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121 results on '"Ren, GuangYu"'

1. Mean Height Aided Post-Processing for Pedestrian Detection

Author

Yuan, Jing, Stathaki, Tania, and Ren, Guangyu

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

The design of pedestrian detectors seldom considers the unique characteristics of this task and usually follows the common strategies for general object detection. To explore the potential of these characteristics, we take the perspective effect in pedestrian datasets as an example and propose the mean height aided suppression for post-processing. This method rejects predictions that fall at levels with a low possibility of containing any pedestrians or that have an abnormal height compared to the average. To achieve this, the existence score and mean height generators are proposed. Comprehensive experiments on various datasets and detectors are performed; the choice of hyper-parameters is discussed in depth. The proposed method is easy to implement and is plug-and-play. Results show that the proposed methods significantly improve detection accuracy when applied to different existing pedestrian detectors and datasets. The combination of mean height aided suppression with particular detectors outperforms state-of-the-art pedestrian detectors on Caltech and Citypersons datasets.

Published
2024

3. Cover

Author

Denison, Edward and Ren, Guangyu

Published
2017

4. Bibliography

Author

Denison, Edward and Ren, Guangyu

Published
2017

5. Index

Author

Denison, Edward and Ren, Guangyu

Published
2017

7. 8. The End

Author

Denison, Edward and Ren, Guangyu

Published
2017

16. Prologue

Author

Denison, Edward and Ren, Guangyu

Published
2017

18. Adaptive Anchor Label Propagation for Transductive Few-Shot Learning

Author

Lazarou, Michalis, Avrithis, Yannis, Ren, Guangyu, and Stathaki, Tania

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Few-shot learning addresses the issue of classifying images using limited labeled data. Exploiting unlabeled data through the use of transductive inference methods such as label propagation has been shown to improve the performance of few-shot learning significantly. Label propagation infers pseudo-labels for unlabeled data by utilizing a constructed graph that exploits the underlying manifold structure of the data. However, a limitation of the existing label propagation approaches is that the positions of all data points are fixed and might be sub-optimal so that the algorithm is not as effective as possible. In this work, we propose a novel algorithm that adapts the feature embeddings of the labeled data by minimizing a differentiable loss function optimizing their positions in the manifold in the process. Our novel algorithm, Adaptive Anchor Label Propagation}, outperforms the standard label propagation algorithm by as much as 7% and 2% in the 1-shot and 5-shot settings respectively. We provide experimental results highlighting the merits of our algorithm on four widely used few-shot benchmark datasets, namely miniImageNet, tieredImageNet, CUB and CIFAR-FS and two commonly used backbones, ResNet12 and WideResNet-28-10. The source code can be found at https://github.com/MichalisLazarou/A2LP., Comment: published in ICIP 2023

Published
2023

19. Multi-Modal Hybrid Learning and Sequential Training for RGB-T Saliency Detection

Author

Ren, Guangyu, Joshi, Jitesh, and Cho, Youngjun

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

RGB-T saliency detection has emerged as an important computer vision task, identifying conspicuous objects in challenging scenes such as dark environments. However, existing methods neglect the characteristics of cross-modal features and rely solely on network structures to fuse RGB and thermal features. To address this, we first propose a Multi-Modal Hybrid loss (MMHL) that comprises supervised and self-supervised loss functions. The supervised loss component of MMHL distinctly utilizes semantic features from different modalities, while the self-supervised loss component reduces the distance between RGB and thermal features. We further consider both spatial and channel information during feature fusion and propose the Hybrid Fusion Module to effectively fuse RGB and thermal features. Lastly, instead of jointly training the network with cross-modal features, we implement a sequential training strategy which performs training only on RGB images in the first stage and then learns cross-modal features in the second stage. This training strategy improves saliency detection performance without computational overhead. Results from performance evaluation and ablation studies demonstrate the superior performance achieved by the proposed method compared with the existing state-of-the-art methods., Comment: 8 Pages main text, 3 pages supplementary information, 12 figures

Published
2023

20. Towards Automated Polyp Segmentation Using Weakly- and Semi-Supervised Learning and Deformable Transformers

Author

Ren, Guangyu, Lazarou, Michalis, Yuan, Jing, and Stathaki, Tania

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Polyp segmentation is a crucial step towards computer-aided diagnosis of colorectal cancer. However, most of the polyp segmentation methods require pixel-wise annotated datasets. Annotated datasets are tedious and time-consuming to produce, especially for physicians who must dedicate their time to their patients. We tackle this issue by proposing a novel framework that can be trained using only weakly annotated images along with exploiting unlabeled images. To this end, we propose three ideas to address this problem, more specifically our contributions are: 1) a novel sparse foreground loss that suppresses false positives and improves weakly-supervised training, 2) a batch-wise weighted consistency loss utilizing predicted segmentation maps from identical networks trained using different initialization during semi-supervised training, 3) a deformable transformer encoder neck for feature enhancement by fusing information across levels and flexible spatial locations. Extensive experimental results demonstrate the merits of our ideas on five challenging datasets outperforming some state-of-the-art fully supervised models. Also, our framework can be utilized to fine-tune models trained on natural image segmentation datasets drastically improving their performance for polyp segmentation and impressively demonstrating superior performance to fully supervised fine-tuning.

Published
2022

21. Effective deep learning methodologies for salient object detection

Author

Ren, Guangyu and Stathaki, Tania

Abstract

Salient object detection has achieved great improvement by using deep neural networks. Diverse challenging problems arise from this computer vision task and attract more attention from researchers. This thesis investigates the issues in specific tasks and aims at proposing effective methodologies to tackle the problems and improve detection performance. More specifically, existing network architectures may cause dilution problems in highlevel semantic information during up-sample operations in the top-down pathway of the Feature Pyramid Network (FPN). In order to overcome this limitation, we propose a novel pyramid self-attention module (PSAM) and the adoption of an independent feature-complementing strategy. In addition, a channel-wise attention module is also employed to reduce redundant features of the feature pyramid network and provide refined results. Introducing depth information in a suboptimal fusion strategy may have a negative influence on the performance of SOD. We discuss the advantages of the so-called progressive multi-scale fusion method and propose a mask-guided feature aggregation module (MGFA). We also introduce a mask-guided refinement module (MGRM) to complement the high-level semantic features and reduce the irrelevant features from multi-scale fusion, leading to an overall refinement of detection. RGB-D methods sacrifice the model size to improve the detection accuracy, which may impede the practical application of SOD problems. To tackle this dilemma, we propose a dynamic distillation method along with simple noise elimination. To this end, the final model can significantly reduce the computational burden while maintaining the validity and mitigating the impact of distorted training data caused by low-quality depth maps. Furthermore, in cosaliency detection, we propose a novel adaptive intra-group aggregation (AIGA) method to model the relationship between individual feature representation in a single image and group feature representation. This proposed AIGA can effectively improve the performance without increasing extra network parameters.

Published
2023
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22. NTIRE 2022 Challenge on High Dynamic Range Imaging: Methods and Results

Author

Pérez-Pellitero, Eduardo, Catley-Chandar, Sibi, Shaw, Richard, Leonardis, Aleš, Timofte, Radu, Zhang, Zexin, Liu, Cen, Peng, Yunbo, Lin, Yue, Yu, Gaocheng, Zhang, Jin, Ma, Zhe, Wang, Hongbin, Chen, Xiangyu, Wang, Xintao, Wu, Haiwei, Liu, Lin, Dong, Chao, Zhou, Jiantao, Yan, Qingsen, Zhang, Song, Chen, Weiye, Liu, Yuhang, Zhang, Zhen, Zhang, Yanning, Shi, Javen Qinfeng, Gong, Dong, Zhu, Dan, Sun, Mengdi, Chen, Guannan, Hu, Yang, Li, Haowei, Zou, Baozhu, Liu, Zhen, Lin, Wenjie, Jiang, Ting, Jiang, Chengzhi, Li, Xinpeng, Han, Mingyan, Fan, Haoqiang, Sun, Jian, Liu, Shuaicheng, Marín-Vega, Juan, Sloth, Michael, Schneider-Kamp, Peter, Röttger, Richard, Li, Chunyang, Bao, Long, He, Gang, Xu, Ziyao, Xu, Li, Zhan, Gen, Sun, Ming, Wen, Xing, Li, Junlin, Li, Jinjing, Li, Chenghua, Gang, Ruipeng, Li, Fangya, Liu, Chenming, Feng, Shuang, Lei, Fei, Liu, Rui, Ruan, Junxiang, Dai, Tianhong, Li, Wei, Lu, Zhan, Liu, Hengyan, Huang, Peian, Ren, Guangyu, Luo, Yonglin, Liu, Chang, Tu, Qiang, Ma, Sai, Cao, Yizhen, Tel, Steven, Heyrman, Barthelemy, Ginhac, Dominique, Lee, Chul, Kim, Gahyeon, Park, Seonghyun, Vien, An Gia, Mai, Truong Thanh Nhat, Yoon, Howoon, Vo, Tu, Holston, Alexander, Zaheer, Sheir, and Park, Chan Y.

Subjects
Computer Science - Computer Vision and Pattern Recognition, Electrical Engineering and Systems Science - Image and Video Processing
Abstract

This paper reviews the challenge on constrained high dynamic range (HDR) imaging that was part of the New Trends in Image Restoration and Enhancement (NTIRE) workshop, held in conjunction with CVPR 2022. This manuscript focuses on the competition set-up, datasets, the proposed methods and their results. The challenge aims at estimating an HDR image from multiple respective low dynamic range (LDR) observations, which might suffer from under- or over-exposed regions and different sources of noise. The challenge is composed of two tracks with an emphasis on fidelity and complexity constraints: In Track 1, participants are asked to optimize objective fidelity scores while imposing a low-complexity constraint (i.e. solutions can not exceed a given number of operations). In Track 2, participants are asked to minimize the complexity of their solutions while imposing a constraint on fidelity scores (i.e. solutions are required to obtain a higher fidelity score than the prescribed baseline). Both tracks use the same data and metrics: Fidelity is measured by means of PSNR with respect to a ground-truth HDR image (computed both directly and with a canonical tonemapping operation), while complexity metrics include the number of Multiply-Accumulate (MAC) operations and runtime (in seconds)., Comment: CVPR Workshops 2022. 15 pages, 21 figures, 2 tables

Published
2022

23. Construction and Evaluation of Steady-State System of Anthocyanin-Chondroitin Sulfate Co-pigmentation Complex Binding to Pullulan

Author

BAO Yiwen, REN Guangyu, LI Jiaxin, TIAN Jinlong, YANG Shufang, YANG Yiyun, SI Xu, LI Bin

Subjects
anthocyanins, co-pigmentation, steady-state system, co-pigmentation and encapsulation technology, processing stability, Food processing and manufacture, TP368-456
Abstract

In this study, a co-pigmentation complex formed by ionic complexation of blueberry anthocyanins (BA) with chondroitin sulfate (CS) was bound to pullulan (PU) to prepare a steady-state BA-CS-PU system by a combination of co-pigmentation and encapsulation technology. The co-pigmentation and stabilizing effects of CS on BA were evaluated by ultraviolet-visible (UV-visible) spectroscopy and color parameters. The structure of BA-CS-PU was characterized by Fourier transform infrared (FTIR) spectroscopy and thermogravimetric analysis (TGA), and the mechanism of co-pigmentation and encapsulation was explained. The processing and digestive stability of the steady-state system were evaluated under simulated heat, acid-base strength, co-existence with vitamin C (VC) and in vitro digestion conditions. The results showed that the addition of CS caused a red shift in the UV spectrum and an increase in absorbance, and enhanced the redness, thereby resulting in co-pigmentation effect, which was related to the ionic complexation between the sulfate group of CS and the flavylium ion of BA. The encapsulation effect of PU could be achieved through hydrogen bonding. In addition, co-pigmentation with CS and encapsulation with PU significantly improved the retention rate and a value of BA under heat, acid-base strength and VC co-existence conditions, and also enhanced the gastrointestinal digestive stability, with an 8.63% increase in retention rate. The results of this study provide a basis for in-depth processing of anthocyanin-rich berries.

Published
2023
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24. Diversity-based Trajectory and Goal Selection with Hindsight Experience Replay

Author

Dai, Tianhong, Liu, Hengyan, Arulkumaran, Kai, Ren, Guangyu, and Bharath, Anil Anthony

Subjects
Computer Science - Machine Learning, Computer Science - Robotics
Abstract

Hindsight experience replay (HER) is a goal relabelling technique typically used with off-policy deep reinforcement learning algorithms to solve goal-oriented tasks; it is well suited to robotic manipulation tasks that deliver only sparse rewards. In HER, both trajectories and transitions are sampled uniformly for training. However, not all of the agent's experiences contribute equally to training, and so naive uniform sampling may lead to inefficient learning. In this paper, we propose diversity-based trajectory and goal selection with HER (DTGSH). Firstly, trajectories are sampled according to the diversity of the goal states as modelled by determinantal point processes (DPPs). Secondly, transitions with diverse goal states are selected from the trajectories by using k-DPPs. We evaluate DTGSH on five challenging robotic manipulation tasks in simulated robot environments, where we show that our method can learn more quickly and reach higher performance than other state-of-the-art approaches on all tasks., Comment: Pacific Rim International Conference on Artificial Intelligence, 2021

Published
2021
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25. Dynamic Knowledge Distillation With Noise Elimination for RGB-D Salient Object Detection

Author

Ren, Guangyu, Yu, Yinxiao, Liu, Hengyan, and Stathaki, Tania

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

RGB-D salient object detection (SOD) demonstrates its superiority on detecting in complex environments due to the additional depth information introduced in the data. Inevitably, an independent stream is introduced to extract features from depth images, leading to extra computation and parameters. This methodology sacrifices the model size to improve the detection accuracy which may impede the practical application of SOD problems. To tackle this dilemma, we propose a dynamic distillation method along with a lightweight structure, which significantly reduces the computational burden while maintaining validity. This method considers the factors of both teacher and student performance within the training stage and dynamically assigns the distillation weight instead of applying a fixed weight on the student model. We also investigate the issue of RGB-D early fusion strategy in distillation and propose a simple noise elimination method to mitigate the impact of distorted training data caused by low quality depth maps. Extensive experiments are conducted on five public datasets to demonstrate that our method can achieve competitive performance with a fast inference speed (136FPS) compared to 10 prior methods.

Published
2021

26. Progressive Multi-scale Fusion Network for RGB-D Salient Object Detection

Author

Ren, Guangyu, Xie, Yanchu, Dai, Tianhong, and Stathaki, Tania

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Salient object detection(SOD) aims at locating the most significant object within a given image. In recent years, great progress has been made in applying SOD on many vision tasks. The depth map could provide additional spatial prior and boundary cues to boost the performance. Combining the depth information with image data obtained from standard visual cameras has been widely used in recent SOD works, however, introducing depth information in a suboptimal fusion strategy may have negative influence in the performance of SOD. In this paper, we discuss about the advantages of the so-called progressive multi-scale fusion method and propose a mask-guided feature aggregation module(MGFA). The proposed framework can effectively combine the two features of different modalities and, furthermore, alleviate the impact of erroneous depth features, which are inevitably caused by the variation of depth quality. We further introduce a mask-guided refinement module(MGRM) to complement the high-level semantic features and reduce the irrelevant features from multi-scale fusion, leading to an overall refinement of detection. Experiments on five challenging benchmarks demonstrate that the proposed method outperforms 11 state-of-the-art methods under different evaluation metrics.

Published
2021

27. Salient Object Detection Combining a Self-attention Module and a Feature Pyramid Network

Author

Ren, Guangyu, Dai, Tianhong, Barmpoutis, Panagiotis, and Stathaki, Tania

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Salient object detection has achieved great improvement by using the Fully Convolution Network (FCN). However, the FCN-based U-shape architecture may cause the dilution problem in the high-level semantic information during the up-sample operations in the top-down pathway. Thus, it can weaken the ability of salient object localization and produce degraded boundaries. To this end, in order to overcome this limitation, we propose a novel pyramid self-attention module (PSAM) and the adoption of an independent feature-complementing strategy. In PSAM, self-attention layers are equipped after multi-scale pyramid features to capture richer high-level features and bring larger receptive fields to the model. In addition, a channel-wise attention module is also employed to reduce the redundant features of the FPN and provide refined results. Experimental analysis shows that the proposed PSAM effectively contributes to the whole model so that it outperforms state-of-the-art results over five challenging datasets. Finally, quantitative results show that PSAM generates clear and integral salient maps which can provide further help to other computer vision tasks, such as object detection and semantic segmentation.

Published
2020

29. Gated Multi-layer Convolutional Feature Extraction Network for Robust Pedestrian Detection

Author

Liu, Tianrui, Huang, Jun-Jie, Dai, Tianhong, Ren, Guangyu, and Stathaki, Tania

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Pedestrian detection methods have been significantly improved with the development of deep convolutional neural networks. Nevertheless, robustly detecting pedestrians with a large variant on sizes and with occlusions remains a challenging problem. In this paper, we propose a gated multi-layer convolutional feature extraction method which can adaptively generate discriminative features for candidate pedestrian regions. The proposed gated feature extraction framework consists of squeeze units, gate units and a concatenation layer which perform feature dimension squeezing, feature elements manipulation and convolutional features combination from multiple CNN layers, respectively. We proposed two different gate models which can manipulate the regional feature maps in a channel-wise selection manner and a spatial-wise selection manner, respectively. Experiments on the challenging CityPersons dataset demonstrate the effectiveness of the proposed method, especially on detecting those small-size and occluded pedestrians.

Published
2019

42. Construction of Probiotic Double-Layered Multinucleated Microcapsules Based on Sulfhydryl-Modified Carboxymethyl Cellulose Sodium for Increased Intestinal Adhesion of Probiotics and Therapy for Intestinal Inflammation Induced by Escherichia coli O157:H7

Author

Zhang, Henan, primary, Liu, Zhili, additional, Fang, Haitian, additional, Chang, Shihan, additional, Ren, Guangyu, additional, Cheng, Xinyu, additional, Pan, Yue, additional, Wu, Rina, additional, Liu, Huiyan, additional, and Wu, Junrui, additional

Published
2023
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47. NTIRE 2022 Challenge on High Dynamic Range Imaging: Methods and Results

Author

Perez-Pellitero, Eduardo, primary, Catley-Chandar, Sibi, additional, Shaw, Richard, additional, Leonardis, Ales, additional, Timofte, Radu, additional, Zhang, Zexin, additional, Liu, Cen, additional, Peng, Yunbo, additional, Lin, Yue, additional, Yu, Gaocheng, additional, Zhang, Jin, additional, Ma, Zhe, additional, Wang, Hongbin, additional, Chen, Xiangyu, additional, Wang, Xintao, additional, Wu, Haiwei, additional, Liu, Lin, additional, Dong, Chao, additional, Zhou, Jiantao, additional, Yan, Qingsen, additional, Zhang, Song, additional, Chen, Weiye, additional, Liu, Yuhang, additional, Zhang, Zhen, additional, Zhang, Yanning, additional, Shi, Javen Qinfeng, additional, Gong, Dong, additional, Zhu, Dan, additional, Sun, Mengdi, additional, Chen, Guannan, additional, Hu, Yang, additional, Li, Haowei, additional, Zou, Baozhu, additional, Liu, Zhen, additional, Lin, Wenjie, additional, Jiang, Ting, additional, Jiang, Chengzhi, additional, Li, Xinpeng, additional, Han, Mingyan, additional, Fan, Haoqiang, additional, Sun, Jian, additional, Liu, Shuaicheng, additional, Marin-Vega, Juan, additional, Sloth, Michael, additional, Schneider-Kamp, Peter, additional, Rottger, Richard, additional, Li, Chunyang, additional, Bao, Long, additional, He, Gang, additional, Xu, Ziyao, additional, Xu, Li, additional, Zhan, Gen, additional, Sun, Ming, additional, Wen, Xing, additional, Li, Junlin, additional, Li, Jinjing, additional, Li, Chenghua, additional, Gang, Ruipeng, additional, Li, Fangya, additional, Liu, Chenming, additional, Feng, Shuang, additional, Lei, Fei, additional, Liu, Rui, additional, Ruan, Junxiang, additional, Dai, Tianhong, additional, Li, Wei, additional, Lu, Zhan, additional, Liu, Hengyan, additional, Huang, Peian, additional, Ren, Guangyu, additional, Luo, Yonglin, additional, Liu, Chang, additional, Tu, Qiang, additional, Ma, Sai, additional, Cao, Yizhen, additional, Tel, Steven, additional, Heyrman, Barthelemy, additional, Ginhac, Dominique, additional, Lee, Chul, additional, Kim, Gahyeon, additional, Park, Seonghyun, additional, Vien, An Gia, additional, Thanh Nhat Mai, Truong, additional, Yoon, Howoon, additional, Vo, Tu, additional, Holston, Alexander, additional, Zaheer, Sheir, additional, and Park, Chan Y., additional

Published
2022
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