Ayesha Saeed | Public Health | Applied Science Scholar Award

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Dr. Ayesha Saeed | Public Health | Applied Science Scholar Award

Public Health Officer at Foundation University Islamabad | Pakistan

Ayesha Saeed is a dynamic and goal-driven biotechnology professional based in Islamabad, Pakistan, with a deep-rooted passion for advancing scientific research and public health. Her academic background is enriched with a Ph.D. in Biotechnology and hands-on research experience both nationally and internationally, including at the University of Florida, USA. She possesses a diverse skill set ranging from molecular biology and microbiology to bioinformatics and next-generation sequencing. Her dedication to scientific excellence is reflected in numerous publications across peer-reviewed journals and her contribution to global conferences and symposia. Ayesha is currently serving as a Public Health Officer at Foundation University Islamabad, where she manages clinical research and health response strategies. Her collaborative nature, leadership potential, and ability to work under minimal supervision make her a valuable asset to any scientific community. With a strong work ethic, adaptability, and commitment to continuous learning, she aims to bridge research and real-world health solutions through innovative biotechnology applications.

Professional Profile

Scopus | ORCID

Education

Ayesha Saeed holds a rich academic background in biotechnology and bioinformatics. She completed her Ph.D. in Biotechnology from Fatima Jinnah Women University, Rawalpindi, where she focused on the immunomodulatory effects of probiotics from human milk. Her MPhil in Biotechnology from the same institution involved comparative studies of probiotic bacteria from olives. She earned her BS in Bioinformatics from the International Islamic University, Islamabad. Throughout her academic journey, she developed strong capabilities in experimental design, data analysis, and scientific writing. Ayesha also earned multiple merit-based scholarships and scored within the top percentiles in national Graduate Assessment Tests. Her educational trajectory reflects a strong integration of biological sciences, computational tools, and health-related applications, laying a robust foundation for her research and professional pursuits.

Professional Experience

Ayesha Saeed has accumulated diverse professional experience in both research and academic roles. Currently, she serves as a Public Health Officer at Foundation University Islamabad, where she leads clinical research projects, manages campus-wide healthcare responses, and provides guidance on disease management strategies. Her role emphasizes infection mitigation, data evaluation, and team mentorship. Prior to this, she worked as a Research Officer at BJ Micro Lab, Rawalpindi, contributing to DNA/RNA extractions, in silico PCR analysis, reagent preparation, and training students in molecular techniques. Her tenure as a Visiting Fellow at the University of Florida expanded her expertise in molecular microbiology, host-pathogen interactions, and cell line studies, with active participation in symposia and workshops. Earlier in her career, she served as a Lecturer at Minhaj Post Graduate College and conducted indigenous Ph.D. research under a Higher Education Commission fellowship. Ayesha’s career reflects a balanced blend of laboratory expertise, teaching, mentorship, and international exposure, making her a versatile and impactful professional.

Research Interest

Ayesha Saeed’s research interests lie at the intersection of molecular biology, microbiology, and public health. Her primary focus is on the isolation and characterization of probiotic bacteria and their immunomodulatory effects, particularly those derived from human milk and fermented foods. She is passionate about exploring the therapeutic potential of probiotics in enhancing gut health, modulating immune responses, and contributing to disease prevention. Her doctoral work centered on investigating the interactions between host cells and probiotic strains using molecular and cellular techniques. Ayesha also has a keen interest in antimicrobial resistance, genome sequencing, and predictive bioinformatics. Her experience at the University of Florida further shaped her research vision, particularly in the areas of microbial diversity, host-pathogen interaction, and functional genomics. Ayesha seeks to contribute to translational research that addresses global health challenges through microbial therapeutics and biotechnological interventions, aiming for innovations that improve patient outcomes and public health strategies.

Research Skills

Ayesha Saeed is equipped with a comprehensive set of research skills encompassing molecular, microbiological, computational, and analytical techniques. Her molecular biology proficiency includes DNA/RNA extraction, PCR, ELISA, HPLC, Western blotting, and working with human cell lines such as Caco-2. In microbiology, she has expertise in isolating bacterial strains, antibiotic resistance profiling, and conducting phenotypic and biochemical characterizations. She is adept in next-generation sequencing data analysis, including RNA-Seq and whole-genome sequencing for bacterial strains. Ayesha also brings substantial experience in computer-aided drug design, including molecular docking, pharmacophore screening, and homology modeling. Her programming knowledge spans R, C/C++, JavaScript, and SQL, with advanced skills in Microsoft Office, MEGA7, LaTeX, and bioinformatics platforms such as BLAST and PAST. Additionally, she has strong documentation, problem-solving, and presentation skills, along with soft skills like teamwork and time management, making her a well-rounded researcher capable of leading complex projects.

Awards and Honors

Ayesha Saeed has received several accolades that underscore her academic excellence and research capabilities. She was a recipient of the prestigious HEC Indigenous Ph.D. Fellowship and the International Research Support Initiative Program fellowship, which supported her research at the University of Florida. Earlier in her career, she earned merit scholarships from Fauji Foundation and IIUI. She is a reviewer for several high-impact journals including BMC Microbiology, Gut Pathogens, and Future Microbiology, reflecting her scientific credibility. Her research output includes multiple publications in reputed journals like PLoS One, BioMed Research International, and Cytokine. She has also authored book chapters in areas of bioinformatics and gut-brain axis studies. These recognitions highlight her consistent commitment to advancing biotechnology and public health through rigorous research and academic engagement.

Publications Top Notes

Title: CRISPR-Cas: From bacterial immunity to precision genome engineering
Year: 2025

Title: Resistance trend in bacteria isolated from corneal ulcers: A retrospective analysis from Pakistan
Year: 2025

Title: Bioinformatics Applied to Microbiology (Book Chapter in Microbiology in the Era of Artificial Intelligence)
Year: 2025

Title: Microbial goldmine: Investigating probiotic floral diversity in human breast milk
Year: 2024

Title: Unveiling the Antibiotic Susceptibility and Antimicrobial Potential of Bacteria from Human Breast Milk of Pakistani Women: An Exploratory Study
Year: 2023

Conclusion

In summary, Ayesha Saeed exemplifies a dedicated, knowledgeable, and globally experienced researcher in the field of biotechnology. With a Ph.D., diverse international collaborations, and a robust publication record, she combines scientific rigor with practical applications in public health and microbiology. Her expertise spans molecular biology, microbiology, and bioinformatics, backed by strong programming and analytical capabilities. Ayesha’s professional journey, including roles in academia, clinical research, and global symposia, reflects her commitment to leveraging science for societal benefit. She is driven by a vision to develop innovative solutions in probiotic therapy, antimicrobial resistance, and genetic analysis, aiming to impact human health at both individual and community levels. Through continued research, collaboration, and mentorship, Ayesha aspires to contribute to biotechnology advancements that foster sustainable and resilient healthcare systems. Her passion, perseverance, and multidisciplinary approach make her a promising leader in the scientific community.

Haining Yang | Phase Array System | Best Researcher Award

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Prof. Haining Yang | Phase Array System | Best Researcher Award

Doctorate from University of Electronic Science and Technology | China

Dr. Haining Yang is an accomplished researcher in the field of radar imaging and signal processing, currently serving as a Researcher and Doctoral Supervisor at the School of Electronic Science and Engineering, University of Electronic Science and Technology of China (UESTC). He earned his Ph.D. in Signal and Information Processing from UESTC. His academic journey includes a tenure as a Visiting Researcher at Duke University’s Department of Electrical Engineering, where he gained valuable international research exposure. Dr. Yang’s career reflects a steady progression from a Research Assistant to Associate Researcher, culminating in his current senior role. His expertise lies in radar imaging, phased array systems, and signal processing, making significant contributions through both independent and collaborative projects. He is a prolific scholar with over 90 SCI/EI-indexed publications and more than 40 national invention patent applications, of which over 20 have been authorized. Dr. Yang is an IEEE Senior Member and serves as a reviewer for top-tier journals such as IEEE Transactions on Geoscience and Remote Sensing (TGRS). He also acts as an expert reviewer for the National Natural Science Foundation of China, reflecting his authoritative position in the scientific community and dedication to advancing research excellence.

Professional Profile

Scopus | ORCID

Education

Haining Yang holds a distinguished academic background anchored by a Ph.D. in Signal and Information Processing from the University of Electronic Science and Technology of China (UESTC), one of China’s premier institutions for electronic and information disciplines. His doctoral research laid the foundation for his future contributions to radar imaging and signal processing, areas in which he has since built an impressive academic and professional reputation. Notably, during his doctoral studies, he was selected as a Visiting Researcher at Duke University. This international experience broadened his research horizons and provided access to world-class resources and collaborations, particularly in advanced signal processing technologies. His early academic formation also involved deep engagement with theoretical and practical dimensions of phased array systems, shaping his problem-solving capabilities and engineering insight. The combination of a strong theoretical foundation from UESTC and practical exposure at Duke University uniquely positions Dr. Yang at the intersection of academic rigor and applied innovation. His education reflects not just academic excellence but also a capacity for global collaboration, interdisciplinary work, and long-term research vision—all of which have guided his subsequent professional success.

Professional Experience

Haining Yang holds a distinguished academic background anchored by a Ph.D. in Signal and Information Processing from the University of Electronic Science and Technology of China (UESTC), one of China’s premier institutions for electronic and information disciplines. His doctoral research laid the foundation for his future contributions to radar imaging and signal processing, areas in which he has since built an impressive academic and professional reputation. Notably, during his doctoral studies, he was selected as a Visiting Researcher at Duke University. This international experience broadened his research horizons and provided access to world-class resources and collaborations, particularly in advanced signal processing technologies. His early academic formation also involved deep engagement with theoretical and practical dimensions of phased array systems, shaping his problem-solving capabilities and engineering insight. The combination of a strong theoretical foundation from UESTC and practical exposure at Duke University uniquely positions Dr. Yang at the intersection of academic rigor and applied innovation. His education reflects not just academic excellence but also a capacity for global collaboration, interdisciplinary work, and long-term research vision—all of which have guided his subsequent professional success.

Research Interest

Dr. Haining Yang’s research interests lie at the intersection of radar imaging, phased array systems, and advanced signal processing techniques. He is particularly passionate about developing high-resolution radar imaging methods that can be applied to complex and dynamic environments. His work explores both theoretical frameworks and practical implementations, focusing on optimizing performance, accuracy, and computational efficiency in radar systems. In the field of phased arrays, he investigates innovative beamforming and calibration algorithms that enhance target detection and tracking capabilities. A significant portion of his research is dedicated to adaptive signal processing, including noise reduction, clutter suppression, and feature extraction from radar data. He is also keenly interested in exploring interdisciplinary approaches that integrate artificial intelligence and machine learning into radar signal interpretation. Dr. Yang’s contributions have practical implications for defense, aviation, remote sensing, and autonomous navigation systems. His research is frequently aligned with national priorities, such as projects under the National Key R&D Program and National Natural Science Foundation of China. With a strong publication record and active engagement in peer-review processes, he continues to shape the future of radar and signal processing technologies, pushing the boundaries of what modern electronic systems can achieve.

Research Skills

Dr. Haining Yang possesses a robust set of research skills that reflect his extensive training and experience in electronic engineering and information processing. He is highly proficient in radar imaging techniques, with expertise in synthetic aperture radar (SAR), inverse SAR, and three-dimensional imaging algorithms. His strong command over phased array system design and signal calibration processes enables him to implement complex experimental setups with precision. Dr. Yang is also skilled in signal processing methods such as time-frequency analysis, statistical estimation, and adaptive filtering, which are fundamental to extracting meaningful information from noisy or incomplete datasets. His programming proficiency spans MATLAB, Python, and C++, allowing him to develop simulation models and real-time processing tools for experimental validation. In addition to technical skills, he is adept in project management, having successfully led multiple high-level research initiatives funded by national and provincial agencies. Dr. Yang demonstrates a solid grasp of scientific communication, regularly publishing in SCI/EI-indexed journals and presenting at top conferences. His experience supervising graduate students adds to his collaborative and mentoring strengths, creating a dynamic research environment. These diverse yet interconnected skills make Dr. Yang a versatile and highly effective researcher in electronic science and engineering.

Awards and Honors

Dr. Haining Yang’s career is distinguished by numerous awards and honors that reflect his excellence in scientific research and student mentorship. Notably, he led students to achieve prestigious accolades such as the Silver Award in the China International College Students Innovation Competition Finals and the Gold Award in the Sichuan International College Students Innovation Competition, demonstrating his commitment to fostering innovation and academic excellence. He also guided a team that earned the Second Prize in the China Graduate Electronic Design Contest National Finals, one of China’s most competitive academic contests. Dr. Yang is a Senior Member of the IEEE, recognizing his sustained contributions and leadership in the engineering community. His work has earned support from prominent funding agencies, including the Ministry of Science and Technology and the National Natural Science Foundation of China, further underlining the impact and trust his research commands. With over 20 authorized invention patents, he has made significant strides in turning academic research into applicable technologies. As a reviewer for top-tier journals and national scientific committees, Dr. Yang’s expertise is highly valued in both academic and policy-making circles. These accolades underscore his role as a leading figure in electronic science research.

Publications Top Notes

Title: Joint Design of Transceiver Digital Beamforming by Outage Analysis for High-Speed Railway mmW Communication in the Presence of Deep Fading
Year: 2025

Title: A Nonlinear Manifold Embedding Extreme Learning Machine to Improve the Gas Recognition of Electronic Noses
Year: 2024
Citations: 6

Title: Adaptive Gradient Projection Correction Method for Resistivity Array Imaging Logging
Year: 2024

Conclusion

In conclusion, Dr. Haining Yang exemplifies a modern research leader whose career reflects deep technical expertise, a global academic perspective, and a strong dedication to innovation and mentorship. With a Ph.D. from UESTC and international research experience at Duke University, he combines rigorous academic training with global research insight. His work in radar imaging, phased arrays, and signal processing is supported by a strong record of funded research, prolific publications, and impactful patent contributions. As a Senior IEEE Member and active reviewer, he contributes significantly to the academic community, ensuring the quality and relevance of research in his field. Beyond research, his commitment to education is evident in the awards and recognition his students have earned under his guidance. Dr. Yang stands out not only as a productive scholar but also as a collaborative mentor, project leader, and innovator. His comprehensive skill set, academic dedication, and vision for technological advancement position him as a key contributor to the future of electronic science and engineering in China and beyond. With continued research and mentoring, Dr. Yang is well-poised to inspire and lead the next generation of researchers in his field.

 

Chadaram Chandra Sekhar | Power Electronics | Best Researcher Award

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Mr. Chadaram Chandra Sekhar | Power Electronics | Best Researcher Award

Chadaram Chandra Sekhar from NIT Trichy | India

Chadaram Chandra Sekhar is a highly motivated and accomplished engineer specializing in power electronics, embedded systems, and digital hardware design. With extensive hands-on experience in circuit design, FPGA development, and energy systems, he combines strong technical acumen with a passion for innovation in both academic and industrial settings. Currently pursuing a Ph.D. at the National Institute of Technology, Trichy, his research spans advanced DC-DC converter systems, optimal sensor placement in electrical grids, and electric vehicle technologies. Over the years, Sekhar has gained experience working as a Senior R&D Engineer at Scientific Mes Technik Pvt. Ltd., where he contributed to the development of a 20kW three-phase bidirectional converter. His academic career includes roles as a Teaching Assistant and Junior Research Fellow, where he guided undergraduate students and supported national research projects. His diverse expertise encompasses analog and digital systems, software and hardware integration, and energy optimization for electric vehicles and power grids. With multiple publications in reputed international conferences and journals, he continues to contribute meaningfully to the fields of electrical engineering and renewable technologies. Known for his diligence, problem-solving ability, and collaborative spirit, Sekhar aspires to work in forward-thinking environments that foster both technical innovation and professional growth.

Professional Profile

Google Scholar

Education

Chadaram Chandra Sekhar has pursued a robust academic path, starting with a Bachelor of Technology in Electrical and Electronics Engineering from Acharya Nagarjuna University, He continued his education at the National Institute of Technology (NIT) Raipur, earning a Master of Technology in Power Systems and Control. Currently, he is advancing his academic pursuits with a Ph.D. at the prestigious National Institute of Technology Trichy. His doctoral research focuses on power electronic converters for electric vehicles, particularly isolated multiport DC-DC converters and battery parameter optimization—areas that contribute directly to the global push for sustainable energy solutions. Sekhar’s academic journey is marked by consistent performance and a drive for innovation in system-level design and energy management. Throughout his education, he has developed strong foundations in control theory, digital system design, optimization algorithms, and hardware simulation tools. His project work across all degrees—ranging from smoothing capacitor applications in wind systems to model order reduction and optimal PMU placement—demonstrates his commitment to bridging theoretical knowledge with practical implementation. This academic background forms a strong base for his ongoing research contributions and future aspirations in power electronics and renewable energy systems.

Professional Experience

Chadaram Chandra Sekhar brings a multifaceted professional background combining industrial R&D, academic instruction, and research-based problem-solving. His most notable role has been as a Senior R&D Engineer (Hardware) at Scientific Mes Technik Pvt. Ltd., where he led the design and development of a 20kW three-phase bidirectional AC-DC converter using dual active bridge architecture. His responsibilities included PCB design, component selection, analog circuit development, and power converter control, reflecting his deep understanding of hardware systems. Previously, he served as a Teaching Assistant at NIT Trichy, teaching digital system design and HDL to undergraduate students—effectively merging theoretical foundations with hands-on lab experience. Sekhar also worked as a Junior Research Fellow at NIT Warangal, contributing to critical research on phasor measurement unit (PMU) placement for India’s power grid, enhancing grid stability and fault detection. Early in his career, he gained field-level insights as a Supervisor at Sigma Automation & Instruments, overseeing the installation and testing of substation equipment. His blend of teaching, research, and industry-based roles has allowed him to develop not only technical skills but also mentoring, project management, and systems integration capabilities—making him a well-rounded professional in the field of electrical and power engineering.

Research Interest

Chadaram Chandra Sekhar’s research interests lie at the intersection of power electronics, energy systems, and embedded hardware design. His current doctoral work focuses on isolated multiport DC-DC converters for electric vehicles, aiming to improve energy efficiency and system reliability in sustainable transportation. He is also deeply engaged in optimization algorithms for battery parameter estimation, which has direct applications in battery management systems and electric mobility infrastructure. Previously, his work on model order reduction techniques for linear time-invariant systems and the optimal placement of PMUs in the Indian power grid demonstrates his dedication to enhancing grid performance and operational safety. Sekhar’s academic journey reflects a consistent drive to solve real-world energy and control problems through simulation, prototyping, and experimental validation. He maintains a strong interest in advanced control strategies such as unified phase-shift modulation, decoupling control for multi-port converters, and renewable power integration. These areas are critical for modern smart grids and electrified transport systems. His passion for combining theory with practical design, particularly in energy conversion and digital control implementation, positions him to contribute to cutting-edge developments in power management, smart infrastructure, and sustainable technologies.

Research Skills

Chadaram Chandra Sekhar possesses a comprehensive set of research and technical skills that enable him to excel in both academic and industrial settings. His software proficiency includes tools such as MATLAB, PLECS, Vivado, Typhoon HIL, and ISE Design Suite for modeling, simulation, and control system analysis. He is also adept in RTL to GDS workflows and hardware design platforms like Questasim, Multisim, and LTspice, essential for signal processing and circuit verification. His hardware capabilities encompass FPGA platforms (ZedBoard, Spartan 3E), microcontroller boards like TI’s C2000, and PCB design for power electronics applications. Sekhar demonstrates strong command over analog and digital systems, including gate driver design, high-frequency transformer design, and regulated power supply implementation. He is also proficient in HDL languages such as Verilog and VHDL, as well as coding in MATLAB, C, and basic Python. These skills have empowered him to design and test complex hardware for converters and smart energy systems. His lab experience includes real-time hardware-in-loop simulations using Typhoon HIL and experimental testing of electric vehicle converter topologies. Altogether, Sekhar’s technical toolkit equips him to undertake cross-functional research in embedded systems, power converters, energy storage, and renewable energy integration.

Awards and Honors

Chadaram Chandra Sekhar has received commendable recognition for his research and academic contributions in the field of power systems and electronics. Most notably, he was honored with the Best Paper Award at the SEFET Conference for his groundbreaking work on peak current minimization in dual active bridge converters using unified phase shift control. His ability to present complex ideas clearly and contribute meaningful solutions to contemporary engineering challenges has earned him accolades within academic circles. Beyond this, he has actively participated in multiple IEEE-sponsored conferences, presenting research on model order reduction, electric vehicle converters, and residual inductance analysis in impulse generation systems. He has also contributed several impactful book chapters published by Springer and Elsevier, reinforcing his commitment to knowledge dissemination and academic excellence. His involvement in high-impact publications and peer-reviewed research underlines his stature as an emerging thought leader in power electronics and digital control systems. These honors not only acknowledge his technical depth but also reflect his collaborative mindset and consistent contributions to advancing energy systems technology. With several journals under review and ongoing projects aligned with national research goals, Sekhar continues to enhance his academic and professional profile through rigorous scholarship and innovation.

Publications Top Notes

Title: Mitigation of High-Frequency Oscillation in a Multiport DC-DC Converter
Year: 2022
Citation: 7

Title: Model Order Reduction of Fixed Coefficient System with and without PID Controller
Year: 2020
Citation: 6

Title: Power Decoupling Control for Triple Active Bridge in DC Microgrids
Year: 2024
Citation: 1

Title: A Unified Phase Shift Technique to Minimize Peak Current in Dual Active Bridge
Year: 2024
Citation: 1

Title: An Overview of Hybrid Electric Vehicles
Year: 2024
Citation: 1

Conclusion

Chadaram Chandra Sekhar embodies the qualities of a skilled researcher, innovative engineer, and dedicated academic contributor. His journey from undergraduate studies in electrical engineering to Ph.D. research at a leading national institute has been marked by consistent growth, technical achievements, and a deep commitment to energy systems and control technologies. With experience spanning R&D design, classroom instruction, and power system optimization, he has cultivated a unique blend of hands-on engineering expertise and scholarly rigor. His contributions to electric vehicle converter systems, smart grid optimization, and power hardware design are evident in his publications, conference presentations, and awards. His well-rounded skill set in software simulation, analog/digital hardware design, and embedded programming makes him a valuable asset in any organization focused on electrical innovation. Sekhar’s aspiration to grow alongside a dynamic organization reflects his team-oriented nature and drive for excellence. As energy systems continue to evolve, his knowledge, work ethic, and research vision position him to be a catalyst in advancing sustainable and intelligent electrical technologies. Whether in academic research or industrial application, Sekhar’s contributions are aligned with the future of power electronics and renewable energy innovation.