Your search keyword '"Fu, Yingkai"' showing total 11 results

1. Distractor-aware Event-based Tracking

Author

Fu, Yingkai, Li, Meng, Liu, Wenxi, Wang, Yuanchen, Zhang, Jiqing, Yin, Baocai, Wei, Xiaopeng, and Yang, Xin

Subjects

Computer Science - Computer Vision and Pattern Recognition

Abstract

Event cameras, or dynamic vision sensors, have recently achieved success from fundamental vision tasks to high-level vision researches. Due to its ability to asynchronously capture light intensity changes, event camera has an inherent advantage to capture moving objects in challenging scenarios including objects under low light, high dynamic range, or fast moving objects. Thus event camera are natural for visual object tracking. However, the current event-based trackers derived from RGB trackers simply modify the input images to event frames and still follow conventional tracking pipeline that mainly focus on object texture for target distinction. As a result, the trackers may not be robust dealing with challenging scenarios such as moving cameras and cluttered foreground. In this paper, we propose a distractor-aware event-based tracker that introduces transformer modules into Siamese network architecture (named DANet). Specifically, our model is mainly composed of a motion-aware network and a target-aware network, which simultaneously exploits both motion cues and object contours from event data, so as to discover motion objects and identify the target object by removing dynamic distractors. Our DANet can be trained in an end-to-end manner without any post-processing and can run at over 80 FPS on a single V100. We conduct comprehensive experiments on two large event tracking datasets to validate the proposed model. We demonstrate that our tracker has superior performance against the state-of-the-art trackers in terms of both accuracy and efficiency.

Published

2023

2. A Universal Event-Based Plug-In Module for Visual Object Tracking in Degraded Conditions

Author

Zhang, Jiqing, Dong, Bo, Fu, Yingkai, Wang, Yuanchen, Wei, Xiaopeng, Yin, Baocai, and Yang, Xin

Published

2024

3. Regulating the broadband near-infrared emission of Eu2+-doped Ca3Sc2Si3O12 phosphors through constructing defect for diversified applications

Author

Jiang, Chao, Liu, Quan, Li, Kaiyang, Feng, Yubo, Fu, Yingkai, Li, Yue, Zhang, Yicheng, Qian, Xu, Wei, Bo, and Du, Peng

Published

2024

4. Octahedron vacancy induced luminescence improvement of double perovskite type phosphors LaMg2/3-xNb1/3O3:Mn4+ with multifunctional applications

Author

Zhang, Bing, Liu, Mengjie, Zhu, Yi, Feng, Yubo, Fu, Yingkai, Zhang, Boxuan, Li, Kaiyang, Zheng, Zhi, Sun, Jiaqi, Zhan, Zhibin, Yuan, Ting, Qian, Xu, and Liu, Quan

Published

2024

5. Object Tracking by Jointly Exploiting Frame and Event Domain

Author

Zhang, Jiqing, Yang, Xin, Fu, Yingkai, Wei, Xiaopeng, Yin, Baocai, and Dong, Bo

Subjects

Computer Science - Computer Vision and Pattern Recognition

Abstract

Inspired by the complementarity between conventional frame-based and bio-inspired event-based cameras, we propose a multi-modal based approach to fuse visual cues from the frame- and event-domain to enhance the single object tracking performance, especially in degraded conditions (e.g., scenes with high dynamic range, low light, and fast-motion objects). The proposed approach can effectively and adaptively combine meaningful information from both domains. Our approach's effectiveness is enforced by a novel designed cross-domain attention schemes, which can effectively enhance features based on self- and cross-domain attention schemes; The adaptiveness is guarded by a specially designed weighting scheme, which can adaptively balance the contribution of the two domains. To exploit event-based visual cues in single-object tracking, we construct a large-scale frame-event-based dataset, which we subsequently employ to train a novel frame-event fusion based model. Extensive experiments show that the proposed approach outperforms state-of-the-art frame-based tracking methods by at least 10.4% and 11.9% in terms of representative success rate and precision rate, respectively. Besides, the effectiveness of each key component of our approach is evidenced by our thorough ablation study.

Published

2021

6. Multi-domain Collaborative Feature Representation for Robust Visual Object Tracking

Author

Zhang, Jiqing, Zhao, Kai, Dong, Bo, Fu, Yingkai, Wang, Yuxin, Yang, Xin, and Yin, Baocai

Subjects

Computer Science - Computer Vision and Pattern Recognition

Abstract

Jointly exploiting multiple different yet complementary domain information has been proven to be an effective way to perform robust object tracking. This paper focuses on effectively representing and utilizing complementary features from the frame domain and event domain for boosting object tracking performance in challenge scenarios. Specifically, we propose Common Features Extractor (CFE) to learn potential common representations from the RGB domain and event domain. For learning the unique features of the two domains, we utilize a Unique Extractor for Event (UEE) based on Spiking Neural Networks to extract edge cues in the event domain which may be missed in RGB in some challenging conditions, and a Unique Extractor for RGB (UER) based on Deep Convolutional Neural Networks to extract texture and semantic information in RGB domain. Extensive experiments on standard RGB benchmark and real event tracking dataset demonstrate the effectiveness of the proposed approach. We show our approach outperforms all compared state-of-the-art tracking algorithms and verify event-based data is a powerful cue for tracking in challenging scenes.

Published

2021

7. Luminescence improvement of Gd3Ga5O12:Cr3+,Bi3+ NIR phosphor with superior thermal stability for plant cultivation

Author

Li, Kaiyang, Chen, Xinhe, Feng, Yubo, Fu, Yingkai, Chen, Pengyu, Lu, Jiachen, Wei, Bo, Zheng, Lixue, Tao, Junjun, and Liu, Quan

Published

2024

8. Structure regulation and luminescence improvement of Gd3Ga5O12:Cr3+: An anti-thermal quenching NIR phosphor for multifunctional applications

Author

Zhang, Bing, Feng, Yubo, Fu, Yingkai, Li, Kaiyang, Liu, Mengjie, Zhang, Boxuan, Zhang, Yicheng, Sun, Jiaqi, Zhang, Chaohui, Qian, Xu, Wang, Zhenling, and Liu, Quan

Published

2024

9. Prediction of anti-destructive ability of high stress soft rock roadway support based on machine learning

Author

DENG Guangzhe, FU Yingkai

Subjects

support and anti-destruction, ability prediction, machine learning, soft rock plasticity, deformation mechanism, gourd structure model, roadway support, Mining engineering. Metallurgy, TN1-997

Abstract

In order to avoid the problems of the traditional prediction methods in the prediction of the support anti-destruction ability of the high stress soft rock roadway, a prediction method of the support anti-destruction ability of the high stress soft rock roadway based on machine learning is proposed. Firstly, according to the physical and mechanical properties of the rock, the strength characteristics of the soft rock are analyzed. At the same time, under the support of support construction model, the rheological characteristics of surrounding rock of soft rock roadway are analyzed, and the characteristics of high stress soft rock roadway are studied. Then, according to the plastic deformation mechanism of soft rock, the corresponding relationship among elastic zone, plastic hardening zone, plastic softening zone and plastic flow zone is determined, and the resultant force of surrounding rock movement to the free area is calculated to determine the optimal support time. The machine learning method simplifies the support structure of high stress soft rock roadway into a gourd structure model, calculates the external force, and determines the support structure quality parameter matrix of high stress soft rock roadway. By comparing the three conventional methods, it can be seen that the prediction accuracy of this method is higher under three kinds of different failure strength.

Published

2021

10. Study on Pressure Relief Effect of Overlying Coal and Rock Mass in Mining Under Protective Layer

Author

DENG Guangzhe, FU Yingkai, YANG Dong

Subjects

lower protective seam, swelling deformation, protection scope, numerical simulation, borehole television, Mining engineering. Metallurgy, TN1-997

Abstract

In order to explore the pressure relief effect of mining under protective seam on overlying strata in Jincheng Mining Area, the engineering background of mining 9# coal seam as the protective seam of 3# coal seam was studied. The effect of pressure relief of overlying coal and rock mass and the law of swelling deformation of coal mass in protected seam after mining of lower protective seam are studied by numerical simulation, and the effective protection scope is determined. The results show that after the mining of protective seam, the pressure relief effect of overlying coal and rock mass appears in different zones, and the pressure relief effect decreases with the increase of vertical distance from the working face. The inclined pressure relief angle of the protected seam is 63 degrees and the strike pressure relief angle is 60 degrees. The swelling deformation rate of the protected seam in the middle of the goaf is about 4‰, which is a stable pressure relief area. After field test, it was found by borehole television that coal of the protected seam appears separation fissure affected by mining. The coal seam gas parameters shows that the gas content and gas pressure of the protected seam are reduced to 50% and 60% before mining, respectively.

Published

2020

11. Distractor-aware Event-based Tracking

Author

Fu, Yingkai, primary, Li, Meng, additional, Liu, Wenxi, additional, Wang, Yuanchen, additional, Zhang, Jiqing, additional, Yin, Baocai, additional, Wei, Xiaopeng, additional, and Yang, Xin, additional

Published

2023