Hüseyinturan Arat | Hydrogen Mobility | Research Excellence Award

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Prof. Dr. Hüseyinturan Arat | Hydrogen Mobility | Research Excellence Award

Professor  |  Sinop University  |  Turkey

Prof. Dr. Hüseyin Turan Arat is a distinguished academic and researcher with a strong focus on advanced automotive and energy systems. His summary reflects sustained contributions to mechanical and automotive engineering through high-impact research and academic leadership. His education has provided a solid foundation in mechanical and automotive engineering, supporting interdisciplinary innovation. Professional experience includes progressive academic roles culminating in full professorship, alongside leadership and advisory responsibilities in national and international initiatives. Research interests center on hybrid and electric vehicles, hydrogen and alternative fuels, fuel cell technologies, thermodynamics, and sustainable propulsion systems. His research skills include experimental engine analysis, energy–exergy assessment, system modeling, and vehicle simulation. Awards and honors recognize excellence in hydrogen energy research, highly cited publications, and global scientific impact. In conclusion, his work significantly advances clean transportation and energy technologies with strong academic and societal relevance. He has achieved 1081 Citations, 25 Documents,14 h -index.

 

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1,081
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25
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14
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Top 5 Publications

Erfan Abbasi Shahisaraei | Electric Vehicles | Student Research Paper Award

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Mr. Erfan Abbasi Shahisaraei | Electric Vehicles | Student Research Paper Award

PhD Student | Tarbiat Modares University | Iran

Mr. Erfan Abbasi Shahisaraei is a mechanical engineering researcher with strong expertise in fatigue life analysis, advanced structural design, and composite and architected materials. Professional experience includes research and engineering roles focused on electric vehicle battery pack design, vibration and shock analysis under international standards, reverse engineering of steelmaking equipment, and structural and fatigue analysis of industrial systems using advanced FEA tools. Research interests span fatigue and dynamic behavior of electric vehicle components, lattice and fiber-reinforced composites, fracture mechanics, and optimization-driven structural design. Research skills include finite element modeling, fatigue assessment, multi-body dynamics, numerical optimization, and engineering simulation using industry-standard software and programming tools. Awards and honors reflect consistent academic and research excellence through competitive projects and peer-reviewed publications. Overall, the work demonstrates a strong integration of theory, simulation, and applied engineering for energy and transportation systems.He has achieved 1 document.


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Featured Publication


Numerical Fatigue Life Analysis for Battery Pack of Electric Bus Under Random Vibration


– Iranian Journal of Science and Technology, Transactions of Mechanical Engineering, 2025

Wanke cao | Electric Vehicles | Best Paper Award

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Prof. Wanke Cao | Electric Vehicles | Best Paper Award

Director of the Department of In-Vehicle Network Technologies |  Shenzhen Automotive Research Institute (SZART) | China

Prof. Wanke Cao is an established academic and researcher in electric vehicle engineering, with a strong profile spanning summary, professional experience, research interests, research skills, awards and honors, and overall contributions to the field. His professional experience includes long-term academic leadership and research roles in electric vehicle systems, in-vehicle networks, and intelligent automotive technologies, with international research exposure and institutional responsibilities. His research interests focus on networked control of electric vehicles, vehicle dynamics and control, and in-vehicle network technologies. His research skills include modeling and control of vehicle systems, intelligent transportation technologies, embedded and networked automotive systems, and applied engineering research. He has received recognition for sustained research output, academic service, and technical contributions. Overall, his work demonstrates consistent impact on electric vehicle technology development and scholarly advancement. He has acheived 1195 Citations, 69 Documents,16 h-index.

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1,195
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69
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Eshetu Haile Gorfie | Hybrid Vehicles | Research Excellence Award

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Dr. Eshetu Haile Gorfie | Hybrid Vehicles | Research Excellence Award

Researcher | Bahir Dar University | Ethiopia

Dr. Eshetu Haile Gorfie is an accomplished academic and researcher with extensive experience in teaching, research, and academic leadership within the field of mathematics. His professional experience spans undergraduate and postgraduate instruction, supervision of MSc and PhD researchers, curriculum coordination, and leadership roles such as department head and program coordinator. His research interests focus on fluid dynamics, magnetohydrodynamics, nanofluid flow, differential equations, numerical methods, and heat and mass transfer phenomena. He possesses strong research skills in mathematical modeling, analytical and numerical analysis, scientific computing, and scholarly publishing, with contributions to high-impact international journals. His awards and honors recognize excellence in teaching, conference leadership, and academic service. Overall, his work demonstrates sustained impact through research productivity, mentorship, and institutional contribution.He has acheived  357 Citations, 19 Documents, 9 h-index.

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357
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19
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9
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Ayşe Tuğba Yapıcı | Electric Vehicles | Best Research Article Award

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Ms. Ayşe Tuğba Yapıcı | Electric Vehicles | Best Research Article Award

Doctoral Researcher  |  Kocaeli University  |  Turkey

Ms. Ayşe Tuğba Yapıcı is a dedicated doctoral researcher whose academic journey is strongly rooted in cutting-edge technologies for electric vehicles, smart energy systems, and intelligent power electronics. She has cultivated significant professional experience through her active involvement in research addressing real-world problems such as electric vehicle charging optimization, grid-integrated charging infrastructures, and advanced modeling of power converter systems. Throughout her career, she has contributed to impactful scientific studies focusing on induction heating systems, charging time prediction using deep learning, and data-driven forecasting on electric vehicle adoption and infrastructure planning. Her research interests include electric vehicle technologies, charging station design, renewable-integrated smart grids, artificial intelligence–based energy forecasting, machine learning and deep learning applications in power systems, and IoT-enhanced smart mobility frameworks. She possesses strong research skills in Python-based deep learning toolkits, MATLAB/Simulink, DigSilent PowerFactory modeling, statistical evaluation metrics, time-series forecasting, optimization algorithms, and performance analysis of intelligent systems. She has published multiple peer-reviewed articles in international SCI/Scopus-indexed journals, delivering innovative research outcomes that offer comprehensive and practical solutions for the sustainable development of electric transportation. Her research achievements include proposing an intelligent deep learning–based framework for EV charging time prediction, integrating spatial–temporal mobility parameters, and enhancing operational efficiency for fast-charging infrastructures. Her work stands out for its interdisciplinary approach and technological significance, supporting the transition toward cleaner mobility, optimized charging networks, and smart energy management. In addition to research excellence, she continues to contribute to academic and scientific communities through conference participation, collaborations, and knowledge dissemination. She aims to advance secure, intelligent, and scalable charging automation systems that support next-generation autonomous electric mobility. Her long-term vision is to shape energy-efficient transportation ecosystems, reduce environmental impacts, and contribute to the global sustainability agenda through innovation and scientific leadership. She has achieved  3 Citations , 2 Documents,  1 h-index.

Featured Publications

Yapıcı, A. T., & Abut, N. (2025, November 23). An intelligent and secure IoT-based framework for predicting charging and travel duration in autonomous electric taxi systems. Applied Sciences.

Yapıcı, A. T., Abut, N., & Yıldırım, A. (2025, October 27). Estimation of future number of electric vehicles and charging stations: Analysis of Sakarya Province with LSTM, GRU and multiple linear regression approaches. Applied Sciences.

Yapıcı, A. T., & Abut, N. (2025, August 21). Geleceğe yönelik elektrikli araç ve şarj istasyonu sayılarının LSTM ve GRU derin öğrenme yöntemleri kullanılarak tahmin edilmesi: Kocaeli ili örneği. Politeknik Dergisi.

Yapıcı, A. T., Abut, N., & Erfidan, T. (2025, April 11). Comparing the effectiveness of deep learning approaches for charging time prediction in electric vehicles: Kocaeli example. Energies.

Yapıcı, A. T., & Abut, N. (2024, September 15). Elektrikli araç şarj istasyonu konum tasarımında, Digsilent yazılımı kullanılarak Kocaeli Üniversitesi Umuttepe Kampüsü için örnek uygulama. Black Sea Journal of Engineering and Science.

Ayşe Tuğba Yapıcı’s research advances intelligent and sustainable electric mobility by integrating deep learning, smart grid technologies, and IoT-based predictive frameworks to optimize charging infrastructure and energy management. Her work supports the transition toward autonomous electric transportation, reducing environmental impacts, improving urban mobility planning, and contributing to global innovation in smart energy systems. She envisions scalable, reliable, and human-centered smart mobility ecosystems that accelerate the adoption of clean transportation worldwide.

Xiaokai Chen | Automobile Engineering | Editorial Board Member

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Assoc. Prof. Dr. Xiaokai Chen | Automobile Engineering | Editorial Board Member

Research Team Leader | Kunming University of Science and Technology | China

Assoc. Prof. Dr. Xiaokai Chen is an accomplished associate professor whose work centers on environmental health and safety in automobile cabins, contributing significantly to advancements in indoor air quality control, vehicle cabin pollution assessment, and the development of intelligent purification and safety systems for transportation environments. His professional experience includes long-term research and teaching in heating, ventilation, and air-conditioning (HVAC) engineering, where he has led multiple scientific projects, secured patents on innovative air-purification and disinfection technologies, and produced influential publications spanning air-pollution exposure, vehicle-cabin ventilation optimization, and safety-oriented engineering design. His research interests focus on vehicular environmental safety, pollutant behavior in transportation microenvironments, ventilation and purification system design, and risk assessment models for airborne contaminants affecting drivers and passengers. He demonstrates strong research skills in experimental testing, HVAC system design, pollutant detection and modeling, vehicle-cabin environmental analysis, and safety-oriented engineering optimization. His portfolio also showcases achievements such as contributing to monographs and textbooks, advising students who earned competitive academic recognitions, and guiding graduate researchers into industry sectors including construction, rail, quality supervision, and automotive manufacturing. In addition, he has provided extensive academic and social service as a technical expert in automotive research institutions, a member of key engineering societies, a reviewer for high-impact international journals, and an evaluator for national research foundations and academic competitions. His awards and honors reflect his contributions to technology innovation, student mentorship, research excellence, and professional service, reinforcing his reputation as a dedicated scholar promoting healthier and safer vehicular environments. Overall, his work bridges engineering innovation and public well-being, offering impactful solutions to real-world environmental health challenges in modern transportation systems, while sustaining active engagement in academic, industrial, and societal development. He has achieved 514 Citations, 14 Documents, 8 h-index.

Profiles:  Google Scholar  |  Scopus | ORCID

Featured Publications 

1.Feng, L., Xuan, Z., Zhao, H., Bai, Y., Guo, J., Su, C., & Chen, X. (2014). MnO₂ prepared by hydrothermal method and electrochemical performance as anode for lithium-ion battery. Nanoscale Research Letters, 9(1), 290. Citations: 239.

2. Xu, B., Chen, X., & Xiong, J. (2018). Air quality inside motor vehicles’ cabins: A review. Indoor and Built Environment, 27(4), 452–465. Citations: 141.

3. Chen, X., Zhang, G., Zhang, Q., & Chen, H. (2011). Mass concentrations of BTEX inside air environment of buses in Changsha, China. Building and Environment, 46(2), 421–427. Citations: 80.

4. Chen, X., Feng, L., Luo, H., & Cheng, H. (2014). Analyses on influencing factors of airborne VOCs pollution in taxi cabins. Environmental Science and Pollution Research, 21(22), 12868–12882. Citations: 52.

5. Feng, L., Xuan, Z., Bai, Y., Zhao, H., Li, L., Chen, Y., Yang, X., Su, C., Guo, J., et al. (2014). Preparation of octahedral CuO micro/nanocrystals and electrochemical performance as anode for lithium-ion battery. Journal of Alloys and Compounds, 600, 162–167. Citations: 38.

The nominee’s research advances scientific understanding of vehicle-cabin air quality and battery-material performance, addressing critical challenges in public health, environmental protection, and energy storage. His work supports cleaner transportation environments and contributes to the development of safer, more sustainable automotive technologies. Through impactful publications and applied innovation, his research drives progress at the intersection of engineering, society, and global well-being.

 

 

Amirmahdi Rahmani | Environmental Impact of Vehicles | Editorial Board Member

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Mr. Amirmahdi Rahmani | Environmental Impact of Vehicles | Editorial Board Member

Master Student in Sustainability in Polymer Technology | Deggendorf Institute of Technology | Germany

Mr. Amirmahdi Rahmani is a passionate and forward-thinking researcher whose work bridges sustainability, renewable energy, and advanced materials engineering. His academic foundation and professional journey reflect a deep commitment to advancing eco-friendly technologies and sustainable industrial practices. His research experience spans diverse domains, including green tribology, bio-lubricants, renewable energy systems, and polymer sustainability. Through his professional roles, he has contributed to enhancing mechanical and environmental performance in industrial applications, from improving the mechanical properties of lubricants to optimizing oscillating flow reactors for efficient mixing processes. His collaboration with leading institutions and companies such as Springer Nature, Pardis Shimi Bakhtar Co., and Iran Khodro Co. underscores his technical expertise and research integrity. Rahmani’s publications demonstrate a consistent focus on sustainability and innovation, with studies exploring bio-lubricants, nano-enhancers, zero-carbon village models, and wind energy optimization for greenhouse gas reduction. His research interests lie in sustainable materials development, circular economy integration, renewable energy conversion, and mechanical system optimization for low-carbon technologies. He is skilled in experimental design, computational modeling, life cycle assessment, and energy efficiency analysis, combining theoretical insights with practical applications. His achievements reflect academic rigor, professional discipline, and a global perspective on the transition to sustainable energy systems. Rahmani’s dedication to research excellence and his interdisciplinary approach position him as an emerging scholar in the fields of green technology and sustainable engineering. He has achieved 11 Citations, 3 documents, 2h-index.

Profiles:  Google Scholar Scopus

Featured Publications 

  1. Yousefi, H., Montazeri, M., & Rahmani, A. (2021). Techno-economic analysis of wind turbine systems to reduce carbon emission of greenhouses: A case study in Iran. In Proceedings of the 7th Iran Wind Energy Conference (IWEC2021) (pp. 1–4). IEEE.

  2. Rahmani, A., Razavi, H. K., & Dehghani-Soufi, M. (2024). Green tribology assessment: A comprehensive review of bio-lubricants and nano enhancers. Energy Conversion and Management: X, 24, 100794.

  3. Yousefi, H., Rahmani, A., & Montazeri, M. (2023). Sustainable development through the establishment of zero-carbon villages. In Proceedings of the 8th International Conference on Technology and Energy Management (ICTEM2023). IEEE.

  4. Rahmani, A., Dehghani-Soufi, M., Fazeli, H., & Razavi, H. K. (2024). Experimental analysis of nano additive mixing in bio-lubricants: Implications for tribological performance using oscillatory flow technology. Available at SSRN 5118516.

    Mr. Amirmahdi Rahmani’s research advances sustainable energy and green tribology through innovative material science and renewable technology integration. His work bridges environmental engineering and mechanical optimization, providing scalable solutions for low-carbon industries. By combining experimental and techno-economic analyses, Rahmani contributes to the global transition toward sustainable manufacturing, clean energy systems, and environmentally responsible engineering innovation.

 

Saint Jacques Le-Majeur MANDELOT-MATETELOT | Powertrain Engineering | Best Innovation Award

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Saint Jacques Le-Majeur MANDELOT-MATETELOT | Powertrain Engineering | Best Innovation Award

Research Scholar  |  Pan African University  |  Central African Republic

Mr. Saint Jacques Le-Majeur Mandelot-Matelot is an accomplished civil engineer and academic professional recognized for his expertise in construction management, structural engineering, and sustainable materials. With a strong foundation in civil engineering and extensive leadership experience, he has served as Managing Director of La-Résurrection, overseeing major national and international construction projects involving design, renovation, and structural optimization. His academic and professional trajectory reflects a deep commitment to enhancing infrastructure resilience and sustainability, particularly through his research on the “Effect of Ronier Fiber and Silica Fume on Mechanical and Durability Properties of High-Strength Concrete,” which explores innovative material technologies for high-performance concrete. His research interests focus on advanced construction materials, sustainable infrastructure development, project management, and water and sanitation systems. Skilled in AutoCAD, ArchiCAD, Revit, Artlantis, and Robot, he demonstrates proficiency in structural analysis, geotechnical design, and hydraulic engineering. Beyond his technical expertise, he possesses strong managerial and entrepreneurial capabilities, excelling in tender preparation, cost analysis, and multidisciplinary team coordination. His teaching experience at the University of Bangui highlights his dedication to knowledge transfer, mentoring students in both theoretical and practical aspects of civil engineering. He has published peer-reviewed research articles in reputed journals such as ETASR and Wiley, reflecting his growing contribution to scientific advancement. His professional affiliations with the Order of Civil Engineers of the Central African Republic and the Central African Entrepreneurs Association further underscore his leadership in the engineering community. Among his professional development achievements are certifications in entrepreneurship, innovation, crisis management, and leadership. Through his blend of academic rigor, field experience, and innovation-driven mindset, Mandelot-Matelot continues to contribute to the advancement of sustainable construction and infrastructure systems in Africa and beyond. He has acheived 2 Publications.

 

Profiles:  ORCID | Research Gate

Featured Publications

Mandelot-Matelot, S. J. L., Mogire, P., & Odero, B. (2025, March). Performance of alkali treated and untreated Ronier fiber (Borassus aethiopum) on mechanical and durability properties of reinforced concrete. Engineering Reports, 7(3).

Mandelot-Matelot, S. J. L., Mogire, P., & Odero, B. (2025, January 9). Mechanical and durability assessment of concrete reinforced with treated and untreated Ronier fiber (Borassus aethiopum) [Preprint].

Theophilus Nwokedi | Sustainable Transport | Excellence in Innovation Award

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Dr. Theophilus Nwokedi | Sustainable Transport | Excellence in Innovation Award

Senior Lecturer | Federal University of Technology | Nigeria

Dr. Theophilus Chinonyerem Nwokedi is a Senior Lecturer in the Department of Maritime Technology and Logistics at the School of Logistics and Innovation Technology, Federal University of Technology, Owerri, Nigeria, with extensive expertise in maritime management, port logistics, shipping operations, marine environmental protection, and maritime security governance. He earned his First Degree in Transport Management & Technology from the Federal University of Technology, Owerri (Second Class Upper Division), and subsequently obtained both a Master of Science (M.Sc.) and a Doctor of Philosophy (Ph.D.) in Maritime Management & Technology from the same institution. Over the years, Dr. Nwokedi has amassed extensive professional experience in maritime, shipping, ports, and logistics organizations, while actively engaging in human capital development and professional training across institutions such as the Nautical Institute for Technology, Global Maritime Academy, Certified Institute of Shipping (CIS), Atlantic Maritime Academy, Lagos Aviation and Maritime Business School (LAMBS), and the Chartered Institute of Transport Administration (CIOTA), Nigeria. His research interests encompass marine environmental protection and sustainability, maritime safety management, sustainable ports and marine transportation, marine surveying and offshore inspection, maritime insurance, and maritime defense and security. Dr. Nwokedi has demonstrated strong research skills in modeling, quantitative analysis, risk assessment, and maritime policy evaluation, with over 45 publications in peer-reviewed journals indexed by Scopus, Web of Science, and Google Scholar, including extensive work on marine debris, shipping efficiency, and economic impacts of maritime operations. He has led and contributed to multiple national research projects, notably NIMASA-funded Marine Debris Combat programs, and actively participates in consultancy through Tblanca Global Maritime Logistics Consults and Ocean Research Center (ORC). Recognized for his commitment to education, research, and societal impact, he has garnered numerous awards and honors for his contributions to maritime studies. Dr. Nwokedi’s sustained leadership, scholarly productivity, and dedication to advancing maritime research establish him as a leading figure in Nigeria and internationally. He has achieved 36 Citations , 19 Documents, 4 h-index.

Profiles: Google Scholar | Scopus | ORCID

Featured Publications

1. Nwokedi, T. C., Anyanwu, J., Eko-Rapheaels, M., Akpufu, C. O. I. D., & Ogola, D. B. (2022). Probability theory analysis of maritime piracy and the implications for maritime security governance. Journal of ETA Maritime Science, 10(2), 14. Citations: 14, h-index: 4

2. Nwokedi, T. C., Okoroji, L. I., Nwoloziri, C. N., Efanga, H. O., & Okafor, C. O. (2021). Covid-19: Disruption of container freight transportation on last mile corridors between regional hub ports and hinterland markets in Nigeria. Himalayan Journal of Economics and Business Management, 2(1), 1–13. Citations: 12, h-index: 4

3. Ndikom, O., Nwokedi, T. C., Buhari, S. O., & Okeke, K. O. (2017). An appraisal of demurrage policies and charges of maritime operators in Nigerian seaport terminals: The shipping industry and economic implications. NAŠE MORE: Znanstveni časopis za more i pomorstvo, 64(3), 90–99. Citations: 12, h-index: 4

4. Nnadi, C. O., Nwokedi, T., Nwokoro, I., & Ndikom, O. (2016). Analysis of maritime piracy and armed robbery in the Gulf of Guinea maritime domain. Journal of ETA Maritime Science, 4(4), 271–287. Citations: 12, h-index: 4

5. Nwokedi, T., Odumodu, C. U., Anyanwu, J., & Dike, D. (2020). Frustration-aggression-theory approach assessment of sea piracy and armed robbery in Nigerian industrial trawler fishery sub-sector of the blue economy. Journal of ETA Maritime Science, 8(2), 114–132. Citations: 11, h-index: 4

 

 

Mohammad Anis | Transportation Engineering | Best Researcher Award

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Mr. Mohammad Anis | Transportation Engineering | Best Researcher Award

PhD Student | Texas A&M University| United States

Mr. Mohammad Anis is a dedicated Ph.D. candidate in Civil and Environmental Engineering at Texas A&M University, specializing in traffic safety, autonomous vehicle safety, crash risk modeling, pedestrian safety, and digital twin applications. He previously earned an M.S. in Civil Engineering from the University of Texas Rio Grande Valley (2021), where he conducted pioneering research on electrically heated rigid pavements, and a B.S. in Civil Engineering from Dhaka University of Engineering & Technology, Bangladesh (2018). With over four years of research experience, he has worked extensively on federally and state-funded projects with agencies such as FHWA, TxDOT, NCHRP, FMCSA, and ODOT, contributing to crash prediction models, pedestrian safety analysis, driver distraction studies, and systemic roadway design improvements. His dissertation integrates physics-informed near-miss data with hierarchical Bayesian frameworks for real-time crash occurrence risk estimation, pushing the boundaries of data-driven traffic safety planning. His professional experience includes roles as a doctoral researcher at Texas A&M University, a graduate research assistant at the Texas A&M Transportation Institute, and a graduate teaching assistant at both Texas A&M University and UTRGV, where he mentored students in transportation engineering and civil materials. His research interests lie in real-time safety modeling, AI and machine learning applications in transportation, spatiotemporal crash risk prediction, and sustainable roadway infrastructure. He is skilled in programming (Python, R, MATLAB), statistical modeling (MCMC, machine learning, time-series analysis), traffic simulation tools (SUMO, VISSIM, CARLA), and GIS platforms (ArcGIS, QGIS). He has published widely in high-impact journals such as Accident Analysis & Prevention and Transportation Research Record, along with multiple IEEE and Scopus-indexed conferences. Among his many accolades are the Keese-Wootan Transportation Fellowship (Top 5%), Zachry Excellence Fellowship, Terracon Foundation Scholarship, and Graduate Student Travel Awards. With a strong record of publications, collaborations, and peer-review service, Mr. Anis demonstrates outstanding potential to lead future research in traffic safety and intelligent mobility systems. He has achieved 30 citations across 27 documents, with 8 publications and an h-index of 2.

Profiles:  Scopus | ORCID

Featured Publications

Anis, M., Geedipally, S. R., & Lord, D. (2025). Pedestrian crash causation analysis near bus stops: Insights from random parameters Negative Binomial–Lindley model. Accident Analysis & Prevention, 220, 108137.

Zhang, H., Li, S., Li, Z., Anis, M., Lord, D., & Zhou, Y. (2025). Why anticipatory sensing matters in commercial ACC systems under cut-in scenarios: A perspective from stochastic safety analysis. Accident Analysis & Prevention, 218, 108064

Anis, M., Li, S., Geedipally, S. R., Zhou, Y., & Lord, D. (2025). Real-time risk estimation for active road safety: Leveraging Waymo AV sensor data with hierarchical Bayesian extreme value models. Accident Analysis & Prevention, 211, 107880.

Abdel-Raheem, M., & Anis, M. (2025). Toward sustainability: A new construction method for electrically heated rigid pavement systems. Transportation Research Record: Journal of the Transportation Research Board, 2679(3), 281–303.

Anis, M., & Abdel-Raheem, M. (2024). A review of electrically conductive cement concrete pavement for sustainable snow-removal and deicing: Road safety in cold regions. Transportation Research Record: Journal of the Transportation Research Board, 2678(9), 50–71.