Your search keyword '"Sulei Zhu"' showing total 5 results

1. Parking Lot Traffic Prediction Based on Fusion of Multifaceted Spatio-Temporal Features

Author

Lechuan Zhang, Bin Wang, Qian Zhang, Sulei Zhu, and Yan Ma

Subjects

PGI, traffic flow, parking efficiency, multifaceted spatio-temporal features, spatio-temporal correlation, spatial-temporal graph, Chemical technology, TP1-1185

Abstract

With the rapid growth of population and vehicles, issues such as traffic congestion are becoming increasingly apparent. Parking guidance and information (PGI) systems are becoming more critical, with one of the most important tasks being the prediction of traffic flow in parking lots. Predicting parking traffic can effectively improve parking efficiency and alleviate traffic congestion, traffic accidents, and other problems. However, due to the complex characteristics of parking spatio-temporal data, high levels of noise, and the intricate influence of external factors, there are three challenges to predicting parking traffic in a city effectively: (1) how to better model the nonlinear, asymmetric, and complex spatial relationships among parking lots; (2) how to model the temporal autocorrelation of parking flow more accurately for each parking lot, whether periodic or aperiodic; and (3) how to model the correlation between external influences, such as holiday weekends, POIs (points of interest), and weather factors. In this context, this paper proposes a parking lot traffic prediction model based on the fusion of multifaceted spatio-temporal features (MFF-STGCN). The model consists of a feature embedding module, a spatio-temporal attention mechanism module, and a spatio-temporal convolution module. The feature embedding module embeds external features such as weekend holidays, geographic POIs, and weather features into the time series, the spatio-temporal attention mechanism module captures the dynamic spatio-temporal correlation of parking traffic, and the spatio-temporal convolution module captures the spatio-temporal features by using graph convolution and gated recursion units. Finally, the outputs of adjacent time series, daily series, and weekly series are weighted and fused to obtain the final prediction results, thus predicting the parking lot traffic flow more accurately and effectively. Results on real datasets demonstrate that the proposed model enhances prediction performance.

Published

2024

2. User Re-Identification via Confusion of the Contrastive Distillation Network and Attention Mechanism

Author

Mingming Zhang, Bin Wang, Sulei Zhu, Xiaoping Zhou, Tao Yang, and Xi Zhai

Subjects

user re-identification, contrastive distillation network, transformer, Chemical technology, TP1-1185

Abstract

With the rise of social networks, more and more users share their location on social networks. This gives us a new perspective on the study of user movement patterns. In this paper, we solve the trajectory re-identification task by identifying human movement patterns and then linking unknown trajectories to the user who generated them. Existing solutions generally focus on the location point and the location point information, or a single trajectory, and few studies pay attention to the information between the trajectory and the trajectory. For this reason, in this paper, we propose a new model based on a contrastive distillation network, which uses a contrastive distillation model and attention mechanisms to capture latent semantic information for trajectory sequences and focuses on common key information between pairs of trajectories. Combined with the trajectory library composed of historical trajectories, it not only reduces the number of candidate trajectories but also improves the accuracy of trajectory re-identification. Our extensive experiments on three real-world location-based social network (LBSN) datasets show that our method outperforms existing methods.

Published

2023

3. CrossFuNet: RGB and Depth Cross-Fusion Network for Hand Pose Estimation

Author

Xiaojing Sun, Bin Wang, Longxiang Huang, Qian Zhang, Sulei Zhu, and Yan Ma

Subjects

hand pose estimation, convolutional neural network, RGBD fusion, Chemical technology, TP1-1185

Abstract

Despite recent successes in hand pose estimation from RGB images or depth maps, inherent challenges remain. RGB-based methods suffer from heavy self-occlusions and depth ambiguity. Depth sensors rely heavily on distance and can only be used indoors, thus there are many limitations to the practical application of depth-based methods. The aforementioned challenges have inspired us to combine the two modalities to offset the shortcomings of the other. In this paper, we propose a novel RGB and depth information fusion network to improve the accuracy of 3D hand pose estimation, which is called CrossFuNet. Specifically, the RGB image and the paired depth map are input into two different subnetworks, respectively. The feature maps are fused in the fusion module in which we propose a completely new approach to combine the information from the two modalities. Then, the common method is used to regress the 3D key-points by heatmaps. We validate our model on two public datasets and the results reveal that our model outperforms the state-of-the-art methods.

Published

2021

4. EANet: Depth Estimation Based on EPI of Light Field

Author

Yunzhang Du, Qian Zhang, Dingkang Hua, Jiaqi Hou, Bin Wang, Sulei Zhu, Yan Zhang, and Yun Fang

Subjects

General Immunology and Microbiology, Light, Article Subject, Image Processing, Computer-Assisted, Medicine, General Medicine, Neural Networks, Computer, General Biochemistry, Genetics and Molecular Biology, Research Article

Abstract

The light field is an important way to record the spatial information of the target scene. The purpose of this paper is to obtain depth information through the processing of light field information and provide a basis for intelligent medical treatment. In this paper, we first design an attention module to extract the features of light field images and connect all the features as a feature map to generate an attention image. Then, the attention map is integrated with the convolution layer in the neural network in the form of weights to enhance the weight of the subaperture viewpoint, which is more meaningful for depth estimation. Finally, the obtained initial depth results were optimized. The experimental results show that the MSE, PSNR, and SSIM of the depth map obtained by this method are increased by about 13%, 10 dB, and 4%, respectively, in some scenarios with good performance.

Published

2021

5. CrossFuNet: RGB and Depth Cross-Fusion Network for Hand Pose Estimation

Author

Longxiang Huang, Qian Zhang, Xiaojing Sun, Yan Ma, Sulei Zhu, and Bin Wang

Subjects

Offset (computer science), Computer science, media_common.quotation_subject, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, convolutional neural network, TP1-1185, Biochemistry, Convolutional neural network, Article, hand pose estimation, Analytical Chemistry, Depth map, Computer vision, Electrical and Electronic Engineering, Instrumentation, Pose, media_common, Modalities, RGBD fusion, business.industry, Chemical technology, Ambiguity, Hand, Atomic and Molecular Physics, and Optics, Feature (computer vision), RGB color model, Artificial intelligence, business

Abstract

Despite recent successes in hand pose estimation from RGB images or depth maps, inherent challenges remain. RGB-based methods suffer from heavy self-occlusions and depth ambiguity. Depth sensors rely heavily on distance and can only be used indoors, thus there are many limitations to the practical application of depth-based methods. The aforementioned challenges have inspired us to combine the two modalities to offset the shortcomings of the other. In this paper, we propose a novel RGB and depth information fusion network to improve the accuracy of 3D hand pose estimation, which is called CrossFuNet. Specifically, the RGB image and the paired depth map are input into two different subnetworks, respectively. The feature maps are fused in the fusion module in which we propose a completely new approach to combine the information from the two modalities. Then, the common method is used to regress the 3D key-points by heatmaps. We validate our model on two public datasets and the results reveal that our model outperforms the state-of-the-art methods.

Published

2021