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99 results on '"Zhang, Yuantong"'

1. Joint Reference Frame Synthesis and Post Filter Enhancement for Versatile Video Coding

Author

Bao, Weijie, Zhang, Yuantong, Jia, Jianghao, Chen, Zhenzhong, and Liu, Shan

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Computer Vision and Pattern Recognition
Abstract

This paper presents the joint reference frame synthesis (RFS) and post-processing filter enhancement (PFE) for Versatile Video Coding (VVC), aiming to explore the combination of different neural network-based video coding (NNVC) tools to better utilize the hierarchical bi-directional coding structure of VVC. Both RFS and PFE utilize the Space-Time Enhancement Network (STENet), which receives two input frames with artifacts and produces two enhanced frames with suppressed artifacts, along with an intermediate synthesized frame. STENet comprises two pipelines, the synthesis pipeline and the enhancement pipeline, tailored for different purposes. During RFS, two reconstructed frames are sent into STENet's synthesis pipeline to synthesize a virtual reference frame, similar to the current to-be-coded frame. The synthesized frame serves as an additional reference frame inserted into the reference picture list (RPL). During PFE, two reconstructed frames are fed into STENet's enhancement pipeline to alleviate their artifacts and distortions, resulting in enhanced frames with reduced artifacts and distortions. To reduce inference complexity, we propose joint inference of RFS and PFE (JISE), achieved through a single execution of STENet. Integrated into the VVC reference software VTM-15.0, RFS, PFE, and JISE are coordinated within a novel Space-Time Enhancement Window (STEW) under Random Access (RA) configuration. The proposed method could achieve -7.34%/-17.21%/-16.65% PSNR-based BD-rate on average for three components under RA configuration.

Published
2024

2. Space-Time Video Super-resolution with Neural Operator

Author

Zhang, Yuantong, Zheng, Hanyou, Yang, Daiqin, Chen, Zhenzhong, Ma, Haichuan, and Ding, Wenpeng

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

This paper addresses the task of space-time video super-resolution (ST-VSR). Existing methods generally suffer from inaccurate motion estimation and motion compensation (MEMC) problems for large motions. Inspired by recent progress in physics-informed neural networks, we model the challenges of MEMC in ST-VSR as a mapping between two continuous function spaces. Specifically, our approach transforms independent low-resolution representations in the coarse-grained continuous function space into refined representations with enriched spatiotemporal details in the fine-grained continuous function space. To achieve efficient and accurate MEMC, we design a Galerkin-type attention function to perform frame alignment and temporal interpolation. Due to the linear complexity of the Galerkin-type attention mechanism, our model avoids patch partitioning and offers global receptive fields, enabling precise estimation of large motions. The experimental results show that the proposed method surpasses state-of-the-art techniques in both fixed-size and continuous space-time video super-resolution tasks.

Published
2024

5. Learning a Single Convolutional Layer Model for Low Light Image Enhancement

Author

Zhang, Yuantong, Teng, Baoxin, Yang, Daiqin, Chen, Zhenzhong, Ma, Haichuan, Li, Gang, and Ding, Wenpeng

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Low-light image enhancement (LLIE) aims to improve the illuminance of images due to insufficient light exposure. Recently, various lightweight learning-based LLIE methods have been proposed to handle the challenges of unfavorable prevailing low contrast, low brightness, etc. In this paper, we have streamlined the architecture of the network to the utmost degree. By utilizing the effective structural re-parameterization technique, a single convolutional layer model (SCLM) is proposed that provides global low-light enhancement as the coarsely enhanced results. In addition, we introduce a local adaptation module that learns a set of shared parameters to accomplish local illumination correction to address the issue of varied exposure levels in different image regions. Experimental results demonstrate that the proposed method performs favorably against the state-of-the-art LLIE methods in both objective metrics and subjective visual effects. Additionally, our method has fewer parameters and lower inference complexity compared to other learning-based schemes.

Published
2023

6. Continuous Space-Time Video Super-Resolution Utilizing Long-Range Temporal Information

Author

Zhang, Yuantong, Yang, Daiqin, Chen, Zhenzhong, and Ding, Wenpeng

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

In this paper, we consider the task of space-time video super-resolution (ST-VSR), namely, expanding a given source video to a higher frame rate and resolution simultaneously. However, most existing schemes either consider a fixed intermediate time and scale in the training stage or only accept a preset number of input frames (e.g., two adjacent frames) that fails to exploit long-range temporal information. To address these problems, we propose a continuous ST-VSR (C-STVSR) method that can convert the given video to any frame rate and spatial resolution. To achieve time-arbitrary interpolation, we propose a forward warping guided frame synthesis module and an optical-flow-guided context consistency loss to better approximate extreme motion and preserve similar structures among input and prediction frames. In addition, we design a memory-friendly cascading depth-to-space module to realize continuous spatial upsampling. Meanwhile, with the sophisticated reorganization of optical flow, the proposed method is memory friendly, making it possible to propagate information from long-range neighboring frames and achieve better reconstruction quality. Extensive experiments show that the proposed algorithm has good flexibility and achieves better performance on various datasets compared with the state-of-the-art methods in both objective evaluations and subjective visual effects.

Published
2023

9. Optical Flow Reusing for High-Efficiency Space-Time Video Super Resolution

Author

Zhang, Yuantong, Wang, Huairui, Zhu, Han, and Chen, Zhenzhong

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

In this paper, we consider the task of space-time video super-resolution (ST-VSR), which can increase the spatial resolution and frame rate for a given video simultaneously. Despite the remarkable progress of recent methods, most of them still suffer from high computational costs and inefficient long-range information usage. To alleviate these problems, we propose a Bidirectional Recurrence Network (BRN) with the optical-flow-reuse strategy to better use temporal knowledge from long-range neighboring frames for high-efficiency reconstruction. Specifically, an efficient and memory-saving multi-frame motion utilization strategy is proposed by reusing the intermediate flow of adjacent frames, which considerably reduces the computation burden of frame alignment compared with traditional LSTM-based designs. In addition, the proposed hidden state in BRN is updated by the reused optical flow and refined by the Feature Refinement Module (FRM) for further optimization. Moreover, by utilizing intermediate flow estimation, the proposed method can inference non-linear motion and restore details better. Extensive experiments demonstrate that our optical-flow-reuse-based bidirectional recurrent network (OFR-BRN) is superior to state-of-the-art methods in accuracy and efficiency., Comment: new submit

Published
2021
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16. Caustics experimental study on the interaction between moving cracks and voids under impact loading

Author

Luo Haohao, Zhang Yuantong, Zuo Jinjing, Li Chengxiao, and Li Weiyu

Subjects
semicircular disk, caustics, crack growth rate, stress intensity factor, shpb, Engineering geology. Rock mechanics. Soil mechanics. Underground construction, TA703-712, Mining engineering. Metallurgy, TN1-997
Abstract

In order to study the fracture characteristics of semi-disc specimens with circular defects under different impact speeds, Hopkinson rod is used to dynamically load the semi-disc specimen, and the fracture process of the semi-disc specimen is observed by the dynamic caustics test system, Through the combination of the two test systems, the fracture characteristics of the semi-disc specimens are studied, the research results show that: before the crack initiation, the focal speckle radius jumps, which is caused by the repeated loading of the incident rod. With the increase of the impact velocity, the peak stress intensity factor of the crack passing through the circular defect increases, and the propagation speed of the crack passing through the circular defect also increases significantly, which shows that the impact velocity contributes to the crack propagation. With the increase of the radius of the circular defect, the stress intensity factor of the second crack initiation at the circular defect becomes larger.

Published
2022
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17. Continuous Space-Time Video Super-Resolution with Multi-Stage Motion Information Reorganization.

Author

Zhang, Yuantong, Yang, Daiqin, Chen, Zhenzhong, and Ding, Wenpeng

Subjects
OPTICAL flow, DEEP learning, SPATIAL resolution, INTERPOLATION, SPACETIME
Abstract

Space-time video super-resolution (ST-VSR) aims to simultaneously expand a given source video to a higher frame rate and resolution. However, most existing schemes either consider fixed intermediate time and scale or fail to exploit long-range temporal information due to model design or inefficient motion estimation and compensation. To address these problems, we propose a continuous ST-VSR method to convert the given video to any frame rate and spatial resolution with Multi-stage Motion information reorganization (MsMr). To achieve time-arbitrary interpolation, we propose a forward warping guided frame synthesis module and an optical flow-guided context consistency loss to better approximate extreme motion and preserve similar structures among input and prediction frames. To realize continuous spatial upsampling, we design a memory-friendly cascading depth-to-space module. Meanwhile, with the sophisticated reorganization of optical flow, MsMr realizes more efficient motion estimation and motion compensation, making it possible to propagate information from long-range neighboring frames and achieve better reconstruction quality. Extensive experiments show that the proposed algorithm is flexible and performs better on various datasets than the state-of-the-art methods. The code will be available at https://github.com/hahazh/LD-STVSR. [ABSTRACT FROM AUTHOR]

Published
2024
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25. Study on the dynamic propagation and numerical simulation of mode Ⅰ and mixed mode Ⅰ-Ⅱ cracks in PMMA specimens with unilateral semicircular holes

Author

Li Chengxiao, Zhang Yuantong, and An Chen

Subjects
mixed mode crack propagation, dynamic caustic, stress intensity factor, shpb, numerical simulation, Engineering geology. Rock mechanics. Soil mechanics. Underground construction, TA703-712, Mining engineering. Metallurgy, TN1-997
Abstract

A new approach is provided to study the growth problems of mode Ⅰ and mode Ⅰ-Ⅱ mixed cracks, Split Hopkinson Pressure Bar(SHPB) is used to impact the PMMA USH(Unilateral semicircular hole) specimen containing precast crack.Results of mode Ⅰ cracks and mode Ⅰ-Ⅱ mixed cracks are obtained.At the same time, dynamic caustics experiment is used to study the time history of crack growth and the change law of dynamic stress intensity factor at the crack growth tip.Numerical simulation of the test process is performed by using ABAQUS software to study its expansion path.The results show that the mode I and mode Ⅰ-Ⅱ mixed crack trajectories obtained through experiments and the results of numerical simulation are basically similar, which proves the feasibility of using numerical methods to simulate the crack propagation.During the propagation of two types of cracks, the crack tip will be stopped for some time, but they will eventually move towards the central axis of the test piece.Using SHPB test and dynamic caustics experiment with a Unilateral semicircular hole specimen can effectively obtain the mode Ⅰ and modeⅠ-Ⅱ mixed cracks, providing ideas for subsequent researches on crack propagation.

Published
2020
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30. NTIRE 2023 Challenge on Efficient Super-Resolution: Methods and Results

Author

Li, Yawei, primary, Zhang, Yulun, additional, Timofte, Radu, additional, Van Gool, Luc, additional, Yu, Lei, additional, Li, Youwei, additional, Li, Xinpeng, additional, Jiang, Ting, additional, Wu, Qi, additional, Han, Mingyan, additional, Lin, Wenjie, additional, Jiang, Chengzhi, additional, Luo, Jinting, additional, Fan, Haoqiang, additional, Liu, Shuaicheng, additional, Wang, Yucong, additional, Cai, Minjie, additional, Li, Mingxi, additional, Zhang, Yuhang, additional, Fan, Xian-Jun, additional, Sheng, Yankai, additional, Mao, Yanyu, additional, Zhang, Nihao, additional, Wang, Qian, additional, Zheng, Mingjun, additional, Sun, Long, additional, Pan, Jinshan, additional, Dong, Jiangxin, additional, Tang, Jinhui, additional, Yang, Zhongbao, additional, Wang, Yan, additional, Pan, Erlin, additional, Cai, Qixuan, additional, Dai, Xinan, additional, Zhussip, Magauiya, additional, Kalyazin, Nikolay, additional, Vyal, Dmitry, additional, Zou, Xueyi, additional, Yan, Youliang, additional, Chung, Heaseo, additional, Zhang, Jin, additional, Yu, Gaocheng, additional, Zhang, Feng, additional, Wang, Hongbin, additional, Liao, Bohao, additional, Du, Zhibo, additional, Wu, Yu-Liang, additional, Shi, Gege, additional, Peng, Long, additional, Wang, Yang, additional, Cao, Yang, additional, Zha, Zhengjun, additional, Huang, Zhi-Kai, additional, Chen, Yi-Chung, additional, Chiang, Yuan-Chun, additional, Yang, Hao-Hsiang, additional, Chen, Wei-Ting, additional, Chang, Hua-En, additional, Chen, I-Hsiang, additional, Hsieh, Chia-Hsuan, additional, Kuo, Sy-Yen, additional, Liu, Xin, additional, Pan, Jiahao, additional, Yu, Hongyuan, additional, Yu, Weichen, additional, Ge, Lin, additional, Dong, Jiahua, additional, Zou, Yajun, additional, Wu, Zhuoyuan, additional, Han, Binnan, additional, Zhang, Xiaolin, additional, Zhang, Heng, additional, Yin, Xuanwu, additional, Zuo, Kunlong, additional, Deng, Weijian, additional, Yuan, Hongjie, additional, Lu, Zengtong, additional, Ouyang, Mingyu, additional, Ma, Wenzhuo, additional, Liu, Nian, additional, Zheng, Hanyou, additional, Zhang, Yuantong, additional, Zhang, Junxi, additional, Chen, Zhenzhong, additional, Gendy, Garas, additional, Sabor, Nabil, additional, Hou, Jingchao, additional, He, Guanghui, additional, Zhu, Yurui, additional, Wang, Xi, additional, Fu, Xueyang, additional, Zha, Zheng-Jun, additional, Yin, Daheng, additional, Liu, Mengyang, additional, Chen, Baijun, additional, Li, Ao, additional, Luo, Lei, additional, Jin, Kangjun, additional, Zhu, Ce, additional, Zhang, Xiaoming, additional, Xie, Chengxing, additional, Li, Linze, additional, Meng, Haiteng, additional, Zhang, Tianlin, additional, Li, Tianrui, additional, Zhao, Xiaole, additional, Zhang, Zhao, additional, Li, Baiang, additional, Zheng, Huan, additional, Zhao, Suiyi, additional, Gao, Yangcheng, additional, Ren, Jiahuan, additional, Hu, Kang, additional, Shi, Jingpeng, additional, Wu, Zhijian, additional, Huang, Dingjiang, additional, Zhu, Jinchen, additional, Li, Hui, additional, Xv, Qianru, additional, Liu, Tianle, additional, Weng, Shizhuang, additional, Wu, Gang, additional, Jiang, Junpeng, additional, Liu, Xianming, additional, Jiang, Junjun, additional, Zhang, Mingjian, additional, Hu, Jing, additional, Wu, Chengxu, additional, Fan, Qinrui, additional, Feng, Chengming, additional, Luo, Ziwei, additional, Hu, Shu, additional, Lyu, Siwei, additional, Wu, Xi, additional, and Wang, Xin, additional

Published
2023
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32. Deep Reference Frame Generation Method for VVC Inter Prediction Enhancement

Author

Jia, Jianghao, Zhang, Yuantong, Zhu, Han, Chen, Zhenzhong, Liu, Zizheng, Xu, Xiaozhong, and Liu, Shan

Abstract

In video coding, inter prediction aims to reduce temporal redundancy by using previously encoded frames as references. The quality of reference frames is crucial to the performance of inter prediction. This paper presents a deep reference frame generation method to optimize the inter prediction in Versatile Video Coding (VVC). Specifically, reconstructed frames are sent to a well-designed frame generation network to synthesize a picture similar to the current encoding frame. The synthesized picture serves as an additional reference frame inserted into the reference picture list (RPL) to provide a more reliable reference for subsequent motion estimation (ME) and motion compensation (MC). The frame generation network employs optical flow to predict motion precisely. Moreover, an optical flow reorganization strategy is proposed to enable bi-directional and uni-directional predictions with only a single network architecture. To reasonably apply our method to VVC, we further introduce a normative modification of the temporal motion vector prediction (TMVP). Integrated into the VVC reference software VTM-15.0, the deep reference frame generation method achieves coding efficiency improvements of 5.22%, 3.61%, and 3.83% for the Y component under random access (RA), low delay B (LDB), and low delay P (LDP) configurations, respectively. The proposed method has been discussed in Joint Video Exploration Team (JVET) meeting and is currently part of Exploration Experiments (EE) for further study.

Published
2024
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33. Compound-mode crack propagation law of PMMA semicircular-arch roadway specimens under impact loading

Author

Li, Chengxiao, Guo, Dongming, Zhang, Yuantong, and An, Chen

Abstract

An underground roadway usually contains defects of various types, and when the roadway is subjected to external loading, the locations of those defects influence the roadway by differing degrees. In this study, to study how the locations of defects affect crack propagation in a roadway, specimens with tunnel-type voids were made using polymethyl methacrylate, and the stress wave produced by a bullet impacting an incident rod was used as the impact load. Meanwhile, the variations in crack speed, displacement, and dynamic stress intensity factor during crack propagation were obtained using an experimental system of digital laser dynamic caustics, and the commercial software ABAQUS was used for numerical simulations. From the experiments and numerical simulations, the crack propagation path was verified and the impact fracture behavior of a semicircular-arch roadway with different defect positions was presented. The results show that when the pre-fabricated crack is on the central axis of the sample, the crack propagation is purely mode I; when the pre-fabricated crack is 5 mm from the central axis, the crack propagation alternates between mode I and a mixture of modes I and II; when the pre-fabricated crack is at the edge of the semicircular-arch roadway, the crack propagation follows the I–II mixed mode.

Published
2024
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34. Learning a Single Convolutional Layer Model for Low Light Image Enhancement

Author

Zhang, Yuantong, Teng, Baoxin, Yang, Daiqin, Chen, Zhenzhong, Ma, Haichuan, Li, Gang, and Ding, Wenpeng

Abstract

Low-light image enhancement (LLIE) aims to improve the illuminance of images due to insufficient light exposure. Recently, various lightweight learning-based LLIE methods have been proposed to handle the challenges of unfavorable prevailing low contrast, low brightness, etc. In this paper, we have streamlined the architecture of the network to the utmost degree. By utilizing the effective structural re-parameterization technique, a single convolutional layer model (SCLM) is proposed that provides global low-light enhancement as the coarsely enhanced results. In addition, we introduce a local adaptation module that learns a set of shared parameters to accomplish local illumination correction to address the issue of varied exposure levels in different image regions. Experimental results demonstrate that the proposed method performs favorably against the state-of-the-art LLIE methods in both objective metrics and subjective visual effects. Additionally, our method has fewer parameters and lower inference complexity compared to other learning-based schemes. Code will be made publicly available at the URL https://gitee.com/zhanghahaxixi/SCLM

Published
2024
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44. Analysis of the blasting effect of strip cartridge position on jointed rock mass.

Author

Zhang, Yuantong, Yang, Renshu, Chen, Cheng, Li, Chengxiao, and Luo, Haohao

Subjects
*BLASTING, *BLAST effect, *HIGH-speed photography, *CRACK propagation (Fracture mechanics), *STRESS waves
Abstract

In order to study the failure pattern of single jointed rock mass caused by the position of the hole of the strip cartridge, dynamic caustic method, fractal theory and high speed photography technology were combined. The derivative crack propagation pattern of defects in adjacent rock strata under blasting and the evolution of the damage of rock strata, where the hole was located, were analyzed. The results show that, with the increase of the distance between the borehole and the joint, the effect of the reflected stress wave near the joint weakened, and the damage on both sides of the borehole and the bottom of the borehole exhibited different variation patterns. The damage on both sides of the borehole decreased gradually, whereas the damage at the bottom of the borehole increased gradually. The defects in the vertical joint direction were present in the adjacent rock strata. The results showed that the influence of the explosion transmission wave on the defects in different positions was different. The defects near the initiation center were destroyed mainly by compression shear, whereas the derivative crack propagation length was small. The defects far from the initiation center were damaged mainly by tensile shear, while the derivative crack propagation length was long. [ABSTRACT FROM AUTHOR]

Published
2023
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49. Influence of empty hole-crack location relationship on dynamic impact fracture of porous PMMA specimens.

Author

Li, Chengxiao, Yang, Renshu, Zhang, Yuantong, Luo, Haohao, and An, Chen

Subjects
MATERIALS testing, DYNAMICAL systems, METHACRYLATES
Abstract

Using polymethyl methacrylate (PMMA) as the test material, three-point bending tests were carried out on single hole and double hole specimens with prefabricated cracks at the bottom. The fracture process of the specimen was observed by using a new digital laser dynamic caustics system (DLDC). The ABAQUS was used to simulate the double hole fracture experiment. The experimental results and simulation result showed that for single-hole specimens, smaller S and larger r had a more obvious attraction to cracks. For the double-hole specimen, the variation of S/r and r parameters had different effects on the crack. [ABSTRACT FROM AUTHOR]

Published
2022
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