Your search keyword '"Haoxin Chen"' showing total 5 results

1. Crowd Counting Via Cross-Stage Refinement Networks

Author

Haoxin Chen, Yongtuo Liu, Jing Qin, Qiang Wen, Wenxi Liu, Guoqiang Han, and Shengfeng He

Subjects

Network architecture, Computer science, Perspective (graphical), Feature extraction, 02 engineering and technology, computer.software_genre, Computer Graphics and Computer-Aided Design, Prior probability, 0202 electrical engineering, electronic engineering, information engineering, Feature (machine learning), Code (cryptography), 020201 artificial intelligence & image processing, Data mining, Scale (map), computer, Software, Crowd counting

Abstract

Crowd counting is challenging due to unconstrained imaging factors, e.g. , background clutters, non-uniform distribution of people, large scale and perspective variations. Dealing with these problems using deep neural networks requires rich prior knowledge and multi-scale contextual representations. In this paper, we propose a Cross-stage Refinement Network (CRNet) that can refine predicted density maps progressively based on hierarchical multi-level density priors. In particular, CRNet is composed of several fully convolutional networks. They are stacked together recursively with the previous output as the next input, and each of them serves to utilize previous density output to gradually correct prediction errors of crowd areas and refine the predicted density maps at different stages. Cross-stage multi-level density priors are further exploited in our recurrent framework by the cross-stage skip layers based on ConvLSTM. To cope with different challenges of unconstrained crowd scenes, we explore different crowd-specific data augmentation methods to mimic real-world scenarios and enrich crowd feature representations from different aspects. Extensive experiments show the proposed method achieves superior performances against state-of-the-art methods on four widely-used challenging benchmarks in terms of counting accuracy and density map quality. Code and models are available at this https://github.com/lytgftyf/Crowd-Counting-via-Cross-stage-Refinement-Networks .

Published

2020

2. Reciprocal Transformations for Unsupervised Video Object Segmentation

Author

Yongtuo Liu, Wenxi Liu, Haoxin Chen, Guoqiang Han, Sucheng Ren, and Shengfeng He

Subjects

Computer science, business.industry, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Optical flow, Object (computer science), Motion (physics), Transformation (function), Pattern recognition (psychology), Segmentation, Computer vision, Artificial intelligence, Focus (optics), business, Reciprocal

Abstract

Unsupervised video object segmentation (UVOS) aims at segmenting the primary objects in videos without any human intervention. Due to the lack of prior knowledge about the primary objects, identifying them from videos is the major challenge of UVOS. Previous methods often regard the moving objects as primary ones and rely on optical flow to capture the motion cues in videos, but the flow information alone is insufficient to distinguish the primary objects from the background objects that move together. This is because, when the noisy motion features are combined with the appearance features, the localization of the primary objects is misguided. To address this problem, we propose a novel reciprocal transformation network to discover primary objects by correlating three key factors: the intra-frame contrast, the motion cues, and temporal coherence of recurring objects. Each corresponds to a representative type of primary object, and our reciprocal mechanism enables an organic coordination of them to effectively remove ambiguous distractions from videos. Additionally, to exclude the information of the moving background objects from motion features, our transformation module enables to reciprocally transform the appearance features to enhance the motion features, so as to focus on the moving objects with salient appearance while removing the co-moving outliers. Experiments on the public benchmarks demonstrate that our model significantly outperforms the state-of-the-art methods. Code is available at https://github.com/OliverRensu/RTNet.

Published

2021

3. Delving Deep into Many-to-many Attention for Few-shot Video Object Segmentation

Author

Hanjie Wu, Shengfeng He, Nanxuan Zhao, Sucheng Ren, and Haoxin Chen

Subjects

business.industry, Computer science, Pattern recognition (psychology), Benchmark (computing), Segmentation, Computer vision, Artificial intelligence, Image segmentation, Many-to-many (data model), Object (computer science), business, Time complexity, Domain (software engineering)

Abstract

This paper tackles the task of Few-Shot Video Object Segmentation (FSVOS), i.e., segmenting objects in the query videos with certain class specified in a few labeled support images. The key is to model the relationship between the query videos and the support images for propagating the object information. This is a many-to-many problem and often relies on full-rank attention, which is computationally intensive. In this paper, we propose a novel Domain Agent Network (DAN), breaking down the full-rank attention into two smaller ones. We consider one single frame of the query video as the domain agent, bridging between the support images and the query video. Our DAN allows a linear space and time complexity as opposed to the original quadratic form with no loss of performance. In addition, we introduce a learning strategy by combining meta-learning with online learning to further improve the segmentation accuracy. We build a FSVOS benchmark on the Youtube-VIS dataset and conduct experiments to demonstrate that our method outperforms baselines on both computational cost and accuracy, achieving the state-of-the-art performance. Code is available at https://github.com/scutpaul/DANet.

Published

2021

4. Analysis on Transfer Efficiency of Five Different Antenna Configurations in Short-Distance Wireless Power Transfer

Author

Wentao Xiong, Mei Jiang, Guanlong Huang, and Haoxin Chen

Subjects

Electromagnetics, Transfer efficiency, Computer science, ComputerSystemsOrganization_COMPUTER-COMMUNICATIONNETWORKS, Electronic engineering, Wireless power transfer, Antenna (radio), Circular loop, Finite element method, Computer Science::Information Theory, Power (physics), Short distance

Abstract

This paper proposes four newly-designed antenna configurations for the applications of short-distance wireless power transfer. The antennas are developed from a traditional circular loop antenna, which have a structural feature in common that all of them are in enclosed shape. Four proposed designs aim to improve the transfer efficiency. In this work, the transmitting antenna faces to the receiving antenna with a distance of 12 cm in the wireless power transfer system. Results show that two of them have better performance of transferring power than the other two and the conventional design.

Published

2018

5. A Developed Association Rule Model Applied in Electric Energy Customer Service Analysis

Author

Yuheng Chen, Haoxin Chen, and Jian Yin

Subjects

Customer delight, Service quality, Customer retention, Process management, Customer advocacy, Customer profitability, Computer science, Customer satisfaction, Customer intelligence, Customer to customer

Abstract

With the further market reform of electric power industry, customer-oriented marketing concept has been more and more important in electric power enterprises. After doing research on customer service data of an electric power enterprise, we pick up some key factors which might be related to customer satisfaction, and utilize a developed association rule model to mine association rules between these key factors and customer satisfaction, which reflects the close relationship between them. Furthermore, we design metrics that can reflect the changing trend of rule confidence, which helps business officers have an insight into how these factors influence customer satisfaction as time goes on, to effectively improve customer service quality and then win praise of customers. As practical experiments prove, this method can fulfill the goal very well.

Published

2012