Chenyu Gao scite author profile

Chenyu Gao

5Publications

64Citation Statements Received

104Citation Statements Given

How they've been cited

How they cite others

119

Affiliations

Qingdao University of Science and Technology, Chongqing University, Shanghai Electric (China)

Publications

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C^3 Framework: An Open-source PyTorch Code for Crowd Counting

Ji¹,

Lin²,

Zhao³

et al. 2019

Preprint

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This technical report attempts to provide efficient and solid kits addressed on the field of crowd counting, which is denoted as Crowd Counting Code Framework (C 3 F). The contributions of C 3 F are in three folds: 1) Some solid baseline networks are presented, which have achieved the stateof-the-arts. 2) Some flexible parameter setting strategies are provided to further promote the performance. 3) A powerful log system is developed to record the experiment process, which can enhance the reproducibility of each experiment. Our code is made publicly available at https:// github.com/gjy3035/C-3-Framework. Furthermore, we also post a Chinese blog 1 to describe the details and insights of crowd counting.

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Dielectric relaxation in liquid crystals confined in a quasi-one-dimensional system

Aliev¹,

Bengoechea²,

Gao³

et al. 2005

Journal of Non-Crystalline Solids

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Effects of defacing whole head MRI on neuroanalysis

Gao¹,

Jin

Prince

et al. 2022

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Experimental and molecular level analysis of natural ester delaying degradation of cellulose insulation polymer

Hao

Gao

et al. 2021

High Voltage

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Developing green insulation materials has become an important direction for future research. As a new environmental insulation liquid, natural ester can effectively delay cellulose insulation polymer ageing. Mastering the mechanism of natural ester delaying the cellulose ageing could promote its application in power transformers. In this study, based on the accelerated thermal ageing of pressboard immersed in natural ester and 25# mineral oil at 120°C for 221 days, the thermal ageing rate and the levelling off degree of polymerisation (LODP) for two kinds of oil-impregnated pressboards were compared. The molecular level mechanism of natural ester delaying cellulose degradation and keeping higher LODP value was proposed using molecular dynamics simulation. At the early stage of thermal ageing, cellulose with a higher degree of polymerisation (DP) can form many hydrogen bonds with hydronium ions, and their binding energy is stronger, which can accelerate the acid hydrolysis of cellulose, causing the DP of pressboard immersed in natural ester and mineral oil to decrease rapidly. With the breaking of the cellulose molecular chain, the number of hydrogen bonds and binding energy between cellulose and hydronium ions becomes smaller and the thermal ageing rate decreases gradually. At the end stage of ageing, it is difficult for the hydronium ions to enter the crystalline cellulose, acid hydrolysis of crystalline cellulose is hard to conduct, leading to the occurrence of the LODP phenomenon. The degradation rate of cellulose in natural ester is only 50% of that in mineral oil. The cellulose LODP value in natural ester is over 200 larger than that in mineral oil. Compared with the mineral oil-cellulose system, natural ester can form hydrogen bonds with hydronium ions and lead to fewer hydronium ions in cellulose, fewer hydrogen bonds and smaller binding energy between cellulose and hydronium ions, which can reduce the acid hydrolysis reaction of cellulose. This study provides a theoretical explanation for natural esters to delay the ageing of insulation paper.

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Influence of Water Molecules on Polarization Behavior and Time–Frequency Dielectric Properties of Cellulose Insulation

Wen

Cheng

Jiang

et al. 2021

J. Electr. Eng. Technol.

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Chenyu Gao

C^3 Framework: An Open-source PyTorch Code for Crowd Counting

Dielectric relaxation in liquid crystals confined in a quasi-one-dimensional system

Effects of defacing whole head MRI on neuroanalysis

Experimental and molecular level analysis of natural ester delaying degradation of cellulose insulation polymer

Influence of Water Molecules on Polarization Behavior and Time–Frequency Dielectric Properties of Cellulose Insulation

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