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Asif Mohaisin Sadri is an experienced Senior Executive specializes in Supply Chain Management. His interdisciplinary journey blends academic achievement with professional leadership. He began with a Bachelor of Science in Mechanical Engineering, laying a strong foundation for his problem-solving skills. Recognizing the importance of understanding diverse aspects of business, he pursued a Master of Development Studies, diving into socio-economic complexities. Further enhancing his data science expertise, he completed a Master of Business Intelligence and Analytics, refining his skills in data-driven decision-making. His research interests include equitable engineering systems design, data analytics and artificial intelligence in engineering education, and broadening participation in engineering.

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Dr. Arif Sadri is an Assistant Professor in the School of Civil Engineering & Environmental Sciences (CEES) at the University of Oklahoma. Previously, he was an Assistant Professor in the Moss School of Construction, Infrastructure & Sustainability (MSCIS) at the Florida International University (FIU). He was a Visiting Assistant Professor in the Department of Civil & Environmental Engineering at the Rose-Hulman Institute of Technology and an Adjunct Professor in the Civil Engineering Dept. at the Valparaiso University. Dr. Sadri received his doctoral training from the Lyles School of Civil Engineering at Purdue University with a solid background in Civil Engineering (Transportation), Network Science, and Social Science. Dr. Sadri's research focuses on how transportation systems depend on social and other physical systems in the context of natural and man-made hazards. Dr. Sadri develops data-driven and network-based solutions to enhance bottom-up resilience in complex, interdependent systems. Dr. Sadri specializes in resilience engineering, evacuation modeling, shared mobility, social influence modeling, machine learning, agent-based modeling, and network modeling. Dr. Sadri's research is currently funded by National Science Foundation (NSF), United States Department of Transportation (USDOT), Florida Department of Transportation (FDOT) and United States Agency for International Development (USAID). Dr. Sadri’s previous research has been funded by the National Science Foundation (NSF), Indiana Department of Transportation (INDOT), Indiana Local Technical Assistance Program (LTAP), and Andrew W. Mellon Foundation.

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Khondhaker Al Momin is a senior lecturer in the Department of Civil Engineering at Daffodil International University in Dhaka, Bangladesh. He holds a Bachelor of Science (B.Sc.) and a Master of Science (M.Sc.) degree in civil engineering from the Bangladesh University of Engineering and Technology (BUET). Currently, he is pursuing a Doctor of Philosophy (Ph.D.) in Civil Engineering at the University of Oklahoma (OU) in Norman, USA. In addition to his academic pursuits, he also serves as a graduate research assistant at OU. His research interests encompass diverse areas such as traffic incident analysis and prevention, traffic flow theory, autonomous connected electric shared (ACES) vehicles, big data analytics, network science, natural hazards, machine learning, and system optimization.

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Dr. Kittur is an Assistant Professor in the Gallogly College of Engineering at The University of Oklahoma. He completed his Ph.D. in Engineering Education Systems and Design program from Arizona State University, 2022. He received a bachelor’s degree in Electrical and Electronics Engineering and a Master’s in Power Systems from India in 2011 and 2014, respectively. He has worked with Tata Consultancy Services as an Assistant Systems Engineer from 2011–2012 in India. He has worked as an Assistant Professor (2014–2018) in the department of Electrical and Electronics Engineering, KLE Technological University, India. He is a certified IUCEE International Engineering Educator. He was awarded the ’Ing.Paed.IGIP’ title at ICTIEE, 2018. He is serving as an Associate Editor of the Journal of Engineering Education Transformations (JEET).

He is interested in conducting engineering education research, and his interests include student retention in online and in-person engineering courses/programs, data mining and learning analytics in engineering education, broadening student participation in engineering, faculty preparedness in cognitive, affective, and psychomotor domains of learning, and faculty experiences in teaching online courses. He has published papers at several engineering education research conferences and journals. Particularly, his work is published in the International Conference on Transformations in Engineering Education (ICTIEE), American Society for Engineering Education (ASEE), Computer Applications in Engineering Education (CAEE), International Journal of Engineering Education (IJEE), Journal of Engineering Education Transformations (JEET), and IEEE Transactions on Education. He is also serving as a reviewer for a number of conferences and journals focused on engineering education research.

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Dr. Tahrima Rouf is a visiting assistant professor at the Stephenson School of Biomedical Engineering (SBME) at the University of Oklahoma (OU). She received her bachelor's degree in chemical engineering from the Bangladesh University of Engineering and Technology and her doctoral degree from Purdue University. Her academic training and research experience have provided her with an excellent background in multiple interdisciplinary fields, including nanotechnology, materials science, chemical engineering, microbiology, and biochemistry. Her independent research program's main goal is to harness the capabilities of nanomaterials for biomedical applications to produce safer and more effective sensing technology and drug delivery. She gained expertise in the controlled synthesis and biochemical characterization of complex protein nanocomposites. In her teaching, she has been dedicated to engaging students in an interactive learning environment, and she is strongly committed to promoting diversity, equity, and inclusion. As a visiting assistant professor at the University of Oklahoma, she continues to build on her previous training in biopolymers and nanoparticles by moving into a biological system that will allow her to address additional questions regarding the utilization of nanomaterials in disease diagnosis and drug delivery. Dr. Rouf's teaching, research, and outreach activities serve as strong evidence of her passion to be successful in making long-term impacts through cutting-edge research and education.

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