| 2023 | Feizizadeh, B.; Adabikhosh, S.J.; Panahi: A Scenario-Based and Game-Based Geographical Information System (GIS) Approach for Earthquake Disaster Simulation and Crisis Mitigation. In: Sustainability,, 15, 11131., 2023, |
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| 2023 | Feizizadeh, B., Mohmadzadeh Alajujeh, K., Makki, M., A scenario-based food security analysis and halophyte crop suitability assessment in dying lake environments impacted by climate change,. In: International Journal of Applied Earth Observation and Geoinformation,, 2023, |
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| 2023 | Feizizadeh, B., Lakes, T., Omaradeh, D., Pourmoradian, S.,: Health effects of shrinking hyper-saline lakes: spatiotemporal modeling of the Lake Urmia drought on the local population . In: Nature Scientific Report, 13, 1622, 2023, |
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| 2023 | Feizizadeh, B., Omrazadehd, D., Ghasemia,G., Bageria, S., Lakes, T., Kitzmann, R., Ghanbari, A., Blaschke, T: Urban restaurants and online food delivery during the COVID-19pandemic: a spatial and socio-demographic analysis. In: International Journal of Digital Erath,, 2023, |
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| 2022 | Feizizadeh, B., Omarzadeh, D., Sharifi, A., Rahmani, A., Lakes, T.;,Blaschke: A GIS-Based Spatiotemporal Modelling of Urban Traffic Accidents in Tabriz City during the COVID-19 Pandemic.. In: Sustainability 14, 7468., 2022, |
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| 2022 | Feizizadeh, B., Omarzadeh, D., Mohmadzadeh Alajujeh, K., Blaschke, T., Makki, M: GIS-based spatiotemporal impact assessment of droughts in the hyper-saline Urmia Lake Basin on the hydro-geochemical quality of nearby aquifers. In: Remote Sensing https://www.mdpi.com/2072-4292/14/14/3407, 2022, |
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| 2022 | Feizizadeh,B.,Darbi, S.,Blaschke, T Lakes, T: QADI as a new method and alternative to Kappa for accuracy assessment of remote sensing-based image classification. In: Swnsors, https://doi.org/10.3390/s22124506, 2022, |
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| 2022 | Feizizadeh, B., Lakes, T., Omarzadeh, D., Sharifi, A., Blaschke, T., Karmizadeh, S., M: Scenario-based analysis of the impacts of lake drying on food production in the Lake Urmia Basin of Northern Iran. In: Nature Scientific Report, s41598-022-10159-2, 2022, |
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| 2021 | Feizizadeh, B., Mohmmadzadeh Alajujeh, K., Lakes,T., Blaschke, T., Omarzadeh, D: A comparative approach of integrated fuzzy object-based deep learning and machine learning techniques for monitoring land use/cover changes and environmental impacts assessment. In: GIScince and remote sesning, https://doi.org/10.1080/15481603.2021.2000350, 2021, |
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| 2021 | Feizizadeh, B., Kazamei, Garajeh, M., Blaschke, T., Lakes, T: A deep learning convolutional neural network algorithm for detecting saline flow sources and mapping the environmental impacts of the Urmia Lake drought in Iran. In: Catena, https://doi.org/10.1016/j.catena.2021.105585., 2021, |
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| 2021 | Feizizadeh, Bakhtiar and Garajeh, Mohammad Kazemi and Lakes, Tobia and Blaschke, Thomas: A deep learning convolutional neural network algorithm for detecting saline flow sources and mapping the environmental impacts of the {Urmia} {Lake} drought in {Iran}. In: CATENA, 207, 2021, 105585 |
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| 2021 | Feizizadeh, Bakhtiar and Omarzadeh, Davoud and Ronagh, Zahra and Sharifi, Ayyoob and Blaschke, Thomas and Lakes, Tobia: A scenario-based approach for urban water management in the context of the {COVID}-19 pandemic and a case study for the {Tabriz} metropolitan area, {Iran}. In: Science of The Total Environment, 790, 2021, 148272 |
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| 2021 | Feizizadeh, Bakhtiar and Ronagh, Zahra and Pourmoradian, Samreh and Gheshlaghi, Hassan Abedi and Lakes, Tobia and Blaschke, Thomas: An efficient {GIS}-based approach for sustainability assessment of urban drinking water consumption patterns: {A} study in {Tabriz} city, {Iran}. In: Sustainable Cities and Society, 64, 2021, 102584 |
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| 2021 | Feizizadeh, Bakhtiar and Kazemi Garajeh, Mohammad and Blaschke, Thomas and Lakes, Tobia: An object based image analysis applied for volcanic and glacial landforms mapping in {Sahand} {Mountain}, {Iran}. In: CATENA, 198, 2021, 105073 |
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| 2021 | Abedi Gheshlaghi, Hassan and Feizizadeh, Bakhtiar and Blaschke, Thomas and Lakes, Tobia and Tajbar, Sapna: Forest fire susceptibility modeling using hybrid approaches. In: Transactions in GIS, 25, 2021, 311--333 |
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| 2021 | Feizizadeh, B., Omarzadeh, D., Kazemi Garajeh, M., Lakes, T., Blaschke, T: Machine learning data-driven approaches for land use/cover mapping and trend analysis using Google Earth Engine. In: Journal of Environmental Planning and Management, https://doi.org/10.1080/09640568.2021.2001317., 2021, |
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