Professor from Inner Mongolia University of Science &Technology, China
Dr. Ling Qin is a dedicated and accomplished professor in the Department of Information Engineering at Inner Mongolia University of Science and Technology, China. Born in August 1979, she has established a strong academic and research background in optical communication, particularly in the areas of visible light communication (VLC), indoor positioning systems, and atmospheric laser communication. Over more than two decades of academic service at her home institution, she has progressed from teaching assistant to professor, showcasing a steady and determined career development. Dr. Qin’s research has significantly contributed to the understanding and enhancement of VLC systems in complex environments, such as intelligent transportation systems and indoor positioning applications using LED lighting. Her publication record is extensive, with numerous articles published in well-recognized journals indexed in SCI and EI. She has also successfully led multiple nationally funded research projects and holds a Chinese patent related to optical signal reception. With her expertise, innovation, and dedication, Dr. Qin exemplifies the qualities of a leading academic researcher. Her work bridges the gap between theory and practical application, making her a suitable and promising candidate for recognition in advanced communication engineering fields.
Professional Profile
Education
Dr. Ling Qin holds an impressive academic background in engineering and communication technologies. She began her higher education journey in 1997, earning a Bachelor of Engineering in Communication Engineering from Chengdu University of Information Technology in 2001. She continued to deepen her specialization in optical communication by pursuing a Master’s degree in Engineering at Xi’an University of Technology, where she studied from 2004 to 2007. Demonstrating a strong commitment to academic growth and expertise, Dr. Qin earned her Ph.D. in Engineering from Chang’an University in Xi’an between 2011 and 2018. Her doctoral research aligned closely with her professional focus, examining advanced communication theories and systems including visible light and laser-based communication. The comprehensive progression of her academic qualifications reflects her long-standing dedication to mastering both the theoretical and technical aspects of her field. These qualifications have formed a solid foundation for her research career, allowing her to contribute meaningfully to high-impact areas such as LED-based indoor positioning systems and signal processing in complex environments. Her education has not only equipped her with the necessary knowledge but has also driven her to pursue innovation and advanced research in optical communication technologies.
Professional Experience
Dr. Ling Qin has built a robust academic and professional career spanning over two decades at Inner Mongolia University of Science and Technology in Baotou, China. She began her professional journey in 2001 as a teaching assistant and steadily rose through academic ranks due to her contributions to teaching and research. Between 2007 and 2012, she served as a lecturer, where she began to engage more actively in research and curriculum development. From 2012 to 2018, she was promoted to associate professor, during which she established her research presence in visible light communication and indoor positioning systems. Since 2019, Dr. Qin has held the title of full professor, where she continues to lead research initiatives and mentor students in cutting-edge communication technologies. Throughout her career, she has taught various specialized courses, including visible light communication theory, positioning systems, and atmospheric laser communications. Her long-term affiliation with a single institution reflects both stability and deep institutional commitment, while her advancement through all faculty ranks highlights her professional development. As a professor, she plays a vital role in advancing research, guiding graduate students, and contributing to scientific innovation through her projects and publications.
Research Interests
Dr. Ling Qin’s research interests focus on key innovations in the field of optical wireless communication, particularly visible light communication (VLC), indoor positioning systems, and atmospheric laser communications. One of her primary areas of study is the development and optimization of visible light communication systems, where she explores theoretical models and practical designs to enhance LED-based communication in complex traffic and indoor environments. Her work addresses challenges such as background light interference, signal modulation, and system performance under real-world conditions. Another important focus of her research is indoor positioning technologies using LED lighting. She investigates the integration of machine learning techniques, such as convolutional and recurrent neural networks, into positioning algorithms to improve accuracy and reliability. Additionally, Dr. Qin is engaged in the research of atmospheric laser communication systems, where she works on coding theory, modulation/demodulation methods, and performance enhancement strategies for data transmission in free-space environments. Her research is interdisciplinary, often overlapping with applications in intelligent transportation, aerospace signal processing, and biomedical engineering. These interests not only reflect her command over complex engineering concepts but also demonstrate her forward-thinking approach in developing communication technologies that serve modern infrastructure and industry demands.
Research Skills
Dr. Ling Qin possesses advanced research skills that make her a leading expert in optical communication and system development. Her technical expertise includes the modeling and implementation of visible light communication (VLC) systems in challenging environments, particularly for intelligent transportation and indoor positioning. She is proficient in applying modulation and demodulation techniques, signal coding, beamforming, and error suppression in complex signal environments. Her research integrates machine learning algorithms—including convolutional neural networks (CNNs), gated recurrent units (GRUs), and transformer-based models—into communication and positioning systems to enhance accuracy and system performance. Dr. Qin is also skilled in developing system architectures using hardware components like FPGA (Field Programmable Gate Arrays), contributing to the practical realization of her theoretical models. Additionally, she has experience with spread spectrum technologies and power inversion techniques for background light suppression. Her research has also extended into interdisciplinary domains, such as carbon nanoparticle applications in medical systems and satellite navigation under plasma interference. These wide-ranging skills have been applied in various research projects funded by national and regional science foundations, demonstrating her ability to execute complex research plans and produce tangible outcomes. Her scientific rigor and technical versatility position her as a valuable asset in the field.
Awards and Honors
While Dr. Ling Qin’s profile does not list specific individual awards or honors, her consistent track record of securing competitive research funding from prestigious agencies reflects significant academic recognition. She has been awarded multiple research grants by the National Natural Science Foundation of China, supporting her projects on visible light communication, satellite navigation under plasma conditions, and laser communication systems. These grants indicate high confidence from the scientific community in the relevance and impact of her research. Additionally, she has contributed to the development of a nationally recognized patent for an optical signal receiving system, which further showcases her innovation and contribution to applied research. Her position as a full professor at Inner Mongolia University of Science and Technology is itself a recognition of her professional achievements and academic standing. Her numerous publications in high-impact journals and conferences indexed by SCI and EI are further testament to her contributions. While formal honors such as best paper or teaching awards are not noted, the cumulative evidence of her leadership in research, ability to secure funding, and innovation through patents suggests she has achieved considerable peer recognition in her field.
Conclusion
Dr. Ling Qin stands out as a strong and capable academic professional with notable contributions to the field of optical communication. Her career reflects a steady ascent through academic ranks, backed by a solid foundation in education and a deep commitment to research excellence. With a focused interest in visible light communication, indoor positioning systems, and laser-based communication technologies, she has contributed significantly to both theoretical advancements and real-world applications. Her skills in modeling complex communication systems, integrating artificial intelligence techniques, and implementing hardware-based solutions place her at the intersection of innovation and practicality. Although not heavily decorated with formal awards, her success in securing national-level research grants and her involvement in patent development speak volumes about her scientific impact. She has authored an extensive list of peer-reviewed publications that enhance her reputation and contribute to global scientific knowledge. Overall, Dr. Qin exemplifies the qualities of a modern researcher—technically skilled, innovative, and committed to advancing engineering solutions for real-world problems. Her profile makes her a highly suitable candidate for the Best Researcher Award, and recognition of her work would be well-deserved within the scientific community.
Publications Top Notes
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Title: CirnetamorNet: An ultrasonic temperature measurement network for microwave hyperthermia based on deep learning
Authors: F. Cui, Y. Du, L. Qin, C. Li, X. Meng
Year: 2025
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Title: Visible light channel modeling and application in underground mines based on transformer point clouds optimization
Authors: J. Yu, X. Hu, Q. Wang, F. Wang, X. Kou
Year: 2025
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Title: Fractional OAM Vortex SAR Imaging Based on Chirp Scaling Algorithm
Authors: L. Yu, D. Yongxing Du, L. Baoshan Li, L. Qin, L. Chenlu Li
Year: 2025
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Title: Indoor visible light positioning system based on memristive convolutional neural network
Authors: Q. Chen, F. Wang, B. Deng, L. Qin, X. Hu
Year: 2025
Citations: 2
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Title: Visible light visual indoor positioning system for based on residual convolutional networks and image restoration
Authors: D. Chen, L. Qin, L. Cui, Y. Du
Year: 2025