Professor Perry Ping Shum is a chair professor of the Department of Electronics and Electrical Engineering, chief scientist of the State Key Laboratory of Optical Fiber and Cable Manufacture Technology, director of Guangdong Key Laboratory of Integrated Optoelectronics Intellisense, Southern University of Science and Technology. He is a National Distinguished Expert, COS Fellow, IEEE Fellow, SPIE Fellow, OPTICA Fellow, and President of the IEEE Photonics Society. He has published 400 journal papers with about 20 thousand citations and an H-index of 70 in fiber-based technology, laser, silicon photonics, medical imaging and endoscopy, intelligent medical diagnosis techniques, and computational imaging. As the person in charge, he has been granted more than 60 million research funds in recent years. He served as director of the Network Technology Research Centre (NTRC), Photonics Centre of Excellence (OPTIMUS), and Centre for Optical Fibre Technology (COFT), and deputy dean in charge of academic programs at Nanyang Technological University, Singapore. During this period, a world-class fiber research/processing center was created, enabling Singapore to manufacture special fiber optics, special fiber lasers, and sensors. He chaired several major international conferences, including CLEO-PR | OECC| PGC 2017, and initiated several international conferences, such as PGC, ICOCN, ICAIT, OGC, etc. He collaborates closely with universities and institutes worldwide.
Research
1. Specialty fiber and its sensing applications, including distributed fiber sensing for strain, shape, and vibration measurement; excitation, evolution, and application of orbital angular momentum beams; and scattering refractive index and spectral measurement techniques.
2. Silicon Photoncis: The applications in the field of high-speed optical communication and sensing, including the design of active devices (modulators, detectors, etc.), and passive device (beam splitters, directional couplers, etc.), optoelectronic packaging technology, etc.
3. Fiber laser and its applications, including ultrafast laser dynamics, fast tunable laser sources, ultrawideband sources, etc.
4. Medical Devices: Medical Imaging and Endoscopy and Novel Medical Diagnosis Techniques, such as Ultrasound, Optical Coherence Tomography, Raman hyperspectral imaging, Surface Enhanced Raman Spectroscopy, and Fiber Sensing.
5. AI Algorithms: Raman Spectroscopy Analytical Algorithms, Diagnosis Algorithms, Computational Imaging, Medical Image Processing, and Multi-omics.
Teaching
INO009 Key Elements for Successful Start-up
EE108 Optoelectronics Intellisense
Publications
https://kc.sustech.edu.cn/profile/shenp?wtype=7
Published more than 400 peer-reviewed journal papers and H-index is 70. Received aggregated research funding of more than 60 million.
