Kumary Sumi Rani Shaha | Electrical and Electronic Engineering | Best Researcher Award | 6236

Ms. Kumary Sumi Rani Shaha | Electrical and Electronic Engineering | Best Researcher Award

Ms at Pabna University of Science and Technology, Bangladesh

K. Sumi Rani Shaha’s academic and professional journey is marked by a strong foundation in Electrical and Electronic Engineering, with significant teaching, research, and practical experience in various esteemed institutions.

To facilitate the path of a knowledge-seeking mind and enrich achievements in Electrical and Electronic Engineering.

Professional Profiles

Scopus Profile

Google scholar

Education πŸ“˜πŸŽ“

M.Sc. in Electrical and Electronic Engineering (EEE)
Rajshahi University of Engineering & Technology (RUET)
CGPA: 3.92/4.00 (2023)

B.Sc. in Electrical and Electronic Engineering (EEE)
Rajshahi University of Engineering & Technology (RUET)
CGPA: 3.76/4.00, 7th position (2021)

Higher Secondary Certificate (H.S.C.) in Science
Govt. Azizul Haque College
GPA: 5.00/5.00 (2015)

Secondary School Certificate (S.S.C.) in Science
Kalai M. U. Govt. High School
GPA: 5.00/5.00 (2013)

Experiences πŸ«πŸ”Œ

Lecturer, Dept. of EECE, Pabna University of Science and Technology, Pabna
October 19, 2022 – Present
Responsibilities include teaching courses such as Electrical Circuit II, Electrical Machine System II, Power System Protection and Switchgear, and Measurement and Instrumentation. Additionally, supervising students’ thesis work, conducting exams, preparing routines, and developing OBE curriculum.Lecturer, Dept. of EEE, North Bengal International University, Rajshahi
January 15, 2022 – October 18, 2022
Taught courses including Electronics I, Electrical Circuit II, and Communication Engineering II. Also supervised students’ thesis work, conducted exams, prepared routines, and developed OBE curriculum.Lecturer, Dept. of EEE, Anwer Khan Modern University, Dhaka
November 2021 – January 2022
Taught various courses with practical classes in the Department of Electrical & Electronic Engineering.Research Assistant
March 2021 – November 2021
Worked on the project titled “Design and Analysis of Novel Hollow Core Antiresonant Fibers for Communication and Terahertz Applications” under Dr. Abdul Khaleque, Professor, Dept. of EEE, RUET.Industrial Trainee at Ghorashal Power Plant
May 14, 2019 – May 23, 2019
Completed industrial training at Ghorashal Power Plant Training Center under the supervision of Dr. Md. Mortuza Ali, Professor, Dept. of EEE, RUET.

Publications

Wideband Low Loss Hollow Core Fiber with Nested Hybrid Cladding Elements πŸ“‘

KSR Shaha, A Khaleque, MH Sarwar
Journal of Lightwave Technology, 39(20), 6585-6591 (2021)
Citations: 42
A detailed study on a novel hollow core fiber design that offers wideband and low loss, improving applications in optical communications.

Low Loss Double Cladding Nested Hollow Core Antiresonant Fiber 🌐

KSR Shaha, A Khaleque, I Hasan
OSA Continuum, 3(9), 2512-2524 (2020)
Citations: 38
This research presents a double cladding structure in hollow core fibers, achieving significant loss reduction, enhancing data transmission efficiency.

Broadband and Short-Length Polarization Splitter on Dual Hollow-Core Antiresonant Fiber πŸ”

KSR Shaha, A Khaleque, MT Rahman, MS Hosen
IEEE Photonics Technology Letters, 34(5), 259-262 (2022)
Citations: 25
Innovative design of a short-length polarization splitter that operates over a broad bandwidth, useful for compact optical devices.

Low Loss Single Mode Modified Conjoined Tube Hollow Core Fiber πŸ”¬

KSR Shaha, A Khaleque
Applied Optics, 60(21), 6243-6250 (2021)
Citations: 20
Explores a conjoined tube hollow core fiber design for single mode operation with minimized loss, beneficial for precise optical systems.

Highly Birefringent Polarization Maintaining Low-Loss Single-Mode Hollow-Core Antiresonant Fiber πŸŒ€

MS Hosen, A Khaleque, KSR Shaha, LN Asha, AS Sultana, R Nishad, …
Optics Continuum, 1(10), 2167-2184 (2022)
Citations: 15
This work focuses on achieving high birefringence and low loss in hollow-core fibers, important for polarization-maintaining applications.

Low Loss Anisotropic Nested Hollow Core Antiresonant Fiber 🌈

KSR Shaha, A Khaleque, MT Rahman
2020 2nd International Conference on Advanced Information and Communication
Citations: 14
Introduces an anisotropic design for nested hollow core fibers, reducing loss across a variety of applications.

Nodeless Antiresonant Hollow Core Fiber for Low Loss Flatband THz Guidance 🌐

AS Sultana, A Khaleque, KSR Shaha, MM Rahman, MS Hosen
Optics Continuum, 1(8), 1652-1667 (2022)
Citations: 12
Research on hollow core fibers designed for terahertz guidance, providing low loss and flatband characteristics.

Nested Antiresonant Hollow-Core Fiber with Ultra-Low Loss 🌐

KSR Shaha, A Khaleque, MI Hasan
2020 11th International Conference on Electrical and Computer Engineering
Citations: 12
Examines an ultra-low loss design for nested antiresonant hollow-core fibers, critical for enhancing communication technologies.

Polarization-Insensitive Terahertz Tunable Broadband Metamaterial Absorber on U-Shaped Graphene Array πŸ“‘

ABMA Hossain, A Khaleque, NM Shahriar, MS Hosen, KSR Shaha, …
2023 International Conference on Electrical, Computer and Communication
Citations: 7
Develops a tunable broadband absorber using metamaterials and graphene, improving terahertz applications.

Dual-Function Plasmonic Device on Photonic Crystal Fiber for Near to Mid-Infrared Regions πŸ“‘

MH Rahman, A Khaleque, MS Hosen, KSR Shaha, M Mizan, MT Rahman
Optical Materials Express, 13(9), 2526-2540 (2023)
Citations: 6

Sabrina Sophy Sicari – Engineering – Best Researcher Award

Sabrina Sophy Sicari - Engineering - Best Researcher Award

University of Insubria - Italy

Professional Profiles

ORCID

Early Academic Pursuits

Sabrina Sophy Sicari was born on September 18, 1977, in Catania, Italy. Her early academic pursuits were marked by a strong foundation in computer science and engineering, fields that have been pivotal to her career. Sicari exhibited a keen interest in technology from a young age, leading her to pursue advanced studies in computer science. She completed her higher education with distinction, laying a solid groundwork for her future endeavors in both academic and professional spheres.

Professional Endeavors

Sabrina Sicari's professional journey is highlighted by her current role as a Full Professor in Software Engineering (sector 09/H1, academic discipline ING-INF/05) at the UniversitΓ  degli Studi dell’Insubria, a position she has held since October 1, 2023. In addition to her professorial duties, she serves on the Ph.D. board for Computer Science and Computational Mathematics at the same university, contributing to the academic growth and research direction of the department since the XXXIII cycle in 2017. Her teaching portfolio includes courses such as β€œReti di Telecomunicazione” (Telecommunication Networks) for bachelor students and β€œInnovative Telecommunication Systems” for master’s students, demonstrating her commitment to educating the next generation of computer scientists.

Contributions and Research Focus On Engineering

Sicari's research areas are extensive and impactful, focusing primarily on security and privacy issues within the Internet of Things (IoT) and wireless sensor networks. Her work in these areas addresses critical challenges in safeguarding data and ensuring secure communication within interconnected systems. Sicari has also made significant contributions to software engineering, emphasizing the development of secure and efficient software solutions.

Her editorial roles with several prestigious journals, including Computer Networks (Elsevier), IEEE Internet of Things, Transactions on Emerging Telecommunications Technologies (Wiley), Internet Technology Letters (Wiley), and ITU Journal on Future and Evolving Technologies, reflect her influence and standing in the academic community. Additionally, she has been a guest editor for the special issue "Urban Sensing: Application, Technologies, and Systems" for the IEEE Sensors journal since October 1, 2022, further underscoring her expertise in innovative sensing technologies.

Accolades and Recognition In Engineering

Sabrina Sicari's contributions to her field have not gone unnoticed. She has been recognized as an IEEE Senior Member since 2021, a distinction that highlights her professional achievements and her substantial experience in IEEE-designated fields of interest. This honor is a testament to her ongoing commitment to advancing the field of computer science and engineering.

Impact and Influence

Sicari's work has had a profound impact on the fields of IoT security and wireless sensor networks. Her research has led to the development of more secure and reliable systems, which are crucial as the world becomes increasingly reliant on interconnected devices. By addressing key security and privacy issues, her contributions have helped shape best practices and set standards in these emerging technological domains.

Legacy and Future Contributions For Engineering

Looking ahead, Sabrina Sicari's legacy in the realm of computer science is set to be defined by her pioneering research and her dedication to education. Her involvement in various editorial boards and research committees ensures that she will continue to influence the direction of future research and development. Her ongoing projects and future research will likely delve deeper into the complexities of IoT and network security, aiming to create even more robust solutions to safeguard against evolving threats.

Conclusion

Sabrina Sophy Sicari's career is a testament to her dedication, expertise, and influence in the field of computer science. From her early academic pursuits in Catania to her current position as a Full Professor at the UniversitΓ  degli Studi dell’Insubria, she has consistently pushed the boundaries of research in security and privacy for IoT and wireless networks. Her professional endeavors, significant contributions, and numerous accolades underscore her role as a leading figure in her field. As she continues to drive forward with her research and professional activities, her impact on the world of technology will undoubtedly continue to grow, cementing her legacy as a pioneering force in computer science and engineering.

Notable Publications

NERO: NEural algorithmic reasoning for zeRO-day attack detection in the IoT: A hybrid approach 2024

Guest Editorial Urban Sensing: Applications, Technologies, and Systems 2024

Towards rapid modeling and prototyping of indoor and outdoor monitoring applications 2024

Deep Reinforcement Learning for intrusion detection in Internet of Things: Best practices, lessons learnt, and open challenges 2023

Radheshyam Singh – Engineering – Excellence in Innovation

Radheshyam Singh - Engineering - Excellence in Innovation

Technical University of Denmark - Denmark

Professional Profiles

Early Academic Pursuits

Radheshyam Singh's academic journey commenced with a Bachelor's degree in Electronics & Telecommunication Engineering from Nagpur University, India. He pursued further studies at the Technical University of Denmark, completing his Master's in Telecommunication Engineering with an exchange program at Riga Technical University, Latvia. Currently, he is pursuing a Ph.D. in Reliable and Secure M2M/IoT Communication Engineering at the Technical University of Denmark.

Professional Endeavors

Singh's professional endeavors span various domains, including research, project management, and engineering roles. He has served as a Research Intern at FORCE Technology, delving into benchmarking 5G and Cellular IoT technologies. Additionally, he has contributed as a PhD Researcher at the Technical University of Denmark, focusing on projects related to reliable and secure M2M/IoT communication engineering, propagation models for drone communication on 5G, and software-defined network applications.

Contributions and Research Focus On Engineering

Singh's research primarily focuses on advancing telecommunications technologies, particularly in the areas of IoT, drone communication, 5G networks, and software-defined networking. His work involves defining reliable and secure communication protocols for M2M/IoT applications, developing propagation models for drone communication on 5G networks, and exploring software-defined network applications for railways and roads co-existence scenarios. Additionally, Singh has contributed to research projects related to NB-IoT, LoRaWAN, and IoT sensor deployment.

Accolades and Recognition In Engineering

Singh's contributions to the field of telecommunications have earned him recognition and accolades throughout his career. Notably, he was awarded a first-class degree for his Bachelor's studies at Nagpur University. Furthermore, his work as a PhD Researcher and Research Intern has garnered attention for its innovative approaches to addressing challenges in M2M/IoT communication and drone communication on 5G networks. Engineering encompasses the application of scientific principles to design, develop, and innovate solutions that address complex challenges across various industries.

From creating sustainable infrastructure to advancing technological frontiers, engineering plays a pivotal role in shaping the world we live in Engineers leverage their expertise in mathematics, physics, and materials science to conceive, plan, and execute projects ranging from building structures and transportation systems to developing cutting-edge technologies like artificial intelligence and renewable energy solutions.

Impact and Influence

Singh's research and professional endeavors have made a significant impact on the advancement of telecommunications technologies. His contributions to projects related to IoT, 5G networks, and software-defined networking have the potential to revolutionize various industries, including transportation, infrastructure, and manufacturing. Singh's work not only addresses current challenges but also paves the way for future innovations in telecommunications.

Through a blend of creativity, technical proficiency, and problem-solving skills, engineers strive to improve efficiency, enhance functionality, and drive progress. Engineering is not just about solving problems; it's about pushing boundaries, fostering innovation, and making a positive impact on society. Whether it's revolutionizing communication networks, designing eco-friendly buildings, or developing life-saving medical devices, engineering remains at the forefront of driving advancements that shape our collective future.

Legacy and Future Contributions

As Radheshyam Singh continues his academic and professional journey, his legacy lies in his commitment to advancing telecommunications technologies for societal benefit. Through his research, project management, and engineering roles, Singh aims to contribute to the development of reliable, secure, and efficient communication systems that facilitate connectivity and drive technological progress. His future contributions are poised to inspire further advancements in telecommunications, shaping the future of IoT, 5G networks, and beyond.

Notable Publications

Overview ofΒ Drone Communication Requirements inΒ 5G 2023

Implementing Edge Computing Architectures for Railway Applications: An example Using the Emu5GNet Platform 2023

Pathloss Analysis and Modelling for 5G Communication in U-SPACEa 2023

Implementing Edge Computing Architectures for Railway Applications: An example Using the Emu5GNet Platform 2023

Susana B. Guerrero Ocampo – innovation networks – Best Researcher Award

Susana B. Guerrero Ocampo - innovation networks - Best Researcher Award

Universidad PolitΓ©cnica de Madrid (UPM) - Spain

Professional Profiles

Early Academic Pursuits

Susana B. Guerrero Ocampo embarked on her academic journey with a strong commitment to addressing societal challenges through interdisciplinary research. She obtained her Bachelor's degree in Nursing from Universidad Nacional Pedro Ruiz Gallo, Peru, and further honed her expertise with a Diploma in Family and Community Medicine and Primary Health Care from the National School of Public Health in alliance with the National University Pedro Ruiz Gallo,

Peru. Guerrero Ocampo's academic pursuits continued with a Master's degree in Social Management from Pontificia Universidad CatΓ³lica del PerΓΊ, Lima, focusing on effective social program targeting systems. Her passion for sustainable human development led her to pursue a Master's in Strategies and Technologies for Development from the Complutense University of Madrid and the Polytechnic University of Madrid, where she explored innovative approaches to needs assessment in refugee camps.

Professional Endeavors

Guerrero Ocampo's professional journey is characterized by her dedication to international cooperation and development projects. She gained extensive experience in managing such projects with Spanish and European public funds. Her internship at Unicef - Spanish Committee's Local Childhood Policies Area further enriched her understanding of child development policies. Guerrero Ocampo also engaged in capacity-building initiatives, including providing training on the NAUTIA methodology in Sahrawi refugee camps in Algeria and participating in development project management courses.

Contributions and Research Focus On innovation networks

As a Ph.D. in Rural Development Project Planning and Sustainable Management from Universidad PolitΓ©cnica de Madrid, Guerrero Ocampo's research focused on optimizing interactive innovation in rural areas. She has contributed significantly to the field through her research on social network analysis, multi-actor partnerships for agricultural innovation, and co-innovation partnerships in rural Iberia. Her work addresses critical issues such as sustainable agriculture, rural development, and social inclusion.

Accolades and Recognition In innovation networks

Guerrero Ocampo's contributions to academia have been recognized through various accolades and publications. Her Master's thesis was awarded the "Best Master's Thesis in the field of Sustainable Human Development," highlighting the impact of her research on addressing societal challenges. She has authored several articles published in reputable journals, including Sustainability and the Journal of Rural Studies, showcasing her expertise in rural development and innovation.

Susana B. Guerrero Ocampo excels in research on innovation networks, pioneering collaborative models and technological advancements. Her work fosters creative partnerships and entrepreneurial endeavors, leading to cutting-edge innovations and breakthroughs. As a recognized leader in innovation networks, Guerrero Ocampo's contributions have earned her accolades and recognition in the academic community.

Impact and Influence

Guerrero Ocampo's research has made a significant impact on academia and practice. By examining multi-actor partnerships and interactive innovation initiatives, she has provided valuable insights into effective approaches for addressing complex challenges in rural areas. Her work has informed policy-making and development strategies aimed at promoting sustainable agriculture, fostering social cohesion, and enhancing rural livelihoods.

Legacy and Future Contributions

As Guerrero Ocampo continues her academic and professional journey, her legacy lies in her commitment to advancing sustainable development and social justice. Through her interdisciplinary research and practical experience, she aims to contribute to creating positive change in marginalized communities and promoting inclusive development practices. Her future contributions are poised to inspire future generations of scholars and practitioners to address pressing global challenges with creativity, empathy, and rigor.

Notable Publications

Evolution of multi-actor co-innovation partnerships: Key factors in 4 case studies in rural Iberia 2024

Social Network Analysis Uses and Contributions to Innovation Initiatives in Rural Areas: A Review 2023

Multi-Actor Partnerships for Agricultural Interactive Innovation: Findings from 17 Case Studies in Europe 2022

Dr. MA, Jing – Computer Science – Best Researcher Award

Dr. MA, Jing - Computer Science - Best Researcher Award

Hong Kong Baptist University - Hong Kong

Professional Profiles

Early Academic Pursuits

Dr. MA, Jing embarked on his academic journey with a strong foundation in Telecommunications Engineering, earning his B.Eng. from Beijing University of Posts and Telecommunications in 2013. He furthered his studies with an M.S. in Computer Science specializing in Telecommunications Engineering from the same institution. Dr. MA's academic pursuits culminated in a Ph.D. in Information Systems with a focus on Systems Engineering and Engineering Management from The Chinese University of Hong Kong in 2020. Under the guidance of esteemed supervisors Kam-Fai Wong and Wei Gao, Dr. MA delved into the intricate realms of large language models, multi-modal systems, credibility assessment, and social media analytics.

Professional Endeavors

Following his academic achievements, Dr. MA ventured into the professional realm as an Assistant Professor in the Department of Computer Science at Hong Kong Baptist University. His expertise spans across various domains, including information retrieval, machine learning, and social media analytics. Dr. MA's professional journey is marked by a series of groundbreaking research endeavors aimed at tackling contemporary challenges in the digital landscape.

Contributions and Research Focus On Computer Science

Dr. MA's research focus encompasses several critical areas in computer science. He has made significant contributions to the development of large language models, particularly in the domains of code generation, fake news detection, and meme analysis. His work on explainable AI and credibility assessment has garnered widespread recognition within the academic community. Moreover, Dr. MA has pioneered research in multi-modal systems, exploring the intersection of text and image processing for enhanced information retrieval and understanding.

Accolades and Recognition In Computer Science

Dr. MA's contributions to the field have been recognized through numerous accolades and publications in prestigious conferences and journals. His research papers have been presented at renowned conferences such as The Web Conference, ICLR, ICASSP, EMNLP, and ICCV, among others. These publications underscore Dr. MA's dedication to advancing the frontiers of knowledgeΒ his ability to address complex challenges through innovative methodologies.

Impact and Influence

Dr. MA's work has had a profound impact on both academia and industry. His research findings have shed light on critical issues such as fake news detection, meme analysis, and credibility assessment, thereby contributing to the development of more robust and trustworthy AI systems. Furthermore, Dr. MA's collaborations with leading researchers and institutions have facilitated knowledge exchange and fostered interdisciplinary approaches to address contemporary challenges in the digital age.

Legacy and Future Contributions To Computer Science

As Dr. MA continues to push the boundaries of research, his legacy is poised to inspire future generations of scholars and practitioners. His commitment to excellence, coupled with his innovative research methodologies, serves as a beacon for aspiring researchers seeking to make meaningful contributions to the field. Looking ahead, Dr. MA envisions further advancements in large language models, multi-modal systems, and AI ethics, paving the way for a more inclusive, transparent, and trustworthy digital ecosystem.

Dr. MA's dedication to academic excellence, coupled with his innovative research endeavors, positions him as a leading figure in the field of computer science. His contributions have not only expanded the horizons of knowledge but have also paved the way for the development of more robust and ethical AI systems, ensuring a brighter and more equitable future for humanity.

Notable Publications

CoTea: Collaborative teaching for low-resource named entity recognition with a divide-and-conquer strategy 2024

Towards low-resource rumor detection: Unified contrastive transfer with propagation structure 2024

Context-Aware Attentive Multilevel Feature Fusion for Named Entity Recognition 2024

Improving Rumor Detection by Promoting Information Campaigns With Transformer-Based Generative Adversarial Learning 2023