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29 results on '"Hu, Jintong"'

1. GaussianSR: High Fidelity 2D Gaussian Splatting for Arbitrary-Scale Image Super-Resolution

Author

Hu, Jintong, Xia, Bin, Chen, Bin, Yang, Wenming, and Zhang, Lei

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence
Abstract

Implicit neural representations (INRs) have significantly advanced the field of arbitrary-scale super-resolution (ASSR) of images. Most existing INR-based ASSR networks first extract features from the given low-resolution image using an encoder, and then render the super-resolved result via a multi-layer perceptron decoder. Although these approaches have shown promising results, their performance is constrained by the limited representation ability of discrete latent codes in the encoded features. In this paper, we propose a novel ASSR method named GaussianSR that overcomes this limitation through 2D Gaussian Splatting (2DGS). Unlike traditional methods that treat pixels as discrete points, GaussianSR represents each pixel as a continuous Gaussian field. The encoded features are simultaneously refined and upsampled by rendering the mutually stacked Gaussian fields. As a result, long-range dependencies are established to enhance representation ability. In addition, a classifier is developed to dynamically assign Gaussian kernels to all pixels to further improve flexibility. All components of GaussianSR (i.e., encoder, classifier, Gaussian kernels, and decoder) are jointly learned end-to-end. Experiments demonstrate that GaussianSR achieves superior ASSR performance with fewer parameters than existing methods while enjoying interpretable and content-aware feature aggregations., Comment: 13 pages, 12 figures

Published
2024

2. Perspective+ Unet: Enhancing Segmentation with Bi-Path Fusion and Efficient Non-Local Attention for Superior Receptive Fields

Author

Hu, Jintong, Chen, Siyan, Pan, Zhiyi, Zeng, Sen, and Yang, Wenming

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

Precise segmentation of medical images is fundamental for extracting critical clinical information, which plays a pivotal role in enhancing the accuracy of diagnoses, formulating effective treatment plans, and improving patient outcomes. Although Convolutional Neural Networks (CNNs) and non-local attention methods have achieved notable success in medical image segmentation, they either struggle to capture long-range spatial dependencies due to their reliance on local features, or face significant computational and feature integration challenges when attempting to address this issue with global attention mechanisms. To overcome existing limitations in medical image segmentation, we propose a novel architecture, Perspective+ Unet. This framework is characterized by three major innovations: (i) It introduces a dual-pathway strategy at the encoder stage that combines the outcomes of traditional and dilated convolutions. This not only maintains the local receptive field but also significantly expands it, enabling better comprehension of the global structure of images while retaining detail sensitivity. (ii) The framework incorporates an efficient non-local transformer block, named ENLTB, which utilizes kernel function approximation for effective long-range dependency capture with linear computational and spatial complexity. (iii) A Spatial Cross-Scale Integrator strategy is employed to merge global dependencies and local contextual cues across model stages, meticulously refining features from various levels to harmonize global and local information. Experimental results on the ACDC and Synapse datasets demonstrate the effectiveness of our proposed Perspective+ Unet. The code is available in the supplementary material., Comment: 13 pages, 5 figures

Published
2024

3. Residual Dense Swin Transformer for Continuous Depth-Independent Ultrasound Imaging

Author

Hu, Jintong, Che, Hui, Li, Zishuo, and Yang, Wenming

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

Ultrasound imaging is crucial for evaluating organ morphology and function, yet depth adjustment can degrade image quality and field-of-view, presenting a depth-dependent dilemma. Traditional interpolation-based zoom-in techniques often sacrifice detail and introduce artifacts. Motivated by the potential of arbitrary-scale super-resolution to naturally address these inherent challenges, we present the Residual Dense Swin Transformer Network (RDSTN), designed to capture the non-local characteristics and long-range dependencies intrinsic to ultrasound images. It comprises a linear embedding module for feature enhancement, an encoder with shifted-window attention for modeling non-locality, and an MLP decoder for continuous detail reconstruction. This strategy streamlines balancing image quality and field-of-view, which offers superior textures over traditional methods. Experimentally, RDSTN outperforms existing approaches while requiring fewer parameters. In conclusion, RDSTN shows promising potential for ultrasound image enhancement by overcoming the limitations of conventional interpolation-based methods and achieving depth-independent imaging., Comment: Accepted by ICASSP2024, https://ieeexplore.ieee.org/document/10447712

Published
2024
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4. Low-Trace Adaptation of Zero-shot Self-supervised Blind Image Denoising

Author

Hu, Jintong, Xia, Bin, Li, Bingchen, and Yang, Wenming

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

Deep learning-based denoiser has been the focus of recent development on image denoising. In the past few years, there has been increasing interest in developing self-supervised denoising networks that only require noisy images, without the need for clean ground truth for training. However, a performance gap remains between current self-supervised methods and their supervised counterparts. Additionally, these methods commonly depend on assumptions about noise characteristics, thereby constraining their applicability in real-world scenarios. Inspired by the properties of the Frobenius norm expansion, we discover that incorporating a trace term reduces the optimization goal disparity between self-supervised and supervised methods, thereby enhancing the performance of self-supervised learning. To exploit this insight, we propose a trace-constraint loss function and design the low-trace adaptation Noise2Noise (LoTA-N2N) model that bridges the gap between self-supervised and supervised learning. Furthermore, we have discovered that several existing self-supervised denoising frameworks naturally fall within the proposed trace-constraint loss as subcases. Extensive experiments conducted on natural and confocal image datasets indicate that our method achieves state-of-the-art performance within the realm of zero-shot self-supervised image denoising approaches, without relying on any assumptions regarding the noise., Comment: 11pages, 6 figures

Published
2024

5. Semantic and Gradient Guided Scene Text Image Super-Resolution

Author

Shi, Chengyue, Shi, Wenbo, Hu, Jintong, Yang, Wenming, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Lu, Huchuan, editor, Ouyang, Wanli, editor, Huang, Hui, editor, Lu, Jiwen, editor, Liu, Risheng, editor, Dong, Jing, editor, and Xu, Min, editor

Published
2023
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6. Distortion-Aware Mutual Constraint for Screen Content Image Quality Assessment

Author

Yao, Ye, Hu, Jintong, Yang, Wengming, Liao, Qingmin, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Lu, Huchuan, editor, Ouyang, Wanli, editor, Huang, Hui, editor, Lu, Jiwen, editor, Liu, Risheng, editor, Dong, Jing, editor, and Xu, Min, editor

Published
2023
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9. Developmental epileptic encephalopathy caused by homozygosity of a c.172+1G>C variant in the WWOX gene.

Author

You, Yang, Wu, Wenjuan, Du, Yakun, Hu, Jintong, and Li, Baoguang

Subjects
CENTRAL nervous system, INFANTILE spasms, DEVELOPMENTAL delay, PHENOTYPES, GENETIC variation
Abstract

Background: Variations in the WWOX gene have been identified as the leading cause of several central nervous system disorders. However, most previous reports have focused on the description of clinical phenotype, neglecting functional verification. Herein, we presented a case of a patient with developmental epileptic encephalopathy (DEE) caused by WWOX gene variation. Case Presentation: Our patient was a 13‐month‐old girl with abnormal facial features, including facial hypotonia, arched eyebrows, a broad nose, and a depressed nasal bridge. She also had sparse and yellow hair, a low anterior hairline, and a short neck. Before the age of 8 months, she was suffering from mild seizures. Her developmental delay gradually worsened, and she suffered infantile spasms. After treatment with vigabatrin, seizures subsided. WWOX gene homozygous variation c.172+1G>C was identified using whole exome sequencing. Further minigene assay confirmed that the variation site affected splicing, causing protein truncation and affecting its function. Conclusion: Clinical phenotype and minigene results suggest that WWOX gene homozygous variation c.172+1G>C can cause severe DEE. We also concluded that vigabatrin can effectively treat seizures. [ABSTRACT FROM AUTHOR]

Published
2024
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12. Design of a stabilizing shell for KTX

Author

You, Wei, Li, Hong, Tan, Mingsheng, Lu, Mingjian, Wu, Yanqi, Mao, Wenzhe, Bai, Wei, Tu, Cui, Luo, Bing, Li, Zichao, Adil, Yolbarsop, Hu, Jintong, Song, Yuntao, Yang, Qingxi, Zhang, Ping, Xie, Jinlin, Lan, Tao, Liu, Adi, Ding, Weixing, Xiao, Chijin, and Liu, Wandong

Published
2016
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18. Technology of Multi-Stage Hydraulic Fracturing Dual Laterals in One Trip for Multilateral Wells

Author

Hu Jintong, Xueliang Yu, Songjie Zhang, Wenling Yang, lina Zhang, Zhang Heng, Yuanzhong Cui, and Chen Shichun

Subjects
Multi stage, Hydraulic fracturing, Petroleum engineering, Geology, Dual (category theory)
Abstract

With its advantages of a shorter construction period, a less cost and a higher production, multilateral drillingtechnology has become widespreadthroughout the petroleum industry. Multi-stage hydraulic fracturing technology is also widely used in the field to deal with poor reservoir conditions such as layers with low pressure and permeability. However, conventional hydraulic fracturing technology used in multilateral well encounters difficulties. Not only has itcalled for a complicated operation of accurate re-entry, but also significantly extends the completion time while having to controlthe well, thus greatly increasing the risk of making a dead well and limiting the development of the technology. In order to deal with those difficulties, the authors of this study researched this new technology which can achieve the goal of self-orientating control, accurate re-entry control and fracturing multilaterals without having to controlthe well. The first aim is to achieve the goal of a single trip self-orientating control system during drilling different multilaterals, thus means drilling tools will enter the lateral we choose only by the self-orientating control system while without any other tools or instruments in this process. To get this, a self-orientating system is studied which provides a base for subsequent operations and it is kept at the bottom of the hole perpetually. In other words, the self-orientating control system functions as the root of the whole system. The other aim is to achieve the goal of selective re-entry. During the processes of washing and fracturing, the BHA must re-entry the lateral designed, thus a special tool is needed to work as a guide to lead the BHA into the right hole. The special tool we designed is called junction. It works as a bridge between the bottom lateral hole and the running BHA. The re-entry system will enter the hole selectively based on the mechanical parts onthe junction. The last but the most important is to fracture the multilaterals together without having to controlthe well. Compared with conventional operation, fracturing/killing/bridging operationsare not needed for the lower lateral before starting to drill the upper lateral, thus not only one trip has been decreased, but also no risk to lead to a dead hole. A Fieldtest has been performed on an abandoned well, showing the success of the technology. Special tools and operation procedures were involved. The two laterals were fractured only in one trip which demonstrates its superior performance compared to conventional multi-stage hydraulic fracturing that requires two or more trips for multilateral wells.

Published
2020

21. Research and Application of Fine Intelligent Injection Technology of Cable Type in Dagang Oilfield

Author

Chang Shu, Yang Tiancheng, Wang Wentao, Zhang Hongwei, and Hu Jintong

Subjects
History, Petroleum engineering, Geology, Computer Science Applications, Education
Abstract

Dagang oilfield belongs to typical multi-layer system, heterogeneity of complex fault block reservoir, reservoir and the large difference of physical property of crude oil, water, etc, the longitudinal permeability difference is obvious, separate injection interval is not detailed, The existing bridge eccentric note, bridge concentric injection technology can’t meet the needs of the fine water injection, real-time measurement and control because of drift, well depth, pressure and other factors, and there is poor adaptability, measuring problem of long time and low efficiency. Cable type fine intelligent water injection technology in underground intelligent water distributor, the ground controller as the core tools, cable as transmission medium, the computer network communication technology, intelligent control technology combined with oil field water injection demand, developed a new and reliable water injection system, realized the layered injection allocation under different deviation, full automatic control and monitoring data, and direct reading test. The technology in the implementation of 5 Wells in dagang oilfield, the implementation of maximum deviation 80 °, the maximum depth of 3661.52 m, the highest water flooding pressure 25 mpa, construction success rate reaches 100%, downhole test times 5 Wells, inspection accuracy of 100%. The results show that the cable type intelligent water flooding technology can not only realize downhole data real-time monitoring, real-time traffic regulation, and can complete the packer direct reading test, and the measurement process is reliable and efficient, at the same time solve the high Angle well, horizontal well can’t test the technical problem, provides the high Angle well, horizontal well fine water injection technology support.

Published
2020

25. Design of the poloidal field system for KTX

Author

YOU, Wei, primary, LI, Hong, additional, MAO, Wenzhe, additional, BAI, Wei, additional, TU, Cui, additional, LUO, Bing, additional, LI, Zichao, additional, ADIL, Yolbarsop, additional, HU, Jintong, additional, XIAO, Bingjia, additional, YANG, Qingxi, additional, XIE, Jinlin, additional, LAN, Tao, additional, LIU, Adi, additional, DING, Weixing, additional, XIAO, Chijin, additional, and LIU, Wandong, additional

Published
2018
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26. Determination of plasma displacement based on eddy current diagnostics for the Keda Torus eXperiment

Author

Tu, Cui, primary, Li, Hong, additional, Liu, Adi, additional, Li, Zichao, additional, Zhang, Yuan, additional, You, Wei, additional, Tan, Mingsheng, additional, Luo, Bing, additional, Adil, Yolbarsop, additional, Hu, Jintong, additional, Wu, Yanqi, additional, Yan, Wentan, additional, Xie, Jinlin, additional, Lan, Tao, additional, Mao, Wenzhe, additional, Ding, Weixing, additional, Xiao, Chijin, additional, Zhuang, Ge, additional, and Liu, Wandong, additional

Published
2017
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27. The eddy current probe array for Keda Torus eXperiment

Author

Li, Zichao, primary, Li, Hong, additional, Tu, Cui, additional, Hu, Jintong, additional, You, Wei, additional, Luo, Bing, additional, Tan, Mingsheng, additional, Adil, Yolbarsop, additional, Wu, Yanqi, additional, Shen, Biao, additional, Xiao, Bingjia, additional, Zhang, Ping, additional, Mao, Wenzhe, additional, Wang, Hai, additional, Wen, Xiaohui, additional, Zhou, Haiyang, additional, Xie, Jinlin, additional, Lan, Tao, additional, Liu, Adi, additional, Ding, Weixing, additional, Xiao, Chijin, additional, and Liu, Wandong, additional

Published
2016
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28. Bottom hole liquid loading and unloading technique of low flow pressure and low-liquid gas well.

Author

GUO Qun, WANG Yanli, ZHANG Guosheng, WANG Junheng, YANG Xiaofang, and HU Jintong

Abstract

According to the bottom hole liquid loading problems of deep gas well and middle-shallow gas well and characteristics of well condition, two liquid unloading techniques of low flow pressure and low liquid loading gas wells are introduced in this paper. For deep well, the compressed nitrogen is injected regularly through the annular space of ordinary tubing and coiled tubing, thus lifting the liquid from coiled tubing. For middle-shallow gas well, the liquid is pumped to the ground through hydraulic jet pump to reduce the costs. Compared with other lifting techniques, this technique can more effectively reduce the pressure of liquid column on the producing formation. Even when the pressure of producing formation is low, the gas in the producing formation can flow into the well bore smoothly. Thus, the problems of stop production in other liquid unloading techniques when the pressure of bottom hole flow pressure is low are solved properly to increase the effective production period of reservoir bed. [ABSTRACT FROM AUTHOR]

Published
2014
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