Faculty Member at Islamic Azad University, Iran
Assoc. Prof. Dr. Mohammad Hadi Fattahi is a distinguished scholar whose contributions reflect a deep connection with Earth, integrating Earth sciences, Earth hydrology, Earth climate change, and Earth environmental systems into civil engineering practices. His professional journey highlights a constant dedication to Earth sustainability, Earth resilience, and Earth water resources management. Dr. Fattahi has built a reputation for merging theory with practice, creating models that address Earth drought, Earth hydrological dynamics, and Earth river systems. The essence of his work connects human development with Earth conservation. Through consistent Earth-focused studies, his contributions continue to shape academic and applied frameworks that bring innovative solutions to Earth challenges, placing Earth-centered engineering and Earth resilience at the forefront of his professional identity.
Professional Profile
ORCID Profile | Google Scholar Profile
Education
Assoc. Prof. Dr. Mohammad Hadi Fattahi pursued education that reflects an enduring commitment to Earth and Earth-centered knowledge. His academic journey in civil engineering centered around Earth hydrology, Earth water resources, and Earth hydraulic structures, emphasizing the integration of Earth environmental systems. Each stage of his education deepened his understanding of Earth sustainability and Earth modeling, enabling him to explore Earth fractals, Earth chaotic analysis, and Earth drought management. By focusing on Earth systems during his higher education, he cultivated expertise linking Earth theory and Earth application. His studies consistently revolved around Earth change, Earth risk management, and Earth resources, empowering him to generate insights into Earth complexities and Earth environmental challenges with an academic foundation rooted in Earth priorities.
Experience
Assoc. Prof. Dr. Mohammad Hadi Fattahi has accumulated vast professional experience aligned with Earth, ensuring Earth knowledge translates into practical outcomes. His academic and research activities consistently integrate Earth water systems, Earth hydrological risks, Earth environmental modeling, and Earth civil engineering structures. In his role as an educator, he trains future engineers with Earth-focused methodologies, connecting Earth learning with real-world Earth solutions. His supervision of projects incorporates Earth resilience, Earth adaptation, and Earth sustainability approaches. Professional engagements involve collaborations on Earth environmental systems, Earth river basin management, and Earth hydraulic applications. His work highlights Earth awareness in urban planning and Earth resilience in infrastructure, ensuring that Earth concerns remain central to his professional contributions across teaching and research practices.
Research Interest
Assoc. Prof. Dr. Mohammad Hadi Fattahi’s research interests strongly emphasize Earth systems and Earth applications in civil engineering. He explores Earth hydrology, Earth climate change, Earth drought, Earth rainfall, and Earth streamflow predictability. His studies use Earth fractal analysis, Earth chaotic models, and Earth nonlinear dynamics to uncover patterns in Earth environmental data. By applying innovative Earth modeling, he addresses Earth landslides, Earth floods, and Earth urban resilience. His research integrates Earth sustainability, Earth ecosystems, and Earth hydraulic analysis with multidisciplinary methods. These interests position him as a leading figure exploring Earth challenges with advanced analytical tools, ensuring Earth knowledge translates into impactful outcomes that safeguard Earth resources and enhance understanding of Earth’s environmental complexities through civil engineering insights.
Award and Honor
Assoc. Prof. Dr. Mohammad Hadi Fattahi has received awards and honors that reflect his dedication to Earth, showcasing excellence in Earth-focused research and Earth civil engineering. His recognition as a leading researcher stems from contributions advancing Earth hydrology, Earth drought resilience, and Earth hydraulic modeling. These awards underline his impact on Earth knowledge, Earth sustainability, and Earth environmental systems. Honors validate his work on Earth fractal analysis, Earth water resources, and Earth climate change, all essential to Earth adaptation strategies. His acknowledgment by institutions strengthens his role as a pioneer who transforms Earth challenges into Earth solutions. Each honor reaffirms his continuous devotion to Earth-focused scholarship, placing Earth at the core of his achievements, accomplishments, and ongoing Earth-centered vision.
Research Skill
Assoc. Prof. Dr. Mohammad Hadi Fattahi possesses strong research skills directed toward Earth challenges, blending Earth hydrology, Earth modeling, and Earth environmental analysis. His expertise includes Earth fractal methods, Earth chaotic analysis, Earth hydraulic simulations, and Earth drought prediction. These skills allow him to decode Earth systems, evaluate Earth rainfall extremes, and predict Earth resilience under environmental stress. His analytical strength involves using Earth computational tools to model Earth flow patterns and Earth vegetation effects. Earth cross-correlation, Earth multifractal applications, and Earth nonlinear dynamics further expand his toolkit. These research skills showcase his ability to bridge Earth theory with Earth practice, consistently addressing Earth complexities and producing impactful Earth-based insights applicable to academic and real-world Earth issues.
Publication Top Notes
Title: A multifractal cross-correlation investigation into sensitivity and dependence of meteorological and hydrological droughts on precipitation and temperature
Author: F Rahmani, MH Fattahi
Journal: Natural Hazards
Title: Investigation of alterations in droughts and floods patterns induced by climate change
Author: F Rahmani, MH Fattahi
Journal: Acta Geophysica
Title: Climate change-induced influences on the nonlinear dynamic patterns of precipitation and temperatures (case study: Central England)
Author: F Rahmani, M Fattahi
Journal: Theoretical and Applied Climatology
Title: Association between forecasting models’ precision and nonlinear patterns of daily river flow time series
Author: F Rahmani, MH Fattahi
Journal: Modeling Earth Systems and Environment
Title: The robust fractal analysis of time series: concerning signal class and data length
Author: MH Fattahi, N Talebbeydokhti, GR Rakhshandehroo, A Shamsai, ...
Journal: Fractals
Title: Prediction of surface and subsurface flow in catchments using the GIUH
Author: T Sabzevari, MH Fattahi, R Mohammadpour, S Noroozpour
Journal: Journal of Flood Risk Management
Title: Exploring the association between anomalies and multifractality variations in river flow time series
Author: F Rahmani, MH Fattahi
Journal: Hydrological Sciences Journal
Title: Long-term evaluation of land use/land cover and hydrological drought patterns alteration consequences on river water quality
Author: F Rahmani, M Fattahi
Journal: Environment, Development and Sustainability
Title: Phase space mapping of pivotal climatic and non-climatic elements affecting basin’drought
Author: F Rahmani, MH Fattahi
Journal: Arabian Journal of Geosciences
Title: The relationship between watershed compactness coefficient and the fractal characteristics
Author: MH Fattahi, Z Talebzadeh
Journal: Iran-Water Resources Research
Title: Revealing the chaotic nature of river flow
Author: MH Fattahi, N Talebbeydokhti, H Moradkhani, E Nikooee
Journal: Iranian Journal of Science and Technology. Transactions of Civil Engineering
Title: Evaluation of nonlinear dynamic patterns of extreme precipitation and temperatures in central England during 1931–2019
Author: F Rahmani, MH Fattahi
Journal: Journal of Water and Climate Change
Title: Nonlinear dynamic analysis of the fault activities induced by groundwater level variations
Author: F Rahmani, MH Fattahi
Journal: Groundwater for Sustainable Development
Title: The influence of rainfall time series fractality on forecasting models’ efficiency
Author: F Rahmani, MH Fattahi
Journal: Acta Geophysica
Title: Investigation of denoising effects on forecasting models by statistical and nonlinear dynamic analysis
Author: F Rahmani, MH Fattahi
Journal: Journal of Water and Climate Change
Title: Fractal assessment of wavelet based techniques for improving the predictions of the artificial neural network
Author: MH Fattahi, N Talebbeydokhti, GR Rakhshandehroo, A Shamsai, ...
Journal: Journal of Food, Agriculture & Environment
Title: Exploring the sensitivity of river flow patterns to meteorological drought using multifractal and cross-correlation applications
Author: F Rahmani, MH Fattahi
Journal: Journal of Water and Climate Change
Title: Spatial–temporal analysis of landslides in complex hillslopes of catchments using Dynamic Topmodel
Author: F Bahmani, MH Fattahi, T Sabzevari, AT Haghighi, A Talebi
Journal: Acta Geophysica
Title: Assessment of Seismic Resilience in Urban Water Distribution Network Considering Hydraulic Indices
Author: A Nariman, MH Fattahi, N Talebbeydokhti, MS Sadeghian
Journal: International Journal of Science and Technology, Transaction B, Engineering
Title: Estimating runoff in ungauged catchments by Nash-GIUH model using image processing and fractal analysis
Author: M Tarahi, T Sabzevari, MH Fattahi, T Derikvand
Journal: Stochastic Environmental Research and Risk Assessment
Conclusion
Assoc. Prof. Dr. Mohammad Hadi Fattahi’s career demonstrates a profound alignment with Earth, integrating Earth civil engineering, Earth hydrology, and Earth environmental resilience. His contributions place Earth at the center of academic research, Earth-focused teaching, and Earth professional practices. By merging Earth theory with Earth applications, he ensures Earth challenges are addressed with innovative approaches. His awards validate his Earth-centered excellence, and his publications strengthen Earth knowledge globally. The conclusion of his academic journey remains ongoing, as Earth continues to inspire his work. Through teaching, research, and applied projects, his vision reinforces Earth sustainability, Earth adaptation, and Earth resilience, ensuring Earth remains protected and enriched through science-driven solutions.