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1. Efficient Sampling for Machine Learning Electron Density and Its Response in Real Space

Author

Feng, Chaoqiang, Zhang, Yaolong, and Jiang, Bin

Subjects
Physics - Chemical Physics
Abstract

Electron density is a fundamental quantity, which can in principle determine all ground state electronic properties of a given system. Although machine learning (ML) models for electron density based on either an atom-centered basis or a real-space grid have been proposed, the demand for the number of high-order basis functions or grid points is enormous. In this work, we propose an efficient grid-point sampling strategy that combines a targeted sampling favoring large density and a screening of grid points associated with linearly independent atomic features. This new sampling strategy is integrated with a field-induced recursively embedded atom neural network model to develop a real-space grid-based ML model for electron density and its response to an electric field. This approach is applied to a QM9 molecular dataset, a H2O/Pt(111) interfacial system, and an Au(100) electrode under an electric field. The number of training points is found much smaller than previous models, when yielding comparably accurate predictions for the electron density of the entire grid. The resultant machine learned electron density model enables us to properly partition partial charge onto each atom and analyze the charge variation upon proton transfer in the H2O/Pt(111) system. The machined learned electronic response model allows us to predict charge transfer and the electrostatic potential change induced by an electric field in an Au(100) electrode.

Published
2024

2. Regularity of Fourier integrals on product spaces

Author

Tan, Chaoqiang and Wang, Zipeng

Subjects
Mathematics - Classical Analysis and ODEs
Abstract

We study a family of Fourier integral operators by allowing their symbols to satisfy a multi-parameter differential inequality on R^N. We show that these operators of order -(N-1)/2 are bounded from classical, atom decomposable H^1-Hardy space to L^1(R^N). Consequently, we obtain a sharp L^p-regularity result due to Seeger, Sogge and Stein., Comment: We corrected some typos and errors from the previous version

Published
2024

3. Boundedness of New Type Fourier Integral Operators with Product Structure

Author

Tan, Chaoqiang and Wang, Zipeng

Subjects
Mathematics - Functional Analysis, Primary 42B20, Secondary 42B30, 42B37, 42B15
Abstract

We investigate a class of Fourier integral operators with weakened symbols, which satisfy a multi-parameter differential inequality in $\R^n$. We establish that these operators retain the classical $L^p$ boundedness and the $H^1$ to $L^1$ boundedness. Notably, the Hardy space considered here is the traditional single-parameter Hardy space rather than a product Hardy space.

Published
2024

4. Singular Integrals associated with Reflection Groups on Euclidean Space

Author

Han, Yongsheng, Li, Ji, Tan, Chaoqiang, Wang, Zipeng, and Wu, Xinfeng

Subjects
Mathematics - Classical Analysis and ODEs
Abstract

In the field of harmonic analysis, geometric considerations are frequently crucial. Specially, group actions such as translations, dilations and rotations on Euclidean space are instrumental. The objective of this paper is to extend the study of singular integrals to include the effects of group reflections on Euclidean space, and to establish the T1 theorem for these singular integrals.

Published
2024

5. Self-Supervised Monocular Depth Estimation in the Dark: Towards Data Distribution Compensation

Author

Yang, Haolin, Zhao, Chaoqiang, Sheng, Lu, and Tang, Yang

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Nighttime self-supervised monocular depth estimation has received increasing attention in recent years. However, using night images for self-supervision is unreliable because the photometric consistency assumption is usually violated in the videos taken under complex lighting conditions. Even with domain adaptation or photometric loss repair, performance is still limited by the poor supervision of night images on trainable networks. In this paper, we propose a self-supervised nighttime monocular depth estimation method that does not use any night images during training. Our framework utilizes day images as a stable source for self-supervision and applies physical priors (e.g., wave optics, reflection model and read-shot noise model) to compensate for some key day-night differences. With day-to-night data distribution compensation, our framework can be trained in an efficient one-stage self-supervised manner. Though no nighttime images are considered during training, qualitative and quantitative results demonstrate that our method achieves SoTA depth estimating results on the challenging nuScenes-Night and RobotCar-Night compared with existing methods., Comment: Accepted by IJCAI2024

Published
2024

8. GasMono: Geometry-Aided Self-Supervised Monocular Depth Estimation for Indoor Scenes

Author

Zhao, Chaoqiang, Poggi, Matteo, Tosi, Fabio, Zhou, Lei, Sun, Qiyu, Tang, Yang, and Mattoccia, Stefano

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

This paper tackles the challenges of self-supervised monocular depth estimation in indoor scenes caused by large rotation between frames and low texture. We ease the learning process by obtaining coarse camera poses from monocular sequences through multi-view geometry to deal with the former. However, we found that limited by the scale ambiguity across different scenes in the training dataset, a na\"ive introduction of geometric coarse poses cannot play a positive role in performance improvement, which is counter-intuitive. To address this problem, we propose to refine those poses during training through rotation and translation/scale optimization. To soften the effect of the low texture, we combine the global reasoning of vision transformers with an overfitting-aware, iterative self-distillation mechanism, providing more accurate depth guidance coming from the network itself. Experiments on NYUv2, ScanNet, 7scenes, and KITTI datasets support the effectiveness of each component in our framework, which sets a new state-of-the-art for indoor self-supervised monocular depth estimation, as well as outstanding generalization ability. Code and models are available at https://github.com/zxcqlf/GasMono, Comment: ICCV 2023. Code: https://github.com/zxcqlf/GasMono

Published
2023

9. PARTNER: Level up the Polar Representation for LiDAR 3D Object Detection

Author

Nie, Ming, Xue, Yujing, Wang, Chunwei, Ye, Chaoqiang, Xu, Hang, Zhu, Xinge, Huang, Qingqiu, Mi, Michael Bi, Wang, Xinchao, and Zhang, Li

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Recently, polar-based representation has shown promising properties in perceptual tasks. In addition to Cartesian-based approaches, which separate point clouds unevenly, representing point clouds as polar grids has been recognized as an alternative due to (1) its advantage in robust performance under different resolutions and (2) its superiority in streaming-based approaches. However, state-of-the-art polar-based detection methods inevitably suffer from the feature distortion problem because of the non-uniform division of polar representation, resulting in a non-negligible performance gap compared to Cartesian-based approaches. To tackle this issue, we present PARTNER, a novel 3D object detector in the polar coordinate. PARTNER alleviates the dilemma of feature distortion with global representation re-alignment and facilitates the regression by introducing instance-level geometric information into the detection head. Extensive experiments show overwhelming advantages in streaming-based detection and different resolutions. Furthermore, our method outperforms the previous polar-based works with remarkable margins of 3.68% and 9.15% on Waymo and ONCE validation set, thus achieving competitive results over the state-of-the-art methods., Comment: ICCV 2023

Published
2023

10. FULLER: Unified Multi-modality Multi-task 3D Perception via Multi-level Gradient Calibration

Author

Huang, Zhijian, Lin, Sihao, Liu, Guiyu, Luo, Mukun, Ye, Chaoqiang, Xu, Hang, Chang, Xiaojun, and Liang, Xiaodan

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Multi-modality fusion and multi-task learning are becoming trendy in 3D autonomous driving scenario, considering robust prediction and computation budget. However, naively extending the existing framework to the domain of multi-modality multi-task learning remains ineffective and even poisonous due to the notorious modality bias and task conflict. Previous works manually coordinate the learning framework with empirical knowledge, which may lead to sub-optima. To mitigate the issue, we propose a novel yet simple multi-level gradient calibration learning framework across tasks and modalities during optimization. Specifically, the gradients, produced by the task heads and used to update the shared backbone, will be calibrated at the backbone's last layer to alleviate the task conflict. Before the calibrated gradients are further propagated to the modality branches of the backbone, their magnitudes will be calibrated again to the same level, ensuring the downstream tasks pay balanced attention to different modalities. Experiments on large-scale benchmark nuScenes demonstrate the effectiveness of the proposed method, eg, an absolute 14.4% mIoU improvement on map segmentation and 1.4% mAP improvement on 3D detection, advancing the application of 3D autonomous driving in the domain of multi-modality fusion and multi-task learning. We also discuss the links between modalities and tasks.

Published
2023

11. CMDA: Cross-Modality Domain Adaptation for Nighttime Semantic Segmentation

Author

Xia, Ruihao, Zhao, Chaoqiang, Zheng, Meng, Wu, Ziyan, Sun, Qiyu, and Tang, Yang

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Most nighttime semantic segmentation studies are based on domain adaptation approaches and image input. However, limited by the low dynamic range of conventional cameras, images fail to capture structural details and boundary information in low-light conditions. Event cameras, as a new form of vision sensors, are complementary to conventional cameras with their high dynamic range. To this end, we propose a novel unsupervised Cross-Modality Domain Adaptation (CMDA) framework to leverage multi-modality (Images and Events) information for nighttime semantic segmentation, with only labels on daytime images. In CMDA, we design the Image Motion-Extractor to extract motion information and the Image Content-Extractor to extract content information from images, in order to bridge the gap between different modalities (Images to Events) and domains (Day to Night). Besides, we introduce the first image-event nighttime semantic segmentation dataset. Extensive experiments on both the public image dataset and the proposed image-event dataset demonstrate the effectiveness of our proposed approach. We open-source our code, models, and dataset at https://github.com/XiaRho/CMDA., Comment: Accepted to ICCV 2023

Published
2023

12. Causal reasoning in typical computer vision tasks

Author

Zhang, Kexuan, Sun, Qiyu, Zhao, Chaoqiang, and Tang, Yang

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Deep learning has revolutionized the field of artificial intelligence. Based on the statistical correlations uncovered by deep learning-based methods, computer vision has contributed to tremendous growth in areas like autonomous driving and robotics. Despite being the basis of deep learning, such correlation is not stable and is susceptible to uncontrolled factors. In the absence of the guidance of prior knowledge, statistical correlations can easily turn into spurious correlations and cause confounders. As a result, researchers are now trying to enhance deep learning methods with causal theory. Causal theory models the intrinsic causal structure unaffected by data bias and is effective in avoiding spurious correlations. This paper aims to comprehensively review the existing causal methods in typical vision and vision-language tasks such as semantic segmentation, object detection, and image captioning. The advantages of causality and the approaches for building causal paradigms will be summarized. Future roadmaps are also proposed, including facilitating the development of causal theory and its application in other complex scenes and systems.

Published
2023

16. The Second Monocular Depth Estimation Challenge

Author

Spencer, Jaime, Qian, C. Stella, Trescakova, Michaela, Russell, Chris, Hadfield, Simon, Graf, Erich W., Adams, Wendy J., Schofield, Andrew J., Elder, James, Bowden, Richard, Anwar, Ali, Chen, Hao, Chen, Xiaozhi, Cheng, Kai, Dai, Yuchao, Hoa, Huynh Thai, Hossain, Sadat, Huang, Jianmian, Jing, Mohan, Li, Bo, Li, Chao, Li, Baojun, Liu, Zhiwen, Mattoccia, Stefano, Mercelis, Siegfried, Nam, Myungwoo, Poggi, Matteo, Qi, Xiaohua, Ren, Jiahui, Tang, Yang, Tosi, Fabio, Trinh, Linh, Uddin, S. M. Nadim, Umair, Khan Muhammad, Wang, Kaixuan, Wang, Yufei, Wang, Yixing, Xiang, Mochu, Xu, Guangkai, Yin, Wei, Yu, Jun, Zhang, Qi, and Zhao, Chaoqiang

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

This paper discusses the results for the second edition of the Monocular Depth Estimation Challenge (MDEC). This edition was open to methods using any form of supervision, including fully-supervised, self-supervised, multi-task or proxy depth. The challenge was based around the SYNS-Patches dataset, which features a wide diversity of environments with high-quality dense ground-truth. This includes complex natural environments, e.g. forests or fields, which are greatly underrepresented in current benchmarks. The challenge received eight unique submissions that outperformed the provided SotA baseline on any of the pointcloud- or image-based metrics. The top supervised submission improved relative F-Score by 27.62%, while the top self-supervised improved it by 16.61%. Supervised submissions generally leveraged large collections of datasets to improve data diversity. Self-supervised submissions instead updated the network architecture and pretrained backbones. These results represent a significant progress in the field, while highlighting avenues for future research, such as reducing interpolation artifacts at depth boundaries, improving self-supervised indoor performance and overall natural image accuracy., Comment: Published at CVPRW2023

Published
2023

17. CLIP$^2$: Contrastive Language-Image-Point Pretraining from Real-World Point Cloud Data

Author

Zeng, Yihan, Jiang, Chenhan, Mao, Jiageng, Han, Jianhua, Ye, Chaoqiang, Huang, Qingqiu, Yeung, Dit-Yan, Yang, Zhen, Liang, Xiaodan, and Xu, Hang

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Contrastive Language-Image Pre-training, benefiting from large-scale unlabeled text-image pairs, has demonstrated great performance in open-world vision understanding tasks. However, due to the limited Text-3D data pairs, adapting the success of 2D Vision-Language Models (VLM) to the 3D space remains an open problem. Existing works that leverage VLM for 3D understanding generally resort to constructing intermediate 2D representations for the 3D data, but at the cost of losing 3D geometry information. To take a step toward open-world 3D vision understanding, we propose Contrastive Language-Image-Point Cloud Pretraining (CLIP$^2$) to directly learn the transferable 3D point cloud representation in realistic scenarios with a novel proxy alignment mechanism. Specifically, we exploit naturally-existed correspondences in 2D and 3D scenarios, and build well-aligned and instance-based text-image-point proxies from those complex scenarios. On top of that, we propose a cross-modal contrastive objective to learn semantic and instance-level aligned point cloud representation. Experimental results on both indoor and outdoor scenarios show that our learned 3D representation has great transfer ability in downstream tasks, including zero-shot and few-shot 3D recognition, which boosts the state-of-the-art methods by large margins. Furthermore, we provide analyses of the capability of different representations in real scenarios and present the optional ensemble scheme., Comment: To appear at CVPR 2023

Published
2023

18. Myeloid PTEN loss affects the therapeutic response by promoting stress granule assembly and impairing phagocytosis by macrophages in breast cancer

Author

Yan Li, Chao Xu, Xiaojun Qian, Gang Wang, Chaoqiang Han, Hui Hua, Menghao Dong, Jian Chen, Haiyang Yu, Rutong Zhang, Xiaoxi Feng, Zhenye Yang, and Yueyin Pan

Subjects
Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282, Cytology, QH573-671
Abstract

Abstract Breast cancer (BRCA) has become the most common type of cancer in women. Improving the therapeutic response remains a challenge. Phosphatase and tensin homologue deleted on chromosome 10 (PTEN) is a classic tumour suppressor with emerging new functions discovered in recent years, and myeloid PTEN loss has been reported to impair antitumour immunity. In this study, we revealed a novel mechanism by which myeloid PTEN potentially affects antitumour immunity in BRCA. We detected accelerated stress granule (SG) assembly under oxidative stress in PTEN-deficient bone marrow-derived macrophages (BMDMs) through the EGR1-promoted upregulation of TIAL1 transcription. PI3K/AKT/mTOR (PAM) pathway activation also promoted SG formation. ATP consumption during SG assembly in BMDMs impaired the phagocytic ability of 4T1 cells, potentially contributing to the disruption of antitumour immunity. In a BRCA neoadjuvant cohort, we observed a poorer response in myeloid PTENlow patients with G3BP1 aggregating as SGs in CD68+ cells, a finding that was consistent with the observation in our study that PTEN-deficient macrophages tended to more readily assemble SGs with impaired phagocytosis. Our results revealed the unconventional impact of SGs on BMDMs and might provide new perspectives on drug resistance and therapeutic strategies for the treatment of BRCA patients.

Published
2024
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19. Singular integrals with product kernels associated with mixed homogeneities and Hardy spaces

Author

Han, Yongsheng, Krantz, Steven, and Tan, Chaoqiang

Subjects
Mathematics - Functional Analysis, 42B20, 42B25, 46E35
Abstract

This paper is motivated by Phong and Stein's paper on non-standard singular integrals with mixed homogeneities. Our purpose is to study these new non-standard convolution singular integrals and establish the boundedness of these singular integrals on the Hardy spaces.

Published
2023

20. Experimental investigation on the NO formation of pulverized coal combustion under high-temperature and low-oxygen environments simulating MILD oxy-fuel combustion conditions

Author

Lanbo Li, Yuegui Zhou, Chaoqiang Yang, Anwen Peng, and Guanshuo Huang

Subjects
Pulverized coal combustion, MILD oxy-fuel combustion, NO formation and reduction, Chemical kinetics, Relative contribution, Chemical technology, TP1-1185
Abstract

The NO formation experiments simulating moderate and intense low-oxygen dilution (MILD) oxy-coal combustion conditions were conducted on a laminar diffusion flame burner with the coflow temperatures of 1473–1873 K and the oxygen volume fractions of 5 %–20 % in O2/CO2, O2/Ar and O2/N2 atmospheres. The flame images of pulverized coal combustion were captured to obtain the ignition delay distances, and the axial species concentrations were measured to obtain the variation of NO formation and reduction. The NO yield in O2/Ar atmosphere decreased by nearly 0.2 when the oxygen volume fraction decreased from 20 % to 5 % and by about 0.05 when the coflow temperature decreased from 1873 K to 1473 K. The NO yield in O2/CO2 atmosphere was 0.1–0.15 lower than that in O2/Ar atmosphere. The optimal kinetic parameters of thermal NO and fuel NO formation rate were obtained by a nonlinear fit of nth-order Arrhenius expression. Finally, the relative contribution rates of thermal NO to total NO (Rth) and NO reduction to fuel NO (Rre) were quantitatively separated. Rth decreases with the increase of oxygen volume fraction, below 6 % at 1800 K, 25 % at 2000 K. Rre is almost unaffected by the coflow temperature and affected by the oxygen volume fraction, reaching 30 % at 5 % O2.

Published
2024
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24. Rethinking Unsupervised Domain Adaptation for Nighttime Tracking

Author

Chen, Jiaying, Sun, Qiyu, Zhao, Chaoqiang, Ren, Wenqi, Tang, Yang, Filipe, Joaquim, Editorial Board Member, Ghosh, Ashish, Editorial Board Member, Prates, Raquel Oliveira, Editorial Board Member, Zhou, Lizhu, Editorial Board Member, Luo, Biao, editor, Cheng, Long, editor, Wu, Zheng-Guang, editor, Li, Hongyi, editor, and Li, Chaojie, editor

Published
2024
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25. The Monocular Depth Estimation Challenge

Author

Spencer, Jaime, Qian, C. Stella, Russell, Chris, Hadfield, Simon, Graf, Erich, Adams, Wendy, Schofield, Andrew J., Elder, James, Bowden, Richard, Cong, Heng, Mattoccia, Stefano, Poggi, Matteo, Suri, Zeeshan Khan, Tang, Yang, Tosi, Fabio, Wang, Hao, Zhang, Youmin, Zhang, Yusheng, and Zhao, Chaoqiang

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

This paper summarizes the results of the first Monocular Depth Estimation Challenge (MDEC) organized at WACV2023. This challenge evaluated the progress of self-supervised monocular depth estimation on the challenging SYNS-Patches dataset. The challenge was organized on CodaLab and received submissions from 4 valid teams. Participants were provided a devkit containing updated reference implementations for 16 State-of-the-Art algorithms and 4 novel techniques. The threshold for acceptance for novel techniques was to outperform every one of the 16 SotA baselines. All participants outperformed the baseline in traditional metrics such as MAE or AbsRel. However, pointcloud reconstruction metrics were challenging to improve upon. We found predictions were characterized by interpolation artefacts at object boundaries and errors in relative object positioning. We hope this challenge is a valuable contribution to the community and encourage authors to participate in future editions., Comment: WACV-Workshops 2023

Published
2022

26. Towards Generalization on Real Domain for Single Image Dehazing via Meta-Learning

Author

Ren, Wenqi, Sun, Qiyu, Zhao, Chaoqiang, and Tang, Yang

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Learning-based image dehazing methods are essential to assist autonomous systems in enhancing reliability. Due to the domain gap between synthetic and real domains, the internal information learned from synthesized images is usually sub-optimal in real domains, leading to severe performance drop of dehaizing models. Driven by the ability on exploring internal information from a few unseen-domain samples, meta-learning is commonly adopted to address this issue via test-time training, which is hyperparameter-sensitive and time-consuming. In contrast, we present a domain generalization framework based on meta-learning to dig out representative and discriminative internal properties of real hazy domains without test-time training. To obtain representative domain-specific information, we attach two entities termed adaptation network and distance-aware aggregator to our dehazing network. The adaptation network assists in distilling domain-relevant information from a few hazy samples and caching it into a collection of features. The distance-aware aggregator strives to summarize the generated features and filter out misleading information for more representative internal properties. To enhance the discrimination of distilled internal information, we present a novel loss function called domain-relevant contrastive regularization, which encourages the internal features generated from the same domain more similar and that from diverse domains more distinct. The generated representative and discriminative features are regarded as some external variables of our dehazing network to regress a particular and powerful function for a given domain. The extensive experiments on real hazy datasets, such as RTTS and URHI, validate that our proposed method has superior generalization ability than the state-of-the-art competitors.

Published
2022

27. Visual Semantic Segmentation Based on Few/Zero-Shot Learning: An Overview

Author

Ren, Wenqi, Tang, Yang, Sun, Qiyu, Zhao, Chaoqiang, and Han, Qing-Long

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Visual semantic segmentation aims at separating a visual sample into diverse blocks with specific semantic attributes and identifying the category for each block, and it plays a crucial role in environmental perception. Conventional learning-based visual semantic segmentation approaches count heavily on large-scale training data with dense annotations and consistently fail to estimate accurate semantic labels for unseen categories. This obstruction spurs a craze for studying visual semantic segmentation with the assistance of few/zero-shot learning. The emergence and rapid progress of few/zero-shot visual semantic segmentation make it possible to learn unseen-category from a few labeled or zero-labeled samples, which advances the extension to practical applications. Therefore, this paper focuses on the recently published few/zero-shot visual semantic segmentation methods varying from 2D to 3D space and explores the commonalities and discrepancies of technical settlements under different segmentation circumstances. Specifically, the preliminaries on few/zero-shot visual semantic segmentation, including the problem definitions, typical datasets, and technical remedies, are briefly reviewed and discussed. Moreover, three typical instantiations are involved to uncover the interactions of few/zero-shot learning with visual semantic segmentation, including image semantic segmentation, video object segmentation, and 3D segmentation. Finally, the future challenges of few/zero-shot visual semantic segmentation are discussed.

Published
2022

28. DevNet: Self-supervised Monocular Depth Learning via Density Volume Construction

Author

Zhou, Kaichen, Hong, Lanqing, Chen, Changhao, Xu, Hang, Ye, Chaoqiang, Hu, Qingyong, and Li, Zhenguo

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Self-supervised depth learning from monocular images normally relies on the 2D pixel-wise photometric relation between temporally adjacent image frames. However, they neither fully exploit the 3D point-wise geometric correspondences, nor effectively tackle the ambiguities in the photometric warping caused by occlusions or illumination inconsistency. To address these problems, this work proposes Density Volume Construction Network (DevNet), a novel self-supervised monocular depth learning framework, that can consider 3D spatial information, and exploit stronger geometric constraints among adjacent camera frustums. Instead of directly regressing the pixel value from a single image, our DevNet divides the camera frustum into multiple parallel planes and predicts the pointwise occlusion probability density on each plane. The final depth map is generated by integrating the density along corresponding rays. During the training process, novel regularization strategies and loss functions are introduced to mitigate photometric ambiguities and overfitting. Without obviously enlarging model parameters size or running time, DevNet outperforms several representative baselines on both the KITTI-2015 outdoor dataset and NYU-V2 indoor dataset. In particular, the root-mean-square-deviation is reduced by around 4% with DevNet on both KITTI-2015 and NYU-V2 in the task of depth estimation. Code is available at https://github.com/gitkaichenzhou/DevNet., Comment: Accepted by European Conference on Computer Vision 2022 (ECCV2022)

Published
2022

29. Toripalimab plus nab-paclitaxel in metastatic or recurrent triple-negative breast cancer: a randomized phase 3 trial

Author

Jiang, Zefei, Ouyang, Quchang, Sun, Tao, Zhang, Qingyuan, Teng, Yuee, Cui, Jiuwei, Wang, Haibo, Yin, Yongmei, Wang, Xiaojia, Zhou, Xin, Wang, Yongsheng, Sun, Gang, Wang, Jingfen, Zhang, Lili, Yang, Jin, Qian, Jun, Yan, Min, Liu, Xinlan, Yi, Tienan, Cheng, Ying, Li, Man, Zang, Aimin, Wang, Shusen, Wang, Chuan, Wu, Xinhong, Cheng, Jing, Li, Hui, Lin, Ying, Geng, Cuizhi, Gu, Kangsheng, Xie, Chunwei, Xiong, Huihua, Wu, Xiaohong, Yang, Junlan, Li, Qingshan, Chen, Yiding, Li, Fanfan, Zhang, Anqin, Zhang, Yongqiang, Wu, Yudong, Nie, Jianyun, Liu, Qiang, Wang, Kun, Mo, Xueli, Chen, Lilin, Pan, Yueyin, Fu, Peifen, Zhang, Helong, Pang, Danmei, Sheng, Yuan, Han, Yunwei, Wang, Hongxia, Cang, Shundong, Luo, Xianming, Yu, Wenbo, Deng, Rong, Yang, Chaoqiang, and Keegan, Patricia

Published
2024
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32. MonoViT: Self-Supervised Monocular Depth Estimation with a Vision Transformer

Author

Zhao, Chaoqiang, Zhang, Youmin, Poggi, Matteo, Tosi, Fabio, Guo, Xianda, Zhu, Zheng, Huang, Guan, Tang, Yang, and Mattoccia, Stefano

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Self-supervised monocular depth estimation is an attractive solution that does not require hard-to-source depth labels for training. Convolutional neural networks (CNNs) have recently achieved great success in this task. However, their limited receptive field constrains existing network architectures to reason only locally, dampening the effectiveness of the self-supervised paradigm. In the light of the recent successes achieved by Vision Transformers (ViTs), we propose MonoViT, a brand-new framework combining the global reasoning enabled by ViT models with the flexibility of self-supervised monocular depth estimation. By combining plain convolutions with Transformer blocks, our model can reason locally and globally, yielding depth prediction at a higher level of detail and accuracy, allowing MonoViT to achieve state-of-the-art performance on the established KITTI dataset. Moreover, MonoViT proves its superior generalization capacities on other datasets such as Make3D and DrivingStereo., Comment: Accepted by 3DV 2022

Published
2022
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33. The Overlooked Cornerstone in Precise Medicine: Personalized Postoperative Surveillance Plan for NSCLC

Author

Chenyu Jiang, MD, Yang Zhang, MD, Penghao Deng, MD, Han Lin, MD, Fangqiu Fu, MD, Chaoqiang Deng, MD, and Haiquan Chen, MD, PhD

Subjects
NSCLC, Postoperative surveillance, Tumor recurrence, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

Non-small cell lung cancer recurrence after curative-intent surgery remains a challenge despite advancements in treatment. We review postoperative surveillance strategies and their impact on overall survival, highlighting recommendations from clinical guidelines and controversies. Studies suggest no clear benefit from more intensive imaging, whereas computed tomography scans reveal promise in detecting recurrence. For early-stage disease, including ground-glass opacities and adenocarcinoma in situ or minimally invasive adenocarcinoma, less frequent surveillance may suffice owing to favorable prognosis. Liquid biopsy, especially circulating tumor deoxyribonucleic acid, holds potential for detecting minimal residual disease. Clinicopathologic factors and genomic profiles can also provide information about site-specific metastases. Machine learning may enable personalized surveillance plans on the basis of multi-omics data. Although precision medicine transforms non-small cell lung cancer treatment, optimizing surveillance strategies remains essential. Tailored surveillance strategies and emerging technologies may enhance early detection and improve patients’ survival, necessitating further research for evidence-based protocols.

Published
2024
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34. Analyzing Mushroom Structural Patterns of a Highly Compressible and Expandable Hemostatic Foam for Gastric Perforation Repair

Author

Zhenzhen Shu, En Liu, Yu Huang, Qiang Luo, Tongchuan Wang, Xin Li, Kibret Mequanint, Shiming Yang, Malcolm Xing, and Chaoqiang Fan

Subjects
asymmetric hemostasis, gastric perforation, golden ratio in layered structure, gradient porous structure, mathematic modeling for 3D printing, super‐compressive elasticity, Science
Abstract

Abstract Nature presents the most beautiful patterns through evolving. Here, a layered porous pattern in golden ratio (0.618) is reported from a type of mushroom ‐Dictyophora Rubrovalvata stipe (DRS). The hierarchical structure shows a mathematical correlation with the golden ratio. This unique structure leads to superior mechanical properties. The gradient porous structure from outside to innermost endows it with asymmetrical hydrophilicity. A mathematical model is then developed to predict and apply to 3D printed structures. The mushroom is then explored to repair gastric perforation because the stomach is a continuous peristaltic organ, and the perforated site is subject to repeated mechanical movements and pressure changes. At present, endoscopic clipping is ineffective in treating ulcerative perforation with fragile surrounding tissues. Although endoscopic implant occlusion provides a new direction for the treatment of gastric ulcers, but the metal or plastic occluder needs to be removed, requiring a second intervention. Decellularized DRS (DDRS) is found with asymmetric water absorption rate, super‐compressive elasticity, shape memory, and biocompatibility, making it a suitable occluder for the gastric perforation. The efficacy in blocking gastric perforation and promoting healing is confirmed by endoscopic observation and tissue analysis during a 2‐month study.

Published
2024
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35. ONCE-3DLanes: Building Monocular 3D Lane Detection

Author

Yan, Fan, Nie, Ming, Cai, Xinyue, Han, Jianhua, Xu, Hang, Yang, Zhen, Ye, Chaoqiang, Fu, Yanwei, Mi, Michael Bi, and Zhang, Li

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

We present ONCE-3DLanes, a real-world autonomous driving dataset with lane layout annotation in 3D space. Conventional 2D lane detection from a monocular image yields poor performance of following planning and control tasks in autonomous driving due to the case of uneven road. Predicting the 3D lane layout is thus necessary and enables effective and safe driving. However, existing 3D lane detection datasets are either unpublished or synthesized from a simulated environment, severely hampering the development of this field. In this paper, we take steps towards addressing these issues. By exploiting the explicit relationship between point clouds and image pixels, a dataset annotation pipeline is designed to automatically generate high-quality 3D lane locations from 2D lane annotations in 211K road scenes. In addition, we present an extrinsic-free, anchor-free method, called SALAD, regressing the 3D coordinates of lanes in image view without converting the feature map into the bird's-eye view (BEV). To facilitate future research on 3D lane detection, we benchmark the dataset and provide a novel evaluation metric, performing extensive experiments of both existing approaches and our proposed method. The aim of our work is to revive the interest of 3D lane detection in a real-world scenario. We believe our work can lead to the expected and unexpected innovations in both academia and industry., Comment: CVPR 2022. Project page at https://once-3dlanes.github.io

Published
2022

36. Learn to Adapt for Monocular Depth Estimation

Author

Sun, Qiyu, Yen, Gary G., Tang, Yang, and Zhao, Chaoqiang

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

Monocular depth estimation is one of the fundamental tasks in environmental perception and has achieved tremendous progress in virtue of deep learning. However, the performance of trained models tends to degrade or deteriorate when employed on other new datasets due to the gap between different datasets. Though some methods utilize domain adaptation technologies to jointly train different domains and narrow the gap between them, the trained models cannot generalize to new domains that are not involved in training. To boost the transferability of depth estimation models, we propose an adversarial depth estimation task and train the model in the pipeline of meta-learning. Our proposed adversarial task mitigates the issue of meta-overfitting, since the network is trained in an adversarial manner and aims to extract domain invariant representations. In addition, we propose a constraint to impose upon cross-task depth consistency to compel the depth estimation to be identical in different adversarial tasks, which improves the performance of our method and smoothens the training process. Experiments demonstrate that our method adapts well to new datasets after few training steps during the test procedure.

Published
2022

37. CODA: A Real-World Road Corner Case Dataset for Object Detection in Autonomous Driving

Author

Li, Kaican, Chen, Kai, Wang, Haoyu, Hong, Lanqing, Ye, Chaoqiang, Han, Jianhua, Chen, Yukuai, Zhang, Wei, Xu, Chunjing, Yeung, Dit-Yan, Liang, Xiaodan, Li, Zhenguo, and Xu, Hang

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning, Computer Science - Robotics
Abstract

Contemporary deep-learning object detection methods for autonomous driving usually assume prefixed categories of common traffic participants, such as pedestrians and cars. Most existing detectors are unable to detect uncommon objects and corner cases (e.g., a dog crossing a street), which may lead to severe accidents in some situations, making the timeline for the real-world application of reliable autonomous driving uncertain. One main reason that impedes the development of truly reliably self-driving systems is the lack of public datasets for evaluating the performance of object detectors on corner cases. Hence, we introduce a challenging dataset named CODA that exposes this critical problem of vision-based detectors. The dataset consists of 1500 carefully selected real-world driving scenes, each containing four object-level corner cases (on average), spanning more than 30 object categories. On CODA, the performance of standard object detectors trained on large-scale autonomous driving datasets significantly drops to no more than 12.8% in mAR. Moreover, we experiment with the state-of-the-art open-world object detector and find that it also fails to reliably identify the novel objects in CODA, suggesting that a robust perception system for autonomous driving is probably still far from reach. We expect our CODA dataset to facilitate further research in reliable detection for real-world autonomous driving. Our dataset will be released at https://coda-dataset.github.io., Comment: ECCV 2022

Published
2022

46. Adjustable High Current Low Profile Sandwich Inductor Using Nanocrystalline Flake Ribbon Core

Author

Xinru Li, Mingxiao Li, Luke Shillaber, Borong Hu, Zhichao Luo, Chaoqiang Jiang, and Teng Long

Subjects
High current, high frequency magnetics, nanocrystalline, planar inductor, voltage regulator (VR), Electrical engineering. Electronics. Nuclear engineering, TK1-9971
Abstract

Compact and high current inductors determine the power density and efficiency of voltage regulators (VRs) for computing ICs. Conventional moulding structures using powder cores and gapped ferrite cores are reaching the limits of size miniaturization. In this paper, a sandwich-structured inductor using 2D magnetic nanocrystalline flake ribbon (NFR) is developed to achieve high current density and low height. The analytical models of inductance and conduction losses are developed and validated by finite element methods and experiments. A 5 to 1 V, 50 A, VR is built to compare the performance of the fabricated NFR sandwich inductor to the latest commercial counterpart. Thermal performance is investigated, stability tests under solder iron heat and reflow temperature are performed. The fabricated sandwich inductor is featured as simple structure, low profile, low DC resistance (DCR), high saturation current, soldering heat stable, but in the modest compromise of the AC conduction and core losses.

Published
2024
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49. Associations of daytime napping and nighttime sleep quality with depressive symptoms in older Chinese: the Guangzhou biobank cohort study

Author

Weisen Zhang, Baijing Zhou, Chaoqiang Jiang, Yali Jin, Tong Zhu, Feng Zhu, Kar Keung Cheng, Tai Hing Lam, and Lin Xu

Subjects
Depressive symptoms, Daytime napping, Nighttime sleep quality, Older people, Guangzhou biobank cohort study, Geriatrics, RC952-954.6
Abstract

Abstract Background Poor sleep quality has been linked to depression in older adults, but results of the association between daytime napping and depression remains limited and conflicting. Moreover, whether the association of daytime napping with depression varies by nighttime sleep quality is unclear. Hence, we examined the associations of daytime napping and nighttime sleep quality with depressive symptoms in older Chinese. Methods A total of 16,786 participants aged ≥50 from the Guangzhou Biobank Cohort Study second-round examination (2008–2012) were included in this cross-sectional study. Geriatric Depression Scale (GDS-15), Pittsburgh Sleep Quality Index (PSQI), napping and demographic data were collected by face-to-face interview using a computerized questionnaire. Logistic regression was used to calculate odds ratio (OR) of depressive symptoms for napping and sleep quality. Results The prevalence of depressive symptoms (GDS score > 5) and poor global sleep quality (PSQI score ≥ 6) was 5.3 and 31.9%, respectively. Compared to non-nappers, nappers showed significantly higher odds of depressive symptoms, with OR (95% confidence interval (CI)) being 1.28 (1.11–1.49). The odds of depressive symptoms for daytime napping varied by nighttime sleep quality (P for interaction = 0.04). In good-quality sleepers, compared to non-nappers, nappers had significantly higher odds of depressive symptoms, with OR (95% CI) being 1.57 (1.23–2.01), whereas no association was found in poor-quality sleepers (OR = 1.13, 0.94–1.36). Conclusion Napping was associated with higher odds of depressive symptoms in older people, and the association was stronger in good-quality sleepers.

Published
2023
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