Katsiaryna Khainskaya | Polymer Chemistry | Best Researcher Award

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Mrs. Katsiaryna Khainskaya | Polymer Chemistry | Best Researcher Award

Junior resercher | Institute of Chemistry of New Materials of the National Academy of Sciences of Belarus Belarus

Katsiaryna Khainskaya, born on July 23, 2001, in Minsk, Belarus, is a Junior Researcher at the Institute of Chemistry of New Materials, National Academy of Sciences of Belarus. A chemist specializing in polysaccharide derivatives and nanocomposites, her research focuses on developing functional materials for biomedical and environmental applications. She is proficient in advanced physicochemical analysis techniques including microscopy, spectrophotometry, and dynamic light scattering. Katsiaryna has authored peer-reviewed publications, presented at international conferences, and actively contributes to scientific projects on nanomaterials, drug delivery systems, and antibacterial coatings. She is also a member of the Council of Young Scientists.

Profile

Orcid

🎓 Education 

Katsiaryna completed her degree in Chemistry, Radiation Chemistry, and Radiochemistry at Belarusian State University (2018–2023), with intensive coursework in inorganic, analytical, organic, physical, colloidal, nanochemistry, and nuclear sciences. Her thesis focused on alginate-Ag nanocomposites with enrofloxacin for antibacterial applications. She also participated in specialized training, such as a 2021 course on radioactive waste processing at Rosatom Technical Academy and upcoming seminars on mucoadhesive chitosan nanoparticles.

💼 Experience 

Since August 2023, Katsiaryna has worked as a Junior Researcher at the Institute of Chemistry of New Materials in Minsk. Her role involves the synthesis of polysaccharide-phenolic acid conjugates and their application in drug delivery and biomedicine. She previously held a trainee position at the same institute in early 2023, gaining hands-on expertise in colloidal systems, silver nanoparticles, and bioactive encapsulation. Her technical proficiency spans lyophilization, atomic force microscopy, electrophoretic mobility, and spectroscopic analysis.

🏅 Awards and Honors 

Katsiaryna received the 3rd Place Diploma in the “Young Scientist of the IChNM of the NAS of Belarus” competition (2025). She earned numerous participation and presentation certificates from prestigious conferences including the 13th International Colloids Conference in Spain (2024), and “Youth in Science” in Belarus (2023 & 2024). She also completed a certified training on radioactive waste processing (2021) and presented original research at the BSTU faculty members conference (2025) on advanced antimicrobial coatings.

🔬 Research Focus 

Katsiaryna’s research centers on biopolymer-based nanocomposites, particularly chitosan and alginate systems conjugated with phenolic acids or silver nanoparticles. She explores their encapsulation abilities, mucoadhesive properties, and biomedical applications, such as targeted drug delivery, wound healing, and antibacterial therapy. Projects include designing multilayer mucoadhesive patches, encapsulated chlorophyll systems, and antibiotic-loaded hydrosols for aquaculture. She also collaborates on materials for surface modification and functional food additives using edible fungi-derived compounds.

📝 Conclusion

Katsiaryna Khainskaya is a promising, motivated, and impactful young scientist whose research on functional biopolymer materials and nanotechnology positions her well for recognition. Her innovative work, international exposure, and interdisciplinary skills make her a very suitable candidate for a Best Researcher Award—particularly in the Early Career or Young Investigator categories. With continued growth in independent leadership and global collaborations, she is well on track for sustained excellence in scientific research.

Publication

  1. Title: Chitosan-Gallic Acid Conjugate with Enhanced Functional Properties and Synergistic Wound Healing Effect
    Year: 2025
    Journal: Carbohydrate Research
    DOI: 10.1016/j.carres.2025.109496
    Contributors: Katsiaryna Khainskaya, Kseniya Hileuskaya, Viktoryia Nikalaichuk, Alena Ladutska, Oliy Akhmedov, Nadjiye Abrekova, Lijun You, Ping Shao, Munkhjargal Odonchimeg

 

  1. Title: Study of the Interaction Between Biogenic Alginate-Ag Nanoparticles and Enrofloxacin: Combinatory Antibacterial Effect and Nanocomposite Formation
    Year: 2024
    Journal: BioNanoScience
    DOI: 10.1007/s12668-023-01257-0
    Contributors: V. V. Nikalaichuk, K. V. Hiatsevich, Viktoryia Kulikouskaya, A. I. Ladutska, A. V. Sidarenka

 

Abdelaziz El Houari | Life and Environmental Sciences | Best Researcher Award

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Dr. Abdelaziz El Houari | Life and Environmental Sciences | Best Researcher Award

Senior Research Scientist| Danone Research and Innovation France

Dr. Abdelaziz El Houari is a Senior Scientist specializing in Microbiology and Molecular Biology, with a focus on anaerobic microbiology, microbial ecology, bioinformatics, and molecular biology. He has a wealth of experience in managing research projects, developing innovative approaches in microbiome science, and collaborating with interdisciplinary teams. His expertise spans various microbiological techniques, molecular analysis, and bioinformatics tools. Based in France, he currently leads projects at Danone Research & Innovation in Paris-Saclay, contributing to the identification and characterization of probiotic strains and enhancing scientific communications.

Profile

Orcid

🎓 Education 

Dr. El Houari holds a PhD in Life and Environmental Sciences from the University of Pau and Pays de l’Adour, France (2015–2018). He also earned a Master’s degree in Biotechnologies and Sustainable Development from Cady Ayyad University in Morocco (2012–2014), and a License/Dissertation in Cellular and Molecular Biology from Ibn Zohr University, Morocco (2011–2012). His academic journey has equipped him with robust knowledge in microbiology and biotechnology, especially in anaerobic microbiota and molecular biology.

💼 Experience 

Dr. El Houari’s professional journey includes his current role as a Senior Scientist at Danone Research & Innovation (since 2023), focusing on probiotic strain characterization and omics data analysis. Prior to that, he worked as a Senior Research Scientist at 4D Pharma PLC (2022–2023), contributing to the development of Live Biotherapeutic products. He also served as a Research Officer at Bangor University (2020–2022), studying landfill biomass-degrading microbiomes. Additionally, Dr. El Houari has worked as a Postdoctoral Researcher at the University of Poitiers (2019).

🏅 Awards and Honors 

Dr. El Houari has received several recognitions, including a prestigious Early Career Research Award from the Science and Engineering Research Board (2017) and a Research Excellence Award (2015). His contributions to research were further acknowledged through funding for workshops and conference travel grants, such as the DST Travel Grant (2012). He has also been involved in the development of intellectual property and has won several best paper presentation awards.

🔬 Research Focus 

Dr. El Houari’s research interests revolve around anaerobic microbiology, molecular biology, and bioinformatics. He specializes in microbial community characterization, probiotic strain discovery, and the functional exploration of complex microbiomes. His work on microbial degradation processes, especially in relation to landfill biomass and wastewater treatment, has contributed to advancements in environmental and industrial microbiology. His studies on the human gut microbiota and its interactions with various molecules are paving the way for biotechnological applications in pharmaceuticals and agri-food industries.

📝 Conclusion

Dr. Abdelaziz El Houari stands out as a highly skilled and innovative researcher with profound contributions to microbiology, bioinformatics, and microbial ecology. His leadership in complex research projects, along with his dedication to scientific advancement and education, makes him an exemplary candidate for the Best Researcher Award. By broadening his outreach and exploring additional funding and interdisciplinary collaborations, Dr. El Houari could further amplify his impact on global microbiome research

Publication

  1. Title: Lutispora saccharofermentans sp. nov., a mesophilic, non-spore-forming bacterium isolated from a lab-scale methanogenic landfill bioreactor digesting anaerobic sludge, and emendation of the genus Lutispora to include species which are non-spore-forming and mesophilic
    Year: 2023
    Journal: International Journal of Systematic and Evolutionary Microbiology
    DOI: 10.1099/ijsem.0.005683
    Contributors: Abdelaziz El Houari, Morgan Carpenter, Daniel Chaplin, Peter Golyshin, James E. McDonald

 

  1. Title: Development of an in vitro Model of Human Gut Microbiota for Screening the Reciprocal Interactions With Antibiotics, Drugs, and Xenobiotics
    Year: 2022
    Journal: Frontiers in Microbiology
    DOI: 10.3389/fmicb.2022.828359
    Contributors: Abdelaziz El Houari

 

  1. Title: In vitro sensitivity of 30 anaerobic bacterial strains of the human intestinal core microbiota to antibiotics: Culture and LC-MS/MS approaches
    Year: 2021
    Journal: Anaerobe
    DOI: 10.1016/j.anaerobe.2020.102314
    Contributors: Abdelaziz El Houari

 

  1. Title: Microbial Communities and Sulfate-Reducing Microorganisms Abundance and Diversity in Municipal Anaerobic Sewage Sludge Digesters from a Wastewater Treatment Plant (Marrakech, Morocco)
    Year: 2020
    Journal: Processes
    DOI: 10.3390/pr8101284
    Contributors: Abdelaziz El Houari

 

  1. Title: Desulfobulbus oligotrophicus sp. nov., a sulfate-reducing and propionate-oxidizing bacterium isolated from a municipal anaerobic sewage sludge digester
    Year: 2017
    Journal: International Journal of Systematic and Evolutionary Microbiology
    DOI: 10.1099/ijsem.0.001615
    Contributors: Abdelaziz El Houari

 

Sujata Basyal | Control System | Best Researcher Award

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Ms. Sujata Basyal | Control System | Best Researcher Award

Research Assistant at Auburn University, United States

Sujata Basyal is a passionate mechanical engineer and researcher from Nepal, currently pursuing her Ph.D. at Auburn University. With a strong foundation in nonlinear control and robotics, she works at the CARE Lab developing robust, adaptive, and intelligent control strategies. Sujata’s journey spans from mechanical design roles in Nepal to cutting-edge research in the U.S. She has co-authored numerous journal and conference papers on exoskeletons, deep neural networks, and control systems. Beyond academia, she’s a community leader, active volunteer, and a dedicated advocate for women in engineering and STEM education. 🌍🤖📚

Publication Profile

Google Scholar

Academic Background

Sujata holds a Ph.D. (in progress) and an M.S. in Mechanical Engineering from Auburn University, where she’s a Graduate Research Assistant in the CARE Lab. She earned her Bachelor’s degree in Automobile Engineering from Tribhuvan University, Nepal. Her academic path is marked by merit scholarships, fellowships, and an impressive research portfolio. Through her studies, she has gained deep expertise in nonlinear systems, control theory, and rehabilitation robotics. Her educational journey reflects a blend of academic rigor and hands-on innovation, both in Nepal and the United States. 🎓🇳🇵

Professional Background

Sujata’s experience ranges from research-intensive roles in the U.S. to industry-level engineering in Nepal. At Auburn, she designs robust control systems for rehabilitation robotics. Before that, she worked as a Warranty Executive at Agni Group and as a Mechanical Design Engineer and Project Supervisor at multiple firms in Kathmandu. Her roles included product design, team leadership, and service engineering. She has also interned at Go Ford, gaining hands-on experience with vehicle diagnostics and maintenance. Her career blends practical skills, technical depth, and global exposure. 🔧🌐📈

Awards and Honors

Sujata has been recognized with prestigious honors like the Presidential Graduate Research Fellowship and EPSCoR Graduate Scholars Program at Auburn University. She received the 100+ Women Strong Travel Fellowship and multiple merit scholarships throughout her undergrad. In Nepal, she secured a national RDI grant and won robotics competitions, including at IIT Bombay and Robotics Association of Nepal. These awards reflect her excellence in academics, leadership, innovation, and her commitment to advancing women and technology in engineering. 🥇🎖️👩‍🏫

Research Focus

Sujata’s research focuses on developing robust and adaptive control strategies using Lyapunov theory, deep neural networks, and concurrent learning. Her work addresses challenges in uncertain, nonlinear, and switched dynamic systems with applications in rehabilitation robotics, such as exoskeleton control, and networked control systems. She integrates artificial intelligence and control theory to build systems that are intelligent, responsive, and resilient. Her innovative research aims to enhance human-robot interaction, particularly for medical and assistive technologies. 🤖📊🧠

Publication Top Notes

📘 Robust Control of a Nonsmooth or Switched Control Affine Uncertain Nonlinear System Using a Novel RISE-Inspired Approach
 Year: 2023 | Cited by: 4

🦿 Deep Neural Network Based Saturated Adaptive Control of Muscles in a Lower-Limb Hybrid Exoskeleton
 Year: 2023 | Cited by: 2

🧠 Neuromuscular Model-free Epistemic Risk Guided Exploration (NeuroMERGE) for Safe Autonomy in Human-Robot Interaction
 Year: 2024 | Cited by: 1

⚙️ RISE-Like Saturated Control for Non-Smooth and Switched Non-Linear Systems
 Year: 2023 | Cited by: 1

Conclusion

Sujata Basyal is an outstanding emerging researcher whose academic journey, innovative contributions, and community engagement collectively mark her as a highly deserving candidate for the Best Researcher Award. With a strong academic foundation through her ongoing Ph.D. and prior M.S. in Mechanical Engineering from Auburn University, her work focuses on nonlinear control, rehabilitation robotics, and neural networks—fields at the forefront of engineering innovation. She has authored 3 journal papers and 18+ conference publications in top-tier venues like ACC, CDC, ICORR, and IMECE, showcasing both depth and breadth of research. Her work on adaptive and Lyapunov-based control strategies not only advances theory but also translates into impactful real-world applications such as hybrid exoskeleton systems. Recognized through prestigious fellowships like the Presidential Graduate Research Fellowship and the EPSCoR GRSP, Sujata has also demonstrated excellence through national and international robotics awards. Her leadership roles, mentoring, and active membership in organizations like ASME and SWE underscore a commitment to academic, professional, and community development. In every dimension—scholarship, innovation, leadership, and impact—Sujata Basyal exemplifies the caliber of a Best Researcher Award recipient.

Prabakaran Raghavendran | Differential Equations | Young Scientist Award

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Mr. Prabakaran Raghavendran | Differential Equations |Young Scientist Award

Research Scholar | Vel Tech Rangarajan Dr. Sagunthala R&D Institute of Science and Technology , India

Prabakaran Raghavendran is a Ph.D. scholar in Mathematics at Vel Tech R&D Institute, specializing in Fractional Differential Equations and Control Theory, with 33 research publications, 12 patent publications, and diverse interdisciplinary research internships in AI, neuroscience, and energy forecasting.

Profile

Scopus

Orcid

Scholar

🎓 Education 

He is currently pursuing a Ph.D. in Mathematics from Vel Tech R&D Institute; completed his M.Sc. Mathematics with 9.79 CGPA from the same institute in 2022; earned a B.Sc. in Mathematics with 9.25 CGPA from Loyola College, Chennai, in 2020; passed Class XII in 2017 with 87.5% and Class X in 2015 with 94% from Velammal Matriculation School.

💼 Experience 

He interned as a software engineer at CGI Infosys, a Python and LaTeX trainee at Loyola College, and in Finance & Accounts at Falcon Enterprises; participated in two major research internships involving AI in neuroscience and energy forecasting; also conducted academic research on fuzzy algebra and COVID-19 employment effects.

🏅 Awards and Honors 

Recipient of the Young Scientist Award 2025, Young Researcher Award 2024, and two cash awards from Vel Tech University for patent excellence; awarded Rank 1 in SRASS 2025; life member of ISFSEA, IOASD, and IAENG; presented at ICMMAAC-24 in Lebanon with international recognition.

🔬 Research Focus 

His core research lies in Fractional Differential Equations, Control Theory (linear, nonlinear, stochastic, fuzzy), Integral Transforms, Cryptography, Fuzzy Algebra, and AI applications, with practical emphasis on solving boundary value problems, signal processing, robotics, and real-world optimization challenges.

📝 Conclusion

Prabakaran Raghavendran has shown exceptional promise as a researcher, with outstanding academic performance and a rich research portfolio that includes a variety of innovative patents. His interdisciplinary approach, along with his accolades such as the Young Scientist Award and Best Paper Presentation Award, clearly position him as a strong candidate for future awards and recognition in the scientific community. By expanding his research collaboration and focusing on the real-world applications of his work, he has the potential to make significant contributions to both academic and applied sciences.

Publication

    • Title: Analyzing existence, uniqueness, and stability of neutral fractional Volterra-Fredholm integro-differential equations
      Year: 2024
      Authors: T. Gunasekar, P. Raghavendran, S.S. Santra, M. Sajid

    • Title: Solving fractional integro-differential equations by Aboodh transform
      Year: 2024
      Authors: P. Raghavendran, T. Gunasekar, H. Balasundaram, S.S. Santra

    • Title: Application of Laplace transform to solve fractional integro-differential equations
      Year: 2024
      Authors: B.H. Gunasekar T., Raghavendran P., Santra Sh. S., Majumder D., Baleanu D.

    • Title: Advancing Cryptographic Security With Kushare Transform Integration
      Year: 2024
      Authors: R. Prabakaran, T. Gunasekar

    • Title: Applications of the R-Transform for Advancing Cryptographic Security
      Year: 2024
      Authors: T. Gunasekar, P. Raghavendran

    • Title: The Mohand transform approach to fractional integro-differential equations
      Year: 2024
      Authors: T. Gunasekar, P. Raghavendran

    • Title: Existence and controllability results for neutral fractional Volterra-Fredholm integro-differential equations
      Year: 2024
      Authors: T. Gunasekar, P. Raghavendran, S.S. Santra, M. Sajid

    • Title: Study of non-linear impulsive neutral fuzzy delay differential equations with non-local conditions
      Year: 2023
      Authors: T. Gunasekar, J. Thiravidarani, M. Mahdal, P. Raghavendran, A. Venkatesan

    • Title: Application of artificial neural networks for existence and controllability in impulsive fractional Volterra-Fredholm integro-differential equations
      Year: 2024
      Authors: P. Raghavendran, T. Gunasekar, S. Gochhait

 

Xiaodong Zhang | micro-EDM | Best Researcher Award

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Ms. Xiaodong Zhang | micro-EDM | Best Researcher Award

Xiaodong Zhang is a postgraduate student in Mechanical and Electrical Engineering at Changchun University of Science and Technology, China. His academic journey is centered around micro Electrical Discharge Machining (micro-EDM), with a particular focus on the prediction and compensation of electrode wear in microgroove machining. Zhang has already made scholarly contributions by presenting at the prestigious IEEE 3M-NANO 2024 Conference and publishing in Materials Today Communications. His commitment to advancing micro-EDM technologies highlights his potential as a rising researcher in precision manufacturing and special processing fields. He actively engages in experimental and modeling aspects of micromachining, aiming to enhance both the quality and efficiency of the process. Through academic publishing and research dissemination, he contributes to developing intelligent and high-performance micromachining systems. His work stands out in the domain of fine feature fabrication, important for aerospace, electronics, and biomedical applications.

Profile

Scopus

🎓 Education 

Xiaodong Zhang is pursuing his postgraduate degree in Mechanical and Electrical Engineering at Changchun University of Science and Technology. His academic foundation blends theoretical and practical knowledge in special processing technologies, with a specialization in micro-EDM. At the university, he has gained expertise in precision machining, system modeling, and data analysis tools essential for optimizing electrode performance and wear prediction. Zhang’s graduate education is not only grounded in coursework but also enriched by hands-on research and publishing experiences. He has developed a strong understanding of neural network modeling and advanced manufacturing principles. His academic training enables him to address challenges in tool wear, dimensional accuracy, and microfeature consistency—critical concerns in micromachining. The university’s research environment, combined with mentorship from experienced faculty, has equipped him with both practical skills and scientific insight to contribute meaningfully to the field of advanced manufacturing technologies.

💼 Experience 

Xiaodong Zhang has built practical research experience as a postgraduate researcher focusing on micro-EDM at Changchun University of Science and Technology. His current project involves the prediction and compensation of electrode wear during microgroove machining, an area vital for high-precision applications. He has presented his findings at the 2024 IEEE 3M-NANO International Conference, marking a significant milestone in his academic career. Furthermore, he co-authored a journal article published in Materials Today Communications, which emphasizes performance prediction using BP neural networks. Zhang’s research integrates mechanical engineering with data-driven modeling, making him adept at both experimental work and simulation-based studies. His involvement in international conferences and journal publications highlights his ability to communicate scientific results and collaborate within the global research community. His growing portfolio reflects a blend of technical aptitude and academic rigor, laying the groundwork for future contributions in micromachining and precision engineering.

🏅 Awards and Honors 

Though early in his career, Xiaodong Zhang has already earned recognition in academic circles through prestigious opportunities to present and publish his research. His paper on high-quality and efficient micro-EDM machining was accepted at the IEEE 3M-NANO 2024 International Conference—a platform that highlights cutting-edge innovations in micro/nano manufacturing. Being selected to present at such a conference reflects both the relevance and scientific value of his work. Moreover, his research was published in the peer-reviewed journal Materials Today Communications, a noteworthy achievement for a postgraduate researcher. While formal awards and honors are still developing in his academic journey, his early successes in international dissemination and publication indicate a trajectory of excellence. These accomplishments not only validate his research capabilities but also provide momentum for future accolades in the fields of mechanical engineering and special processing technologies.

🔬 Research Focus 

Xiaodong Zhang’s research focuses on micro Electrical Discharge Machining (micro-EDM), particularly in predicting and compensating for electrode wear during microgroove machining. This area is critical for ensuring accuracy, repeatability, and efficiency in the manufacturing of microfeatures used in aerospace, microelectronics, and biomedical devices. His recent work explores the use of BP neural networks for performance prediction, blending mechanical processing with artificial intelligence. By modeling the relationship between machining parameters and output characteristics, Zhang seeks to improve tool life and machining quality. His contributions are part of a broader push toward intelligent micromachining systems that integrate data science, modeling, and experimentation. Through simulation and experimental validation, he aims to reduce error rates and improve the consistency of micro-EDM processes. His research has practical implications for the next generation of precision engineering tools and methods, making his work highly relevant in advanced manufacturing sectors.

📝 Conclusion

Xiaodong Zhang shows strong promise as an emerging researcher in the domain of precision manufacturing and smart machining systems. His early accomplishments and use of AI in engineering applications suggest he is on a solid academic path. However, for the highly competitive Best Researcher Award, which typically honors sustained, high-impact, and independent contributions, Zhang may be more suitably recognized under a “Young Researcher” or “Emerging Scholar” category at this stage of his career.

Publication

  •  Title: Prediction of microgroove performance indicators based on BP neural network in micro-EDM

  •  Authors: Zhang Xiaodong, Li Yiquan, Yu Peng, Gao Yongcheng, Dong Sijun

  • Year: 2025

  •  Journal: Materials Today Communications

Gracie Wilson | Comparative Human Development | Best Researcher Award

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Ms. Gracie Wilson | Comparative Human Development | Best Researcher Award

University of Chicago, United States

Gracie Wilson, a graduate student at the University of Chicago, specializes in medical and psychological anthropology, with a focus on mental health and disability studies. She is currently pursuing a Ph.D. in Comparative Human Development, expected to be completed in 2029. Gracie holds a B.A. in Anthropology with Highest Honors from Emory University and has a deep interest in understanding college student mental health, belonging, and stress. Her work bridges anthropology and public health, contributing valuable insights into contemporary mental health narratives in higher education.

Profile

Scholar

🎓 Education 

Ph.D., Comparative Human Development, The University of Chicago, 2023-2029 (anticipated). Credential in Higher Education Administration. B.A. in Anthropology with Highest Honors, Emory University, 2023 Thesis: “The Culture of College Mental Health: Narratives of Stress, Value, and Belonging” Advisor: Dr. Chikako Ozawa-de Silva

💼 Experience 

Graduate Student, The University of Chicago (May-December 2024) Master’s research focused on college peer education and mental health promotion programs with 30 interviews. Research Assistant, Office of Institutional Analysis, The University of Chicago (2023-) Assisting with institutional outcomes, retention, and campus climate data collection. Teaching Assistant, Critical Studies of Mental Health in Higher Education (Spring 2025). Teaching Assistant, Disability and Design (Winter 2025)

🏅 Awards and Honors 

Gianinno Graduate Research Award, $2000 (2024). Gianinno Conference Award, The University of Chicago, $420 (2023). GradCouncil Individual Award, The University of Chicago, $750 (2023). The University of Chicago 6-year Graduate Fellowship, $37,000-$45,000 annually (2023). National Achievement Award, Lambda Alpha National Honors Society, $5,000 (2023)

🔬 Research Focus 

Gracie’s research blends medical and psychological anthropology, emphasizing adolescent mental health, disability studies, and public health. She explores student mental health in universities, focusing on peer education programs, belonging, stress narratives, and how these factors influence student experiences. Her fieldwork and publications contribute to better understanding the intersection of college culture and mental health, particularly in relation to stress and mental well-being.

📝 Conclusion

Gracie Wilson’s academic journey, research focus, and commitment to mental health within university settings demonstrate her promise as a future leader in the fields of medical anthropology and public health. Her contributions to understanding the mental health experiences of college students are not only academically robust but also socially impactful. With her ongoing research, leadership roles, and publications, she is a strong contender for the Best Researcher Award. Further diversifying her research scope and expanding public outreach will solidify her position as an influential scholar in her field.

Publication

  • The Culture of College Mental Health: Narratives of Stress, Value, and Belonging

    • Year: 2023

    • Author(s): G. Wilson

    • Affiliation: Emory University

 

  • Influence of political ideology on perceptions of mask wearing and microaggressions

    • Year: 2023

    • Author(s): G. Wilson, J. Mischel, P. Addala

    • Journal: London Journal of Research in Humanities and Social Sciences, 23(12), 1-11

 

Tanmay Sinha | Education | Best Researcher Award

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Prof Dr. Tanmay Sinha | Education | Best Researcher Award

Tanmay Sinha is a tenure-track Assistant Professor at Nanyang Technological University (NTU), Singapore, with an interdisciplinary background in computer science, artificial intelligence, and learning sciences. He earned his doctorate from ETH Zürich, Switzerland, and previously served as a Postdoctoral Scholar and Executive Director of the ETH-EPFL Joint Doctoral Program. His research delves into the emotional and cognitive processes in technology-supported learning environments, with over 2,100 citations, h-index 21, and numerous peer-reviewed publications. Tanmay’s work spans across multimodal learning analytics, emotion regulation, and productive failure in STEM education. He is recognized for his scholarly contributions through several best paper awards and research fellowships. His career reflects a strong commitment to integrating rigorous research with impactful teaching and learning design. With global academic exposure across the USA, India, and Europe, Tanmay actively contributes to reshaping education with theory-driven, tech-enabled learning innovations rooted in cognitive and affective sciences.

Profile

Scopus

Scholar

🎓 Education 

Tanmay Sinha holds a Doctor of Sciences (Dr. Sc.) in Learning Sciences from ETH Zürich (2017–2021), where he explored emotion and cognition in education. He obtained a Master of Science in Artificial Intelligence from Carnegie Mellon University’s Language Technologies Institute (2014–2016), backed by a full Graduate Research Assistantship. His B.Tech. in Computer Science was earned from the Vellore Institute of Technology (2010–2014), where he engaged in research at leading institutions including Carnegie Mellon and École Polytechnique Fédérale de Lausanne. He has participated in numerous prestigious academic workshops and schools, such as the Alan Turing Centenary Year Workshop, ISSAS, and the Prague Summer School on Education. His educational journey integrates deep technical expertise with human-centered learning science, equipping him with a rare interdisciplinary lens. These formative academic experiences underpin his research interests in multimodal learning analytics, problem-solving, and AI-powered educational technologies designed for meaningful learning.

💼 Experience 

Tanmay Sinha currently serves as a Tenure-track Assistant Professor at NTU Singapore (from July 2023). Prior to this, he was Executive Director of the ETH-EPFL Joint Doctoral Program in Learning Sciences (2021–2023), where he developed program strategy and stakeholder coordination. He also worked as a Postdoctoral Scholar at ETH Zürich (2021–2023), where he led original research, mentored Ph.D. students, and taught graduate-level courses. He has previously held research positions supported by prestigious assistantships at institutions like Carnegie Mellon and EPFL. His professional journey reflects a progression from hands-on AI development to strategic academic leadership and rigorous learning sciences research. Across these roles, he consistently bridged technology with pedagogy, contributing to impactful STEM education innovations. His cross-continental experiences in the USA, Europe, and Asia strengthen his global perspective and ability to lead transformative learning initiatives through interdisciplinary collaboration and applied research.

🏅 Awards and Honors 

Tanmay Sinha has received numerous prestigious honors, including Best Paper and Best Student Paper Awards at EC-TEL (2017) and IVA (2016), and winner of a shared task at EMNLP (2014). He has been selected for elite programs like ISSAS (Switzerland, 2022), CIRCLS Emerging Scholar (USA, 2021), and the ACM Turing Award Celebration as a SIGCHI student representative (2017). He earned competitive fellowships from ETH Zürich, CMU, Microsoft, NSF, and more, totaling over $150,000 in research and conference funding. As a reviewer, he was listed in the Top 1% Cross-Field Reviewers on Publons (2018). His extensive participation in interdisciplinary workshops across Europe, Asia, and the USA underscores his global academic engagement. These recognitions highlight his scholarly impact, leadership potential, and collaborative spirit. They also affirm his standing as a leading voice in technology-enhanced education, artificial intelligence in learning, and affective computing in the learning sciences.

🔬 Research Focus 

Tanmay Sinha’s research lies at the intersection of learning sciences, artificial intelligence, and emotional-cognitive processes in education. He explores the dual roles of emotions in learning—particularly regulation strategies like shame in problem-solving contexts—through multimodal learning analytics. His second major line of research focuses on productive failure and scaffolding in STEM education, emphasizing technology-enhanced, theory-driven learning design. With ~2100 citations and a growing impact (h-index 21), his publications span top-tier journals such as Journal of the Learning Sciences, Learning and Instruction, and Educational Psychology. He also contributes open-source tools for emotion research democratization. Tanmay’s work addresses how instructional interventions, emotional dynamics, and learning mechanisms interact to foster resilience, transfer, and conceptual understanding. His forward-looking vision involves integrating AI with pedagogical principles to design adaptive, affect-aware learning systems, and to reimagine educational experiences that are both intellectually rigorous and emotionally supportive.

📝 Conclusion

Dr. Tanmay Sinha demonstrates a stellar academic trajectory, with a high-impact research record, international leadership experience, and innovative interdisciplinary scholarship in the Learning Sciences. His work bridges cutting-edge AI with educational theory and practice, positioning him as a rising global thought leader in educational technology and pedagogy. With continued development in outreach, grant leadership, and broader public engagement, he is highly deserving of the Best Researcher Award and will likely remain an influential figure in the years to come.

Publication

  • From problem-solving to sensemaking: A comparative meta-analysis of preparatory approaches for future learning

    • Year: 2021

    • Author(s): T. Sinha, M. Kapur

 

  • Understanding randomness on a molecular level: A diagnostic tool

    • Year: 2023

    • Author(s): S. Tobler, K. Köhler, T. Sinha, E. Hafen, M. Kapur

 

  • Trends and research directions for privacy preserving approaches on the cloud

    • Year: 2013

    • Author(s): T. Sinha, V. Srikanth, M. Sain, H.J. Lee

 

  • Leveraging user profile attributes for improving pedagogical accuracy of learning pathways

    • Year: 2013

    • Author(s): T. Sinha, A. Banka, D.K. Kang

 

  • A Novel Multimodal Approach for Studying the Dynamics of Curiosity in Small Group Learning

    • Year: 2021

    • Author(s): T. Sinha, Z. Bai, J. Cassell

 

  • Impact of Explicit Failure and Success-driven Preparatory Activities on Learning

    • Year: 2019

    • Author(s): T. Sinha, M. Kapur, R. West, M. Catasta, M. Hauswirth, D. Trninic

 

  • Cognitive Correlates of Rapport Dynamics in Longitudinal Peer Tutoring

    • Year: 2016

    • Author(s): T. Sinha

 

  • Modeling Similarity in Incentivized Interaction: A Longitudinal Case Study of StackOverflow

    • Year: 2015

    • Author(s): T. Sinha, W. Wei, K. Carley

 

  • Who negatively influences me? Formalizing diffusion dynamics of negative exposure leading to student attrition in MOOCs

    • Year: 2014

    • Author(s): T. Sinha

 

  • Does Deliberately Failing Improve Learning in Introductory Computer Science?

    • Year: 2022

    • Author(s): S. Thorgeirsson, T. Sinha, F. Friedrich, Z. Su

 

  • The Impact of Prior Knowledge in Narrative-Based Learning on Understanding Biological Concepts in Higher Education

    • Year: 2022

    • Author(s): S. Tobler, T. Sinha, K. Koehler, E. Hafen, M. Kapur

 

  • Effects of narratives on undergraduate student understanding of fundamental concepts in biology

    • Year: 2022

    • Author(s): S. Tobler, T. Sinha, K. Köhler, E. Hafen, M. Kapur

 

  • Embodied agents to scaffold data science education

    • Year: 2022

    • Author(s): T. Sinha, S. Malhotra

 

  • Proposal of a Social Network Analytic Framework to develop a better participation model for Online Education Platforms

    • Year: 2013

    • Author(s): T. Sinha

 

  • Telling stories as preparation for learning: a Bayesian analysis of transfer performance and investigation of learning mechanisms

    • Year: 2024

    • Author(s): S. Tobler, T. Sinha, K. Köhler, M. Kapur

 

 

  • Democratizing emotion research in learning sciences

    • Year: 2022

    • Author(s): T. Sinha, S. Dhandhania

 

 

 

Ishini Nimasha Saparamadu| Civil Engineering | YouthInnovate Award

Posted on by Young Scientists Awards

Ms. Ishini Nimasha Saparamadu| Civil Engineering | YouthInnovate Award

Research Assistant, University of Moratuwa Sri Lanka

P. V. Ishini Nimasha Saparamadu is an innovative Research Assistant and Enterprise AI Solutions Engineer affiliated with the University of Moratuwa, Sri Lanka, and Intelligent Label Solutions. A high-achieving Quantity Surveying graduate with a GPA of 4.02/4.2, she has swiftly made a name for herself in the intersection of construction and artificial intelligence. Ishini is the founder of Concolabs (Pvt) Ltd, where she pioneered groundbreaking digital solutions like MeasureonAIR and Roboclause, which optimize construction cost tracking and automate legal interpretations, respectively. Her work is backed by academic rigor and practical application, evidenced by publications in peer-reviewed journals, awards at international symposiums, and AI-driven industry tools. She has collaborated on numerous research projects aimed at modernizing construction compliance through NLP and vector database-powered chatbots. Ishini is driven by a passion to revolutionize the construction sector with digital innovation and is committed to pushing the boundaries of what AI can achieve in engineering.

Profile

Orcid

Scholar

🎓 Education 

Ishini Saparamadu earned her Bachelor’s degree in Quantity Surveying from the University of Moratuwa, Sri Lanka, graduating with an impressive GPA of 4.02/4.2. Her academic journey has been marked by excellence and innovation, laying a strong foundation in construction economics, digital project management, and artificial intelligence applications in engineering. During her undergraduate studies, she actively engaged in interdisciplinary research, culminating in award-winning papers and recognition such as the Vidyajyothi Award for Most Outstanding Graduate. Her education was not only centered on traditional construction theories but also integrated modern computational tools like Building Information Modeling (BIM), Natural Language Processing (NLP), and ERP systems. She further enriched her learning through continuous professional development programs under globally recognized institutions such as RICS, CIOB, and CICES. Her commitment to bridging academic knowledge and industry needs reflects in her student memberships in several professional bodies and her contribution to forward-thinking academic publications and tech products.

💼 Experience 

With a dual role as a Research Assistant at the University of Moratuwa and Enterprise AI Solutions Engineer at Intelligent Label Solutions, Ishini brings a dynamic blend of academic rigor and industry impact. She founded Concolabs (Pvt) Ltd, where she led the development of MeasureonAIR, a mobile app automating construction measurements, and Roboclause, an AI chatbot that simplifies contract law queries. Her professional experience spans cost estimation, BIM integration, ERP development, and AI application in construction workflows. She has undertaken consultancy projects like BuildMarketLK, which leverages AI for market price forecasting, and Bimverse, a BIM-manipulation chatbot. Her involvement in both practical development and scholarly research positions her at the forefront of digital transformation in construction. Ishini has also served as a team lead in multiple collaborations, mentoring junior developers and researchers. Her contributions continuously demonstrate a commitment to integrating cutting-edge technology into conventional project management frameworks.

🏅 Awards and Honors 

Ishini Saparamadu has received multiple prestigious awards recognizing her academic brilliance and innovative spirit. Among her accolades is the Robin Jones Award, the Vidyajyothi Award for Most Outstanding Graduate, and Best Undergraduate Research Award. Her contributions were celebrated at the World Construction Symposium, where she received the Best Paper Award for her research in AI-driven construction contract analysis. She was also a CIOB Scholarship semi-finalist, showcasing her prominence among emerging global talents in construction. These honors underscore her dual excellence in both academia and practical innovation. Beyond these, Ishini has gained visibility through memberships in leading institutions such as the Royal Institution of Chartered Surveyors (RICS), Chartered Institute of Building (CIOB), and Chartered Institution of Civil Engineering Surveyors (CICES). Her accomplishments reflect not just academic superiority but also a commitment to industry evolution through applied research. These recognitions serve as a testament to her impact in the field at an early stage in her career.

🔬 Research Focus 

Ishini’s research centers on leveraging Artificial Intelligence to enhance construction law interpretation, project management, and compliance. Her core focus lies in Natural Language Processing (NLP) applications for automating legal documentation, as evidenced by her work on Roboclause, a contract law chatbot. She explores the use of vector database-powered chatbots for improving contract interpretation accuracy and reducing administrative delays. Another research stream involves affordance-led models for NLP adoption in construction project ecosystems. Ishini is also investigating bi-directional document management systems that ensure construction compliance using NLP. Her recent publications in Built Environment Project and Asset Management and Buildings reflect her commitment to translating theory into practical tools. She is also actively involved in projects integrating BIM with AI to enable intuitive interactions via natural language commands. Her interdisciplinary approach combines construction expertise with digital technologies to foster smarter, more compliant, and efficient project environments. She aspires to reshape the construction industry through innovation-led AI solutions.

📝 Conclusion

P. V. Ishini Nimasha Saparamadu is a highly suitable candidate for the YouthInnovate Award. Her profile reflects a rare combination of academic brilliance, real-world innovation, and a deep commitment to integrating AI into construction and legal processes. While she could strengthen her profile with more patents, books, and international collaborations, her current achievements—especially at such an early stage in her career—position her as a top contender for this recognition.

Publication

  • Optimising Contract Interpretations with Large Language Models: A Comparative Evaluation of a Vector Database-Powered Chatbot vs. ChatGPT
    Year: 2025
    Authors: P. Saparamadu, S. Sepasgozar, R.N.D. Guruge, H.S. Jayasena, A. Darejeh, …

 

  • BLUEPRINT FOR A NATURAL LANGUAGE PROCESSING POWERED NEXUS FOR REGULATORY AND LEGAL LANDSCAPE IN CONSTRUCTION
    Year: 2024
    Authors: P. Saparamadu, H.S. Jayasena, B.A.I. Eranga

 

 

Chunying Li | Ocean Engineering | Best Researcher Award

Posted on by Young Scientists Awards

Assoc. Prof. Dr. Chunying Li | Ocean Engineering | Best Researcher Award

Associate Researcher, Southern University of Science and Technology China

Dr. Chunying Li is a Research Assistant Professor at the Southern University of Science and Technology (SUSTech), China, with expertise in intelligent underwater robotics, particularly in multi-sensor fusion, autonomous systems, and biomimetic robot control in complex environments, contributing extensively to high-impact projects funded in China and Japan.

Profile

Scholar

🎓 Education 

Dr. Li earned her Ph.D. in Intelligent Mechanical Systems Engineering from Kagawa University, Japan (2021–2023), where her research focused on multi-sensor fusion and control strategies for spherical underwater robots, following a B.Sc. in Control Engineering from Tianjin University of Technology (2017–2021), with undergraduate research on path planning for amphibious spherical robots.

💼 Experience 

She currently serves as a Research Assistant Professor in the Department of Electrical and Electronic Engineering at SUSTech (2023–present), and previously worked as a Research Assistant at Kagawa University (2021–2023), actively leading and contributing to international robotics projects involving autonomous underwater systems and human-robot interaction.

🏅 Awards and Honors 

Dr. Li was nominated for the Young Scientist of Ocean Power (2024), received the CAA Natural Science Second Prize (2024), was selected as a Shenzhen Overseas High-level Talent (2024), awarded the CSC Scholarship (2022), chaired IEEE ICMA sessions, and won Tianjin’s Outstanding Master’s Dissertation Award (2020–2021).

🔬 Research Focus 

Her research centers on the design, perception, and control of amphibious and spherical underwater robots, with emphasis on multi-robot collaboration, multi-sensor fusion, underwater environment perception, motion control algorithms, and AI-enhanced target recognition in challenging and dynamic aquatic environments.

📝 Conclusion

Dr. Chunying Li exemplifies the ideal profile of a rising-star researcher in the field of intelligent robotics, with demonstrated innovation, research leadership, and international collaboration. Her cutting-edge contributions to underwater robotic systems and control technologies make her an excellent nominee for the Best Researcher Award. With further expansion into translational research and high-impact publishing, she is poised to become a leading figure in the robotics research community globally.

Publication

  1. Title: Evaluation of Detection System for Bioinspired Spherical Underwater Robots Based on the Pressure Sensor Array
    Year: 2023
    Authors: C Li, S Guo
    Citations: 1

 

  1. Title: Multiple Bio-Inspired Father-Son Underwater Robot for Underwater Target Object Acquisition and Identification
    Year: 2021
    Authors: R An, S Guo, Y Yu, C Li, T Awa
    Citations: 1

 

  1. Title: A Phase-Dependent and EMG-Driven Variable Stiffness Control Strategy for Upper Limb Rehabilitation Robot
    Year: 2024
    Authors: P Li, S Guo, C Li

 

  1. Title: An Improved Motion Strategy with Uncertainty Perception for the Underwater Robot Based on Thrust Allocation Model
    Year: 2024
    Authors: A Li, S Guo, C Li

 

  1. Title: Study on the Backstepping Sliding Mode-Based Tracking Control Method for the SUR
    Year: 2024
    Authors: C Li, S Guo
    Citations: Not listed

 

  1. Title: Study on an Adaptive Clamping Device for Passive Safety Delivery of Vascular Intervention Robot
    Year: 2024
    Authors: S Cao, S Guo, J Guo, J Wang, C Li, H Xu, B Wang, M Ding

 

  1. Title: Study on the Path Planning Based on A* Algorithm for Vascular Intervention Robots
    Year: 2024
    Authors: H Xu, S Guo, C Li, S Cao

 

  1. Title: Study on the Depth Control for an “Egg-shaped” Underwater Robot Based on Backstepping Sliding Mode Algorithm
    Year: 2024
    Authors: H Li, S Guo, C Li, J Long

 

  1. Title: Research on Segmentation and Clustering Algorithms of 3D Point Clouds for Mobile Robot Navigation
    Year: 2024
    Authors: L Huang, S Guo, C Li, Q Lei, J Nie

 

  1. Title: Evaluation of the Dynamic Performance of a Novel Egg-shaped Underwater Robot
    Year: 2024
    Authors: J Long, S Guo, C Li

 

  1. Title: Study on the Improved Water Flow Prediction Based on Classification-Regression Approach for Amphibious Spherical Robots
    Year: 2024
    Authors: J Leng, S Guo, C Li, S Cao

 

  1. Title: Study on Improved D* Lite-Based Obstacle Avoidance and Navigation Strategy for the Ellipsoidal Underwater Robot
    Year: 2024
    Authors: Q Lei, S Guo, C Li, J Nie

 

  1. Title: Study on a Novel Fuzzy PID Control System for the Ellipsoidal Underwater Robot
    Year: 2024
    Authors: X Liu, S Guo, C Li, Q Lei, J Nie

 

  1. Title: Design and Control of an Ellipsoidal Underwater Robot Driven by Four-Vector Propellers
    Year: 2024
    Authors: J Nie, S Guo, C Li, Q Lei

 

 

Sajjad Saleem| Digital agriculture | Young Scientist Award

Posted on by Young Scientists Awards

Mr. Sajjad Saleem| Digital agriculture | Young Scientist Award

Sajjad Saleem is a computer science researcher based in New Jersey with a Master’s in Information Technology from Washington University of Science and Technology. His expertise spans artificial intelligence, deep learning, and image processing, with impactful applications in agriculture and healthcare. He has developed innovative solutions for multi-crop disease detection and early diagnosis of Alzheimer’s and lung diseases. Sajjad thrives in interdisciplinary teams, turning complex datasets into actionable insights. With strong skills in data analytics and statistical tools, he also contributes as a peer reviewer for reputed journals like IEEE Access and Springer. Passionate about sustainable agriculture and precision medicine, he continuously explores ways to improve diagnostics and crop yield prediction through AI. His work integrates technical depth with real-world relevance, making him a valuable contributor to both academic and applied research landscapes.

Profile

Scholar

🎓 Education 

Sajjad Saleem holds an MS in Information Technology (Data Analytics and Management) from Washington University of Science and Technology, completed in 2024. During his graduate studies, he specialized in artificial intelligence and data analytics, developing projects and research around deep learning applications in medical diagnostics and agriculture. Prior to this, he earned a Bachelor of Business Administration from COMSATS University Islamabad, Lahore Campus (2016–2020), where he cultivated foundational knowledge in management sciences and research methodologies. His unique combination of business and technology education empowers him to address real-world problems using AI solutions. Sajjad’s education is enriched by hands-on experience with tools like SPSS, SQL, Tableau, and Cloudera, along with advanced training in machine learning, research analytics, and data management. His academic journey reflects a continuous commitment to leveraging data-driven technologies for solving contemporary challenges in both business intelligence and scientific research.

💼 Experience 

Sajjad’s professional experience is a blend of academic research, data analytics, and peer reviewing. He currently works as a Data Analyst at Technova Systems Inc. in Virginia, utilizing advanced analytics and visualization techniques to support decision-making. From 2016 to 2020, he served as a Research Assistant at COMSATS University Lahore, engaging in research design, literature reviews, and data interpretation. Sajjad is also an active journal peer reviewer, having reviewed over 32 manuscripts for prestigious journals like IEEE Access, Springer Scientific Reports, Wiley’s Developmental Neurobiology, and Frontiers in Plant Science. His reviews span AI, plant science, and developmental neuroscience. This exposure to cutting-edge research across disciplines has deepened his understanding and critical evaluation skills. His experience reflects a strong analytical mindset, collaboration in multidisciplinary environments, and a dedication to advancing both academic and applied research frontiers in AI, agriculture, and healthcare.

🏅 Awards and Honors 

Sajjad Saleem has gained recognition primarily through his academic contributions and peer-review roles. He has reviewed over 32 research manuscripts, reflecting his credibility and expertise in fields such as artificial intelligence, plant science, and developmental neurobiology. His trusted status as a reviewer for top-tier journals like IEEE Access and Springer’s Scientific Reports highlights his ability to assess cutting-edge research critically. He has contributed significantly to maintaining publication standards across diverse domains, including medical diagnostics and agricultural AI. While specific awards are not listed, his selection as a reviewer and consistent participation in scholarly publication processes stand as professional honors. These roles not only acknowledge his subject matter expertise but also illustrate his commitment to academic integrity and knowledge dissemination. His research publications and contributions in deep learning applications have further strengthened his academic profile, positioning him as an emerging expert in AI-driven precision solutions.

🔬 Research Focus 

Sajjad Saleem’s research is centered on the intersection of artificial intelligence and real-world problem-solving in agriculture and healthcare. His work in deep learning addresses critical issues such as crop disease detection, early Alzheimer’s diagnosis, and lung disease classification. His recent projects involve hybrid neural architectures combining NASNet, Vision Transformers, and wrapper-feature selection techniques to optimize accuracy in medical imaging. In agriculture, he has developed enhanced models for multi-crop leaf disease detection and wheat disease classification using feature fusion strategies. Sajjad’s overarching goal is to harness AI to support precision farming, sustainable agriculture, and efficient diagnostics. He also explores the socio-technical impacts of cybercrime, HR analytics, and AI integration in business management. His interdisciplinary research not only contributes to academic literature but also has real-world applications, improving yield prediction, disease diagnosis, and organizational performance through intelligent systems and data analytics.

📝 Conclusion

Sajjad Saleem is a promising researcher whose interdisciplinary expertise in AI, deep learning, and image processing offers substantial contributions to both the agricultural and medical sectors. His publications, peer review experience, and technical skills place him in an excellent position for the Young Scientist Award. By expanding his focus on societal impacts and engaging with industry leaders, Sajjad can further solidify his standing as a thought leader in the fields of AI-driven agriculture and healthcare solutions.

Publication

  • Title: Comparison of Deep Learning Models for Multi-Crop Leaf Disease Detection with Enhanced Vegetative Feature Isolation and Definition of a New Hybrid Architecture
    Year: 2024
    Authors: S Saleem, MI Sharif, MI Sharif, MZ Sajid, F Marinello
    Citations: 10

 

  • Title: Untapped potential and country-of-origin: do employee attitudes and HR analytics boost career growth with a COM-B model application
    Year: 2024
    Authors: S Sattar, M Bukhari, S Saleem, S Ijaz, S Ejaz, K Al Sulaiti, J Abbas
    Citations: 5

 

  • Title: A Multi-Scale Feature Extraction and Fusion Deep Learning Method for Classification of Wheat Diseases
    Year: 2025
    Authors: S Saleem, A Hussain, N Majeed, Z Akhtar, K Siddique
    Citations: 2

 

  • Title: Deep Learning-Based Approach for Identification of Potato Leaf Diseases Using Wrapper Feature Selection and Feature Concatenation
    Year: 2025
    Authors: M Ahtsam Naeem, M Asim Saleem, MI Sharif, S Akber, S Saleem, …
    Citations: 1*

 

  • Title: The Impact of Cybercrime Incidents and Artificial Intelligence Adoption on Organizational Performance: A Mediated Moderation Model
    Year: 2024
    Authors: M Bukhari, S Sattar, S Saleem, KZ Khan, A KHAN
    Citations: 1

 

  • Title: An Integrated Deep Learning Framework Leveraging NASNet and Vision Transformer with MixProcessing for Accurate and Precise Diagnosis of Lung Diseases
    Year: 2025
    Authors: S Saleem, MI Sharif
    Citations: Under Review; PLOS ONE

 

  • Title: Deep Learning in Early Alzheimer’s Diseases Detection: A Comprehensive Survey of Classification, Segmentation, and Feature Extraction Methods
    Year: 2025
    Authors: R Hafeez, S Waheed, SA Naqvi, F Maqbool, A Sarwar, S Saleem, …
    Citations: 0 (arXiv:2501.15293)