FEIYUE WANG

Last Updated :2024/10/01

Affiliations, Positions
Graduate School of Advanced Science and Engineering, Assistant Professor (Special Appointment)
E-mail
feiyuehiroshima-u.ac.jp
Self-introduction
My research centers around real-time dynamic software sensors powered by high-speed vision. Capitalizing on the fact that every pixel in high-speed vision is essentially an optical sensor, I utilize its high temporal and spatial resolution to divide the whole image into specific distributions. These allow for the development of various dynamic software sensors such as vibration distribution visualization sensors and rotary encoder sensors. One particular application of this is the development of a tapping sensor that can be used in a virtual keyboard. This sensor captures the slight movement made by fingertips when they touch the surface, thereby providing a more realistic and responsive experience. Specifically, my current work involves the implementation of AI-based technologies to improve the accuracy of spatial dynamic characteristics of high-speed phenomena and to reduce noise. This includes the deployment of real-time high-speed processing methods like GPUs that align with the frame rate of high-speed vision. My work spans a variety of areas such as developing elementary technologies for low-noise target area extraction using segmentation techniques. It also involves measuring comprehensive dynamic characteristics of structures such as infrastructure and machinery, and fitting distribution measurements to 3D models. This research has the potential to contribute significantly to various fields by improving accuracy, reducing noise, and enhancing the overall efficiency of high-speed vision-based applications.

Basic Information

Major Professional Backgrounds

  • 2023/04/01, Hiroshima University, Graduate School of Advanced Science and Engineering, Designated Assistant Professor
  • 2022/12/01, 2023/03/31, Hiroshima University, Digital Manufacturing Education and Research Center, Designated Assistant Professor

Educational Backgrounds

  • Hiroshima University, Graduate School of Advanced Science and Engineering, Japan, 2020/10/01
  • Huazhong University of Science and Technology, Mechatronic Engineering, China, 2017/09/01, 2020/06/01
  • Wuhan University, Mechanical Design Manufacturing and Automation, China, 2013/09/06, 2017/06/01

Academic Degrees

  • Huazhong University of Science and Technology
  • Hiroshima University

Research Fields

  • Engineering;Electrical and electronic engineering;Measurement engineering

Research Keywords

  • High-speed 3D Measurement
  • Vibration Measurement
  • High-speed Vision

Affiliated Academic Societies

Research Activities

Academic Papers

  1. HFR-video-based 3D Software Sensor for Bridge Displacement Monitoring, IEEE Sensors Letters, 2024
  2. Conveyor Belt Vibration Analysis Using High-Speed Video Images, 2024
  3. Active Structure Sensing Based on High-Resolution Cameras, 2024
  4. Displacement Distribution Monitoring of Unloader Cranes in Steel Plants Using High-Speed High-Resolution Vision, Iron and Steel, 2024
  5. HFR-Video-Based Fingertip Velocimeter for Multifinger Tapping Detection, IEEE SENSORS JOURNAL, 23(10), 10673-10682, 20230515
  6. Large-Scale and Rotation-Invariant Template Matching Using Adaptive Radial Ring Code Histograms, Pattern Recognition, 91, 345-356, 2019
  7. Robust Semantic Template Matching Using A Superpixel Region Binary Descriptor, IEEE Transactions on Image Processing, 28(6), 3061-3074, 2019
  8. Vibration Auralization System Using High-Speed Vision, The IEEE ISIE 2023, 2023
  9. Vibration Sound-Play System Using High-Speed Vision, The 9th International Conference on Manufacturing, Machine Design and Tribology(ICMDT2023), 2023
  10. Micro vibration detection using pan-tilt, high-speed, zoomed-in vision, The 9th International Conference on Manufacturing, 2023
  11. Software-Based Rotation Sensor Using High-Speed Video Analysis, Proceedings of IEEE SENSORS 2022, 01-04, 2022
  12. HFR-Video-Based Fingertip Velocimeter for Multifinger Tapping Detection, IEEE Sensors Journal, 23(10), 10673-10682, 2023
  13. Real-time Vibration Visualization Using GPU-based High-speed Vision, Journal of Robotics and Mechatronics, 34(5), 1011-1023, 2022

Invited Lecture, Oral Presentation, Poster Presentation

  1. Camera Relay System Using a Motor Equipped with a Mechanical Brake to Capture Micro-vibrations of Moving Objects, 2024, English
  2. Model-based Three-dimensional Digital Image Vibration Measurement Method Using Stereo High-speed Cameras, Kohei Shimasaki, 2024, English
  3. Smart Inspection Monitoring Using High-Speed Cameras., Kohei Shimasaki, 2024, Japanese

Awards

  1. 2023/11/07, BEST PAPER AWARD, General Chair of ROSE2023, Remote Vibration Haptization System Using High-Speed Active Vision

Patented

  1. Patent, 2023/09/29, Vibration Analysis Device and Program
  2. Patent, 2021/10/11, Vibration Analysis Device, Vibration Analysis Method, and Program
  3. Patent, 7421200, 2024/01/16