Ghada Soliman scite author profile

The prediction and study of air pollution is a complex process due to the presence of controlling factors, different land use, and different sources for the elaboration of pollution. In this study, we applied the machine learning technique (Random Forest) with time series of particulate matter pollution records to predict and develop a particulate matter pollution susceptibility map. The applied method is to strict measures and to better manage particulate matter pollution in Ras Garib city, Egypt as a case study. Air pollution data for the period between 2018 and 2021 is collected using five air quality stations. Some of these stations are located near highly urbanized locations and could be dense with the current rates of development in the future. The random forest was applied to verify and visualize the relationships between the particulate matter and different independent variables. Spectral bands of Landsat OLI 8 imaginary and land cover/land use indices were used to prepare independent variables. Analysis of the results reveals that the proper air quality distribution monitoring stations would provide a deep insight into the pollution distribution over the study site. Distance from the roads and the land surface temperature has a significant effect on the distribution of air quality distribution. The obtained probability and classification maps were assessed using the area under the receiver operating characteristic curve. The outcome prediction maps are reasonable and will be helpful for future air quality monitoring and improvements. Furthermore, the applied method of pollutant concentration prediction is able to improve decision-making and provide appropriate solutions.

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Predicting all star player in the national basketball association using random forest

Soliman

El-Nabawy²,

Misbah³

et al. 2017

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Wetland change detection in the Nile swamps of southern Sudan

Soliman¹,

Soussa²

2011

SPIE Newsroom

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Imagejtoolbox for Oceanography

Soliman

Marghany²

1999

Al-Azhar Bulletin of Science

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The oil dischargesin marinas and coastal areas has adversely affected the marine environment thathas becomethe driving force for the early detection of oil spills to allow timely intervention.Synthetic Aperture Radar (SAR) data represents an effective tool that is extensively used for the detection and identification of oil spills in the marine environment.This paper aims at exploringthe plugins available in ImageJ, a popular public domain Java image processing and analysis program at the National institute of Health (NIH), in the detection of oil spillsfor oceanography.As the popularity of the ImageJ open-source comes from being extensively used in biomedicaland medical image processing applications, this study showed that ImageJisa good choice for the detection of oil spillsin oceanography applications throughout the extensibility capability supported by ImageJ framework.

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Ghada Soliman

Wetland change detection in Nile swamps of southern Sudan using multitemporal satellite imagery

Environmental hazard assessment and monitoring for air pollution using machine learning and remote sensing

Predicting all star player in the national basketball association using random forest

Wetland change detection in the Nile swamps of southern Sudan

Imagejtoolbox for Oceanography

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