy of classification models forecast from 0 to 9 days in advance. It was found that the most important factors for flood forecasting are proton density with a time lag of 9, differential proton flux in the range of 310–580 keV, and ion temperature. Research in this paper has shown that the decision tree model is more accurate and adequate in predicting the appearance of precipitation-induced floods up to 9 days ahead with an accuracy of 91%. The results of this study confirmed that by increasing technical capabilities, using improved machine learning techniques and large data sets, it is possible to improve the understanding of the physical link between the solar wind and tropospheric weather and help improve severe weather forecasting.
PB  - MDPI AG
T2  - Mathematics
T1  - Application of Solar Activity Time Series in Machine Learning Predictive Modeling of Precipitation-Induced Floods
SP  - 795
VL  - 11
IS  - 4
DO  - 10.3390/math11040795
UR  - https://hdl.handle.net/21.15107/rcub_dais_14049
ER  - 
@article{
author = "Malinović-Milićević, Slavica and Radovanović, Milan M. and Radenković, Sonja D. and Vyklyuk, Yaroslav and Milovanović, Boško and Milanović Pešić, Ana and Milenković, Milan and Popović, Vladimir and Petrović, Marko and Sydor, Petro and Gajić, Mirjana",
year = "2023",
abstract = "This research is devoted to the determination of hidden dependencies between the flow of particles that come from the Sun and precipitation-induced floods in the United Kingdom (UK). The analysis covers 20 flood events during the period from October 2001 to December 2019. The parameters of solar activity were used as model input data, while precipitations data in the period 10 days before and during each flood event were used as model output. The time lag of 0–9 days was taken into account in the research. Correlation analysis was conducted to determine the degree of randomness for the time series of input and output parameters. For establishing a potential causative link, machine learning classification predictive modeling was applied. Two approaches, the decision tree, and the random forest were used. We analyzed the accuracy of classification models forecast from 0 to 9 days in advance. It was found that the most important factors for flood forecasting are proton density with a time lag of 9, differential proton flux in the range of 310–580 keV, and ion temperature. Research in this paper has shown that the decision tree model is more accurate and adequate in predicting the appearance of precipitation-induced floods up to 9 days ahead with an accuracy of 91%. The results of this study confirmed that by increasing technical capabilities, using improved machine learning techniques and large data sets, it is possible to improve the understanding of the physical link between the solar wind and tropospheric weather and help improve severe weather forecasting.",
publisher = "MDPI AG",
journal = "Mathematics",
title = "Application of Solar Activity Time Series in Machine Learning Predictive Modeling of Precipitation-Induced Floods",
pages = "795",
volume = "11",
number = "4",
doi = "10.3390/math11040795",
url = "https://hdl.handle.net/21.15107/rcub_dais_14049"
}
Malinović-Milićević, S., Radovanović, M. M., Radenković, S. D., Vyklyuk, Y., Milovanović, B., Milanović Pešić, A., Milenković, M., Popović, V., Petrović, M., Sydor, P.,& Gajić, M.. (2023). Application of Solar Activity Time Series in Machine Learning Predictive Modeling of Precipitation-Induced Floods. in Mathematics
MDPI AG., 11(4), 795.
https://doi.org/10.3390/math11040795
https://hdl.handle.net/21.15107/rcub_dais_14049
Malinović-Milićević S, Radovanović MM, Radenković SD, Vyklyuk Y, Milovanović B, Milanović Pešić A, Milenković M, Popović V, Petrović M, Sydor P, Gajić M. Application of Solar Activity Time Series in Machine Learning Predictive Modeling of Precipitation-Induced Floods. in Mathematics. 2023;11(4):795.
doi:10.3390/math11040795
https://hdl.handle.net/21.15107/rcub_dais_14049 .
Malinović-Milićević, Slavica, Radovanović, Milan M., Radenković, Sonja D., Vyklyuk, Yaroslav, Milovanović, Boško, Milanović Pešić, Ana, Milenković, Milan, Popović, Vladimir, Petrović, Marko, Sydor, Petro, Gajić, Mirjana, "Application of Solar Activity Time Series in Machine Learning Predictive Modeling of Precipitation-Induced Floods" in Mathematics, 11, no. 4 (2023):795,
https://doi.org/10.3390/math11040795 .,
https://hdl.handle.net/21.15107/rcub_dais_14049 .
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Forest fires in Portugal - case study, 18 june 2017

Radovanović, Milan M.; Vyklyuk, Yaroslav; Stevančević, Milan T.; Milenković, Milan Đ; Jakovljević, Dejana M.; Petrović, Marko D.; Malinović-Milićević, Slavica B.; Vuković, Natalia; Vujko, Aleksandra Đ.; Sydor; Yamashkin, Anatoliy; Sydor, Petro; Vuković, Darko B.; Škoda, Miroslav

(Belgrade : Vinča Institute of Nuclear Sciences, 2019) 

TY  - JOUR
AU  - Radovanović, Milan M.
AU  - Vyklyuk, Yaroslav
AU  - Stevančević, Milan T.
AU  - Milenković, Milan Đ
AU  - Jakovljević, Dejana M.
AU  - Petrović, Marko D.
AU  - Malinović-Milićević, Slavica B.
AU  - Vuković, Natalia
AU  - Vujko, Aleksandra Đ.
AU  - Sydor
AU  - Yamashkin, Anatoliy
AU  - Sydor, Petro
AU  - Vuković, Darko B.
AU  - Škoda, Miroslav
PY  - 2019
UR  - https://dais.sanu.ac.rs/123456789/13409
AB  - Forest fires that occurred in Portugal on June 18, 2017, caused several tens of
human casualties. The cause of their emergence, as well as many others that occurred in western Europe at the same time remained unknown. Taking into account consequences, including loss of human lives and endangerment of ecosystem sustainability, discovering of the forest fires causes is the very significant question. The heliocentric hypothesis has indirectly been tested, according to which charged particles are a possible cause of forest fires. We must point out that it was not possible to verify whether in this specific case the particles by reaching the ground and burning the plant mass create the initial phase of the formation of the flame. Therefore, we have tried to determine whether during the critical period, i. e. from June 15-19 there is a certain statistical connection between certain parameters of the solar wind and meteorological elements. Based on the hourly values of the charged particles flow, a correlation analysis was performed with hourly values of individual meteorological elements including time lag at Monte Real station. The application of the Adaptive Neuro Fuzzy Inference System models has shown that there is a high degree of connection between the flow of protons and the analyzed meteorological elements in Portugal. However, further verification of this hypothesis requires further laboratory testing.
PB  - Belgrade :  Vinča Institute of Nuclear Sciences
T2  - Thermal Science
T1  - Forest fires in Portugal - case study, 18 june 2017
SP  - 73
EP  - 86
VL  - 23
IS  - 1
DO  - 10.2298/TSCI180803251R
UR  - https://hdl.handle.net/21.15107/rcub_dais_13409
ER  - 
@article{
author = "Radovanović, Milan M. and Vyklyuk, Yaroslav and Stevančević, Milan T. and Milenković, Milan Đ and Jakovljević, Dejana M. and Petrović, Marko D. and Malinović-Milićević, Slavica B. and Vuković, Natalia and Vujko, Aleksandra Đ. and Sydor and Yamashkin, Anatoliy and Sydor, Petro and Vuković, Darko B. and Škoda, Miroslav",
year = "2019",
abstract = "Forest fires that occurred in Portugal on June 18, 2017, caused several tens of
human casualties. The cause of their emergence, as well as many others that occurred in western Europe at the same time remained unknown. Taking into account consequences, including loss of human lives and endangerment of ecosystem sustainability, discovering of the forest fires causes is the very significant question. The heliocentric hypothesis has indirectly been tested, according to which charged particles are a possible cause of forest fires. We must point out that it was not possible to verify whether in this specific case the particles by reaching the ground and burning the plant mass create the initial phase of the formation of the flame. Therefore, we have tried to determine whether during the critical period, i. e. from June 15-19 there is a certain statistical connection between certain parameters of the solar wind and meteorological elements. Based on the hourly values of the charged particles flow, a correlation analysis was performed with hourly values of individual meteorological elements including time lag at Monte Real station. The application of the Adaptive Neuro Fuzzy Inference System models has shown that there is a high degree of connection between the flow of protons and the analyzed meteorological elements in Portugal. However, further verification of this hypothesis requires further laboratory testing.",
publisher = "Belgrade :  Vinča Institute of Nuclear Sciences",
journal = "Thermal Science",
title = "Forest fires in Portugal - case study, 18 june 2017",
pages = "73-86",
volume = "23",
number = "1",
doi = "10.2298/TSCI180803251R",
url = "https://hdl.handle.net/21.15107/rcub_dais_13409"
}
Radovanović, M. M., Vyklyuk, Y., Stevančević, M. T., Milenković, M. Đ., Jakovljević, D. M., Petrović, M. D., Malinović-Milićević, S. B., Vuković, N., Vujko, A. Đ., Sydor, Yamashkin, A., Sydor, P., Vuković, D. B.,& Škoda, M.. (2019). Forest fires in Portugal - case study, 18 june 2017. in Thermal Science
Belgrade :  Vinča Institute of Nuclear Sciences., 23(1), 73-86.
https://doi.org/10.2298/TSCI180803251R
https://hdl.handle.net/21.15107/rcub_dais_13409
Radovanović MM, Vyklyuk Y, Stevančević MT, Milenković MĐ, Jakovljević DM, Petrović MD, Malinović-Milićević SB, Vuković N, Vujko AĐ, Sydor, Yamashkin A, Sydor P, Vuković DB, Škoda M. Forest fires in Portugal - case study, 18 june 2017. in Thermal Science. 2019;23(1):73-86.
doi:10.2298/TSCI180803251R
https://hdl.handle.net/21.15107/rcub_dais_13409 .
Radovanović, Milan M., Vyklyuk, Yaroslav, Stevančević, Milan T., Milenković, Milan Đ, Jakovljević, Dejana M., Petrović, Marko D., Malinović-Milićević, Slavica B., Vuković, Natalia, Vujko, Aleksandra Đ., Sydor, Yamashkin, Anatoliy, Sydor, Petro, Vuković, Darko B., Škoda, Miroslav, "Forest fires in Portugal - case study, 18 june 2017" in Thermal Science, 23, no. 1 (2019):73-86,
https://doi.org/10.2298/TSCI180803251R .,
https://hdl.handle.net/21.15107/rcub_dais_13409 .
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