Piao Dai scite author profile

Piao Dai

5Publications

18Citation Statements Received

1Citation Statement Given

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Affiliations

Hefei University of Technology, University of Wisconsin System

Publications

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Computer-generated photorealistic hologram using ray-wavefront conversion based on the additive compressive light field approach

et al. 2020

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The conventional computer-generated hologram reconstructing photorealistic three-dimensional (3D) images based on ray-wavefront conversion has the disadvantage of spatio-angular resolution trade-off. In this Letter, we propose for the first time, to the best of our knowledge, a computer-generated photorealistic hologram without spatio-angular resolution trade-off based on the additive compressive light field (CLF) approach. The original light field is compressed into multiple layer images through numerical optimization based on the additive light field principle. Then, by independently calculating the wave propagation from each layer image to the hologram plane and adding them together, a CLF hologram is generated. Since the CLF information is presented through a holographic method, the advantage of high resolution in CLF is preserved while the limitation of the number of physically stacked layers (such as liquid crystal displays) is removed, leading to higher quality, larger depth of field, and higher brightness compared with a conventional CLF display. The proposed method is verified with a photorealistic optical experiment.

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Resolution-enhanced holographic stereogram based on integral imaging using a moving array lenslet technique and an aperture array filter

Dai

Wang

et al. 2019

Appl. Opt.

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Functional requirements analysis and design of wearable multi-channel sensing system

Shi

Yue-hui

et al. 2021

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<p>In recent years, a large number of wearable devices have emerged; and users have higher and higher functional requirements for wearable devices. However, the realization of complex functions of wearable devices often depends on the real-time acquisition of multi-channel sensing signals. Taking the wearable 8-channel PVDF sensor system as an example; this paper studies the functional requirements of this kind of system. It is found that the flexible ultra-thin and long endurance time are two obvious characteristics of this kind of equipment. The key technical problems of the system are completed, such as the selection of MCU, the coding design of multi-channel sensing data, the transmission mode design of multi-channel sensing data and the low power consumption design of the system. A practical design scheme of reliable wearable multi-channel sensor system is designed. This scheme also provides a reliable reference for the design and development of wearable multi-channel sensor system.</p>

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Holographic display system with enhanced viewing angle using boundary folding mirrors

Zhang

Wang

et al. 2021

Optics Communications

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Flat-Panel See-Through Three-Dimensional Display Based on Integral Imaging Using a Transparent Polarized Point Light Source Array

Wang

Dai

et al. 2018

IEEE Photonics J.

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Piao Dai

Computer-generated photorealistic hologram using ray-wavefront conversion based on the additive compressive light field approach

Resolution-enhanced holographic stereogram based on integral imaging using a moving array lenslet technique and an aperture array filter

Functional requirements analysis and design of wearable multi-channel sensing system

Holographic display system with enhanced viewing angle using boundary folding mirrors

Flat-Panel See-Through Three-Dimensional Display Based on Integral Imaging Using a Transparent Polarized Point Light Source Array

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