Lingyu Ai | Optoelectronic Information | Best Researcher Award

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Prof. Lingyu Ai | Optoelectronic Information | Best Researcher Award

Associate Professor at Jiangnan university, China

Lingyu Ai is an Associate Professor at Jiangnan University with deep expertise in 3D imaging and display technologies. Her work has significantly contributed to advancing large-scale naked-eye 3D display systems and interdisciplinary applications in AR/VR and biomedical imaging. She is a committee member of the 3D Imaging and Display Professional Committee and has been widely recognized for her leadership in engineering innovation. Her academic path and project achievements reflect a strong commitment to applying engineering solutions to real-world visualization challenges, earning her respect in both academic and industrial communities.

Profile

Scopus

Education

Lingyu Ai earned her Ph.D. in Electronic Engineering from the Holodigilog Human Media Research Center at Kwangwoon University, South Korea. During her doctoral studies, she was mentored by Professor Eun-Soo Kim, a distinguished scientist and recipient of the Korean Presidential Award. Her educational background laid a solid theoretical and experimental foundation for her later pursuits in optical systems, imaging, and digital media technologies. Her international education experience has equipped her with a global perspective and advanced methodologies in the development of 3D display systems.

Experience

Since completing her doctoral studies, Ai has established herself as a leading academic and researcher in 3D visualization. At Jiangnan University, she has led and participated in five national-level projects, including those funded by the National Natural Science Foundation and the Ministry of Science and Technology’s Foreign Expert Program. Her research is characterized by its strong applicability and commercial potential, particularly in designing deployable 3D imaging systems and display technologies. Her experience spans interdisciplinary domains including electronics, optics, artificial intelligence, and biomedical engineering. Notably, her research results have not only been published but also transformed into demonstrable, market-ready technologies that have garnered industry acclaim.

Research Interests

Professor Ai’s primary research interests lie in the development of large-scale naked-eye 3D displays, subwavelength structure modeling, and 3D imaging systems tailored for chip inspection and biomedical applications. She also explores positioning and attitude estimation techniques for AR/VR, circuit miniaturization, and digital content generation. A significant focus of her current work involves integrating subwavelength structure diffraction models with deep learning algorithms to solve complex inverse diffraction problems. Her long-term research goal is to establish a world-leading 3D imaging and display research team capable of producing cutting-edge equipment with billion-level industrial impact. She continues to investigate how deep learning can enhance physical model-driven imaging, laying the groundwork for future innovations in metasurface lens design and flexible 3D displays.

Awards

Lingyu Ai has received two second-class awards for scientific and technological innovation at the municipal level or higher. These honors recognize her substantial contributions to the advancement of optical imaging and display technologies and highlight her role in fostering interdisciplinary technological integration. Her ability to bridge theoretical research with practical implementation has made her a standout figure in the scientific community. The recognition also underscores her capacity to lead complex projects with wide-reaching commercial and societal impact.

Publications

  • Title: Nanometer-scale wafer surface defect measurement based on state-space digital holographic microscopy
    Authors: Shengcheng Geng, Lingyu Ai, Yujia Gao, Myungjin Cho, Kanghee Won

  • Title: Generating real-scene hologram through light field imaging and deep learning
    Authors: Rui Wang, Lingyu Ai, Yinghui Wang, Yuqing Ni, Myungjin Cho

Conclusion

Lingyu Ai exemplifies the fusion of interdisciplinary research and engineering innovation. Her academic foundation in electronic engineering, combined with her applied research in 3D imaging and visualization technologies, has positioned her as a leader in the digital optics and AR/VR domain. Through a combination of national research leadership, strong publication record, and technological innovation, she has built a reputation for advancing frontier technologies into practical solutions. Her trajectory continues to shape the future of display systems, offering transformative impacts across digital economy sectors such as visual IoT, medical diagnostics, and immersive computing.

Rajender Singh | Machine Learning and Communication | Best Academic Researcher Award

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Mr. Rajender Singh | Machine Learning and Communication | Best Academic Researcher Award

Assistant Professor at JEC, Jabalpur, India

Rajender Singh Yadav is a distinguished academician and researcher with over two decades of experience in the field of Electronics and Communication Engineering. He received his Bachelor of Engineering degree from Rajiv Gandhi Proudyogiki Vishwavidyalaya, Bhopal, in 2001, and later completed his Master of Technology from the same university in 2010. Presently, he is serving as an Assistant Professor at BGIEM, Jabalpur, where he has been contributing to academic and research activities since March 2022. Throughout his career, he has demonstrated expertise in various cutting-edge areas such as Artificial Intelligence, Robotics, Embedded Systems, and Signal and Image Processing. His dedication to education and research has significantly impacted both students and the academic community.

Profile

Orcid

Education

Rajender Singh Yadav’s academic foundation is firmly rooted in Electronics and Communication Engineering. He began his academic journey at HCET, Jabalpur, Madhya Pradesh, where he pursued his B.E. from 1997 to 2001, equipping himself with essential engineering skills and a solid understanding of communication technologies. To further enhance his expertise, he enrolled in UPTU, Lucknow, where he completed his M.Tech. in Electronics and Communication Engineering between 2007 and 2010. His advanced studies allowed him to deepen his knowledge of sophisticated communication systems, embedded technologies, and AI-driven processes, laying a strong groundwork for his future research endeavors and teaching career.

Experience

With an extensive teaching career spanning over 22 years, Rajender Singh Yadav has amassed a wealth of experience across reputed institutions. He started as a Lecturer at GNIT, Greater Noida, in 2003, where he served for two years. Following this, he worked at AKGEC, Ghaziabad, as a Lecturer and later as an Assistant Professor from 2005 to 2012. His commitment to academic excellence led him to GGITS, Jabalpur, where he spent a decade nurturing young minds as an Assistant Professor. Since 2022, he has been associated with BGIEM, Jabalpur, continuing his journey of mentoring students and advancing research. Over the years, he has successfully blended academic teaching with research innovations, fostering a learning environment focused on technological advancement and real-world application.

Research Interest

Rajender Singh Yadav’s research interests are broad and interdisciplinary, focusing on AI, Robotics, Embedded Systems, and Signal and Image Processing. His passion lies in developing intelligent systems capable of addressing real-time challenges in wireless communication, autonomous robotics, and integrated system designs. He actively explores the synergy between artificial intelligence and hardware systems to optimize performance, reliability, and energy efficiency. His research delves deep into areas like deep reinforcement learning, optimized channel bonding, and intelligent transmit power control mechanisms, all aimed at enhancing wireless network efficiency. His work reflects a keen understanding of current technological trends and a vision for future innovations in electronics and communication engineering.

Award

Although specific awards have not been documented, Rajender Singh Yadav’s professional journey itself stands as a testament to his dedication and excellence. His consistent progression through reputed institutions, long-standing teaching career, and contribution to the academic field highlight the recognition and trust he has garnered within the educational community. His involvement in publishing impactful research in reputed international journals showcases his commitment to scholarly excellence and innovation.

Publication

Rajender Singh Yadav has contributed notably to academic literature. One of his significant publications is titled “Joint Optimization of Channel Bonding and Transmit Power Using Optimized Actor–Critic Deep Reinforcement Learning for Wireless Networks”, published in the International Journal of Communication Systems on May 10, 2025. This research explores the integration of optimized actor–critic deep reinforcement learning models to simultaneously enhance channel bonding and transmit power efficiency in wireless networks. The article has already begun to gain citations and is recognized for its practical approach to complex wireless communication challenges. This work stands out for its novel methodology and potential applications in next-generation network systems, demonstrating his ability to merge theoretical research with practical technological needs.

Conclusion

In conclusion, Mr. Rajender Singh Yadav is a seasoned educator and dedicated researcher whose contributions to Electronics and Communication Engineering have been remarkable. With a solid academic background, a wealth of teaching experience, and a keen interest in advanced research areas like AI and embedded systems, he continues to influence and inspire the academic and research communities. His efforts in mentoring students, developing innovative research solutions, and publishing impactful studies reflect his unwavering commitment to advancing technology and education. As he moves forward in his career, his passion for innovation and excellence promises to bring about significant contributions to the field of communication engineering and beyond.