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Dr. Wu holds a Ph.D. in Mechanical Engineering from North Carolina State University. He leads a research laboratory focused on advancing the understanding of optical sensing and imaging within precision measurement systems. Dr. Wu's research team is dedicated to the development of cutting-edge optical measurement and imaging systems that integrate hardware and software advancements. His expertise lies in the application of this knowledge to address challenges in non-destructive testing, structural health monitoring, and rapid diagnostics for mechanical systems.
Dr. Wu's recent research has centered around several key areas, including intelligent computational imaging and measurement and bio-inspired intelligent sensing. His work explores innovative approaches to enhance measurement accuracy, optimize imaging techniques, and enable intelligent sensing solutions.
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1.Huang, F., Chen, Y., Wang, X., Wang, S., & Wu, X. (2023). Spectral Clustering Super-Resolution Imaging Based on Multispectral Camera Array.IEEE Transactions on Image Processing, 32, 1257-1271.£¨CCF-AÀà, SCI Q1, IF����£º11.041�����£¬TopÆÚ¿¯£©
2.Huang, F., Cao R., Lin P., Zhou B., Wu, X. (2023). High-Efficiency Multispectral-Polarization Imaging System using Polarization Camera Array with Notch Filters.IEEE Transactions on Instrumentation and Measurement, doi: 10.1109/TIM.2023.3328697.£¨SCIQ1����£¬IF£º5.6£©
3.Huang F, Lin P, Cao R, Zhou B, Wu X, (2022), Dictionary Learning-and Total Variation-Based High-Light-Efficiency Snapshot Multi-Aperture Spectral Imaging,Remote Sensing, 14, 4115.£¨SCI Q1����£¬IF����£º5.349�����£¬TopÆÚ¿¯£©
4.Wu, X., Zhou, B., Huang, F., Lin, P., & Cao, R. (2022). Super-Resolution Thermal Imaging Using Uncooled Infrared Sensors for Non-Destructive Testing of Adhesively Bonded Joints.IEEE Sensors Journal, 22(14), 14415-14423.£¨SCI Q1����£¬IF����£º4.325���£¬TopÆÚ¿¯£©
5.Yao, Y., He, Y., Qi, D., Cao, F., Yao, J., Ding, P., ... & Zhang, S. (2021). Single-shot real-time ultrafast imaging of femtosecond laser fabrication.ACS Photonics, 8(3), 738-744.£¨SCI Q1���£¬IF���£º7.077�����£¬TopÆÚ¿¯£©
6.Huang, F., Ke, C., Wu, X., Wang, S., Wu, J., & Wang, X. (2021). Polarization Dehazing Method Based on Spatial Frequency Division and Fusionfor a Far-Field And Dense Hazy Image.Applied Optics, 60(30), 9319-9332.£¨SCI Q2£¬IF�����£º1.905£©
7.Wu X, Li P, Zhang X, Chen J, Huang F. (2023). Three Dimensional Shape Reconstruction via Polarization Imaging and Deep Learning.Sensors. 23(10):4592.£¨SCI Q1���£¬IF�����£º3.847£©
8.Wu X, Pankow M, Onuma T, Huang H-Y S,Peters K, 2022, Comparison of High-Speed Polarization Imaging Methods for Biological Tissues,Sensors, 22, 8000.£¨SCI Q1�����£¬IF�����£º3.847£©
9.Lin Z, Wang W, Li Y, Zhang X, Zhang T, Wang H, Wu X, Huang F, 2023, Design and Experimental Study of a Novel Semi-Physical Unmanned-Aerial-Vehicle Simulation Platform for Optical-Flow-Based Navigation,Aerospace, 10, 183.£¨SCI Q2�����£¬IF���£º2.660£©
10.Huang, F., Ren, H., Wu, X., & Wang, P. (2021). Flexible Foveated Imaging Using a Single Risley-Prism Imaging System.Optics Express, 29(24), 40072-40090.£¨SCI Q1���£¬IF����£º3.833���£¬TopÆÚ¿¯£©
11.Shen, Y., Lin, W., Wang, Z., Li, J., Sun, X., Wu, X., ... & Huang, F. (2021). Rapid Detection of Camouflaged Artificial Target Based on Polarization Imaging and Deep Learning.IEEE Photonics Journal, 13(4), 1-9.£¨SCI Q2���£¬IF£º2.250£©
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