Mahdi Shadabfar | Geotechnical Engineering | Best Researcher Award

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Prof. Mahdi Shadabfar | Geotechnical Engineering | Best Researcher Award

Assistant Professor, Ayatollah Boroujerdi University, Iran

Mahdi Shadabfar is a leading researcher and academic in the fields of artificial intelligence and machine learning, with a focus on geotechnical engineering. He currently serves as a Research Fellow at Lakehead University, Canada, specializing in probabilistic geohazard analysis using deep learning techniques. His extensive background includes postdoctoral research at Sharif University of Technology in Iran and Tongji University in China. Dr. Shadabfar has contributed significantly to geotechnical engineering, particularly in reliability analysis, risk assessment, and resilience of civil infrastructure under uncertain conditions. He holds a Ph.D. in Geotechnical Engineering from Hohai University, China, and has received numerous prestigious awards and honors for his work. Dr. Shadabfar’s research explores deep learning, Internet of Things (IoT), and disaster response strategies, aiming to drive innovation in civil and geotechnical engineering practices.

Profile

Google Scholar

Education

Dr. Mahdi Shadabfar holds a Ph.D. in Geotechnical Engineering from Hohai University, China (2012-2017), where he conducted pioneering research in the reliability analysis of induced damage by single-hole rock blasting. He earned his Master’s degree in Civil Engineering, Earthquake Engineering, from Shahid Beheshti University, Tehran, Iran (2009-2011), focusing on the seismic behavior of buried steel pipelines. His Bachelor’s degree, also from Shahid Beheshti University (2005-2009), was in Civil Engineering, with a thesis on retrofitting RC structures using FRP. Throughout his academic journey, Dr. Shadabfar has been recognized for his excellence in research and academic performance, achieving high GPAs in his studies. He has also pursued various short-term programs and received international recognition, including visiting tsunami-stricken areas of Japan as part of a research program sponsored by Japan’s Ministry of Education, Culture, Sports, Science, and Technology (MEXT).

Experience

Dr. Shadabfar has vast academic and professional experience in civil and geotechnical engineering. He is currently a Research Fellow at Lakehead University in Canada, focusing on probabilistic geohazard analysis using deep learning. Prior to this, he completed postdoctoral research at Sharif University of Technology in Iran, studying performance-based reliability analysis of underground structures, and at Tongji University in China, where he conducted risk and reliability assessments for geotechnical systems. In addition to his research roles, Dr. Shadabfar has taught at several institutions worldwide, including Fujian University of Technology (China), Lorestan University (Iran), and Shahid Beheshti University (Iran), where he led courses in earthquake engineering, geostatistics, and structural analysis. He also created and delivered online courses on his personal website, focusing on topics like deep neural networks and Monte Carlo sampling, demonstrating his commitment to academic innovation and knowledge dissemination in the field of geotechnical engineering.

Awards and Honors

Dr. Mahdi Shadabfar has received numerous prestigious awards and honors throughout his career. He was awarded funding from the Northern Ontario Heritage Fund Corporation (NOHFC) to support his research at Lakehead University. He also received national talent funding from Iran’s National Elites Foundation (INEF) for his research position at Sharif University of Technology. Dr. Shadabfar’s postdoctoral research at Tongji University in China was supported by dedicated research funding for two years. His academic excellence has been recognized through the “Academic Innovation” award from Hohai University for two consecutive years (2013-2014). Furthermore, he was awarded a full scholarship by the China Scholarship Council (CSC) for his doctoral studies in China. These accolades highlight his exceptional contributions to geotechnical engineering and research, reflecting his innovative approach to applying artificial intelligence and machine learning techniques in infrastructure resilience and risk analysis.

Research Focus

Dr. Mahdi Shadabfar’s research focuses on applying artificial intelligence and machine learning techniques in the field of geotechnical engineering, specifically in reliability analysis, risk assessment, and the resilience of civil infrastructure. His current work at Lakehead University revolves around probabilistic geohazard analysis through deep learning models. Dr. Shadabfar’s research is centered on optimizing urban infrastructure systems, improving disaster response planning, and assessing the impacts of climate change on civil structures. He is also deeply involved in exploring the Internet of Things (IoT) for smart cities and sustainable infrastructure development, along with predictive maintenance strategies. Furthermore, his work in digital twin technology and augmented reality aims to revolutionize civil engineering design and construction. Dr. Shadabfar’s research seeks to integrate cutting-edge technologies to create robust, sustainable, and resilient infrastructure systems capable of responding effectively to natural disasters and environmental challenges.

Publication Top Notes

  • Deep learning-based automatic recognition of water leakage area in shield tunnel lining 🛠️💧
  • Rock fragmentation induced by a TBM disc-cutter considering the effects of joints 🏗️💥
  • Deep learning‐based classification and instance segmentation of leakage‐area and scaling images of shield tunnel linings 📸🔧
  • Beam damage detection under a moving load using random decrement technique and Savitzky–Golay filter 🏗️⚙️
  • Resilience-based design of infrastructure: Review of models, methodologies, and computational tools 🏢💡
  • Image-based segmentation and quantification of weak interlayers in rock tunnel face via deep learning 🧱🔍
  • An optimization strategy to improve the deep learning‐based recognition model of leakage in shield tunnels 🔍🛠️
  • Multi-source data driven method for assessing the rock mass quality of a NATM tunnel face via hybrid ensemble learning models 📊🪨
  • A combined review of vibration control strategies for high-speed trains and railway infrastructures 🚄🔧
  • Approximation of the Monte Carlo sampling method for reliability analysis of structures 🧮🔬

 

 

Young Min JO | Environmental engineering | Environmental Engineering Award

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Prof . Young Min JO | Environmental engineering | Environmental Engineering Award

Professor, Kyung Hee University, South Korea

Dr. Young Min Jo is a Professor at the Department of Environmental Engineering at Kyung Hee University in South Korea. With a career spanning over two decades, he has made significant contributions to environmental science, particularly in air pollution control and indoor air quality. His expertise includes dust filtration, CO2 capture, odor and VOC control, and energy material synthesis. Dr. Jo holds a Ph.D. in Chemical Engineering from the University of New South Wales, Australia, and has worked as a researcher and professor at various renowned institutions globally. He is also an active participant in environmental policy discussions, serving in various leadership roles in professional societies such as the Korean Society of Odor Environment. Dr. Jo’s commitment to research and teaching has earned him numerous accolades and recognition in the field of environmental engineering.

Profile:

Orcid

Scopus

Education:

Dr. Young Min Jo completed his academic journey with a focus on Chemical Engineering. He earned his Ph.D. in Chemical Engineering from the University of New South Wales (UNSW), Australia, in 1997. Prior to this, he obtained both his M.S. (1986) and B.S. (1984) degrees from Korea University, where he specialized in Chemical Engineering. His strong academic background laid the foundation for his future career in environmental science and engineering, where he has contributed to research, education, and policy. Throughout his education, Dr. Jo was exposed to a diverse range of topics that span chemical engineering and environmental sustainability, with a particular emphasis on air pollution control and energy systems. His education at leading institutions has provided him with the theoretical and practical knowledge necessary to address pressing environmental challenges.

Experience:

Dr. Young Min Jo has extensive experience in both academia and research. He has been a Professor at Kyung Hee University, South Korea, since 1998, shaping the next generation of environmental engineers. His academic journey also includes prestigious international roles, such as a Visiting Fellow at the Toyama National Institute of Technology (2014-2015) and a Visiting Researcher at the University of Missouri at Rolla (2005-2006). Dr. Jo’s early career includes research positions at the Environmental Research Center of National University of Singapore (1997-1998) and the Center for Particle & Catalysis at UNSW (1996). He also worked as a researcher at Daewoo Electronics Ltd., Korea (1986-1991), contributing to industrial applications. Throughout his career, Dr. Jo has collaborated on various international projects and research initiatives, earning recognition for his expertise in environmental pollution control, air quality, and sustainable energy solutions.

Awards and Honors:

Dr. Young Min Jo has earned several accolades for his contributions to environmental engineering. As Vice President of the Korean Society of Odor Environment (2022-present), he has led initiatives to address odor-related environmental concerns. He served as the Chairman of i-CIPEC (2019-2020), further solidifying his leadership in the environmental field. Dr. Jo has also been a Director of the Center for Environmental Studies (2018-2021) and the Environmental Education Center of Gyeonggi-do (2018-2019), demonstrating his commitment to environmental education and public awareness. In addition, he holds a Senior Consultant position at the National Institute of Environment Research (2017-present) and serves as an Advisory Member of the Korea Air Cleaning Association. These roles reflect his ongoing influence in shaping environmental policy and research in South Korea, earning him recognition for his expertise in air quality and pollution control.

Research Focus:

Dr. Young Min Jo focuses on environmental challenges, with a particular emphasis on air pollution control, indoor air quality monitoring, and energy material synthesis. His research encompasses a variety of topics, including dust filtration, CO2 capture, and odor & VOC control, which are crucial for mitigating pollution in urban environments. He also investigates the health implications of particulate matter and its effects on indoor environments, including classroom air quality. Another key area of his research is the synthesis of sustainable energy materials that can contribute to cleaner, more efficient energy solutions. Dr. Jo’s work on activated carbon materials, particularly bamboo-based activated carbon for CO2 adsorption, highlights his efforts to develop sustainable solutions for indoor air quality. His interdisciplinary approach integrates environmental engineering, materials science, and health sciences, offering valuable insights into improving air quality and sustainability in both indoor and outdoor environments.

Publication Titles :

  1. Correlation between carbonaceous materials and fine particulate matters in urban school classrooms 📚💨
  2. Effects of surrounding environment and student activity on the concentration of particulate matter in elementary school classrooms in South Korea 🏫🌫️
  3. Synthesis of Hydroxylammonium Nitrate and Its Decomposition over Metal Oxide/Honeycomb Catalysts ⚗️💥
  4. Fabrication of Bamboo-Based Activated Carbon for Low-Level CO2 Adsorption toward Sustainable Indoor Air 🌱🌀
  5. Preparation and Characterization of Bamboo-based Activated Carbon for Low-level CO2 Adsorption 🍃🧪
  6. Subchronic pulmonary toxicity of ambient particles containing cement production–related elements 💨⚠️
  7. Removal of Ammonia, Hydrogen Sulfide, and Methyl Mercaptan as Livestock Odor Using a Low-energy (0.2 MeV) Electron Beam Accelerator 🐄💨
  8. Air Quality Index through Inverse Evaluation of Hazard Quotient for Public Indoor Facilities-schools, child daycare centers and elderly nursing homes 🏢🏫
  9. Subway station dust-induced pulmonary inflammation may be due to the dysfunction of alveolar macrophages: Possible contribution of bound elements 🚇💨
  10. Ventilation strategy for simultaneous management of indoor particulate matter and airborne transmission risks – A case study for urban schools in South Korea 🏫🌀