T. Pramod | Materials Science | Best Researcher Award

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Mr. T. Pramod | Materials Science | Best Researcher Award

Research Scholar at Kalasalingam Academy of Research and Education, India

T. Pramod is a dedicated researcher and technical expert specializing in mechanical engineering, material science, and nanocomposites. With a passion for innovation, he has contributed significantly to the advancement of fire-retardant materials, hydro turbine coatings, and polymer nanocomposites. His extensive experience spans research roles in prestigious institutions, including ISRO (LEOS), TERI, and CPRI, where he played a crucial role in developing cutting-edge technologies. As an active contributor to the scientific community, he has published numerous journal articles, presented research at international conferences, and filed multiple patents. His expertise in computational simulations, thermal coatings, and material characterization has made him a recognized name in engineering research. Alongside his technical acumen, Pramod has served as an editorial board member and reviewer for reputed journals, further establishing his influence in academia. His career is a testament to his dedication to scientific exploration and engineering advancements.

Professional Profile

Education

T. Pramod holds an M.Sc. Engineering by Research in Mechanical Engineering from Visvesvaraya Technological University, where he conducted in-depth research on material degradation and coatings. His undergraduate education includes a Bachelor of Engineering (B.E.) in Mechanical Engineering from M.V.J College of Engineering, Bangalore, where he developed a strong foundation in design, thermal engineering, and manufacturing processes. Prior to his engineering studies, he completed Pre-University Education (PCMB) from Sree Cauvery College, Bangalore, and his SSLC from Kendriya Vidyalaya, DRDO Township, where he exhibited a keen interest in science and mathematics. Throughout his academic journey, he consistently explored advanced research methodologies, gaining expertise in experimental analysis, computational modeling, and material characterization. His strong academic background laid the foundation for his prolific research career, equipping him with the necessary knowledge and skills to excel in mechanical and materials engineering.

Professional Experience

T. Pramod has amassed a wealth of experience in research and development, holding significant roles across premier research institutions. Currently, he serves as a Technical Assistant at ISRO’s Laboratory for Electro Optics Systems (LEOS), specializing in metrology and optics inspection. Previously, he was a Research Consultant at The Energy and Resources Institute (TERI-SRC), Bangalore, where he worked on fire-retardant nanocomposites for medium-voltage cable sheathing applications. His tenure as a Research Fellow at Central Power Research Institute (CPRI), Bangalore, focused on the combined effects of cavitation and silt erosion in hydro turbine coatings. Earlier, he worked at the Central Manufacturing Technology Institute (CMTI), Bangalore, exploring ductile regime machining of brittle materials. His extensive industrial and research experience has contributed to groundbreaking advancements in material science, coatings, and mechanical performance analysis. His multidisciplinary expertise has enabled him to bridge the gap between research and industrial applications.

Research Interests

T. Pramod’s research interests lie in the fields of material science, nanocomposites, thermal spray coatings, mechanical behavior, and fire-retardant materials. His work extensively covers the development and characterization of high-performance materials for aerospace, power, and defense applications. He specializes in polymer nanocomposites, mechanical testing, thermal degradation, and erosion-resistant coatings, contributing to advancements in engineering materials. His recent research focuses on intumescent fire-retardant nanocomposites, where he investigates the enhancement of flame resistance in polymer materials. Additionally, his studies on hydro turbine coatings and cavitation erosion resistance provide valuable insights into improving the durability of engineering structures. Through experimental and computational approaches, he has explored various mechanical and tribological properties of materials, aiming to optimize their performance under extreme conditions. His interdisciplinary research integrates material science, fluid mechanics, and thermal engineering to develop next-generation materials with superior properties.

Awards and Honors

T. Pramod has been recognized for his outstanding contributions to research and development in mechanical and materials engineering. He has filed multiple patents, including one on fire-retardant nanocomposite materials and another on hydro turbine erosion coatings, showcasing his innovation in material applications. As an editorial and review board member for reputed scientific journals, he has played a crucial role in advancing knowledge dissemination in engineering. He has actively contributed as a technical committee member for national and international conferences, including the National Conference on Additive Manufacturing in Aerospace and Defense and the All India Seminar on Residual Stress and Advanced NDE Techniques. His numerous journal publications in high-impact international journals reflect his significant research impact. Additionally, he has been honored for his participation in scientific symposiums and technical workshops, further solidifying his stature as an accomplished researcher in his field.

Conclusion

T. Pramod has an impressive research background, publication record, patents, and technical expertise, making him a strong candidate for the Best Researcher Award. If he enhances his academic credentials, research leadership, and global outreach, he would be an even more outstanding contender.

Publications Top Noted

Author: T. Pramod, Shreyas J. Kashyap, Z. Yunus Khan, Mohammed Jahangeer Ali, Mohammed Yunus Khaleel, R.R.N. Sailaja
Year: 2025
Citation: Pramod, T., Kashyap, S. J., Khan, Z. Y., Ali, M. J., Khaleel, M. Y., & Sailaja, R. R. N. (2025). Mechanical and flame retardant characteristics of PC/ABS composites: Effect of loading co-microencapsulated flame retardant additive along with silane treated nanoclay and functionalized MWCNT as fillers. Advanced Composite Materials. DOI: 10.1080/09243046.2025.2475600

 

Nurul Musfirah Mazlan | Engineering | Best Researcher Award

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Dr. Nurul Musfirah Mazlan | Engineering | Best Researcher Award

Lecturer At School Of Aerospace Engineering, Universiti Sains Malaysia, Malaysia

Dr. Nurul Musfirah Mazlan is a dedicated lecturer and researcher specializing in Aerospace Propulsion and Biofuels. She is currently a DS51 Lecturer at Universiti Sains Malaysia (USM), where she contributes to both teaching and research in the field of aerospace engineering. With a strong academic background and an extensive supervision portfolio of postgraduate and undergraduate students, she has played a vital role in advancing research related to sustainable aviation fuels and propulsion systems. Dr. Nurul Musfirah is also an active member of The American Society of Mechanical Engineers (ASME) and the Board of Engineers Malaysia (BEM), demonstrating her commitment to professional excellence. Her research focuses on alternative fuel technologies, nanoparticles as fuel additives, and propulsion system optimization, contributing significantly to green aviation efforts. Through her dedication to academia and innovation, she continues to make an impact in the aerospace engineering field.

Professional Profile

Education

Dr. Nurul Musfirah Mazlan obtained her Doctor of Philosophy (PhD) from Cranfield University, UK, specializing in Aerospace Propulsion and Biofuels. Her doctoral research focused on sustainable aviation fuels, particularly investigating the combustion performance of biofuels and alternative energy sources in aerospace applications. Prior to her PhD, she completed her undergraduate and master’s degrees in engineering, equipping her with a strong foundation in thermodynamics, propulsion systems, and fuel technologies. Her academic journey has been driven by a passion for developing environmentally friendly solutions for the aerospace industry, with a focus on reducing carbon emissions and improving fuel efficiency. Throughout her education, she has worked on multiple experimental and computational research projects, collaborating with international researchers to advance knowledge in alternative propulsion technologies. Her educational background has provided her with a solid expertise in combustion analysis, computational fluid dynamics (CFD), and aerospace fuel innovations.

Professional Experience

Dr. Nurul Musfirah Mazlan is currently serving as a Lecturer (DS51) at Universiti Sains Malaysia (USM), where she teaches undergraduate and postgraduate courses related to aerospace propulsion, thermodynamics, and fuel technologies. Over the years, she has actively supervised numerous PhD, MSc, and undergraduate students, guiding research in biofuels, propulsion systems, and nanotechnology applications in aerospace. While she does not have direct industry experience before joining USM, her work significantly contributes to practical aerospace applications through collaborations with academic and research institutions. In addition to teaching, she is involved in curriculum development, laboratory research, and mentoring students in experimental and computational studies. Her multidisciplinary approach allows her to bridge the gap between theory and real-world aerospace engineering challenges, making her a valuable academician and researcher in the field of sustainable aviation technology.

Research Interest

Dr. Nurul Musfirah Mazlan’s research focuses on Aerospace Propulsion, Biofuels, and Sustainable Energy Technologies. Her primary areas of interest include the development and performance analysis of biojet fuels, nano-additives for combustion efficiency, and solid rocket propulsion systems. She has conducted extensive research on Hydrotreated Vegetable Oil (HVO) blended with Jet-A fuel, evaluating its engine performance, emission characteristics, and sustainability. Additionally, her work explores computational fluid dynamics (CFD) simulations to study the interaction of alternative fuels with turbine blades and combustion systems. She is also interested in experimental and modeling approaches for improving rocket propulsion efficiency and reducing emissions in aircraft engines. By integrating nanotechnology with fuel research, Dr. Nurul Musfirah aims to develop greener and more efficient propulsion solutions for the aviation and aerospace industry, contributing to global efforts toward sustainable aviation fuel development.

Awards and Honors

Dr. Nurul Musfirah Mazlan has received several recognitions and honors for her contributions to aerospace propulsion and alternative fuel research. While specific awards are not listed in the provided details, her academic and research achievements are evident through her supervision of high-impact projects, international collaborations, and contributions to sustainable aviation research. Her role as a supervisor for multiple PhD and MSc students working on innovative propulsion technologies is a testament to her expertise and dedication to academia. Additionally, her involvement with The American Society of Mechanical Engineers (ASME) and the Board of Engineers Malaysia (BEM) highlights her professional standing and recognition in the engineering community. As she continues to push the boundaries of biofuel and propulsion research, she is well-positioned to receive further recognition for her groundbreaking contributions to the aerospace industry.

Conclusion

Dr. Nurul Musfirah Mazlan is a strong candidate for the Best Researcher Award, given her extensive research contributions in aerospace propulsion and biofuels, graduate supervision, and technical expertise. Her work aligns with sustainable aviation efforts, making her research highly relevant. To further strengthen her case, industry collaborations, securing more grants, and taking leadership roles in global research organizations would enhance her profile.

Publications Top Noted

1. Spray Behaviour of Hydro-Treated Ester Fatty Acids Fuel Made from Used Cooking Oil at Low Injection Pressures

  • Authors: Azam, Q., Sulaiman, S.Z., Abdul Razak, N.A., & Mazlan, N.M.
  • Year: 2024
  • Journal: Aeronautical Journal
  • Citations: 1

2. Influence of Oxyhydrogen Gas Retrofit into Two-Stroke Engine on Emissions and Exhaust Gas Temperature Variations

  • Authors: Kamarudin, R., Ang, Y.Z., Topare, N.S., Baig, R.U., Sultan, S.M., & Mazlan, N.M.
  • Year: 2024
  • Journal: Heliyon
  • Citations: 2

3. Analysis Study of Thermal and Exergy Efficiency in Double-Layers Porous Media Combustion Using Different Sizes of Burner: A Comparison

  • Authors: Ismail, N.C., Abdullah, M.Z., Mazlan, N.M., Rusdi, M.S.B., & Kamarudin, R.
  • Year: 2024
  • Journal: Pertanika Journal of Science and Technology
  • Citations: 0

4. Effect of NCO/OH Ratio and Binder Content with Micro-AP on HTPB/AP/Al-Based Propellants Mechanical Properties

  • Authors: Adnana, Z., & Mazlan, N.M.
  • Year: 2024
  • Journal: Advances in Materials Research (South Korea)
  • Citations: 0

 

Samaneh Abdi Qezeljeh | Energy | Best Researcher Award

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Ms. Samaneh Abdi Qezeljeh | Energy | Best Researcher Award

PhD Researcher, Technische Universität Darmstadt, FG SLA, Germany

Samaneh Abdi Qezeljeh is a dedicated researcher in the field of mechanical engineering with a focus on fluid mechanics, heat transfer, and computational fluid dynamics (CFD). She holds a Master’s degree in Mechanical Engineering, Energy Conservation from the University of Tabriz, where she excelled academically, ranking 5th among her peers. She is currently pursuing a Ph.D. at the Technical University of Darmstadt in the Institute for Fluid Mechanics and Aerodynamics. Her doctoral research focuses on turbulent aerosol flows and their role in thermal load peak treatment. Samaneh has demonstrated strong research capabilities, particularly in fluid-structure interaction and numerical simulation, and she has actively contributed to peer-reviewed publications. She combines academic expertise with industry experience from her internship at I.D.E.M Co., working on engine design and modification. Her work bridges the gap between theory and practice, making significant contributions to both academia and industry.

Profile

Google Scholar

Education 

Samaneh Abdi Qezeljeh pursued her academic journey in mechanical engineering, earning both her Bachelor’s and Master’s degrees in the field. She completed her Bachelor of Science (B.Sc.) in Mechanical Engineering at Seraj Higher Education Institute in Tabriz, where she ranked 3rd among her peers, demonstrating her academic dedication. Continuing her education at the University of Tabriz, she obtained a Master of Science (M.Sc.) in Mechanical Engineering, Energy Conservation, from September 2018 to September 2021. Her academic performance in the Master’s program was exceptional, with a CGPA of 17.63/20, excluding her thesis. Her thesis, titled “Incompressible Flow Simulation in a Backward-Facing Step with an Elastic Wall,” received a remarkable grade of 19.75/20. Currently, she is pursuing a Ph.D. at the Technical University of Darmstadt in Germany, specializing in fluid mechanics and aerodynamics, focusing on thermal load peak treatment in aerosol flows.

Experience 

Samaneh Abdi Qezeljeh has gained valuable industry experience during her internship at I.D.E.M Co. (Iranian Diesel Engine Manufacturing Co.), a company licensed by Daimler AG Germany, from July 2017 to August 2017. In this role, she worked in the R&D Department, where she contributed to the design and modification of engines. This hands-on experience allowed her to apply her academic knowledge to real-world engineering challenges, particularly in the automotive sector. Furthermore, Samaneh’s academic career has been enriched by her involvement in high-impact research, including her Ph.D. research at the Technical University of Darmstadt, where she is currently engaged in studying turbulent aerosol flows and their effects on thermal load peak treatment. Her research experience spans fluid mechanics, heat transfer, fluid-structure interaction (FSI), and numerical simulation, and she has contributed to several publications that advance understanding in these fields.

Awards and Honors

Samaneh Abdi Qezeljeh has consistently demonstrated excellence throughout her academic career, earning several accolades. She ranked 5th in her Master’s program at the University of Tabriz in Mechanical Engineering, Energy Conservation, showcasing her strong academic abilities. Her undergraduate achievements were also outstanding, as she ranked 3rd in her class at Seraj Higher Education Institute, further underlining her academic competence. Samaneh’s thesis in the Master’s program, titled “Incompressible Flow Simulation in a Backward-Facing Step with an Elastic Wall,” received an impressive grade of 19.75/20, reflecting the quality of her research work. Additionally, her academic pursuits have led to notable recognition in research, with her contributions being published in esteemed journals. She is currently pursuing her Ph.D. at the Technical University of Darmstadt, Germany, where she continues to build on her previous achievements and engage in innovative research.

Research Focus 

Samaneh Abdi Qezeljeh’s research interests lie at the intersection of fluid mechanics, heat transfer, and computational fluid dynamics (CFD). Her work explores complex phenomena such as fluid-structure interaction (FSI), turbulence, and bio-mechanics, with an emphasis on numerical simulations and their practical applications. She is particularly focused on understanding the behavior of turbulent flows and their impact on thermal loads in various systems. Her Ph.D. research at the Technical University of Darmstadt, Germany, is centered on investigating thermal load peak treatment in the air gap using turbulent aerosol flows. Samaneh is committed to advancing the understanding of fluid dynamics through both theoretical models and simulations. Her expertise spans a broad range of engineering applications, from automotive systems to energy conservation and bio-mechanics. Through her research, Samaneh aims to contribute to solving real-world engineering challenges and improve the efficiency of fluid-based systems.

Publications 

  • “Thermal Finite-Element Model of Electric Machine Cooled by Spray” 🖥️🔥 (2024)
  • “Drop Impact onto a Moving Substrate: Aerodynamic Rebound” 🌧️🚗 (2024)

Zeinab Asgari | Animal breeding | Best Researcher Award

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Dr. Zeinab Asgari | Animal breeding | Best Researcher Award

Dr, Isfahan University of Technology, Iran

Dr. Zeinab Asgari is a distinguished researcher specializing in genetic and animal breeding. She earned her master’s degree at Tarbiat Modares University, ranking first among her peers. Currently, she is pursuing a Ph.D. in genetic and animal breeding at Isfahan University of Technology (IUT), where she has also been recognized for academic excellence. Her passion for innovation drives her interest in data analysis, machine learning, and genome-wide association studies (GWAS). Dr. Asgari has contributed significantly to the scientific community through her research and publications. She aims to explore advanced methodologies and collaborate internationally to make meaningful contributions to genetics and animal breeding.

Profile

Scopus

Education 

Dr. Zeinab Asgari completed her master’s degree in genetic and animal breeding engineering at Tarbiat Modares University, where she achieved first place among her cohort. She began her Ph.D. studies in genetic and animal breeding in 2018 at Isfahan University of Technology (IUT), maintaining her status as an excellent student. Her academic journey reflects a commitment to excellence and innovation. Throughout her education, she has focused on integrating cutting-edge statistical and computational techniques into genetic studies, particularly Bayesian methodologies and machine learning. These skills have empowered her to address complex challenges in animal breeding, such as improving economic traits in livestock and conducting genome-wide association studies (GWAS).

Research Focus 

Dr. Asgari’s research centers on genetic and animal breeding with an emphasis on data analysis and machine learning. Her expertise includes genome-wide association studies (GWAS), leveraging Bayesian methodologies to uncover genetic markers influencing traits such as body weight in chickens and health traits in dairy cows. Her work addresses practical challenges in agriculture, aiming to enhance economic and genetic traits in livestock. Dr. Asgari is passionate about applying computational tools and advanced statistical methods to improve breeding programs and contribute to sustainable agricultural practices. Her ongoing efforts involve identifying genetic markers for economically important traits, utilizing retrospective data, and integrating innovative approaches for actionable insights.

Publications

  1. 🌾 Risk factors and population attributable fractions for displaced abomasum in Iranian dairy cattle: A retrospective analysis of field data.
  2. 🐓 Bayes factors revealed selection signature for time to market body weight in chicken: A genome-wide association study using BayesCpi methodology.

Kun Liu | Electrochemical energy storage materials | Best Researcher Award

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Dr. Kun Liu | Electrochemical energy storage materials | Best Researcher Award

Assistant research fellow at Sinopec Dalian Research Institute of Petroleum and Petrochemicals, China

Kun Liu is a dedicated researcher in the field of electrochemical energy storage, currently affiliated with the Sinopec Dalian Research Institute of Petroleum and Petrochemicals. With a Ph.D. from Dalian Maritime University, he has made significant contributions to battery materials, particularly focusing on lithium/sodium-ion and solid-state batteries. His commitment to advancing sustainable green materials is evident in his extensive publication record. Beyond research, Liu actively engages in peer review for several esteemed journals, demonstrating his dedication to maintaining high standards in scientific publishing. His work has garnered recognition, leading to a provisional selection for the “Best Researcher Award,” highlighting his influence in the field. Liu aims to continue contributing to innovative solutions in energy storage technology.

Profile:

Scopus.com

Education:

Kun Liu completed his Ph.D. at Dalian Maritime University, where he specialized in electrochemical energy storage technologies. His academic journey has been marked by a deep commitment to understanding and developing advanced battery materials. Throughout his doctoral studies, Liu focused on the synthesis and performance evaluation of various anode materials, particularly in the context of lithium and sodium-ion batteries. His educational background has equipped him with a robust foundation in both theoretical and practical aspects of electrochemistry. This academic training has been pivotal in shaping his research trajectory, allowing him to contribute effectively to the development of sustainable energy solutions. Liu’s commitment to continuous learning is reflected in his participation in numerous workshops and conferences, where he engages with leading experts and stays updated on the latest advancements in the field.

Experience:

Kun Liu has accumulated substantial experience in electrochemical energy storage through his role at the Sinopec Dalian Research Institute of Petroleum and Petrochemicals. His research focuses on developing innovative materials for lithium and sodium-ion batteries, with a particular emphasis on enhancing their performance and sustainability. Liu has authored and co-authored numerous publications, showcasing his expertise in material synthesis and characterization. In addition to his research duties, he actively contributes to the academic community by reviewing manuscripts for reputable journals, such as Electrochimica Acta and Applied Surface Science. This role reflects his commitment to advancing scientific knowledge and ensuring the quality of published research. Liu’s collaborative spirit and ability to work with multidisciplinary teams further enhance his effectiveness as a researcher, positioning him as a leading figure in the field of electrochemical energy storage materials.

Researcher Skills:

Kun Liu’s research is centered on the development and optimization of electrochemical energy storage materials, particularly lithium/sodium-ion and solid-state batteries. His recent work focuses on innovative synthesis methods for tin-based anode materials, aiming to enhance their lithium storage performance. By employing controllable synthesis strategies, Liu seeks to improve the efficiency and sustainability of battery technologies. His research addresses critical challenges in energy storage, such as dendrite formation and the overall lifecycle of battery materials. Additionally, Liu explores the integration of novel materials, like nitrogen-doped carbon spheres and heterostructure composites, to boost battery performance. His commitment to sustainability is evident in his focus on green materials, aiming to reduce the environmental impact of battery production and use. Overall, Liu’s work contributes significantly to advancing the field of electrochemical energy storage, with the potential to influence future developments in sustainable energy technologies.

Publication Top Notes:

  • A simple strategy for the controllable synthesis of tin-based anode materials and their lithium storage performances 📄
  • MoS2/SnS heterostructure composite for high-performance lithium-ion battery anodes ⚡
  • Spontaneous template approach towards nitrogenous multi-shelled hollow carbon spheres with unique onion-like architecture 🌱
  • Porous graphitic carbon nitride improved Li4Ti5O12 anode material for lithium storage capacity 🪨
  • An effective strategy for dendrite-free Li metal anodes: Nickel foam decorated with high lattice-matching CoN and CoF2 nanosheets for dense deposition 🔋
  • Nitrogen and sulfur co-doped carbon-coated Li4Ti5O12 composite to enhance lithium storage properties 🌌
  • Three birds with one arrow: Multifunctional single-atom catalysts enable efficient lithium-sulfur batteries 🦅
  • A dual-template synergistic assembly strategy towards the synthesis of extra-small nitrogen-doped mesoporous carbon nanospheres with large pores ⚙️
  • Hard template synthesis of Zn, Co co-doping hierarchical porous carbon framework for stable Li metal anodes 🏗️
  • Lithiophilic Sn layer via pre-electroplating to realize the uniform stripping/plating for dendrite-free Li metal anodes ✨.

Conclusion:

Kun Liu stands out as a strong candidate for the Best Researcher Award due to his innovative contributions to electrochemical energy storage, a solid academic foundation, and active engagement in peer review. While there are areas for improvement, such as increasing citation impact and broadening research applications, his dedication to advancing knowledge and fostering collaboration marks him as a promising researcher. Recognizing his work through this award would not only honor his achievements but also inspire further innovations in the field of energy storage.

 

Romoke Grace Akindele | Electronics Science | Best Researcher Award

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Mrs. Romoke Grace Akindele | Electronics Science | Best Researcher Award

Romoke Grace Akindele , Hebei University of Technolgy ,China

Romoke Grace Akindele is a dedicated researcher and educator in the field of electronic science, currently pursuing her Ph.D. at Hebei University of Technology in Tianjin, China. Born in Nigeria, she has cultivated a strong academic background with a focus on electronic circuit design and signal processing. Romoke is committed to fostering scientific inquiry and mentoring young students, believing that education should inspire innovation. Her diverse experiences, from teaching physics to participating in international research projects, reflect her passion for contributing to advancements in technology. With multiple published works, Romoke aims to bridge the gap between theory and practical applications in electronics, ultimately seeking to improve lives through technological innovation.

Profile

Education:

Romoke holds a Bachelor’s degree in Pure and Applied Physics from Ladoke Akintola University of Technology (LAUTECH), Nigeria, and a Master’s degree in Communication Physics from the Federal University of Technology Akure (FUTA), Nigeria. Currently enrolled in a Ph.D. program, her academic journey is characterized by a robust focus on electronic principles and their applications in modern technology. Throughout her studies, Romoke has participated in various workshops and training programs, enhancing her skills in machine learning and electronic circuit design. This commitment to continuous learning is evident as she integrates the latest advancements in her research.

Experience:

Romoke has accumulated a diverse range of experience in both academia and industry. Her tenure as a Physics teacher at multiple institutions in Nigeria equipped her with effective teaching methodologies and strong communication skills. Additionally, she served as an Administrative Assistant, where she honed her organizational and management abilities. During her industrial training at the International Institute of Tropical Agriculture (IITA), she gained practical skills in troubleshooting and installation of electronic systems. These experiences have enriched her understanding of electronic science, preparing her for her current research endeavors and collaborative projects.

Awards and Honors:

Romoke has received several accolades for her academic and research excellence. Her participation in international workshops has earned her recognition as an outstanding participant, particularly in the “Frontier Technologies and Applications of Target Recognition” summer school program. Her contributions to collaborative research projects have also garnered funding and support from esteemed institutions. Romoke’s awards reflect her dedication to advancing electronic science and her potential to make significant contributions to the field.

Awards and Honors:

Romoke has received several accolades for her academic and research excellence. Her participation in international workshops has earned her recognition as an outstanding participant, particularly in the “Frontier Technologies and Applications of Target Recognition” summer school program. Her contributions to collaborative research projects have also garnered funding and support from esteemed institutions. Romoke’s awards reflect her dedication to advancing electronic science and her potential to make significant contributions to the field.

Publication Top Notes:

  1. OBhunter: An ensemble spectral-angular based transformer network for occlusion detection
    Expert Systems with Applications
    2024-08 | DOI: 10.1016/j.eswa.2024.123324
  2. Denoising of Nifti (MRI) Images with a Regularized Neighborhood Pixel Similarity Wavelet Algorithm
    Sensors
    2023-09-10 | DOI: 10.3390/s23187780
  3. ETAM: Ensemble transformer with attention modules for detection of small objects
    Expert Systems with Applications
    2023-08 | DOI: 10.1016/j.eswa.2023.119997
  4. Pattern Synthesis of Uniform and Sparse Linear Antenna Array Using Mayfly Algorithm
    IEEE Access
    2021 | DOI: 10.1109/access.2021.3083487
  5. Performance of site diversity fade mitigation over Earth‐to‐space propagation link using rain cell measurements in a tropical Nigeria
    IET Microwaves, Antennas & Propagation
    2017-12 | DOI: 10.1049/iet-map.2017.0432

    Conclusion:

    Romoke Grace Akindele is an exemplary candidate for the Best Researcher Award. Her strong academic background, impressive research contributions, and dedication to continuous learning make her a standout in her field. By addressing her areas for improvement, she can further enhance her impact and contributions to electronic science and technology. Her commitment to innovation and collaboration positions her well for future success in research.

     

Haiyan Kang | Network security | Best Researcher Award

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Prof Dr Haiyan Kang | Network security | Best Researcher Award 

Prof Dr Haiyan Kang  , Beijing Information Science and Technology University , China

Kang Haiyan, a prominent Chinese researcher, was born in China and currently serves as a professor in the Department of Information Security at Beijing Information Science and Technology University. A senior member of the China Computer Federation and the ACM, he has been recognized as an outstanding talent in Beijing. With a Ph.D. in computer application technology from the Beijing Institute of Technology (2005), he is also an executive member of the Privacy Protection Committee of the China Confidentiality Association. Kang’s contributions to education have earned him multiple teaching awards, and he is noted for his mentorship of graduate students. His extensive research has garnered numerous provincial and ministerial awards, alongside 20 patents. Kang has authored over 110 academic papers and six monographs, making significant strides in network security, blockchain, and privacy protection.

Publication Profile

Scopus

Strengths for the Award

Kang Haiyan’s impressive academic and professional achievements make him a strong candidate for the Best Researcher Award. With over 110 published academic papers and six monographs, his prolific output demonstrates a significant commitment to advancing knowledge in the fields of network security, blockchain technology, and privacy protection. His research has garnered six provincial and ministerial level awards, reflecting his impact within the academic community. Kang’s leadership as a professor and his role as chief of a national first-class major in information security further emphasize his dedication to education and mentorship. Additionally, his executive position in the Privacy Protection Committee of the China Confidentiality Association showcases his influence in shaping policies and practices in the domain of privacy protection.

Areas for Improvement

While Kang’s research output is commendable, there is room for broader international collaboration, which could enhance the global relevance of his work. Increasing engagement in interdisciplinary research could also provide innovative perspectives on complex security issues. Furthermore, focusing on enhancing public outreach and education regarding privacy issues could amplify the societal impact of his research.

Education 

Kang Haiyan obtained his Ph.D. in Computer Application Technology from the Beijing Institute of Technology in 2005, where he developed a strong foundation in information security and computer science. His doctoral research focused on advanced computing technologies, setting the stage for his subsequent contributions to the field. Throughout his academic journey, Kang has continually pursued knowledge in various aspects of information security, including network security and privacy protection. He has engaged in various professional development programs and has been recognized for his outstanding academic performance. His educational background equips him with both theoretical knowledge and practical skills, enabling him to tackle complex problems in his research. This strong educational foundation, combined with his continuous pursuit of knowledge, has significantly shaped his career as an educator and researcher, leading to his recognition as a leading figure in the domain of information security.

Experience 

Kang Haiyan has amassed extensive experience in academia and research over his career. Currently a professor at Beijing Information Science and Technology University, he leads the Department of Information Security, overseeing the national first-class major in information security. As an editorial board member of the Journal of Information Security Research and an expert reviewer for the National Key Research and Development Program, he plays a crucial role in shaping research direction in the field. His involvement with the China Computer Federation and the ACM highlights his commitment to advancing computer science. Kang has also contributed significantly to teaching, having received multiple awards for his instructional excellence, including national and local teaching achievement prizes. His mentorship has positively impacted many graduate students, further extending his influence in academia. With a solid background in research and teaching, he has become a respected leader in the information security landscape.

Research Focus 

Kang Haiyan’s research focuses on critical areas within information security, including network security, blockchain technology, and privacy protection. His work in network security investigates innovative methodologies for safeguarding data and mitigating cyber threats. Kang’s exploration of blockchain technologies aims to enhance the security and integrity of digital transactions. A significant aspect of his research is the development of privacy-preserving techniques, particularly through differential privacy and federated learning approaches, which have gained increasing importance in today’s data-driven world. His contributions have led to the publication of over 110 academic papers and numerous patents, reflecting his commitment to advancing knowledge in these fields. Additionally, his work addresses real-world challenges, ensuring that his research has practical applications. As he continues to explore emerging trends and technologies, Kang remains dedicated to fostering a secure and privacy-conscious digital environment.

Publications Top Notes

  1. Kang Haiyan, Wang Jiakang. Swarm Mutual Learning 🐝
  2. Kang Haiyan, Wang Xiaoshi. Research on the Deep Learning Method Based on Data Feature Relevance and Adaptive Differential Privacy 📊
  3. Kang Haiyan, Ji Shanshan. Hierarchical Stackelberg Game Swarm Learning Incentive Method for Wireless Edge Network 📡
  4. Xiaoying Qiu, Haiyan Kang, et al. A Privacy-Preserving and Intelligent Authentication Scheme for Next Generation-CPS 🔒
  5. Wu Jing, Haiyan Kang. An effective ISDPR rumor propagation model on complex networks 📈
  6. Kang Haiyan, Ji Yuanrui. Research on Time-Serial Location Data Publication Based on Local Differential Privacy 🗺️
  7. Kang Haiyan, Long Molan. Research on network attack analysis method based on attack graph of absorbing Markov chain 📉
  8. Kang Haiyan, Yange Yujie. An Enhanced Detection Method of PCB Defect Based on D-DenseNet 🖥️
  9. Yang Yujie, Kang Haiyan. An Enhanced Detection Method of PCB Defect Based on Improved YOLOv7 🔍
  10. Kang, H., Li, Y., Zhang, S. An effective differential privacy protection method of location data based on perturbation loss constraint 🛡️
  11. Kang Haiyan, Deng Jie. A cross encryption scheme for data security storage in cloud computing environment ☁️
  12. Kang Haiyan, Feng Yaping, et al. Research on personalised privacy-preserving model of multi-sensitive attributes 🛡️
  13. Kang Haiyan, Ji Yuanrui, Zhang Shuxuan. Enhanced Privacy Preserving for Social Networks Relational Data Based on Personalized Differential Privacy 🔐

Conclusion

Kang Haiyan’s contributions to information security and his dedication to teaching and mentorship position him as a leading figure in his field. His extensive publication record, coupled with numerous accolades, demonstrates his commitment to advancing research and education. By addressing potential areas for improvement, he could further enhance his impact on both the academic community and society at large, making him a deserving candidate for the Best Researcher Award.

 

Vanessa Whittem | Architecture | Best Researcher Award

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Mrs Vanessa Whittem | Architecture | Best Researcher Award 

Mrs Vanessa Whittem , Deakin University , Australia

Vanessa Whittem is a dedicated Graduate Architect and PhD candidate at Deakin University, specializing in sustainable architecture. With a background in both architecture and construction management, she combines technical expertise with research acumen. Vanessa has a rich teaching history, guiding undergraduate students and contributing significantly to various research projects. Her previous career as a Chartered Accountant and CPA provides her with a unique perspective on financial management in architecture. Passionate about environmental sustainability, she actively engages in community initiatives and professional development, showcasing her commitment to both the architectural field and societal well-being.

Publication Profile

Orcid

Strengths for the Award

  1. Diverse Expertise: Vanessa has a unique combination of qualifications in architecture, construction management, and accounting. Her background as a Chartered Accountant and CPA adds depth to her financial and project management skills, enabling her to navigate complex research environments effectively.
  2. Extensive Research Experience: As a Post-Doctoral Researcher at Northeastern University and a Research Assistant at Deakin University, Vanessa has contributed to multiple significant projects, showcasing her ability to lead and collaborate in diverse research contexts.
  3. Publication Record: Vanessa’s strong publication history, including peer-reviewed articles in prominent journals, highlights her commitment to advancing knowledge in architectural sustainability and post-occupancy evaluations. Her recent works reflect her capacity for rigorous research and critical analysis.
  4. Teaching and Mentorship: With experience as an Adjunct Lecturer and Casual Academic, Vanessa has demonstrated her ability to educate and inspire undergraduate students. Her engagement in teaching complements her research, fostering a holistic academic approach.
  5. Grants and Awards: Her successful grant applications and recognition for research excellence, such as the Graham Treloar Research Prize and Best Student Paper awards, underscore her capability to secure funding and contribute valuable insights to the field.
  6. Professional Service: Vanessa’s involvement in professional committees and as a manuscript reviewer illustrates her dedication to the architectural community and her proactive engagement in advancing research standards.

Areas for Improvement

  1. Networking and Collaboration: While Vanessa has a solid track record of individual accomplishments, expanding her network and collaboration with international researchers could enhance her research impact and visibility.
  2. Broader Dissemination of Research Findings: Increasing her presence in industry-related conferences and workshops would allow her to share findings more widely and gather diverse perspectives that could enrich her work.
  3. Interdisciplinary Research Initiatives: Exploring opportunities for interdisciplinary research projects could leverage her diverse skills and knowledge, creating innovative solutions in architecture and sustainability.

Education 

Vanessa Whittem holds a Doctor of Philosophy (PhD) from Deakin University, focusing on post-occupancy feedback in architecture, and is set to submit her thesis in July 2024. She earned her Master of Architecture from Deakin University in 2018, where her thesis explored post-occupancy feedback sources for architects in Victoria, Australia. Additionally, she holds a Bachelor of Design (Architecture) with Distinction and a Bachelor of Construction Management with First Class Honours, both from Deakin University. Her educational foundation is complemented by certifications as a Chartered Accountant and a US CPA, alongside a Bachelor of Commerce from the Australian National University, reflecting her strong analytical and financial skills.

Experience

Vanessa has diverse experience in both academia and architectural practice. Currently, she serves as a Post-Doctoral Researcher at Northeastern University’s Smart Cities Lab, while also lecturing at James Cook University. Previously, she was a Research Assistant at Deakin University, where she contributed to multiple projects focused on sustainability and urban architecture. Her teaching experience includes casual academic roles, where she tutored and assessed undergraduate students in various architecture and construction courses. Additionally, she worked as an Architectural Assistant at AlsoCAN Architects, gaining hands-on experience in residential projects. Vanessa has also consulted for various councils on building design regulations, enhancing her practical knowledge in urban development and community planning.

Awards and Honors 

Vanessa Whittem has received several prestigious awards, recognizing her research excellence and contributions to architecture. She was honored with the Best Student Paper at the 56th Architectural Science Association Conference in December 2023. In 2022, she received the Graham Treloar Research Prize for the Most Outstanding Publication on Sustainability from Deakin University. Her PhD scholarship, awarded in 2019, highlights her academic prowess and commitment to research. Additionally, she achieved accolades for her presentations during the School Research Day at Deakin University. Vanessa’s participation in various design competitions, such as the ASC Texo International Design Build, where her team secured 2nd place, further showcases her competitive spirit and innovative approach to architecture.

Research Focus 

Vanessa’s research primarily explores post-occupancy feedback mechanisms in architecture, aiming to enhance the sustainability and user satisfaction of built environments. Her doctoral thesis investigates the Integral Sustainable Design framework, analyzing architects’ desires and the effectiveness of feedback surveys in educational settings. Throughout her academic career, she has engaged in collaborative research addressing urban architecture and environmental sustainability, including projects on migrant architecture and the implications of architectural decisions on community well-being. Vanessa’s work reflects a commitment to bridging the gap between architectural practice and academic research, focusing on actionable insights for architects and policymakers. By contributing to scholarly articles and participating in various research initiatives, she aims to influence the future of sustainable architectural design and promote more effective communication between architects and users.

Publication Top Notes

  1. Bridging the gaps – A mixed methods approach to evaluating novel feedback surveys of children on school buildings 🌍📚
  2. How comprehensive is post-occupancy feedback on school buildings for architects? A conceptual review based upon Integral Sustainable Design principles 🏫📊
  3. Reliability of human environmental “sensors”: Evidence from first- and third-person methods 📏🔍
  4. Architectural, indoor environmental, personal and cultural influences on students’ selection of a preferred place to study 🛋️🎓
  5. Learning from built projects – sources of post occupancy feedback used by architects in Victoria, Australia 🏛️📝
  6. Symposium Vacancy and Preservation: Architecture of the Post-industrial Community 🏭📖

Conclusion

Vanessa Whittem is a highly qualified candidate for the Best Researcher Award, demonstrating a blend of academic excellence, practical experience, and a commitment to sustainability in architecture. Her strengths in research, teaching, and professional service position her as a leader in her field. By addressing areas for improvement, she can further amplify her impact on architectural research and education.

 

 

Shailendra Kumar | Mathematical Modelling | Best Researcher Award

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Mr. Shailendra Kumar | Mathematical Modelling | Best Researcher Award

Assistant Professor, Kutir Post Graduate College Chakkey Jaunpur, India

📘 Shailendra Kumar is an Assistant Professor in the Department of Mathematics at Kutir P. G. College, Chakkey, Jaunpur. With a deep commitment to education and research, Shailendra is currently pursuing his Ph.D. in Mathematics at the University of Allahabad. His academic journey is marked by a strong focus on mathematical modeling, which he applies to address complex environmental issues.

Profile

Google Scholar

Analysis for “Best Researcher Award” – Shailendra Kumar

Strengths for the Award:

Shailendra Kumar has demonstrated a strong academic background in Mathematics, having completed his postgraduate studies and currently pursuing a Ph.D. at a reputable institution, the University of Allahabad. His commitment to research is evident through his position as an Assistant Professor at Kutir Post Graduate College. Notably, he has published a research paper in the “International mper Journal of Modelling and Simulation,” focusing on the effects of energy sectors on carbon dioxide emissions and environmental temperature. This publication, indexed in ESCI, indicates his capability to contribute to his field. His research interest in mathematical modeling aligns with current global concerns about climate change, showcasing his ability to apply mathematical concepts to real-world problems.

Areas for Improvement:

While Shailendra Kumar has a solid academic foundation, his research portfolio could benefit from more diversification and depth. He currently lacks completed or ongoing research projects, consultancy or industry projects, books, patents, and professional memberships, which could enhance his professional profile and impact. Additionally, his publication record is limited to one journal indexed in ESCI, with no SCI or Scopus publications listed. Expanding his research outputs, gaining editorial experience, and collaborating with other researchers or institutions could further strengthen his candidacy for the “Best Researcher Award.”

Education:

🎓 Shailendra Kumar completed his postgraduate studies in Mathematics from the University of Allahabad in 2017. He is presently enrolled as a Ph.D. scholar at the same university, where he continues to expand his expertise and contribute to the field of mathematics.

Experience:

👨‍🏫 As an Assistant Professor at Kutir Post Graduate College, Shailendra Kumar brings his passion for mathematics to the classroom, inspiring students to explore and understand complex mathematical concepts. His role involves not only teaching but also mentoring students in their academic pursuits.

Research Interest:

🔍 Shailendra’s primary area of research is mathematical modeling. His work focuses on developing models that analyze the impacts of various factors, such as energy sectors, on environmental issues like carbon dioxide emissions and climate change. This research is crucial in providing insights into sustainable practices and policies.

Publications:

📝 Shailendra has recently published a research paper titled “Effects of Energy Sectors on the Emission of Carbon Dioxide Gas and Environmental Temperature” in the International Mper Journal of Modelling and Simulation (2024). DOI: 10.1080/02286203.2024.2389010. This work is indexed in ESCI and contributes to the understanding of environmental impacts related to energy production and usage.

Conclusion:

Shailendra Kumar has made commendable strides in his academic and research journey, particularly with his recent publication on environmental issues. However, to be a stronger contender for the “Best Researcher Award,” he would need to expand his research activities and collaborations and build a more robust portfolio of publications and professional contributions. With focused efforts on these areas, he could significantly enhance his research impact and standing in the academic community.