Lirui Deng scite author profile

Lirui Deng

5Publications

72Citation Statements Received

48Citation Statements Given

How they've been cited

132

How they cite others

128

Affiliations

Tsinghua University, Southeast University

Publications

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PIRM Challenge on Perceptual Image Enhancement on Smartphones: Report

Ignatov

Timofte

et al. 2019

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This paper reviews the first challenge on efficient perceptual image enhancement with the focus on deploying deep learning models on smartphones. The challenge consisted of two tracks. In the first one, participants were solving the classical image super-resolution problem with a bicubic downscaling factor of 4. The second track was aimed at real-world photo enhancement, and the goal was to map low-quality photos from the iPhone 3GS device to the same photos captured with a DSLR camera. The target metric used in this challenge combined the runtime, PSNR scores and solutions' perceptual results measured in the user study. To ensure the efficiency of the submitted models, we additionally measured their runtime and memory requirements on Android smartphones. The proposed solutions significantly improved baseline results defining the state-of-the-art for image enhancement on smartphones. * A. Ignatov and R. Timofte ({andrey,radu.timofte}@vision.ee.ethz.ch, ETH Zurich) are the challenge organizers, while the other authors participated in the challenge. The Appendix contains the authors' teams and affiliations. PIRM 2018 Challenge webpage: http://ai-benchmark.org

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Perception-Preserving Convolutional Networks for Image Enhancement on Smartphones

Hui

Wang

Deng

et al. 2019

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Deep Learning in Face Synthesis: A Survey on Deepfakes

Zhang

Deng

Zhang

et al. 2020

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PIRM Challenge on Perceptual Image Enhancement on Smartphones: Report

Ignatov¹,

Timofte²,

Vu³

et al. 2018

Preprint

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Revealing Impacts of Trees on Modeling Microclimate Behavior in Spaces between Buildings through Simulation Monitoring

et al. 2022

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Urban trees have been recognized as having different impacts on the microclimate and thermal comfort. Therefore, this study conducted on-site measurement and simulation to explore and clarify how trees impact the microclimate, thermal comfort, and façade temperature. A campus site was selected as the test field and two models—one with and one without trees—were built with the ENVI-met. Meanwhile, one microclimate station and four sensors were installed to simulate and validate the microclimate. Twelve blocks with different tree conditions were also selected to further investigate the specific impacts of trees. The results showed that, firstly, the transpiration and sheltering effect of trees that dominates on sunny days can decrease air temperature and the predicted mean vote. Secondly, trees’ effects on airflow, including on the wind channel and blocking effect, are dominant on cloudy days. Trees inside the group often exhibit the wind-blocking effect, while trees with a downwind determinant at the windward group edge usually exhibit the wind channel effect. Thirdly, high canopy coverage enhances trees’ sheltering effect on solar radiation. The study also provides design recommendations for campus building and trees that account for how trees help improve the microclimate, enhance comfort, and reduce energy consumption.

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Lirui Deng

PIRM Challenge on Perceptual Image Enhancement on Smartphones: Report

Perception-Preserving Convolutional Networks for Image Enhancement on Smartphones

Deep Learning in Face Synthesis: A Survey on Deepfakes

PIRM Challenge on Perceptual Image Enhancement on Smartphones: Report

Revealing Impacts of Trees on Modeling Microclimate Behavior in Spaces between Buildings through Simulation Monitoring

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