Shenzhen's "Pengcheng Peacock Plan" C-Level Talent, received a Bachelor of Science degree from the School of Psychology at Beijing Normal University and a Ph.D. in Bioengineering from the Hong Kong University of Science and Technology, under the supervision of Professor Richard H.Y. So. Research areas include the multi-sensory information integration and motion sickness, as well as brain-inspired computational models. Serves as a reviewer for SCI journals such as Applied Ergonomics and Ergonomics. She has led four research projects, including the National Natural Science Foundation and provincial and municipal projects, and published eight papers in important domestic and international journals and conferences indexed by SCI/EI.
ACEDEMIC POSITIONS
Sep 2022 -Shenzhen University, School of Psychology, Assistant Professor / Master's Supervisor
Sep 2018 - Sep 2022 Audio Technology Co., Ltd., Postdoctoral Researcher, Hong Kong
EDUCATION
Aug 2014 - Nov 2018 Ph.D. in Bioengineering, Hong Kong University of Science and Technology
Sep 2009 - Jul 2013 Bachelor's degree in Psychology, Department of Psychology, Beijing Normal University
HONORS & AWARDS
2018 Hong Kong Medical and Healthcare Equipment Industry Association, Research Project Award
GRANTS
2023 - 2025 Neural Network Mechanisms of Visual-Vestibular Conflict Integration in Motion Sickness (National Natural Science Foundation), Chair
2022 - 2024 Research on Dynamic Prediction Models for Motion Sickness Based on Brain Networks (Shenzhen Higher Education Institution Stability Support Program), Chair
2018 - 2021 Research on Brain-Inspired Neural Network Computation and Scene Recognition Models (Hong Kong Government Funded Project), Chair
PUBLICATIONS
1.Yue Wei; Yuka O. Okazaki; Richard H.Y. So; Winnie C.W. Chu; Keiichi Kitajo ; Motion sickness-susceptible participants exposed to coherent rotating dot patterns show excessive N2 amplitudes and impaired theta-band phase synchronization, NeuroImage, 2019, 202
2.Yue Wei; Jiayue Zheng; Richard H. Y. So ; Allocating less attention to central vision during vection is correlated with less motion sickness, Ergonomics, 2018, 61(7): 933-946
3.Yue Wei, Zheng, J.Y. & So, R.H.Y. (2017). Duration of vection generated by rotating dot patterns in peripheral correlates with VEP suppression in central visual field. Journal of Vision. 2017, 17(10):597-597. doi: 10.1167/17.10.597.
4.Coco C.T. Guo; Daniel J.Z. Chen; Isabella Y. Wei; Richard H.Y. So; Raymond T.F. Cheung ;Correlations between individual susceptibility to visually induced motion sickness and decaying time constant of after-nystagmus, Applied Ergonomics, 2017, 63: 1-8
5.Yixuan Wang; Bo Du; Yue Wei; Richard H.Y. So ; Visually Induced Roll Circular Vection: Do Effects of Stimulation Velocity Differ for Supine and Upright Participants?, Frontiers in Virtual Reality, 2021, 2
6.Bohan Chen, He Wang, Yue Wei, Richard H.Y. So (2020). Truth-to-Estimate Ratio Mask: A Post-Processing Method for Speech Enhancement Direct at Low Signal-to-Noise Ratios. 2020 IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP).
7.Hui, J., Wei, Y., Chen, S. T., & So, R. H. Y. (2019). Effects of base-frequency and spectral envelope on deep-learning speech separation and recognition models. Proc. Interspeech 2019, 634-638.
8.So, R. H. Y., Wei, Y., & Chen, D. J. Z. (2017). Vection provoked by visual oscillation: Is frequency the major determining factor? In Consumer Electronics (GCCE), 2017 IEEE 6th Global Conference on (pp. 1-2). IEEE.
9.Fu, X.J., Wei, Y. Chen D., & So, R.H.Y. (2017). Interaction Effect of Frequency, Velocity and Amplitude on Perceived Vection Magnitude for Yaw Visual Oscillation. Journal of Vision, 17(10), 364-364. doi: 10.1167/17.10.364.
PATENTS
1.Wei Yue; Dang Kai; Zu Guorui; Digital Television Signal Processing Method, Television Set, Device, and Storage Medium, 2022-02-22, Chinese Invention Patent, 2019111745538
2.Dang Kai; Wei Yue; Tu Fengzhi; Signal Processing Method, Electronic Device, Device, and Storage Medium, 2019-11-26, Chinese Invention Patent, 2019111745025
TEACHING EXPERIENCE
Lecturer for the undergraduate course "Biopsychology" at the School of Psychology; innovative short course "Frontiers in Comparative Research on Human Brain and Artificial Intelligence Visual Systems"; and group teaching course "Study Group on EEG Activities Induced by Visual Motion Stimuli," among others.
