NFDI4DS | UHH-SEMS - Publication Details

Shengyu Lu

ORCID: 0009-0007-6642-0568

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About

Contact & Profiles

A5103037321

Research Areas

Optical measurement and interference techniques
Digital Holography and Microscopy
Advanced X-ray Imaging Techniques
Spaceflight effects on biology
Tendon Structure and Treatment
Speech and Audio Processing
Thermoregulation and physiological responses
Optical Coherence Tomography Applications
Advanced Adaptive Filtering Techniques
Hearing Loss and Rehabilitation

Shenzhen University
2021-2022

Peking University
2021

Phase-shifting interferometry from single frame in-line interferogram using deep learning phase-shifting technology

OPENALEX - Publications

Qinnan Zhang Shengyu Lu Jiaosheng Li Dong Li Xiaoxu Lü and 2 more

10.1016/j.optcom.2021.127226 article EN Optics Communications 2021-06-24

Dynamic quantitative phase imaging based on Ynet-ConvLSTM neural network

OPENALEX - Publications

Shengyu Lu Yong Tian Qinnan Zhang Xiaoxu Lü Jindong Tian

10.1016/j.optlaseng.2021.106833 article EN Optics and Lasers in Engineering 2021-10-13

Impact of Microgravity on the Skin and the Process of Wound Healing

OPENALEX - Publications

Jiaqi Yang Peiming Sun Nan Jiang Yue Yuan Zhengpeng Li and 12 more

10.1007/s12217-021-09907-2 article EN Microgravity Science and Technology 2021-10-01

Deep Phase Shifter for Quantitative Phase Imaging

OPENALEX - Publications

Qinnan Zhang Shengyu Lu Jiaosheng Li Wenjie Li Dong Li and 3 more

A single intensity-only holographic interferogram can records the full amplitude and phase information of optical field. However, current digital holography technologies cannot recover lossless from a interferogram. In this paper, we provide an entirely new approach for full-field quantitative imaging technology. We demonstrate that deep learning be used to replace entitative shifter, obtain in in-line holography. deep-phase-shift network (DPS-net) is reported, which trained with simulation...

10.48550/arxiv.2003.03027 preprint EN other-oa arXiv (Cornell University) 2020-01-01

Spectrogram-based speech enhancement by spatial attention generative adversarial networks

OPENALEX - Publications

Haixin Luo Shengyu Lu Qian Wei Yu Fu Jindong Tian

The spectrogram can clearly show the composition of different frequencies in speech signal. In this paper, a enhancement method based on deep learning image processing is proposed, which optimizes laser detected signal to achieve enhancement. beam emitted by Doppler vibrometer (LDV) focused glass window detect vibration caused sound wave. After conversion, audio information that causes obtained. Under interference speckle noise and air disturbance, not only has low signal-to-noise ratio...

10.1117/12.2644385 article EN Fourteenth International Conference on Digital Image Processing (ICDIP 2022) 2022-10-12

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