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1. Beyond Euclidean: Dual-Space Representation Learning for Weakly Supervised Video Violence Detection

Author

Leng, Jiaxu, Wu, Zhanjie, Tan, Mingpi, Liu, Yiran, Gan, Ji, Chen, Haosheng, and Gao, Xinbo

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

While numerous Video Violence Detection (VVD) methods have focused on representation learning in Euclidean space, they struggle to learn sufficiently discriminative features, leading to weaknesses in recognizing normal events that are visually similar to violent events (\emph{i.e.}, ambiguous violence). In contrast, hyperbolic representation learning, renowned for its ability to model hierarchical and complex relationships between events, has the potential to amplify the discrimination between visually similar events. Inspired by these, we develop a novel Dual-Space Representation Learning (DSRL) method for weakly supervised VVD to utilize the strength of both Euclidean and hyperbolic geometries, capturing the visual features of events while also exploring the intrinsic relations between events, thereby enhancing the discriminative capacity of the features. DSRL employs a novel information aggregation strategy to progressively learn event context in hyperbolic spaces, which selects aggregation nodes through layer-sensitive hyperbolic association degrees constrained by hyperbolic Dirichlet energy. Furthermore, DSRL attempts to break the cyber-balkanization of different spaces, utilizing cross-space attention to facilitate information interactions between Euclidean and hyperbolic space to capture better discriminative features for final violence detection. Comprehensive experiments demonstrate the effectiveness of our proposed DSRL., Comment: Accepted by NeurIPS 2024

Published
2024

2. CLIP-Driven Cloth-Agnostic Feature Learning for Cloth-Changing Person Re-Identification

Author

Li, Shuang, Leng, Jiaxu, Li, Guozhang, Gan, Ji, chen, Haosheng, and Gao, Xinbo

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Contrastive Language-Image Pre-Training (CLIP) has shown impressive performance in short-term Person Re-Identification (ReID) due to its ability to extract high-level semantic features of pedestrians, yet its direct application to Cloth-Changing Person Re-Identification (CC-ReID) faces challenges due to CLIP's image encoder overly focusing on clothes clues. To address this, we propose a novel framework called CLIP-Driven Cloth-Agnostic Feature Learning (CCAF) for CC-ReID. Accordingly, two modules were custom-designed: the Invariant Feature Prompting (IFP) and the Clothes Feature Minimization (CFM). These modules guide the model to extract cloth-agnostic features positively and attenuate clothes-related features negatively. Specifically, IFP is designed to extract fine-grained semantic features unrelated to clothes from the raw image, guided by the cloth-agnostic text prompts. This module first covers the clothes in the raw image at the pixel level to obtain the shielding image and then utilizes CLIP's knowledge to generate cloth-agnostic text prompts. Subsequently, it aligns the raw image-text and the raw image-shielding image in the feature space, emphasizing discriminative clues related to identity but unrelated to clothes. Furthermore, CFM is designed to examine and weaken the image encoder's ability to extract clothes features. It first generates text prompts corresponding to clothes pixels. Then, guided by these clothes text prompts, it iteratively examines and disentangles clothes features from pedestrian features, ultimately retaining inherent discriminative features. Extensive experiments have demonstrated the effectiveness of the proposed CCAF, achieving new state-of-the-art performance on several popular CC-ReID benchmarks without any additional inference time.

Published
2024

4. Event Data Association via Robust Model Fitting for Event-based Object Tracking

Author

Chen, Haosheng, Lin, Shuyuan, Yan, Yan, Wang, Hanzi, and Gao, Xinbo

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Event-based approaches, which are based on bio-inspired asynchronous event cameras, have achieved promising performance on various computer vision tasks. However, the study of the fundamental event data association problem is still in its infancy. In this paper, we propose a novel Event Data Association (called EDA) approach to explicitly address the event association and fusion problem. The proposed EDA seeks for event trajectories that best fit the event data, in order to perform unifying data association and information fusion. In EDA, we first asynchronously fuse the event data based on its information entropy. Then, we introduce a deterministic model hypothesis generation strategy, which effectively generates model hypotheses from the fused events, to represent the corresponding event trajectories. After that, we present a two-stage weighting algorithm, which robustly weighs and selects true models from the generated model hypotheses, through multi-structural geometric model fitting. Meanwhile, we also propose an adaptive model selection strategy to automatically determine the number of the true models. Finally, we use the selected true models to associate and fuse the event data, without being affected by sensor noise and irrelevant structures. We evaluate the performance of the proposed EDA on the object tracking task. The experimental results show the effectiveness of EDA under challenging scenarios, such as high speed, motion blur, and high dynamic range conditions., Comment: 32 pages, 7 figures

Published
2021

7. Robust Visual Tracking via Statistical Positive Sample Generation and Gradient Aware Learning

Author

Lin, Lijian, Chen, Haosheng, Liang, Yanjie, Yan, Yan, and Wang, Hanzi

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

In recent years, Convolutional Neural Network (CNN) based trackers have achieved state-of-the-art performance on multiple benchmark datasets. Most of these trackers train a binary classifier to distinguish the target from its background. However, they suffer from two limitations. Firstly, these trackers cannot effectively handle significant appearance variations due to the limited number of positive samples. Secondly, there exists a significant imbalance of gradient contributions between easy and hard samples, where the easy samples usually dominate the computation of gradient. In this paper, we propose a robust tracking method via Statistical Positive sample generation and Gradient Aware learning (SPGA) to address the above two limitations. To enrich the diversity of positive samples, we present an effective and efficient statistical positive sample generation algorithm to generate positive samples in the feature space. Furthermore, to handle the issue of imbalance between easy and hard samples, we propose a gradient sensitive loss to harmonize the gradient contributions between easy and hard samples. Extensive experiments on three challenging benchmark datasets including OTB50, OTB100 and VOT2016 demonstrate that the proposed SPGA performs favorably against several state-of-the-art trackers., Comment: 6 pages

Published
2020
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8. Dual Semantic Fusion Network for Video Object Detection

Author

Lin, Lijian, Chen, Haosheng, Zhang, Honglun, Liang, Jun, Li, Yu, Shan, Ying, and Wang, Hanzi

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Video object detection is a tough task due to the deteriorated quality of video sequences captured under complex environments. Currently, this area is dominated by a series of feature enhancement based methods, which distill beneficial semantic information from multiple frames and generate enhanced features through fusing the distilled information. However, the distillation and fusion operations are usually performed at either frame level or instance level with external guidance using additional information, such as optical flow and feature memory. In this work, we propose a dual semantic fusion network (abbreviated as DSFNet) to fully exploit both frame-level and instance-level semantics in a unified fusion framework without external guidance. Moreover, we introduce a geometric similarity measure into the fusion process to alleviate the influence of information distortion caused by noise. As a result, the proposed DSFNet can generate more robust features through the multi-granularity fusion and avoid being affected by the instability of external guidance. To evaluate the proposed DSFNet, we conduct extensive experiments on the ImageNet VID dataset. Notably, the proposed dual semantic fusion network achieves, to the best of our knowledge, the best performance of 84.1\% mAP among the current state-of-the-art video object detectors with ResNet-101 and 85.4\% mAP with ResNeXt-101 without using any post-processing steps., Comment: 9 pages,6 figures

Published
2020
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9. End-to-end Learning of Object Motion Estimation from Retinal Events for Event-based Object Tracking

Author

Chen, Haosheng, Suter, David, Wu, Qiangqiang, and Wang, Hanzi

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Event cameras, which are asynchronous bio-inspired vision sensors, have shown great potential in computer vision and artificial intelligence. However, the application of event cameras to object-level motion estimation or tracking is still in its infancy. The main idea behind this work is to propose a novel deep neural network to learn and regress a parametric object-level motion/transform model for event-based object tracking. To achieve this goal, we propose a synchronous Time-Surface with Linear Time Decay (TSLTD) representation, which effectively encodes the spatio-temporal information of asynchronous retinal events into TSLTD frames with clear motion patterns. We feed the sequence of TSLTD frames to a novel Retinal Motion Regression Network (RMRNet) to perform an end-to-end 5-DoF object motion regression. Our method is compared with state-of-the-art object tracking methods, that are based on conventional cameras or event cameras. The experimental results show the superiority of our method in handling various challenging environments such as fast motion and low illumination conditions., Comment: 9 pages, 3 figures

Published
2020
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10. Asynchronous Tracking-by-Detection on Adaptive Time Surfaces for Event-based Object Tracking

Author

Chen, Haosheng, Wu, Qiangqiang, Liang, Yanjie, Gao, Xinbo, and Wang, Hanzi

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Event cameras, which are asynchronous bio-inspired vision sensors, have shown great potential in a variety of situations, such as fast motion and low illumination scenes. However, most of the event-based object tracking methods are designed for scenarios with untextured objects and uncluttered backgrounds. There are few event-based object tracking methods that support bounding box-based object tracking. The main idea behind this work is to propose an asynchronous Event-based Tracking-by-Detection (ETD) method for generic bounding box-based object tracking. To achieve this goal, we present an Adaptive Time-Surface with Linear Time Decay (ATSLTD) event-to-frame conversion algorithm, which asynchronously and effectively warps the spatio-temporal information of asynchronous retinal events to a sequence of ATSLTD frames with clear object contours. We feed the sequence of ATSLTD frames to the proposed ETD method to perform accurate and efficient object tracking, which leverages the high temporal resolution property of event cameras. We compare the proposed ETD method with seven popular object tracking methods, that are based on conventional cameras or event cameras, and two variants of ETD. The experimental results show the superiority of the proposed ETD method in handling various challenging environments., Comment: 9 pages, 5 figures

Published
2020
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13. Enhanced separation of aged RBCs by designing channel cross section.

Author

Chen, Yuanyuan, Feng, Yuzhen, Wan, Jiandi, and Chen, Haosheng

Subjects
Blood, Classical Physics, Interdisciplinary Engineering, Nanotechnology, Nanoscience & Nanotechnology
Abstract

Prolonged storage will alter the biophysical properties of red blood cells (RBCs), and it decreases the quality of stored blood for blood transfusion. It has been known that less deformable aged RBCs can be separated by margination, but the recognition of the storage time from the separation efficiency of the stiff RBCs is still a challenge. In this study, we realized enhanced separation of aged RBCs from normal RBCs by controlling the channel cross section and demonstrated that the storage time can be deduced from the percentage of the separated RBCs in the stored RBCs. This separation technology helps to reveal the regulation of time on the RBC aging mechanism and offer a new method to separate stiffened cells with high efficiency.

Published
2018

14. Margination of Stiffened Red Blood Cells Regulated By Vessel Geometry

Author

Chen, Yuanyuan, Li, Donghai, Li, Yongjian, Wan, Jiandi, Li, Jiang, and Chen, Haosheng

Subjects
Fluid Mechanics and Thermal Engineering, Engineering, Blood, Cardiovascular, Animals, Erythrocytes, Mice, Microcirculation, Microfluidic Analytical Techniques, Models, Cardiovascular
Abstract

Margination of stiffened red blood cells has been implicated in many vascular diseases. Here, we report the margination of stiffened RBCs in vivo, and reveal the crucial role of the vessel geometry in the margination by calculations when the blood is seen as viscoelastic fluid. The vessel-geometry-regulated margination is then confirmed by in vitro experiments in microfluidic devices, and it establishes new insights to cell sorting technology and artificial blood vessel fabrication.

Published
2017

18. Joint Spatio-Temporal Similarity and Discrimination Learning for Visual Tracking

Author

Liang, Yanjie, Chen, Haosheng, Wu, Qiangqiang, Xia, Changqun, and Li, Jia

Abstract

Visual tracking is a task of localizing a target unceasingly in a video with an initial target state at the first frame. The limited target information makes this problem an extremely challenging task. Existing tracking methods either perform matching based similarity learning or optimization based discrimination reasoning. However, these two types of tracking methods suffer from the problem of ineffectiveness for distinguishing target objects from background distractors and the problem of insufficiency in maintaining spatio-temporal consistency among successive frames, respectively. In this paper, we design a joint spatio-temporal similarity and discrimination learning (STSDL) framework for accurate and robust tracking. The designed framework is composed of two complementary branches: a similarity learning branch and a discrimination learning branch. The similarity learning branch uses an effective transformer encoder-decoder to gather rich spatio-temporal context information to generate a similarity map. In parallel, the discrimination learning branch exploits an efficient model predictor to train a target model to produce a discriminative map. Finally, the similarity map and the discriminative map are adaptively fused for accurate and robust target localization. Experimental results on six prevalent datasets demonstrate that the proposed STSDL can obtain satisfactory results, while it retains a real-time tracking speed of 50 FPS on a single GPU.

Published
2024
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21. The Effect of Flow Field on the Initial Formation of Thrombus in Ventricular Assist Devices.

Author

Meng, Kuilin, Chen, Haosheng, Zheng, Xiaobing, Pan, Yunfan, and Li, Yongjian

Subjects
HEART assist devices, THROMBOSIS, INDUCTIVE effect, BLOOD platelet activation, SHEAR flow, BLOOD flow
Abstract

Thrombosis is the main reason for the failure of ventricular assist devices (VADs). It has been acknowledged that the platelet activation induced by the nonphysiological blood flow leads to the increased thrombotic risk. However, due to the complicated influence of the VADs' flow field and the difficulty in real‐time in situ observation, the mechanisms and process of thrombus formation in VADs remain unclear. In this work, the process of thrombus formation in VADs in vitro experiments is observed. The thrombus is found to form on the middle of the inlet guide vanes first and it is mainly caused by the immediate activation of platelets induced by the high shear rate of the flow field around the vanes and also affected by the rotation of the impeller. Then, subsequent thrombus is found in the tail of guide vanes and around the axle journal, where the blood flow is stagnated and the platelets are activated by the accumulated bioagonists. These findings clarify that the thrombus formed on the inlet guide vanes and the axle journal are dominated by two different mechanisms. This work provides unique insights into the initial formation of the thrombus on VADs and helps to reduce the thrombotic risk. [ABSTRACT FROM AUTHOR]

Published
2024
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24. Investigation on hydrodynamic lubrication of bearings in a left ventricular assisted device

Author

Zheng, Xiaobing, Li, Yongjian, Chen, Haosheng, Hu, Shengshou, and Zhou, Jianye

Abstract

Formations of clots were found inside the hydrodynamic bearings of the left ventricular assisted devices (LVADs) and caused tremendous risks to the long-term use of these devices. For the hydrodynamic bearings used in the LVAD, not only the lubrication status but also the motion of the blood cells in the bearing will take great effect on the performance of the device. Based on the analysis of the hydrodynamic pressures distribution and the flowing trajectory of red blood cells in the lubrication film, the bearing is designed in a region where enough hydrodynamic pressure is generated to float the rotor to reduce the wear, and the entrainment of red blood cells in the gap of the bearing can be prevented to avoid the formation of clots.

Published
2024
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27. Comparative proteomic analysis of cold responsive proteins in two wheat cultivars with different tolerance to spring radiation frost

Author

Shujuan ZHANG,Guoqi SONG,Yulian LI,Jie GAO,Jiao WANG,Guiju CHEN,Haosheng LI,Genying LI,Zhendong ZHAO

Subjects
common wheat, spring radiation frost, proteomic analysis, 2-DE, MALDI-TOF-TOF MS, Agriculture (General), S1-972
Abstract

Spring radiation frost (SRF) is a severe environmental stress which impairs wheat yield and productivity worldwide. To better understand the mechanism of wheat (Triticum aestivum) responding to SRF, a comparative proteomic analysis was performed to analyze the changes of the key proteins in two wheat cultivars Jimai22 and Luyuan301 with high and low tolerance to SRF respectively. A total of 43 differentially expressed proteins (DEPs) which mainly involved in carbohydrate metabolism, amino acid metabolism, resistance proteins and antioxidant enzymes, photosynthesis and cellular respiration proteins, cell-wall related proteins, protein translation/processing/degradation and signal transduction were isolated and identified by two-dimensional electrophoresis and MALDI-TOF-TOF MS. The results revealed that of the 21 DEPs in Jimai22 responding to the SRF, 13 DEPs were upregulated and 8 DEPs were downregulated, and that of the 22 DEPs in Luyuan301, 9 DEPs were upregulated and 13 DEPs were downregulated. These DEPs might be responsible for the stronger cold resistance of Jimai22 compared to Luyuan301. The expression pattern and function analysis of these DEPs were very significant to understanding the mechanism of the SRF responses in wheat.

Published
2014
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35. Optical properties of organic neodymium complex doped optical waveguides based on the intramolecular energy transfer effect

Author

Zhan, Hong, primary, Zhang, Jing, additional, Fan, Wang, additional, Zhang, Baoping, additional, Ying, Leiying, additional, Xie, Guohua, additional, Lin, Zhensheng, additional, Chen, Haosheng, additional, Long, Hao, additional, Zheng, Zhongming, additional, Zheng, Zhiwei, additional, Xu, Hui, additional, and Zhang, Dan, additional

Published
2020
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41. Calculated journal bearing lubrication of non-Newtonian medium with surface roughness effects

Author

Chen Darong, Li Yongjian, Chen Haosheng, and Wang Jiadao

Subjects
Shearing (physics), Materials science, Mechanical Engineering, Reynolds equation, Non-Newtonian fluid, Condensed Matter::Soft Condensed Matter, Physics::Fluid Dynamics, Viscosity, Lubrication, Newtonian fluid, Surface roughness, Geotechnical engineering, Lubricant, Composite material
Abstract

To analyze the effects of non-Newtonian lubricants and surface roughness in journal bearing lubrication, a modified Reynolds equation is derived. In the equation, differential viscosity and the first normal stress function are defined to specify the rheological properties of non-Newtonian medium. Flow factors are used to specify the effect of surface roughness. The modified Reynolds equation is numerically calculated using super over relaxation method. Numerical results of the lubrication show that the differential viscosity is the principal non-Newtonian property affecting the lubrication, it is determined by the material parameters of the lubricant and is affected by the shearing rate. Under its effect, the load capacity of non-Newtonian lubricants is not always higher or lower than that of Newtonian lubricants’. The effect of the first normal stress difference increases under the conditions of dynamic loading. Surface roughness shows an obvious effect on load capacity when it is greater than one-tenth of the film thickness, and the surface with longitudinal pattern affects the load capacity most. However, surface roughness has less effect on lubrication results than lubricants’ non-Newtonian property.

Published
2006

46. Droplet Micro-Reactor for Internal Gelation to Fabricate ZrO2 Ceramic Microspheres.

Author

Wang, Peiyi, Li, Jiang, Nunes, Janine, Hao, Shaochang, Liu, Bing, Chen, Haosheng, and Lu, K.

Subjects
CERAMIC sculpture -- Design & construction, MICROREACTORS, ZIRCONIUM oxide, SOL-gel processes, SINTERING, PARTICLE size distribution
Abstract

A droplet micro-reactor was developed to realize the internal sol-gel reaction of ZrO2 inside the droplet. The reactants are only allowed to combine when the droplet forms, meanwhile, they are able to mix well and react to form gel particles with a proper designed structure of the micro-reactor. In this condition, the mixing efficiency was determined by the structure of the micro-reactor and the flow rate ratio of the two components. After sintering, ZrO2 ceramic microspheres are acquired with high sphericity and narrow size distribution. This droplet micro-reactor overcomes the gelation of the premixed sol and reactant in the channel, and it has been demonstrated to be more stable with a longer running time. [ABSTRACT FROM AUTHOR]

Published
2017
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47. End-to-end learning of object motion estimation from retinal events for event-based object tracking

Author

Chen, Haosheng, Suter, David, Wu, Qiangqiang, Wang, Hanzi, Chen, Haosheng, Suter, David, Wu, Qiangqiang, and Wang, Hanzi

Abstract

Chen, H., Suter, D., Wu, Q., & Wang, H. (2020). End-to-end learning of object motion estimation from retinal events for event-based object tracking. In Vol. 34 No. 07: AAAI-20 Technical Tracks 7 (pp. 10534-10541). AAAI Press. https://doi.org/10.1609/aaai.v34i07.6625

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