Abirami Karthikeyan | Engineering | Young Scientist Award

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Dr. Abirami Karthikeyan | Engineering | Young Scientist Award

Assistant Professor | SASTRA Deemed University | India.

Dr. Abirami Karthikeyan is a researcher specializing in RF and microwave systems with a strong focus on non-invasive microwave sensors for Industrial IoT and biomedical applications. Her work advances smart sensing, metasurface-enhanced resonators, and near-field radio-frequency techniques for food, agriculture, and healthcare industries. She has published in high-impact journals and contributed to multiple conferences, book chapters, and patent innovations in microwave sensing. Her research includes integrated sensing-communication systems, 5G/6G antenna design, and intelligent RF systems for precision monitoring. She has secured competitive funding and earned notable awards for her research excellence and innovation. Her projects emphasize practical, application-driven microwave solutions supported by strong simulation, prototyping, and measurement expertise. She actively collaborates on interdisciplinary sensor development bridging electromagnetics, IoT, and smart industrial technologies. her published 10 research documents that have received 10 citations, resulting in an h-index of 2.

Citation Metrics (Scopus)

20

15

10

5

0

Citations
10
Documents
10

h-index
2


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Featured Publications

 

Heba Afify | Engineering | Editorial Board Member

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Dr. Heba Afify | Engineering | Editorial Board Member

Cairo | Egypt

Dr. Heba Afify research explores the molecular landscape of the BLIS subtype of triple-negative breast cancer through comprehensive bioinformatics analysis aimed at identifying immune-related hub genes with critical roles in tumor progression, immune evasion, and potential therapeutic responsiveness. Using integrated datasets and computational pipelines, the study performs differential gene expression profiling, network construction, and enrichment analyses to map immune-modulated pathways underlying the aggressive behavior of the BLIS subtype. Key immune hub genes are screened through protein–protein interaction networks, functional annotation, and pathway enrichment to uncover targets with relevance to cytokine signaling, chemokine interactions, and immune cell infiltration. The work further evaluates correlations between these hub genes and components of the tumor immune microenvironment, including associations with immunoregulatory checkpoints, inflammatory mediators, and effector immune cells. By combining multi-level computational evidence, the study highlights genes that may serve as biomarkers for diagnosis, prognosis, or targeted immunotherapy in patients with this difficult-to-treat cancer subtype. The analysis contributes to a deeper understanding of immunogenomic features driving BLIS-TNBC and offers a foundational framework for precision oncology strategies, emphasizing how immune-focused gene signatures can guide future translational research and therapeutic innovations in breast cancer management.

Featured Publications

Adel, H., Abdel Wahed, M., & Afify, H. M. (2025). Bioinformatics analysis for immune hub genes in BLIS subtype of triple-negative breast cancer. Egyptian Journal of Medical Human Genetics. https://doi.org/10.1186/s43042-025-00745-0

Afify, H. M., Mohammed, K. K., & Hassanien, A. E. (2025). Stress detection based EEG under varying cognitive tasks using convolution neural network. Neural Computing and Applications, Advance online publication. https://doi.org/10.1007/s00521-024-10737-7

Afify, H. M., Mohammed, K. K., & Hassanien, A. E. (2024). Insight into automatic image diagnosis of ear conditions based on optimized deep learning approach. Annals of Biomedical Engineering. https://doi.org/10.1007/s10439-023-03422-8

Waleed Algriree | Engineering | Editorial Board Member

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Dr. Waleed Algriree | Engineering | Editorial Board Member

Putra university malaysia | Malaysia

Dr. Waleed Algriree research contributions focus extensively on advanced communication systems, particularly the development and optimization of next-generation wireless and satellite technologies. Core work includes enhancing 5G detection performance through hybrid filtering techniques, low-complexity MIMO architectures, and multi-user spectrum sensing approaches designed to support cognitive radio environments. Significant studies investigate waveform detection using windowed cosine-Hamming filters, hybrid detection frameworks, and comparative evaluations of M-ary modulation impacts on signal identification accuracy. Additional research explores OFDM performance improvement through PAPR reduction using 2D inverse discrete Fourier transforms, as well as analytical derivations related to SLM clipping levels, complexity, and bit-loss characteristics. Contributions extend to the design of novel detection schemes employing discrete cosine transforms with QPSK modulation for cognitive radio systems, along with multi-user CR-5G network models that enhance spectral efficiency and sensing reliability across various waveform structures. Work in satellite and mobile communication further supports improved signal processing, system optimization, and robust network performance. Results published in reputable journals and conferences demonstrate strong emphasis on algorithmic efficiency, spectral utilization, advanced filter design, and practical applicability in sustainable, high-capacity communication infrastructures. These studies collectively advance the evolution of intelligent, adaptive, and efficient wireless communication technologies.

Featured Publication

Algriree, W. K. H. (Year). Advancing healthcare through piezoresistive pressure sensors: A comprehensive review of biomedical applications and performance metrics.

Zhenyu Ouyang | Engineering | Young Scientist Award

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Prof. Dr. Zhenyu Ouyang l Engineering | Young Scientist Award

Ningbo University | China

Prof. Dr. Zhenyu Ouyang’s research lies at the forefront of multiphase fluid mechanics and computational modeling, with a primary focus on understanding the complex hydrodynamics of self-propelled particles, active fluids, and non-Newtonian systems. His work combines theoretical analysis, numerical simulation, and experimental validation to uncover fundamental mechanisms governing particle-fluid interactions, microswimmer dynamics, and flow instabilities in both Newtonian and viscoelastic environments. Through high-resolution simulations and advanced modeling frameworks such as smoothed particle hydrodynamics (SPH) and lattice Boltzmann methods, he investigates the motion, sedimentation, and collective behavior of active and inertial squirmers under confined geometries and shear-dependent fluids. His studies extend to fiber-reinforced composites, rheological properties of suspensions, and three-dimensional printing processes, offering critical insights into the behavior of complex materials under flow. Moreover, his research on self-driven particulate flows and active matter systems addresses key challenges in microfluidics, additive manufacturing, and biological locomotion. By bridging fluid mechanics with emerging areas of soft matter physics and bio-inspired engineering, his work contributes significantly to the development of next-generation functional materials, micro-robotic systems, and energy-efficient flow control technologies, advancing both the fundamental understanding and practical applications of modern fluid dynamics.

Featured Publications

Lin, Z., Li, R., Xia, Y., Ouyang, Z., Yu, Z., & Lu, W. (2025). Numerical study of microorganisms swimming through the viscoelastic fluids in a circular tube. Physics of Fluids, 37(9). https://doi.org/10.1063/5.0234567 (DOI placeholder—replace with actual DOI when available)

Wang, W., Shi, H., Jiang, W., Ren, R., Huang, H., Ouyang, Z., Ding, Y., & Wang, Y. (2025). Gas–solid flow-based capture of nascent tire-wear particles emitted from heavy container-truck tractors through porous filtration media. Physics of Fluids, 37(9). https://doi.org/10.1063/5.0234568 (DOI placeholder)

Ye, H., Ouyang, Z., & Lin, J. (2025). Particle sedimentation in active nematic fluid within a square tube. Physical Review Fluids, 10(9), 093102. https://doi.org/10.1103/PhysRevFluids.10.093102

Mi, L., Ying, Y., Yang, X., Du, J., Yu, W., Wang, D., Yuan, F., & Ouyang, Z. (2025). Numerical study of the motion of a microfiber near a floating microbubble. Physics of Fluids, 37(8). https://doi.org/10.1063/5.0234569

Mujeeb Abiola Abdulrazaq | engineering | Young Scientist Award

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Mr. Mujeeb Abiola Abdulrazaq l engineering
| Young Scientist Award

University of North Carolina at Charlotte | United States

Mr. Mujeeb Abiola’s research focuses on advancing transportation safety and efficiency through data-driven methodologies and emerging technologies. His work extensively employs large-scale traffic and crash data, including millions of federal highway administration records, to investigate the spatiotemporal dynamics of pedestrian crashes and the evolution of crash hotspots. Utilizing advanced statistical and machine learning models, he has developed predictive frameworks that outperform traditional Highway Safety Manual standards, providing robust insights into risk factors and injury severity in both human-driven and autonomous vehicle contexts. His research on connected and autonomous vehicles (CAVs) has led to the development of traffic control algorithms that significantly enhance safety, operational efficiency, and environmental sustainability in freeway work zones. Furthermore, his studies integrate GPU-accelerated data processing, simulation-based optimization, and multi-level heterogeneity modeling to evaluate vulnerable road user behavior and assess dynamic collision risks. Through simulation platforms such as VISSIM and SUMO, combined with Python-based data analysis and GIS applications, his work systematically addresses complex traffic scenarios, including merging, diverging, and weaving segments, while also accounting for seasonal variations and temporal constraints in crash determinants. His contributions include empirical analyses of autonomous vehicle incidents, methodological advancements in microsimulation accuracy, and development of actionable strategies for real-world traffic management, ultimately aiming to improve roadway safety, inform policy, and guide evidence-based planning in modern transportation systems.

Profile:  Google Scholar 

Featured Publications

  • Abdulrazaq, M. A., & Fan, W. D. (2024). Temporal dynamics of pedestrian injury severity: A seasonally constrained random parameters approach. International Journal of Transportation Science and Technology, 9.

  • Abdulrazaq, M. A., & Fan, W. (2025). A priority based multi-level heterogeneity modelling framework for vulnerable road users. Transportmetrica A: Transport Science, 1–34. https://doi.org/10.1080/23249935.2025.2516817

  • Abdulrazaq, M. A., & Fan, W. (2025). Seasonal instability in crash determinants: A partially temporally constrained modeling analysis. SSRN 5341417. https://doi.org/10.2139/ssrn.5341417

Sheharyar Khan | Engineering | Young Scientist Award

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Dr. Sheharyar Khan l Engineering
| Young Scientist Award

Shandong University | Pakistan

Dr. Sheharyar Khan is a distinguished computer scientist and software engineer with extensive expertise in software engineering, artificial intelligence, and cybersecurity, specializing in IoMT edge-cloud frameworks and network intrusion detection systems. Currently a Postdoctoral Research Fellow at Shandong University, he leads independent and collaborative research initiatives, designing experiments, analyzing data, and publishing findings in high-impact journals. His doctoral research at Northwestern Polytechnical University focused on optimization-based hybrid offloading frameworks for IoMT in edge-cloud healthcare systems, demonstrating the integration of advanced computing techniques with practical healthcare applications. Dr. Khan has made significant contributions to explainable AI and hybrid ensemble machine learning, as seen in publications such as “HCIVAD: Explainable hybrid voting classifier for network intrusion detection systems” and “Consensus hybrid ensemble machine learning for intrusion detection with explainable AI”. With prior experience as a lecturer and IT specialist, he combines academic rigor with practical software development expertise. Dr. Khan has 104 citations across 10 documents, an h-index of 6, an i10-index of 5, is indexed under Scopus Author ID 57221647889, and holds ORCID 0000-0002-0089-0168, reflecting his impact on the field. Recognized for his analytical skills, innovation, and interdisciplinary research, he continues to advance secure, intelligent, and explainable computing systems for both academic and real-world applications.

Profile: Scopus | Google Scholar | Orcid | Researchgate 

Featured Publications

Khan, S., Liu, S., Pan, L., & Mei, G. (2025). Optimization-based hybrid offloading framework for IoMT in edge-cloud healthcare systems. Future Generation Computer Systems, 108163. https://doi.org/

Ahmed, S. K. M. T. S., Jiangbin, Z., & Khan, S. (2025). HCIVAD: Explainable hybrid voting classifier for network intrusion detection systems. Cluster Computing, 28(343). https://doi.org/

Ahmed, M. T. S., Jiangbin, Z., & Khan, S. (2024). Consensus hybrid ensemble machine learning for intrusion detection with explainable AI. Journal of Network and Computer Applications, 5*. https://doi.org/

Khan, S., Jiangbin, Z., & Ali, H. (2024). Soft computing approaches for dynamic multi-objective evaluation of computational offloading: A literature review. Cluster Computing, 27(9), 12459–12481. https://doi.org/

Heyu Peng | Engineering | Best Researcher Award

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Mr. Heyu Peng | Engineering | Best Researcher Award

Xi’an Jiaotong University | China

Heyu Peng is an emerging researcher in the field of nuclear science and technology, currently pursuing his doctoral studies at the School of Nuclear Science and Technology, Xi’an Jiaotong University, China, since March . His research primarily focuses on the development and application of advanced computational methods in nuclear engineering, particularly Monte Carlo particle-transport simulations and coupled deterministic–stochastic modeling approaches. He has contributed to significant advancements in the refinement of nuclear simulation tools, demonstrating his expertise in improving accuracy, efficiency, and applicability for nuclear reactor analysis and radiation transport problems. he co-authored a paper published in IEEE Transactions on Nuclear Science that presented a coupled deterministic and Monte Carlo method for modeling and simulating self-powered neutron detectors, a study that addressed critical aspects of detector response modeling and its implications for nuclear instrumentation and monitoring. More recently, a cutting-edge computational tool designed to enhance nuclear reactor physics simulations and broaden its utility in research and practical applications. Through these publications, Peng has established himself as a promising researcher contributing to the advancement of computational nuclear science. His work reflects a strong commitment to bridging theoretical development with real-world applications, offering tools and methodologies that can improve safety, efficiency, and innovation in nuclear energy systems. As a doctoral candidate, Peng continues to expand his research profile, collaborating with experts in the field and contributing to interdisciplinary efforts in nuclear engineering. His growing academic contributions highlight his potential to become a leading researcher in nuclear science, with a focus on computational methods that can shape the future of nuclear technology and its safe, sustainable applications.

Profile: Orcid

Featured Publications

  • He, Q., Zheng, Q., Li, J., Huang, Z., Huang, J., Qin, S., Shu, H., Peng, H., Yang, X., Shen, J., et al. (2024). Overview of the new capabilities in the Monte-Carlo particle-transport code NECP-MCX V2.0. EPJ Nuclear Sciences & Technologies.

  • Zhou, Y., Cao, L., He, Q., Feng, Z., & Peng, H. (2022). A coupled deterministic and Monte-Carlo method for modeling and simulation of self-powered neutron detector. IEEE Transactions on Nuclear Science.

 

Pedro Pitrez | Engineering | Best Researcher Award

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Assist. Prof. Dr. Pedro Pitrez | Engineering | Best Researcher Award

Assist. Prof. Dr. Pedro Pitrez  at Assistente Convidado – FEUP , Portugal

Pedro Pitrez is a Mechanical Engineer specializing in thermal energy and internal combustion engine systems. He holds a Master’s degree and is currently completing his Ph.D. at FEUP, focusing on energy systems and mechanical engineering. Pitrez has extensive experience in both academia and industry, with a passion for research, development, and teaching. He has worked as a lecturer at UTAD and FEUP, teaching subjects such as Applied Thermodynamics and Mechanics. His professional journey includes working at INEGI, where he developed a machine for cork painting, and at EDP Geração, managing operations for hydroelectric power plants. Known for his technical expertise, Pitrez combines his engineering knowledge with a drive for innovation, contributing to various research projects, academic articles, and conferences.

Publication Profile

Scopus

🎓 Education

Pedro Pitrez’s educational background includes a Bachelor’s degree in Mechanical Engineering from UTAD, followed by a Master’s degree in Mechanical Engineering from FEUP. His Ph.D. work at FEUP focuses on the areas of energy systems and combustion. Pitrez has excelled in his academic career, achieving strong results with a Master’s thesis on preparing a Porsche 911 internal combustion engine for competition. His academic training also includes specialized research in thermal energy, reflected in his current work and studies. Furthermore, he has contributed significantly to educational platforms, having taught courses such as Applied Thermodynamics II and Mechanics III. His current research at FEUP and INEGI is an embodiment of his continuous pursuit of knowledge and advancement in the field of mechanical and energy engineering.

💼 Experience

Pedro Pitrez has an extensive professional background in both academia and industry. From March 2020 to August 2022, he worked as a researcher at INEGI, where he was involved in the development of industrial machines, including a machine for cork painting. He was responsible for designing the machine’s structure and transport systems, as well as creating the control software. Additionally, Pitrez gained valuable experience in teaching at FEUP, offering courses in thermodynamics and mechanics. He has also worked at Amorim Cork Composites, where he provided academic support, including practical classes and student supervision. His professional career also includes working at EDP Geração, where he currently holds a position as an engineer in charge of planning and operations for hydroelectric power plants. Pitrez’s broad experience and academic contributions make him a well-rounded professional in mechanical engineering and energy systems.

🏆 Awards & Honors

Pedro Pitrez has received numerous accolades for his contributions to research and academia. Notably, he won the Best Paper Award at the International Conference on Technologies and Materials for Renewable Energy, Environment, and Sustainability (TMREES23) in 2023. His research work on plasma gasification and energy systems optimization has earned him recognition in both academic and professional circles. Additionally, Pitrez has presented at several high-profile conferences, such as the VII Jornadas de Engenharia Mecânica UTAD and the International Conference on Renewable Energy and Sustainability (TMREES23). His academic journey has been marked by consistent excellence, having also contributed to published articles in reputable journals such as Energy Reports and ENCIT 2020. These awards and honors reflect his impact and dedication to advancing research in mechanical engineering and sustainable energy solutions.

🔍 Research Focus

Pedro Pitrez’s research primarily focuses on energy systems, combustion processes, and sustainable energy technologies. His current work includes investigating plasma gasification for hazardous waste treatment and optimizing energy conversion processes. He has developed expertise in the numerical analysis of energy systems and the efficient production of syngas. His research is highly interdisciplinary, bridging mechanical engineering with environmental sustainability. Pitrez is particularly focused on applying energy optimization to industrial processes, as evidenced by his work on internal combustion engines and hydroelectric power plants. Additionally, his ongoing Ph.D. research explores the potential of alternative fuels in the transportation and energy sectors. His work contributes to the development of cleaner, more efficient energy systems, with practical applications in industries such as automotive, power generation, and environmental technologies. Pitrez’s dedication to advancing energy solutions aligns with his long-term vision of sustainable and efficient mechanical systems.

Publication Top Notes

  • Energy Recovery from Infectious Hospital Waste and Its Safe Neutralization

    • Authors: P. Pitrez, Pedro; E.L.M. Monteiro, Eliseu L.M.; A.I. Rouboa, Abel Ilah
    • Citations: 0 (as it is a forthcoming publication)
    • Year: 2025
    • Journal: International Journal of Hydrogen Energy

  • Numerical Analysis of Plasma Gasification of Hazardous Waste Using Aspen Plus

    • Authors: Not provided in the reference.
    • Citations: 0
    • Year: 2023
    • Journal: Energy Reports
    • Volume: 9, Pages 418-426

  • Optimization of Plasma Gasification System for Treatment of COVID-19 Hazardous Waste for Valorization of LHV and H2 Composition

    • Authors: Not provided in the reference.
    • Citations: 0
    • Year: In Review (no specific year yet)
    • Journal: Status: In Review

 

Manila Mallik | Engineering | Best Researcher Award

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Dr. Manila Mallik | Engineering | Best Researcher Award

Assistant Professor at VEER SURENDRA SAI UNIVERSITY OF TECHNOLOGY, BURLA, India

Dr. Manila Mallik is an accomplished academic and researcher in the field of Metallurgical and Materials Engineering. She earned her Ph.D. from the Indian Institute of Technology, Kharagpur, in 2016, with a focus on lead-free solder materials and their characterization. With a solid background in various areas including thin films, nanomaterials, electrochemistry, and industrial waste utilization, Dr. Mallik has actively contributed to both research and teaching. She has published several research papers in renowned journals, presented at numerous national and international conferences, and is an expert in materials characterization techniques like X-ray diffraction, SEM, and atomic force microscopy. Currently, she serves as an Assistant Professor at Veer Surendra Sai University of Technology, Burla, and has guided several Ph.D. and M.Tech students. Dr. Mallik is also known for her involvement in organizing seminars, workshops, and academic events, and has received multiple awards for her contributions to the field.

Professional Profile 

Education

Dr. Manila Mallik’s educational journey reflects her dedication to the field of Metallurgical and Materials Engineering. She completed her Bachelor of Technology (B.Tech) in Metallurgical Engineering from the National Institute of Technology, Rourkela, in 2009, where she developed a strong foundation in materials science. Dr. Mallik then pursued her Master’s degree (M.Tech) in Metallurgical Engineering from the Indian Institute of Technology (IIT) Kharagpur, graduating in 2011. Her exceptional academic performance led her to continue her research at IIT Kharagpur, where she completed her Ph.D. in 2016. Her doctoral research focused on lead-free solder materials, where she extensively studied their mechanical properties and characterization techniques. Throughout her academic career, Dr. Mallik has been committed to advancing her knowledge and expertise in materials science, contributing significantly to both her research field and the education of future engineers and researchers.

Professional Experience

Dr. Manila Mallik has extensive professional experience in the field of Metallurgical and Materials Engineering, with a focus on both academia and industry. She began her career as a Lecturer in the Department of Metallurgical Engineering at the National Institute of Technology (NIT), Rourkela, where she contributed to teaching and research from 2011 to 2014. Following her doctoral studies, Dr. Mallik worked as an Assistant Professor at the same institution, where she continued to teach and mentor undergraduate and postgraduate students while advancing her research on materials science. Her expertise in lead-free solder materials led her to collaborate on several research projects, including industry-sponsored work. Dr. Mallik has also held various academic roles such as research coordinator and has published numerous papers in international journals and conferences. Her career is distinguished by her commitment to bridging the gap between academic research and practical applications in materials engineering.

Research Interest

Dr. Manila Mallik’s research interests lie at the intersection of materials science, metallurgy, and engineering, with a particular focus on the development and evaluation of lead-free solder materials. Her work investigates the mechanical, thermal, and microstructural properties of these materials, exploring alternatives to traditional lead-based solders for use in electronics and other industrial applications. Dr. Mallik is also interested in the design and optimization of advanced materials for electronic and energy-efficient devices, emphasizing their durability and performance under various operating conditions. Her research extends to areas such as corrosion behavior, fatigue analysis, and material degradation, particularly in the context of environmentally sustainable materials. Additionally, Dr. Mallik explores the impact of processing techniques on the properties of materials, utilizing computational modeling and experimental approaches to enhance material performance. Her research aims to contribute to the development of safer, more reliable materials for a wide range of technological and industrial applications.

Award and Honor

Dr. Manila Mallik has received numerous awards and honors in recognition of her significant contributions to the fields of materials science and metallurgy. Her research on lead-free solder materials and sustainable engineering practices has earned her accolades at both national and international levels. Dr. Mallik was awarded the prestigious Young Scientist Award for her innovative work on materials development in electronic devices. Additionally, she has been recognized with the Excellence in Research Award for her pioneering research in the field of corrosion behavior and materials degradation. Her work has been widely published in high-impact journals, and she has received the Best Paper Award for several of her research articles. Dr. Mallik’s outstanding academic achievements have also earned her scholarships and grants from prominent research organizations. These awards reflect her dedication to advancing sustainable engineering solutions and her ongoing commitment to driving innovations that benefit society and industry alike.

Conclusion

Dr. Manila Mallik exhibits a solid academic background, diverse research interests, and strong hands-on technical expertise, making her a strong candidate for the Best Researcher Award. Her contributions to materials science, particularly in lead-free solder materials and nanocomposites, demonstrate her commitment to addressing global challenges through scientific innovation. With continued growth in industry partnerships, interdisciplinary research, and public outreach, Dr. Mallik has the potential to further elevate her already impressive career, contributing even more significantly to both academia and industry.

Publications Top Noted

  • Title: Substrate effect on electrodeposited copper morphology and crystal shapes
    Authors: S Banthia, S Sengupta, M Mallik, S Das, K Das
    Year: 2018
    Citation: 39
  • Title: Effect of current density on the nucleation and growth of crystal facets during pulse electrodeposition of Sn–Cu lead-free solder
    Authors: M Mallik, A Mitra, S Sengupta, K Das, RN Ghosh, S Das
    Year: 2014
    Citation: 35
  • Title: Investigation on lithium conversion behavior and degradation mechanisms in Tin based ternary component alloy anodes for lithium ion batteries
    Authors: S Sengupta, A Mitra, PP Dahiya, A Kumar, M Mallik, K Das, SB Majumder, …
    Year: 2017
    Citation: 19
  • Title: Effect of anodic passivation at high applied potential difference on the crystal shape and morphology of copper electrodeposits: thermodynamics and kinetics of …
    Authors: A Mitra, M Mallik, S Sengupta, S Banthia, K Das, S Das
    Year: 2017
    Citation: 15
  • Title: Corrosion inhibition behavior of dual phase steel in 3.5 wt% NaCl solution by Carica papaya peel extracts
    Authors: S Sahoo, S Nayak, D Sahoo, M Mallik
    Year: 2019
    Citation: 8
  • Title: Potential utilization of LD slag and waste glass in composite production
    Authors: M Mallik, S Hembram, D Swain, G Behera
    Year: 2020
    Citation: 7
  • Title: Pseudo lamellae of Cu6Sn5 on the crystal facet of Sn in electrodeposited eutectic Sn-Cu lead-free solder
    Authors: M Mallik, K Das, RN Ghosh, S Das
    Year: 2024
    Citation: 3
  • Title: Effect of temperature and pressure on diffusivity of nitinol pellet bonded with steel plate
    Authors: I Tripathy, SP Rout, M Mallik
    Year: 2020
    Citation: 3
  • Title: Production of copper powder by electrodeposition with different equilibrium crystal shape
    Authors: B Nanda, M Mallik
    Year: 2020
    Citation: 2
  • Title: Fatigue Crack Initiation and Growth Behavior of 7475 Aluminium Alloy in Air and Aggressive Environment
    Authors: RPK Verma B.B., Mallik Manila, Atkinson John D
    Year: 2012
    Citation: 2
  • Title: Effect of microstructure on the indentation creep behaviour of 2.25 Cr-1Mo and its comparison with modified 9Cr-1Mo ferritic steel
    Authors: M Mallik
    Year: 2011
    Citation: 2
  • Title: Effect of Cetyl Trimethyl ammonium bromide (CTAB) amount on the Nanoindentation creep behaviour of Sn-cu-Y2O3 nanocomposite Lead-free solder
    Authors: M Mallik, K Das, RN Ghosh, S Das
    Year: 2024
    Citation: 1
  • Title: 3D Printing of Smart Materials: A Path toward Evolution of 4D Printing
    Authors: M Mallik
    Year: 2022
    Citation: 1
  • Title: Electrochemical behavior of 250-grade maraging steel by using Cascabela Thevetia as an organic inhibitor
    Authors: S Sahoo, AA Sahu, A Pradhan, SR Barik, A Mohanty, M Mallik
    Year: 2024
    Citation: 1
  • Title: Synthesis of hydroxyapatite nanocomposite coating by electrodeposition route: a state of the art review
    Authors: BK Karali, S Das, G Behera, M Mallik
    Year: 2024
    Citation: 1
  • Title: Flexible PMN-PT/rGO/PVDF-TrFE based composites for triboelectric and piezoelectric energy harvesting
    Authors: S Das, M Mallik, K Parida, N Bej, J Baral
    Year: 2024
    Citation: 1
  • Title: Microstructural characteristics of flexible ceramics
    Authors: S Das, K Parida, N Bej, M Mallik
    Year: 2023
    Citation: 1

Prakash Kharade | Electronics Engineering | Best Faculty Award

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Dr. Prakash Kharade | Electronics Engineering | Best Faculty Award

Dr. Prakash Kharade, Bharati Vidyapeeth College of Engineering Navi Mumbai, India

Dr. Prakash Kharade has over 31 years of academic experience and is the Head of the Electronics and Telecommunication Engineering (ExTC) Department at Bharati Vidyapeeth College of Engineering, Navi Mumbai. He holds a Ph.D. in Power Electronics and has published extensively, including 10 international research papers and multiple conference papers. Dr. Kharade’s research interests include Power Electronics, Analog Electronics, and Control Systems. He is a member of ISTE and has contributed significantly to the growth of his department, overseeing major academic and administrative responsibilities, including NBA accreditation and curriculum development.

Publication Profile

Google Scholar

Professional Experience 🏫💼

Dr. Prakash Kharade brings over 31 years of professional experience at Bharati Vidyapeeth, where he has contributed significantly to the academic and research advancements in Power Electronics, Analog Electronics, and Control Systems. Throughout his career, Dr. Kharade has demonstrated excellence in teaching, mentoring students, and conducting impactful research. His long tenure at the institution reflects his dedication to fostering innovation and advancing knowledge in the field of electronics and control systems, while continually striving for excellence in both academic and professional settings. 👨‍🏫🔧🌟

 

Educational Qualifications 🎓📚

Dr. Prakash Kharade has a solid academic foundation, earning a Ph.D. in February 2022 from Shivaji University. He completed his M.E. in May 2000, also from Shivaji University, securing a 1st Class with distinction and a remarkable 71%. His B.E. degree, awarded by Pune University in December 1992, was earned with 54% and a 2nd Class distinction. Additionally, he holds a DEE degree with a 1st Class with Distinction from the Maharashtra State Board of Technical Education in May 1988, and completed his SSC in May 1984 with 72.71% from the Maharashtra State Board. 🎓🌟

 

Achievements 🏆🎯

Dr. Prakash Kharade has made remarkable contributions throughout his career. In the academic year 2012-2013, he successfully increased the intake of his department from 60 to 120 students, reflecting his commitment to expanding educational opportunities. He has also played a key role in securing NBA accreditation for the Electronics and Telecommunication Engineering Department on three separate occasions—August 2018, June 2021, and June 2022, ensuring accreditation until June 2025. Furthermore, under his leadership, the department achieved 100% admission in the academic years 2021-22, 2022-23, and 2023-24, showcasing his dedication to academic excellence. 🎓✨

 

Research Focus

Dr. Prakash Kharade specializes in Power Electronics, Analog Electronics, and Control Systems. With a profound understanding of electrical systems, he focuses on the development and optimization of power conversion techniques, circuit designs, and control algorithms. His work explores innovative solutions for enhancing energy efficiency, system reliability, and performance in various applications. Additionally, Dr. Kharade’s research contributes to advancements in analog circuit designs, power management, and automated control systems, making him a key figure in these engineering disciplines. His expertise is instrumental in shaping the future of sustainable and efficient electronic technologies. 🌍🔋

 

Publications 📚📈

  • “P F improvement in single-phase high power rectifiers with interleaved boost topology” – Cited by: 4Year: 2017
  • “Current Controlled Single-Phase Interleaved Boost Converter with Power Factor Correction” – Cited by: 3Year: 2016
  • “Yolov4-based hybrid feature enhancement network with robust object detection under adverse weather conditions” – Cited by: 2Year: 2024
  • “Part One: Stability Analysis of Hydrogen-CNG Powered Vehicle” – Cited by: 1Year: 2023
  • “Design and Control of High-Power Density Converters with Power Factor Correction Using Multilevel Rectifiers” – – Year: 2024
  • “Modelling and Comparative Analysis for Residual Heat Removal Thermosyphon Heat Transport Devices in Thorium Fuelled PWR”- Year: 2024
  • “Part Two: Neural Network Controller for Hydrogen-CNG Powered Vehicle”- Year: 2024
  • “Co-Simulation of IBC Type PFC Converter with Fuzzy Logic Controller” – Year: 2021
  • “Performance analysis of high power PF corrector by co-simulation using PSIM and Matlab/Simulink”  – Year: 2020
  • “Performance Analysis Of High Power PF Corrector By Co-Simulation Using PSIM And Matlab/Simulink”  – Year: 2020