Radwa Rady | Biomedical Engineering | Best Researcher Award

Dr. Radwa Rady | Biomedical Engineering | Best Researcher Award

Alexandria University | Egypt

PUBLICATION PROFILE

Scopus

Orcid

🌟 INTRODUCTION

Dr. Radwa Rady is a meticulous, bilingual professional with a broad range of skills in IT applications, biomedical engineering, and communication technologies. With her extensive expertise in both theoretical and practical aspects of biomedical technology, Dr. Rady has made significant contributions to academia, research, and industry. Fluent in Arabic and English, she is well-versed in effectively communicating complex technical concepts while also excelling at multitasking and problem-solving. Dr. Rady’s work is characterized by her dedication to innovation and academic excellence, seeking to create lasting contributions in the field of Biomedical Engineering, IT, and Electrical Communication.

🎓 EARLY ACADEMIC PURSUITS

Dr. Radwa’s journey into the world of academia and technology began at Alexandria University, where she earned her Bachelor of Engineering in Communication. This foundational education allowed her to delve deeper into subjects such as digital signal processing and biomedical devices. She continued to build on this knowledge with her Master’s degree in Biomedical Devices, focusing on digital signal processing techniques to analyze respiratory wheeze sounds in children. Her early education laid the groundwork for her extensive research and innovations in biomedical engineering, solidifying her as a dedicated scholar and researcher in the field.

💼 PROFESSIONAL ENDEAVORS

Dr. Radwa Rady’s professional career is marked by diverse roles across academia, research, and software development. From her tenure as a Software Developer at VP .Net, where she contributed to significant projects for the Water and Wastewater Authority and Cataract Hospital, to her current role as Assistant Professor at Inaya Medical Colleges in Riyadh, she has continually sought to bridge the gap between theoretical knowledge and real-world applications. As an instructor, Dr. Rady has taught a wide range of subjects, including digital signal processing, biomedical engineering, and programming. Her leadership skills extend beyond the classroom as she serves on several faculty committees and supervises graduate students’ final projects.

🔬 CONTRIBUTIONS AND RESEARCH FOCUS

Dr. Rady’s research focuses on the intersection of biomedical engineering, digital signal processing, and neurofeedback treatments. One of her primary research endeavors is her thesis on “Quantitative EEG and Neurofeedback Treatment,” which aims to improve attention skills in children with ADHD through real-time EEG analysis and neurofeedback. Her work also extends to the field of respiratory wheeze sound analysis, where she developed a system to assist physicians in diagnosing respiratory conditions in children using digital signal processing. These innovative projects demonstrate Dr. Rady’s commitment to advancing medical technology and improving patient outcomes.

🌍 IMPACT AND INFLUENCE

Dr. Rady has made a significant impact through her involvement in both teaching and research. As an academic, she not only imparts knowledge to her students but also actively contributes to the academic community through workshops and lectures on emotional intelligence and ethical considerations in AI research. Her research, including the published papers and patent application related to EEG analysis for ADHD treatment, demonstrates her ability to influence both academic discourse and practical applications in healthcare technology. Dr. Rady’s work is pushing the boundaries of medical engineering and continues to inspire new generations of researchers and students.

📚 ACADEMIC CITATIONS AND PUBLICATIONS

Dr. Radwa Rady’s contributions to academic research have been widely recognized in peer-reviewed journals. She has authored and co-authored several papers, including one published in the Alexandria Engineering Journal and another in Neural Computing and Applications. She also holds a patent for her work on real-time EEG signal analysis for ADHD treatment. Dr. Rady’s publications, which are accessible through DOI references, have garnered attention within both the biomedical engineering and computer science fields, reflecting the significance of her research contributions.

🏅 HONORS & AWARDS

Dr. Rady’s exceptional academic performance has been consistently recognized. She achieved a GPA of 3.888 in her Doctorate of Science in Engineering at Alexandria University and a GPA of 3.788 in her Master’s degree. Additionally, her research papers have been published in prestigious journals such as Elsevier and Springer. Her work has also led to the submission of a patent for her innovative EEG analysis application, further cementing her status as a leading researcher in biomedical engineering.

🔮 LEGACY AND FUTURE CONTRIBUTIONS

Dr. Rady’s work holds the potential for long-term impact, particularly in the field of healthcare technology. Through her development of neurofeedback applications and digital signal processing systems, she is helping to shape the future of treatment for neurological conditions like ADHD. As a leader in both academia and research, Dr. Rady aims to continue advancing these fields by fostering collaborations and encouraging innovation among her students and colleagues. Her continued research promises to bring about transformative changes in the integration of biomedical engineering and artificial intelligence in medical practices.

📝 FINAL NOTE

Dr. Radwa Rady’s journey in academia, research, and professional development stands as a testament to her dedication to improving the lives of others through technology and education. From her work on respiratory wheeze sound analysis to her groundbreaking EEG research for ADHD, Dr. Rady is committed to making a meaningful difference in the world of biomedical engineering. Her future endeavors promise to build on her solid foundation, leaving a lasting legacy for generations to come.

📚 TOP NOTES PUBLICATIONS

Enhancing affordable EEG to act as a quantitative EEG for inattention treatment using MATLAB
    • Authors: Radwa Magdy Rady, Doaa Elsalamawy, M. R. M. Rizk, Onsy Abdel Alim, Nancy Diaa Moussa

    • Journal: Neural Computing and Applications

    • Year: 2025

A comparison between classical and new proposed feature selection methods for attention level recognition in disordered children
    • Authors: Rady, R.M.; Moussa, N.D.; El Salmawy, D.H.; M Rizk, M.R.; Alim, O.A.

    • Journal: Alexandria Engineering Journal

    • Year: 2022

Respiratory Wheeze Sound Analysis Using Digital Signal Processing Techniques
    • Authors: Rady, R.M.; Akkary, I.M.E.; Haroun, A.N.; Fasseh, N.A.E.; Azmy, M.M.

    • Journal: Proceedings – 7th International Conference on Computational Intelligence, Communication Systems and Networks, CICSyN 2015

    • Year: 2015

Mohamed Asan Basiri M | Computer Architecture | Best Researcher Award

Dr. Mohamed Asan Basiri M | Computer Architecture | Best Researcher Award

 Iiitdm Kurnool | India

Publication Profile

Google Scholar

INTRODUCTION

Dr. Mohamed Asan Basiri M. is an accomplished academician and researcher in the field of Electronics, Communication, and VLSI architectures. His career has been marked by a relentless pursuit of excellence in high-performance VLSI design, embedded systems, and digital signal processing. Dr. Asan’s significant contributions to the field are reflected in his extensive research, publications, and involvement in advanced training programs. His journey through academia has been an inspiring example of dedication to the advancement of knowledge and technology.

EARLY ACADEMIC PURSUITS 🎓

Dr. Asan’s academic journey began with his B.E. in Electronics and Communication Engineering, which he completed with distinction at Thanthai Periyar Government Institute of Technology, Vellore. He later pursued an M.E. in Embedded System Technologies at Anna University, Coimbatore, where he achieved an impressive 9.1 CGPA, also with distinction. His passion for research and further specialization in high-performance VLSI architectures led him to pursue a Ph.D. at the Indian Institute of Information Technology Design and Manufacturing, Kancheepuram, under the guidance of leading experts in the field. His doctoral thesis focused on the development of VLSI architectures for discrete transformations, which was awarded in 2016.

PROFESSIONAL ENDEAVORS 🧑‍💻

Dr. Asan has held several prestigious positions during his career, including Assistant Professor at the Department of Electronics and Communication Engineering at IIITDM Kurnool. He also served as a Post-Doctoral Fellow, Senior Project Engineer, and Research Associate at IIT Kanpur, contributing to the cutting-edge research in the fields of VLSI design and embedded systems. His experience spans various roles that have shaped his expertise and allowed him to mentor the next generation of engineers and researchers.

CONTRIBUTIONS AND RESEARCH FOCUS ON COMPUTER ARCHITECTURE 🔬

Dr. Asan’s research focuses on high-performance VLSI architectures, FPGA implementations, image processing, and hardware design for embedded systems. His work on Wiener filters, histogram equalization, and instruction set architecture has been widely recognized in international conferences and journals. He has contributed significantly to the understanding of data parallelism, latency reduction, and computational efficiency in digital signal processing and image processing systems. His research aims to bridge the gap between theoretical algorithms and their practical implementations in hardware systems.

IMPACT AND INFLUENCE 🌍

Dr. Asan’s work has had a profound impact on the field of electronics and communication engineering, particularly in the design of VLSI systems and embedded architectures. His contributions have influenced both academic research and industry practices, driving advancements in embedded systems, digital signal processing, and VLSI design. He is regarded as an expert in his field, and his work continues to shape the direction of research in embedded systems and hardware architecture.

ACADEMIC CITATIONS AND PUBLICATIONS 📚

Dr. Asan’s research has been widely cited in leading journals and international conferences. His contributions include several papers on high-performance instruction set architectures, FPGA implementations of Wiener filters, and low-latency VLSI designs for image processing. These publications have established him as a leading authority in his field, and his work continues to inspire researchers and engineers worldwide. Some of his notable papers include:

  • “High Performance Instruction-Data Level Parallelism based Instruction Set Architecture in RISC-V”
  • “An Efficient FPGA Implementation of Wiener Filter”
  • “Low Latency VLSI Architecture of Histogram Equalization of Images”
  • “Flexible and High Throughput Designs of Operational Amplifiers”

HONORS & AWARDS 🏅

Dr. Asan’s work has been recognized through numerous accolades and awards. His academic achievements and research contributions have earned him respect and recognition from both academic institutions and industry professionals. He has been invited to present at major conferences and has received awards for his innovation in VLSI architectures and embedded systems design.

FINAL NOTE ✍️

Dr. Asan’s career is a testament to the power of dedication, innovation, and continuous learning. His contributions have left a lasting legacy in the fields of VLSI, embedded systems, and digital signal processing. As he continues to mentor young researchers and work on groundbreaking projects, his influence on the academic community and the tech industry is bound to grow.

LEGACY AND FUTURE CONTRIBUTIONS HIGHLIGHT 🔮

Dr. Asan’s legacy lies in his ability to merge theoretical knowledge with practical application, and his research continues to shape the future of VLSI and embedded system design. He is poised to make even greater contributions in the years ahead, particularly in the fields of high-performance computing, embedded system technologies, and hardware acceleration. As a mentor, his influence on the next generation of engineers and researchers will continue to be felt for many years to come.

TOP NOTES PUBLICATIONS 📚

Title: Memory Based Multiplier Design in Custom and FPGA Implementation

Authors: MMA Basiri, SKN Mahammad
Journal: Advances in Intelligent Informatics
Year: 2015

Title: Efficient VLSI architectures of lifting based 3D discrete wavelet transform

Authors: MMA Basiri
Journal: IET Computers & Digital Techniques
Year: 2020

Title: Reconfigurable Hardware Design for Polynomial Galois Field Arithmetic Operations

Authors: H Inumarty
Journal: 2020 24th International Symposium on VLSI Design and Test (VDAT)
Year: 2020

Title: Asynchronous hardware implementations for crypto primitives

Authors: SK Shukla
Journal: Microprocessors and Microsystems
Year: 2019

Title: Efficient hardware-software codesigns of AES encryptor and RS-BCH encoder

Authors: MMA Mohamed Asan Basiri, SK Shukla
Journal: International Symposium on VLSI Design and Test
Year: 2018