Le Tung Vu | Biomechanical | Best Researcher Award

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Mr. Le Tung Vu | Biomechanical | Best Researcher Award

Associate Lecturer at University of Wollongong, Australia.

Mr. Le Tung Vu πŸ‡¦πŸ‡Ί is a dedicated Biomedical Engineering researcher and PhD candidate at the University of Wollongong, Australia πŸŽ“. Passionate about integrating technology into healthcare, his research focuses on enhancing elderly mobility and preventing falls through intelligent assistive devices πŸ‘΄πŸ»πŸ¦½. With a Bachelor’s (Honours) in Biomedical Engineering and multiple academic roles, Le Tung Vu is actively shaping the future of biomedical applications in rehabilitation and healthcare πŸ‘¨β€πŸ«πŸ”¬. He has contributed as an associate lecturer, academic tutor, and lab tutor, fostering student growth while driving research innovation. His hands-on expertise spans biomechanics analysis, 3D printing, and machine learning applications in biomedical contexts πŸ€–βš™οΈ. Awarded with prestigious scholarships, including the EIS Summer Scholarship 2023, he is committed to translating research into real-world impact πŸŒπŸ’‘.

Professional Profile

ORCID

Education πŸŽ“πŸ“š

Le Tung Vu commenced his academic journey at the University of Wollongong, Australia, where he completed his Bachelor of Biomedical Engineering (Honours) between 2020 and December 2023 πŸŽ“. During his undergraduate studies, he gained in-depth knowledge of biomedical systems, sensor technology, biomechanics, and engineering design. Building on this strong foundation, he embarked on a Doctor of Philosophy (PhD) in Biomedical Engineering in 2024, expected to complete in 2028 πŸŽ“πŸ§©. His doctoral research is centered around the development of intelligent assistive devices aimed at enhancing mobility and preventing falls in elderly populations, blending disciplines such as biomechanics, machine learning, and hardware design πŸ€–πŸ”§. This comprehensive education equips him with interdisciplinary skills essential for pioneering healthcare innovations and contributes significantly to his academic and research pursuits in the biomedical domain.

Professional Experience πŸ§‘β€πŸ«πŸ’Ό

Mr. Le Tung Vu possesses a rich blend of academic, research, and teaching experiences in Biomedical Engineering. Since March 2024, he has been a PhD candidate at the Biomedical Lab within the School of Mechanical, Materials, Mechatronic and Biomedical Engineering (MMMB) at the University of Wollongong πŸ§¬πŸ”¬. Alongside his research, he has taken on the role of Associate Lecturer since February 2025, where he is actively involved in teaching and curriculum development πŸ‘¨β€πŸ«πŸ“š. Previously, he served as an Academic Tutor from July to November 2024 and as a Laboratory Tutor from April to July 2024, contributing to practical learning in biomedical laboratories. His early research experience includes participation in the Summer Research Program (Dec 2022 – Mar 2023), focusing on the development and evaluation of 3D printed soft pneumatic sensors for measuring ground reaction force during eccentric cycling πŸš΄β€β™‚οΈπŸ“Š. These roles reflect his dedication to both research excellence and academic mentorship.

Research Interest πŸ”¬πŸ“ˆ

Mr. Vu’s research is deeply rooted in the intersection of biomedical engineering, biomechanics, and intelligent systems πŸ§ πŸ”§. His primary research focus is on Enhancing Mobility and Preventing Falls in Elderly Populations Using Intelligent Assistive Devices πŸ‘΅πŸΌπŸ¦Ώ. This involves designing and developing wearable devices integrated with advanced sensors and AI algorithms to monitor and improve balance, mobility, and fall prevention. His work employs 3D printing for prototyping, finite element analysis (FEA) for structural optimization, and machine learning for predictive analytics πŸ“ŠπŸ–¨οΈ. Additionally, he explores the utilization of biomechanics analysis tools like Matlab and OpenSim to model human movement and optimize device functionality. The practical implications of his research aim to significantly improve the quality of life for the aging population, reducing healthcare burdens and fostering independent living through smart healthcare solutions πŸŒπŸ”¬.

πŸ† Awards

Le Tung Vu has been recognized for his outstanding academic potential and research capabilities through several prestigious awards and scholarships πŸ†πŸŽ–οΈ. He was the recipient of the EIS Summer Scholarship 2023, which supported his research on biomechanical applications of 3D printing in healthcare. Additionally, he has been awarded the International Postgraduate Tuition Award, an acknowledgment of his academic merit and research potential on an international scale πŸŒπŸ“ˆ. Further enhancing his credentials is the University Postgraduate Award, which provides financial and institutional support for his PhD studies. These honors not only reflect his academic excellence but also his commitment to advancing biomedical engineering and contributing meaningful innovations in healthcare and rehabilitation technologies πŸ‘¨β€πŸ”¬πŸ’‘.

Publications Top Noted

πŸ“„ 3D‑Printed Insole for Measuring Ground Reaction Force and Center of Pressure During Walking

  • Authors: Leβ€―Tungβ€―Vu; Joelβ€―Bottin‑Noonan; Lucyβ€―Armitage; Gurselβ€―Alici; Manishβ€―Sreenivasa πŸ§‘β€πŸ”¬πŸ“š

  • Published in: Sensors, 2025 (VolumeΒ 25, IssueΒ 8, ArticleΒ 2524)

  • Publication Date: AprilΒ 17,Β 2025

Conclusion 🌟🎯

Mr. Le Tung Vu is an excellent early-career researcher with a clear trajectory in the biomedical engineering domain, particularly in assistive technologies for elderly care. His technical skills, innovative research focus, and academic contributions make him a promising candidate for the Best Researcher Award, particularly in the category of Emerging or Early-Career Researcher. However, for a more competitive edge at the Best Researcher level, additional publications, demonstrated impact, and broader academic visibility are recommended.

Hen Friman | Biotechnology | Best Researcher Award

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Hen Friman | Biotechnology | Best Researcher Award

Dr. Hen Friman, Faculty of Engineering H.I.T – Holon Institute Of Technology, Israel

Dr. Hen Friman πŸŽ“ is a dedicated lecturer at the Holon Institute of Technology (HIT) in Israel, specializing in energy systems and biotechnology. With a Ph.D. in Biology and Life Sciences from Bar-Ilan University πŸ”¬, Dr. Friman has made significant contributions to sustainable energy through bio-fuel cell research. He serves as Head of the Renewable Energy and Smart Grid Excellence Center ⚑ and actively manages national training programs in collaboration with Israel’s Ministry of Energy. His leadership in academic advising, student retention, and ecological projects reflects his commitment to education, innovation, and public service πŸŒ±πŸ“˜.

Profile :

πŸŽ“Education & Experience :

Dr. Hen Friman πŸŽ“ began his academic journey with a B.Sc. in Chemical Engineering and Biotechnology from Ariel University (with honors) in 2004 πŸ§ͺ. He continued with an M.Sc. in Biology and Life Sciences at Bar-Ilan University in 2007 🧬, followed by a Ph.D. in Biology and Life Sciences from the same institution in 2013 πŸ”‹. His doctoral research focused on energy generation from aromatic-compound-degrading bacteria using bio-fuel cells, under the guidance of Prof. Yeshayahu Nitzan and Dr. Rivka Cahan πŸ‘¨β€πŸ«. Professionally, Dr. Friman joined the Holon Institute of Technology (HIT) in 2012 as a Junior Lecturer πŸ“… and has served as a Lecturer in the Faculty of Electrical and Electronics Engineering since 2015 πŸŽ“. He held the role of Acting Head of the Undergraduate Program in 2022–2023 πŸ‘¨β€πŸ« and is currently the Academic Advisor for Student Drop-out Prevention for the 2023–2024 academic year πŸ‘¨β€πŸŽ“.

πŸ“š Professional Development :

Dr. Friman has been deeply involved in advancing energy education and public outreach initiatives in Israel 🌍. He has led national and school-based projects such as β€œEcological Garden” 🌻 and β€œDecentralized Energy” ⚑, promoting sustainability in young minds. As Manager of the β€œEnergy Supervisor” program at HIT, in collaboration with the Ministry of Energy πŸ’Ό, he trains professionals in renewable technologies. A frequent speaker and advisory board member at international conferences πŸ—ΊοΈ, he’s chaired sessions in cities like Amsterdam, Berlin, and Seville, contributing to academic excellence and cross-border collaborations πŸŒπŸ“Š.

πŸ”¬ Research Focus :

Dr. Friman’s research bridges biotechnology and energy science πŸ”¬βš‘. He focuses on microbial fuel cells, renewable energy, and sustainable power generation using bio-based systems πŸŒ±πŸ”‹. His doctoral work on using bacteria to degrade aromatic compounds for electricity generation is a pioneering step in bio-electrochemical energy. As Head of HIT’s Renewable Energy and Smart Grid Excellence Center, he explores decentralized energy systems, smart grids, and clean energy technologies for practical deployment in educational and community settings 🏫🏘️. His multidisciplinary work positions him at the intersection of life sciences, engineering, and energy innovation πŸ”§πŸ’‘.

πŸ† Awards and Honors :

Dr. Hen Friman has received multiple recognitions for his academic and professional contributions πŸ†. He served as a Member of the International Advisory Board for ICERI conferences in 2016 and 2017, and as a Session Chair at the ICBTS 2017 conferences held in Amsterdam and Berlin πŸ…. He was also a Member of the Advisory Board for EDULEARN17 πŸ“š. In 2017, he contributed as a Research Associate in Prof. Dr. Gabi Drochioiu’s laboratory at Alexandru Ioan Cuza University in Romania πŸ”¬. Domestically, he led impactful sustainability initiatives such as the β€œEcological Garden” and β€œDecentralized Energy” school projects 🌿. Dr. Friman currently heads the Renewable Energy and Smart Grid Center at HIT ⚑ and manages the β€œEnergy Supervisor” program, a national training initiative in collaboration with the Ministry of Energy πŸ› οΈ.

Publication Top Notes :

1. Soft Skills Education is Valuableβ€”Perception of Engineering Students

  • Citation:
    Balberg, M., Friman, H., Ragones, H., Baner, I., Shechter, R., & Kurtz, G. (2025). Soft Skills Education is Valuableβ€”Perception of Engineering Students. IEEE Transactions on Education, 68(1), 1–11.

  • Summary:
    This study evaluates the impact of a dedicated soft skills course within an undergraduate electrical engineering program. The course focused on enhancing skills such as teamwork, time management, and communication. Findings indicate that students’ appreciation for soft skills and their confidence in applying them improved significantly post-course, underscoring the importance of integrating soft skills training into engineering curricula.

2. Nurturing Eco-Literate Minds: Unveiling the Pathways to Minimize Ecological Footprint in Early Childhood Education

  • Citation:
    Friman, H., Banner, I., Sitbon, Y., Sahar-Inbar, L., & Shaked, N. (2024). Nurturing Eco-Literate Minds: Unveiling the Pathways to Minimize Ecological Footprint in Early Childhood Education. Social Sciences, 13(4), 187.Β 

  • Summary:
    This article explores the role of early childhood education in promoting sustainability and reducing ecological footprints. It emphasizes the importance of environmental education in developing critical thinking and pro-environmental behaviors among young learners. The study highlights successful programs like β€œGreen Ambassadors in the Community,” demonstrating the effectiveness of experiential learning in fostering ecological awareness.

3. Shaping the Engineers of Tomorrow: Integrating Renewable Energies and Advanced Technologies in Electrical and Electronics Engineering Education

  • Citation:
    Friman, H. (2024). Shaping the Engineers of Tomorrow: Integrating Renewable Energies and Advanced Technologies in Electrical and Electronics Engineering Education. Energies, 17(16), 4146.

  • Summary:
    This paper discusses the integration of renewable energy technologies and advanced tools into electrical and electronics engineering education. It presents a model for incorporating practical laboratory experiences, such as fuel cell experiments and smart grid simulations, to enhance students’ understanding of sustainable energy systems. The study reports positive feedback from students, indicating increased engagement and comprehension of renewable energy concepts.

4. Experiential Learning for Sustainability: A Catalyst for Global Change

  • Citation:
    Friman, H. (2024). Experiential Learning for Sustainability: A Catalyst for Global Change. Educational Administration: Theory and Practice, 30(2), 45–60.

  • Summary:
    This article examines the impact of experiential learning approaches on promoting sustainability education. It argues that hands-on experiences and real-world problem-solving activities are effective in instilling sustainable values and behaviors in students. The study highlights case studies where experiential learning led to increased environmental awareness and proactive engagement in sustainability initiatives.

5. Reducing Fossil Fuel Consumption by Incorporating Renewable Energy Sources in Wastewater Treatment Processes

  • Citation:
    Friman, H. (2023). Reducing Fossil Fuel Consumption by Incorporating Renewable Energy Sources in Wastewater Treatment Processes. Renewable Energy and Power Quality Journal, 21, 360.Β 

  • Summary:
    This study explores the integration of renewable energy sources, such as solar and wind power, into wastewater treatment processes to reduce reliance on fossil fuels. It presents a case study demonstrating the feasibility and benefits of using renewable energy in wastewater management, including cost savings and decreased greenhouse gas emissions.

🏁 Conclusion:

Dr. Hen Friman exemplifies the qualities of a Best Researcher Award recipientβ€”combining scientific rigor, technological innovation, and public service. His research in bio-fuel cells and leadership in renewable energy initiatives have made a tangible impact in both academia and national energy policy, making him a truly deserving candidate.

 

Ms. Oliwia Kordyl | Microneedle Systems | Best Research Article Award

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Ms. Oliwia Kordyl | Microneedle Systems | Best Research Article Award

Ms. Oliwia Kordy, Poznan University of Medical Sciences, Poland

Ms. Oliwia Kordyl is a passionate biomedical researcher and Ph.D. candidate at Poznan University of Medical Sciences, Poland. Her research focuses on microneedle systems for localized drug delivery, particularly for treating skin infections and depressive disorders. With a background in biotechnology and a hands-on approach to molecular biology, Ms. Kordyl has gained practical expertise in 3D printing, drug permeability testing, and ex vivo assessments. Her work combines advanced pharmaceutical technology with molecular research, aiming to enhance transdermal therapeutic systems. Previously, she served in various roles from lab manager to molecular biologist, contributing to genetic, microbiological, and drug delivery research. Her interdisciplinary work bridges innovation in medical technology with therapeutic solutions. 🧫🧬

Professional ProfileΒ 

Orcid

πŸ… Suitability for Best Researcher AwardΒ 

Ms. Oliwia Kordyl is a strong contender for the Best Researcher Award due to her innovative contributions in microneedle-based drug delivery systems and molecular biotechnology. Her cutting-edge work integrates 3D printing with pharmaceutical applications, addressing urgent needs in localized treatments and transdermal drug delivery. She has consistently demonstrated excellence in experimental design, pharmaceutical analysis, and research dissemination at international platforms. Her projects funded by the National Science Centre of Poland highlight her competence in conducting high-impact research. Oliwia’s ability to combine academic excellence with technical expertise makes her a valuable researcher whose work is already influencing future directions in medical technology and personalized drug delivery systems. πŸ§ πŸ’ŠπŸ–¨οΈ

πŸŽ“ EducationΒ 

Ms. Kordyl began her academic journey at K.K. BaczyΕ„ski Secondary School, specializing in biology, physics, and chemistry. She earned both her Bachelor’s and Master’s degrees in Biotechnology from Adam Mickiewicz University, PoznaΕ„. Her Bachelor’s thesis focused on global methylation (5mC) and hydroxymethylation (5hmC) in sperm DNA of oligozoospermic males, while her Master’s thesis investigated Fam71f1 gene expression in a mouse model of spermatogenesis. In November 2023, she commenced her Ph.D. at Poznan University of Medical Sciences, focusing on 3D-printed microneedles for targeted drug delivery. Her education reflects a rich blend of molecular biology, biotechnology, and medical technology, equipping her with a unique skill set in experimental therapeutics and epigenetics. πŸ§¬πŸ“šπŸ”

πŸ§ͺ Experience

Ms. Kordyl has held various technical and research roles across academia and industry. She currently works as a Lab Manager at Poznan University of Medical Sciences, overseeing a project on 3D-printed microneedles for depressive disorders. Previously, she was a Molecular Biologist at BGW Research Center, where she specialized in genome editing (CRISPR), PCR, and yeast hybridization. Her earlier experience at ALAB laboratoria involved qPCR-based SARS-CoV-2 detection. Additionally, she has contributed to epigenetic research at the Institute of Human Genetics and worked in clinical settings as a Medical Admissions Clerk. Her diverse experience showcases her hands-on proficiency in molecular biology, microbiology, and biomedical research, making her a versatile and skilled young researcher. πŸ§«πŸ§‘β€πŸ”¬πŸ§ͺ

πŸ† Awards and HonorsΒ 

Ms. Kordyl has presented her research at leading international conferences, earning recognition for her work in epigenetics and reproductive biology. She delivered talks at events such as the 21st European Testis Workshop (Barcelona) and the Polish Society of Andrology conference, where she discussed chromatin integrity and methylation in oligozoospermia. Her research posters were featured at the 36th Annual ESHRE Meeting and the European Human Genetics Virtual Conference, showcasing advanced immunostaining and epigenetic localization in sperm chromatin. These honors reflect her commitment to scientific excellence and her growing impact in the biomedical field. Her communication skills and scientific rigor have helped elevate Poland’s presence in epigenetics and pharmaceutical technology. πŸ§¬πŸ“œπŸŽ€

πŸ” Research FocusΒ 

Ms. Kordyl’s research interests lie at the intersection of medical technology, biotechnology, and pharmaceutical delivery systems. She specializes in developing microneedle-based drug delivery platforms for treating localized skin infections and mental health conditions. Her doctoral project involves optimizing microneedle production and evaluating physicochemical and pharmaceutical properties both in vitro and ex vivo. She also explores epigenetic regulation in reproductive biology, including DNA methylation and histone modification. Previous work includes advanced molecular biology (PCR, CRISPR, cloning) and fermentation science using metabolic COβ‚‚. Oliwia’s holistic approach brings together molecular biology, bioengineering, and pharmacology, contributing toward the development of targeted, non-invasive therapeutic technologies with real-world clinical applications. πŸ’‰πŸ§¬πŸ§ 

Publication Top Notes

  • Optimization of LCD-Based 3D Printing for the Development of Clotrimazole-Coated Microneedle Systems

    • Year: 2025

  • Microneedle-Based Arrays – Breakthrough Strategy for the Treatment of Bacterial and Fungal Skin Infections

    • Year: 2025

  • Microneedle System Coated with Hydrogels Containing Protoporphyrin IX for Potential Application in Pharmaceutical Technology

    • Year: 2024

  • Global 5mC and 5hmC DNA Levels in Human Sperm Subpopulations with Differentially Protaminated Chromatin in Normo- and Oligoasthenozoospermic Males

    • Year: 2022

 

 

Dr. Tanushree Bhattacharjee | Emerging Technologies | Best Researcher Award

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Dr. Tanushree Bhattacharjee | Emerging Technologies | Best Researcher Award

Dr. Tanushree Bhattacharjee, GRIDsentry Private Limited, India

Dr. Tanushree Bhattacharjee is a distinguished cybersecurity expert specializing in substation automation, OT security, and intrusion detection systems (IDS). With a Ph.D. in Electrical Engineering from Jamia Millia Islamia, she has over seven years of experience securing critical infrastructure. As Sr. R&D Manager at GRIDsentry Pvt. Ltd., Bengaluru, she leads cutting-edge research in forensic analysis, deep packet inspection, and AI-powered threat modeling. Dr. Bhattacharjee has played a vital role in national and international cybersecurity testbeds, contributing to the advancement of IEC 61850, power grid security, and microgrid protection. Her expertise in AI/ML-based anomaly detection ensures the resilience of modern power systems. πŸ”βš‘

🌍 Professional Profile:

Google Scholar

Orcid

Scopus

πŸ† Suitability for the Best Researcher AwardΒ 

Dr. Tanushree Bhattacharjee is an outstanding candidate for the Best Researcher Award, given her pioneering work in substation automation security and digital transformation. She has made significant contributions to intrusion detection, vulnerability assessment, and OT security in power grids. Her leadership in developing IDS/IPS solutions, coupled with her expertise in AI-powered anomaly detection, positions her as a key innovator in cyber-physical security. With a strong background in threat modeling, forensic analysis, and protocol security, her research directly impacts critical infrastructure protection. Her proven ability to bridge AI with cybersecurity makes her a deserving nominee for this prestigious recognition. πŸ†πŸ”

πŸŽ“ Education

Dr. Tanushree Bhattacharjee holds a Ph.D. in Electrical Engineering from Jamia Millia Islamia, New Delhi (2017-2022), where she focused on substation automation and microgrid protection. She completed her Master’s in Power Systems at the Indian Institute of Engineering Science & Technology, Shibpur (2012-2014). Her academic work involved IEC 61850 protocols, cybersecurity in digital substations, and AI-driven security frameworks. Through hands-on research in power system modeling, microgrid security, and forensic analysis, she has contributed to cybersecurity innovations in critical infrastructure. Her education has provided a robust foundation for her advancements in intrusion detection and digital protection strategies. πŸŽ“βš‘πŸ”¬

πŸ’Ό ExperienceΒ 

As Sr. R&D Manager at GRIDsentry Pvt. Ltd., Bengaluru, Dr. Bhattacharjee leads research on intrusion detection systems (IDS), AI-driven threat modeling, and forensic analysis. Previously, as a Product Manager, she specialized in deep packet inspection and anomaly detection. She also worked as a Power System Security Engineer, focusing on IPS/IDS development and OT cybersecurity. Her tenure at Jamia Millia Islamia involved substation automation, protocol security, and microgrid testing. With expertise in vulnerability assessments, access control, and live cybersecurity testing, she has significantly contributed to the security of modern power infrastructures. πŸ”’πŸ’‘πŸš€

πŸ… Awards & HonorsΒ 

Dr. Bhattacharjee has received multiple accolades for her contributions to power system cybersecurity. She has been recognized for her outstanding research in IDS and AI-driven security mechanisms. Her work on IEC 61850-based intrusion detection won Best Paper Awards at leading cybersecurity conferences. She has been acknowledged by cybersecurity organizations for her role in developing AI-based threat detection tools. Additionally, she has contributed to national security projects, earning commendation from government agencies and industry leaders. Her expertise in forensic analysis, digital substation security, and OT cybersecurity has positioned her as a trailblazer in the field. πŸ†πŸ”βš‘

πŸ”¬ Research Focus

Dr. Bhattacharjee’s research integrates emerging technologies with cybersecurity, focusing on power system protection, IEC 61850 protocols, and digital substation automation. Her expertise includes intrusion detection, AI-based anomaly detection, and forensic security analysis. She explores cyber-physical system security, ensuring resilience against DDoS, MITM, and replay attacks. Her work in deep learning for security event detection enhances smart grid protection. She also specializes in protocol security, AI-driven attack mitigation, and operational technology (OT) cybersecurity. Through machine learning, threat modeling, and real-time testing, her research aims to fortify modern power infrastructures against evolving cyber threats. πŸ›°οΈπŸ”βš™οΈ

πŸ“–Β Publication Top Notes

  1. Hardware Development and Interoperability Testing of a Multivendor-IEC-61850-Based Digital Substation
    • Citations: 11
    • Year: 2022
  2. Planning of Renewable DGs for Distribution Network Considering Load Model: A Multi-Objective Approach
    • Citations: 9
    • Year: 2014
  1. Designing a Controller Circuit for Three-Phase Inverter in PV Application
    • Citations: 6
    • Year: 2018
  2. Digital Substations with the IEC 61850 Standard
    • Citations: 3
    • Year: 2021
  3. Power Quality Improvement of Grid Integrated Distributed Energy Resource Inverter
    • Citations: 2
    • Year: 2021

 

Dr. Maissa Daoud | Bioengineering Awards | Best Researcher Award

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Dr. Maissa Daoud | Bioengineering Awards | Best Researcher Award

Dr. Maissa Daoud, University of Sfax, Tunisia

Maissa Daoud is a Tunisian electrical engineer born on September 26, 1987, in Sfax, Tunisia. She earned her Doctorate in Electrical Engineering from the National School of Engineers of Sfax (ENIS) in December 2019, focusing on the design of a self-powered receiver for MICS applications in body area networks. She has extensive teaching experience, having served as a temporary lecturer at several Tunisian universities, including the University of Sfax and the University of Sousse, where she taught various courses in electronics and telecommunications. Currently, she is a researcher at the Laboratory of Electronics and Information Technology (LETI) at the National School of Engineers of Sfax. Maissa has actively participated in international conferences, workshops, and training programs, enhancing her expertise in areas such as the Internet of Things (IoT) and biomedical devices. She is proficient in Arabic, French, and English, with her doctoral thesis and defense conducted in English.

Professional Profile:

Scopus

Orcid

Summary of Suitability for the Best Researcher Award

Maissa Daoud is highly suitable for the Best Researcher Award. Her innovative research in telecommunications and commitment to advancing technology in biomedical applications position her as a leading candidate for this recognition. Maissa exemplifies the qualities of a forward-thinking researcher whose work not only advances her field but also inspires future generations of engineers and scientists.

πŸŽ“Education:

Maissa Daoud earned her Doctor of Philosophy (Ph.D.) in Electrical Engineering in December 2019 from the National School of Engineers of Sfax (ENIS) in Tunisia, with a thesis titled “Contribution to the design of a self-powered receiver for MICS applications in the body area network,” receiving the distinction of TrΓ¨s honorable. She also holds a Master’s Degree in Research in Telecommunications and Network Systems from ISECS (ENET’COM) at the University of Sfax, completed in December 2013, where her thesis focused on the “Study and design of a non-coherent IR-UWB receiver for biomedical implants,” awarded the mention of Bien. In addition, she obtained a Master’s Degree in Professional Electronic Systems in June 2011 from the same institution, with her thesis on “Digital voltage regulation for alternators,” also receiving a mention of Bien. Earlier in her academic career, she completed an Applied Bachelor’s Degree in Electronics and Telecommunications Technology in June 2009, which included a project on the “Development of a pointing system (terminal and software).” Her educational journey began with a Baccalaureate in Experimental Sciences in June 2006.

🏒Work Experience:

Maissa Daoud has extensive teaching experience, having served as a Temporary Lecturer at the University of Sfax, Tunisia, at the School of Electronics and Telecommunications of Sfax (ENET’COM) from 2015 to 2021. She then took on the role of Contractual Lecturer at the University of Sousse, Tunisia, at the Higher Institute of Applied Sciences and Technology of Sousse (ISSAT) during the academic year 2020-2021. Currently, she continues her teaching career as a Contractual Lecturer at the University of Sfax, where she is affiliated with the Higher Institute of Computer Science and Multimedia of Sfax (ISIMSF) since 2022. In addition to her teaching roles, Maissa is also a researcher at the Laboratory of Electronics and Information Technology (LETI) at the National School of Engineers of Sfax, contributing to advancements in her field.

πŸ…Awards and Achievements:

Maissa Daoud has actively participated in numerous international conferences, where she has presented her research and findings, significantly enhancing her professional profile in areas such as the Internet of Things (IoT) and biomedical devices. Her commitment to advancing knowledge in her field is further demonstrated through her published research contributions across various academic platforms, showcasing her expertise in electrical engineering and telecommunications. These experiences not only highlight her dedication to her field but also her ability to engage with the global scientific community.

Publication Top Notes:

  • Title: A low noise cascaded amplifier for the ultra-wide band receiver in the biosensor
    Citations: 3
  • Title: A power control approach for a biosensor battery-supercapacitor storage system
    Citations: 8
  • Title: A Proposed 2.45 GHz RF-Symmetrical DC Energy Harvester for the Power Unit in the Biosensor
    Citations: 5
  • Title: Design of Dual Band Wireless Power and Data Through RF Transmission for Biomedical Implants
    Citations: 1
  • Title: A high gain 2.45GHz very low noise amplifier with an optimized input/output impedance matching
    Citations: 1