Your search keyword '"Lee, Sangyoun"' showing total 49 results

1. SMURF: Continuous Dynamics for Motion-Deblurring Radiance Fields

Author

Lee, Jungho, Lee, Dogyoon, Lee, Minhyeok, Kim, Donghyung, Lee, Sangyoun, Lee, Jungho, Lee, Dogyoon, Lee, Minhyeok, Kim, Donghyung, and Lee, Sangyoun

Abstract

Neural radiance fields (NeRF) has attracted considerable attention for their exceptional ability in synthesizing novel views with high fidelity. However, the presence of motion blur, resulting from slight camera movements during extended shutter exposures, poses a significant challenge, potentially compromising the quality of the reconstructed 3D scenes. While recent studies have addressed this issue, they do not consider the continuous dynamics of camera movements during image acquisition, leading to inaccurate scene reconstruction. Additionally, these methods are plagued by slow training and rendering speed. To effectively handle these issues, we propose sequential motion understanding radiance fields (SMURF), a novel approach that employs neural ordinary differential equation (Neural-ODE) to model continuous camera motion and leverages the explicit volumetric representation method for faster training and robustness to motion-blurred input images. The core idea of the SMURF is continuous motion blurring kernel (CMBK), a unique module designed to model a continuous camera movements for processing blurry inputs. Our model, rigorously evaluated against benchmark datasets, demonstrates state-of-the-art performance both quantitatively and qualitatively., Comment: 25 pages, 10 figures, Code is available at https://github.com/Jho-Yonsei/SMURF

Published

2024

2. FIMP: Future Interaction Modeling for Multi-Agent Motion Prediction

Author

Woo, Sungmin, Kim, Minjung, Kim, Donghyeong, Jang, Sungjun, Lee, Sangyoun, Woo, Sungmin, Kim, Minjung, Kim, Donghyeong, Jang, Sungjun, and Lee, Sangyoun

Abstract

Multi-agent motion prediction is a crucial concern in autonomous driving, yet it remains a challenge owing to the ambiguous intentions of dynamic agents and their intricate interactions. Existing studies have attempted to capture interactions between road entities by using the definite data in history timesteps, as future information is not available and involves high uncertainty. However, without sufficient guidance for capturing future states of interacting agents, they frequently produce unrealistic trajectory overlaps. In this work, we propose Future Interaction modeling for Motion Prediction (FIMP), which captures potential future interactions in an end-to-end manner. FIMP adopts a future decoder that implicitly extracts the potential future information in an intermediate feature-level, and identifies the interacting entity pairs through future affinity learning and top-k filtering strategy. Experiments show that our future interaction modeling improves the performance remarkably, leading to superior performance on the Argoverse motion forecasting benchmark., Comment: Accepted by ICRA 2024

Published

2024

3. Guided Slot Attention for Unsupervised Video Object Segmentation

Author

Lee, Minhyeok, Cho, Suhwan, Lee, Dogyoon, Park, Chaewon, Lee, Jungho, Lee, Sangyoun, Lee, Minhyeok, Cho, Suhwan, Lee, Dogyoon, Park, Chaewon, Lee, Jungho, and Lee, Sangyoun

Abstract

Unsupervised video object segmentation aims to segment the most prominent object in a video sequence. However, the existence of complex backgrounds and multiple foreground objects make this task challenging. To address this issue, we propose a guided slot attention network to reinforce spatial structural information and obtain better foreground--background separation. The foreground and background slots, which are initialized with query guidance, are iteratively refined based on interactions with template information. Furthermore, to improve slot--template interaction and effectively fuse global and local features in the target and reference frames, K-nearest neighbors filtering and a feature aggregation transformer are introduced. The proposed model achieves state-of-the-art performance on two popular datasets. Additionally, we demonstrate the robustness of the proposed model in challenging scenes through various comparative experiments., Comment: Accepted to CVPR 2024

Published

2023

4. Tsanet: Temporal and Scale Alignment for Unsupervised Video Object Segmentation

Author

Lee, Seunghoon, Cho, Suhwan, Lee, Dogyoon, Lee, Minhyeok, Lee, Sangyoun, Lee, Seunghoon, Cho, Suhwan, Lee, Dogyoon, Lee, Minhyeok, and Lee, Sangyoun

Abstract

Unsupervised Video Object Segmentation (UVOS) refers to the challenging task of segmenting the prominent object in videos without manual guidance. In recent works, two approaches for UVOS have been discussed that can be divided into: appearance and appearance-motion-based methods, which have limitations respectively. Appearance-based methods do not consider the motion of the target object due to exploiting the correlation information between randomly paired frames. Appearance-motion-based methods have the limitation that the dependency on optical flow is dominant due to fusing the appearance with motion. In this paper, we propose a novel framework for UVOS that can address the aforementioned limitations of the two approaches in terms of both time and scale. Temporal Alignment Fusion aligns the saliency information of adjacent frames with the target frame to leverage the information of adjacent frames. Scale Alignment Decoder predicts the target object mask by aggregating multi-scale feature maps via continuous mapping with implicit neural representation. We present experimental results on public benchmark datasets, DAVIS 2016 and FBMS, which demonstrate the effectiveness of our method. Furthermore, we outperform the state-of-the-art methods on DAVIS 2016., Comment: Accepted to ICIP 2023

Published

2023

5. One-Shot Video Inpainting

Author

Lee, Sangjin, Cho, Suhwan, Lee, Sangyoun, Lee, Sangjin, Cho, Suhwan, and Lee, Sangyoun

Abstract

Recently, removing objects from videos and filling in the erased regions using deep video inpainting (VI) algorithms has attracted considerable attention. Usually, a video sequence and object segmentation masks for all frames are required as the input for this task. However, in real-world applications, providing segmentation masks for all frames is quite difficult and inefficient. Therefore, we deal with VI in a one-shot manner, which only takes the initial frame's object mask as its input. Although we can achieve that using naive combinations of video object segmentation (VOS) and VI methods, they are sub-optimal and generally cause critical errors. To address that, we propose a unified pipeline for one-shot video inpainting (OSVI). By jointly learning mask prediction and video completion in an end-to-end manner, the results can be optimal for the entire task instead of each separate module. Additionally, unlike the two stage methods that use the predicted masks as ground truth cues, our method is more reliable because the predicted masks can be used as the network's internal guidance. On the synthesized datasets for OSVI, our proposed method outperforms all others both quantitatively and qualitatively., Comment: AAAI2023 submitted

Published

2023

6. Two-stream Decoder Feature Normality Estimating Network for Industrial Anomaly Detection

Author

Park, Chaewon, Lee, Minhyeok, Cho, Suhwan, Kim, Donghyeong, Lee, Sangyoun, Park, Chaewon, Lee, Minhyeok, Cho, Suhwan, Kim, Donghyeong, and Lee, Sangyoun

Abstract

Image reconstruction-based anomaly detection has recently been in the spotlight because of the difficulty of constructing anomaly datasets. These approaches work by learning to model normal features without seeing abnormal samples during training and then discriminating anomalies at test time based on the reconstructive errors. However, these models have limitations in reconstructing the abnormal samples due to their indiscriminate conveyance of features. Moreover, these approaches are not explicitly optimized for distinguishable anomalies. To address these problems, we propose a two-stream decoder network (TSDN), designed to learn both normal and abnormal features. Additionally, we propose a feature normality estimator (FNE) to eliminate abnormal features and prevent high-quality reconstruction of abnormal regions. Evaluation on a standard benchmark demonstrated performance better than state-of-the-art models., Comment: Accepted to IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP) 2023

Published

2023

7. Adaptive Graph Convolution Module for Salient Object Detection

Author

Lee, Yongwoo, Lee, Minhyeok, Cho, Suhwan, Lee, Sangyoun, Lee, Yongwoo, Lee, Minhyeok, Cho, Suhwan, and Lee, Sangyoun

Abstract

Salient object detection (SOD) is a task that involves identifying and segmenting the most visually prominent object in an image. Existing solutions can accomplish this use a multi-scale feature fusion mechanism to detect the global context of an image. However, as there is no consideration of the structures in the image nor the relations between distant pixels, conventional methods cannot deal with complex scenes effectively. In this paper, we propose an adaptive graph convolution module (AGCM) to overcome these limitations. Prototype features are initially extracted from the input image using a learnable region generation layer that spatially groups features in the image. The prototype features are then refined by propagating information between them based on a graph architecture, where each feature is regarded as a node. Experimental results show that the proposed AGCM dramatically improves the SOD performance both quantitatively and quantitatively., Comment: 4 pages, 3 figures

Published

2023

8. Synchronizing Vision and Language: Bidirectional Token-Masking AutoEncoder for Referring Image Segmentation

Author

Lee, Minhyeok, Lee, Dogyoon, Lee, Jungho, Cho, Suhwan, Choi, Heeseung, Kim, Ig-Jae, Lee, Sangyoun, Lee, Minhyeok, Lee, Dogyoon, Lee, Jungho, Cho, Suhwan, Choi, Heeseung, Kim, Ig-Jae, and Lee, Sangyoun

Abstract

Referring Image Segmentation (RIS) aims to segment target objects expressed in natural language within a scene at the pixel level. Various recent RIS models have achieved state-of-the-art performance by generating contextual tokens to model multimodal features from pretrained encoders and effectively fusing them using transformer-based cross-modal attention. While these methods match language features with image features to effectively identify likely target objects, they often struggle to correctly understand contextual information in complex and ambiguous sentences and scenes. To address this issue, we propose a novel bidirectional token-masking autoencoder (BTMAE) inspired by the masked autoencoder (MAE). The proposed model learns the context of image-to-language and language-to-image by reconstructing missing features in both image and language features at the token level. In other words, this approach involves mutually complementing across the features of images and language, with a focus on enabling the network to understand interconnected deep contextual information between the two modalities. This learning method enhances the robustness of RIS performance in complex sentences and scenes. Our BTMAE achieves state-of-the-art performance on three popular datasets, and we demonstrate the effectiveness of the proposed method through various ablation studies.

Published

2023

9. Treating Motion as Option with Output Selection for Unsupervised Video Object Segmentation

Author

Cho, Suhwan, Lee, Minhyeok, Lee, Jungho, Cho, MyeongAh, Lee, Sangyoun, Cho, Suhwan, Lee, Minhyeok, Lee, Jungho, Cho, MyeongAh, and Lee, Sangyoun

Abstract

Unsupervised video object segmentation (VOS) is a task that aims to detect the most salient object in a video without external guidance about the object. To leverage the property that salient objects usually have distinctive movements compared to the background, recent methods collaboratively use motion cues extracted from optical flow maps with appearance cues extracted from RGB images. However, as optical flow maps are usually very relevant to segmentation masks, the network is easy to be learned overly dependent on the motion cues during network training. As a result, such two-stream approaches are vulnerable to confusing motion cues, making their prediction unstable. To relieve this issue, we design a novel motion-as-option network by treating motion cues as optional. During network training, RGB images are randomly provided to the motion encoder instead of optical flow maps, to implicitly reduce motion dependency of the network. As the learned motion encoder can deal with both RGB images and optical flow maps, two different predictions can be generated depending on which source information is used as motion input. In order to fully exploit this property, we also propose an adaptive output selection algorithm to adopt optimal prediction result at test time. Our proposed approach affords state-of-the-art performance on all public benchmark datasets, even maintaining real-time inference speed.

Published

2023

10. Feature Disentanglement Learning with Switching and Aggregation for Video-based Person Re-Identification

Author

Kim, Minjung, Cho, MyeongAh, Lee, Sangyoun, Kim, Minjung, Cho, MyeongAh, and Lee, Sangyoun

Abstract

In video person re-identification (Re-ID), the network must consistently extract features of the target person from successive frames. Existing methods tend to focus only on how to use temporal information, which often leads to networks being fooled by similar appearances and same backgrounds. In this paper, we propose a Disentanglement and Switching and Aggregation Network (DSANet), which segregates the features representing identity and features based on camera characteristics, and pays more attention to ID information. We also introduce an auxiliary task that utilizes a new pair of features created through switching and aggregation to increase the network's capability for various camera scenarios. Furthermore, we devise a Target Localization Module (TLM) that extracts robust features against a change in the position of the target according to the frame flow and a Frame Weight Generation (FWG) that reflects temporal information in the final representation. Various loss functions for disentanglement learning are designed so that each component of the network can cooperate while satisfactorily performing its own role. Quantitative and qualitative results from extensive experiments demonstrate the superiority of DSANet over state-of-the-art methods on three benchmark datasets., Comment: WACV 2023

Published

2022

11. Leveraging Spatio-Temporal Dependency for Skeleton-Based Action Recognition

Author

Lee, Jungho, Lee, Minhyeok, Cho, Suhwan, Woo, Sungmin, Jang, Sungjun, Lee, Sangyoun, Lee, Jungho, Lee, Minhyeok, Cho, Suhwan, Woo, Sungmin, Jang, Sungjun, and Lee, Sangyoun

Abstract

Skeleton-based action recognition has attracted considerable attention due to its compact representation of the human body's skeletal sructure. Many recent methods have achieved remarkable performance using graph convolutional networks (GCNs) and convolutional neural networks (CNNs), which extract spatial and temporal features, respectively. Although spatial and temporal dependencies in the human skeleton have been explored separately, spatio-temporal dependency is rarely considered. In this paper, we propose the Spatio-Temporal Curve Network (STC-Net) to effectively leverage the spatio-temporal dependency of the human skeleton. Our proposed network consists of two novel elements: 1) The Spatio-Temporal Curve (STC) module; and 2) Dilated Kernels for Graph Convolution (DK-GC). The STC module dynamically adjusts the receptive field by identifying meaningful node connections between every adjacent frame and generating spatio-temporal curves based on the identified node connections, providing an adaptive spatio-temporal coverage. In addition, we propose DK-GC to consider long-range dependencies, which results in a large receptive field without any additional parameters by applying an extended kernel to the given adjacency matrices of the graph. Our STC-Net combines these two modules and achieves state-of-the-art performance on four skeleton-based action recognition benchmarks., Comment: Accepted by ICCV 2023

Published

2022

12. Occluded Person Re-Identification via Relational Adaptive Feature Correction Learning

Author

Kim, Minjung, Cho, MyeongAh, Lee, Heansung, Cho, Suhwan, Lee, Sangyoun, Kim, Minjung, Cho, MyeongAh, Lee, Heansung, Cho, Suhwan, and Lee, Sangyoun

Abstract

Occluded person re-identification (Re-ID) in images captured by multiple cameras is challenging because the target person is occluded by pedestrians or objects, especially in crowded scenes. In addition to the processes performed during holistic person Re-ID, occluded person Re-ID involves the removal of obstacles and the detection of partially visible body parts. Most existing methods utilize the off-the-shelf pose or parsing networks as pseudo labels, which are prone to error. To address these issues, we propose a novel Occlusion Correction Network (OCNet) that corrects features through relational-weight learning and obtains diverse and representative features without using external networks. In addition, we present a simple concept of a center feature in order to provide an intuitive solution to pedestrian occlusion scenarios. Furthermore, we suggest the idea of Separation Loss (SL) for focusing on different parts between global features and part features. We conduct extensive experiments on five challenging benchmark datasets for occluded and holistic Re-ID tasks to demonstrate that our method achieves superior performance to state-of-the-art methods especially on occluded scene., Comment: ICASSP 2022

Published

2022

13. Dual Prototype Attention for Unsupervised Video Object Segmentation

Author

Cho, Suhwan, Lee, Minhyeok, Lee, Seunghoon, Lee, Dogyoon, Choi, Heeseung, Kim, Ig-Jae, Lee, Sangyoun, Cho, Suhwan, Lee, Minhyeok, Lee, Seunghoon, Lee, Dogyoon, Choi, Heeseung, Kim, Ig-Jae, and Lee, Sangyoun

Abstract

Unsupervised video object segmentation (VOS) aims to detect and segment the most salient object in videos. The primary techniques used in unsupervised VOS are 1) the collaboration of appearance and motion information; and 2) temporal fusion between different frames. This paper proposes two novel prototype-based attention mechanisms, inter-modality attention (IMA) and inter-frame attention (IFA), to incorporate these techniques via dense propagation across different modalities and frames. IMA densely integrates context information from different modalities based on a mutual refinement. IFA injects global context of a video to the query frame, enabling a full utilization of useful properties from multiple frames. Experimental results on public benchmark datasets demonstrate that our proposed approach outperforms all existing methods by a substantial margin. The proposed two components are also thoroughly validated via ablative study., Comment: CVPR 2024

Published

2022

14. DP-NeRF: Deblurred Neural Radiance Field with Physical Scene Priors

Author

Lee, Dogyoon, Lee, Minhyeok, Shin, Chajin, Lee, Sangyoun, Lee, Dogyoon, Lee, Minhyeok, Shin, Chajin, and Lee, Sangyoun

Abstract

Neural Radiance Field (NeRF) has exhibited outstanding three-dimensional (3D) reconstruction quality via the novel view synthesis from multi-view images and paired calibrated camera parameters. However, previous NeRF-based systems have been demonstrated under strictly controlled settings, with little attention paid to less ideal scenarios, including with the presence of noise such as exposure, illumination changes, and blur. In particular, though blur frequently occurs in real situations, NeRF that can handle blurred images has received little attention. The few studies that have investigated NeRF for blurred images have not considered geometric and appearance consistency in 3D space, which is one of the most important factors in 3D reconstruction. This leads to inconsistency and the degradation of the perceptual quality of the constructed scene. Hence, this paper proposes a DP-NeRF, a novel clean NeRF framework for blurred images, which is constrained with two physical priors. These priors are derived from the actual blurring process during image acquisition by the camera. DP-NeRF proposes rigid blurring kernel to impose 3D consistency utilizing the physical priors and adaptive weight proposal to refine the color composition error in consideration of the relationship between depth and blur. We present extensive experimental results for synthetic and real scenes with two types of blur: camera motion blur and defocus blur. The results demonstrate that DP-NeRF successfully improves the perceptual quality of the constructed NeRF ensuring 3D geometric and appearance consistency. We further demonstrate the effectiveness of our model with comprehensive ablation analysis., Comment: Accepted at CVPR 2023, Code: https://github.com/dogyoonlee/DP-NeRF, Project page: https://dogyoonlee.github.io/dpnerf

Published

2022

15. Boundary-aware Camouflaged Object Detection via Deformable Point Sampling

Author

Lee, Minhyeok, Cho, Suhwan, Park, Chaewon, Lee, Dogyoon, Lee, Jungho, Lee, Sangyoun, Lee, Minhyeok, Cho, Suhwan, Park, Chaewon, Lee, Dogyoon, Lee, Jungho, and Lee, Sangyoun

Abstract

The camouflaged object detection (COD) task aims to identify and segment objects that blend into the background due to their similar color or texture. Despite the inherent difficulties of the task, COD has gained considerable attention in several fields, such as medicine, life-saving, and anti-military fields. In this paper, we propose a novel solution called the Deformable Point Sampling network (DPS-Net) to address the challenges associated with COD. The proposed DPS-Net utilizes a Deformable Point Sampling transformer (DPS transformer) that can effectively capture sparse local boundary information of significant object boundaries in COD using a deformable point sampling method. Moreover, the DPS transformer demonstrates robust COD performance by extracting contextual features for target object localization through integrating rough global positional information of objects with boundary local information. We evaluate our method on three prominent datasets and achieve state-of-the-art performance. Our results demonstrate the effectiveness of the proposed method through comparative experiments.

Published

2022

16. FAPM: Fast Adaptive Patch Memory for Real-time Industrial Anomaly Detection

Author

Kim, Donghyeong, Park, Chaewon, Cho, Suhwan, Lee, Sangyoun, Kim, Donghyeong, Park, Chaewon, Cho, Suhwan, and Lee, Sangyoun

Abstract

Feature embedding-based methods have shown exceptional performance in detecting industrial anomalies by comparing features of target images with normal images. However, some methods do not meet the speed requirements of real-time inference, which is crucial for real-world applications. To address this issue, we propose a new method called Fast Adaptive Patch Memory (FAPM) for real-time industrial anomaly detection. FAPM utilizes patch-wise and layer-wise memory banks that store the embedding features of images at the patch and layer level, respectively, which eliminates unnecessary repetitive computations. We also propose patch-wise adaptive coreset sampling for faster and more accurate detection. FAPM performs well in both accuracy and speed compared to other state-of-the-art methods, Comment: Accepted to 2023 IEEE International Conference on Acoustics, Speech and Signal Processing (2023 ICASSP)

Published

2022

17. Unsupervised Video Object Segmentation via Prototype Memory Network

Author

Lee, Minhyeok, Cho, Suhwan, Lee, Seunghoon, Park, Chaewon, Lee, Sangyoun, Lee, Minhyeok, Cho, Suhwan, Lee, Seunghoon, Park, Chaewon, and Lee, Sangyoun

Abstract

Unsupervised video object segmentation aims to segment a target object in the video without a ground truth mask in the initial frame. This challenging task requires extracting features for the most salient common objects within a video sequence. This difficulty can be solved by using motion information such as optical flow, but using only the information between adjacent frames results in poor connectivity between distant frames and poor performance. To solve this problem, we propose a novel prototype memory network architecture. The proposed model effectively extracts the RGB and motion information by extracting superpixel-based component prototypes from the input RGB images and optical flow maps. In addition, the model scores the usefulness of the component prototypes in each frame based on a self-learning algorithm and adaptively stores the most useful prototypes in memory and discards obsolete prototypes. We use the prototypes in the memory bank to predict the next query frames mask, which enhances the association between distant frames to help with accurate mask prediction. Our method is evaluated on three datasets, achieving state-of-the-art performance. We prove the effectiveness of the proposed model with various ablation studies., Comment: Accepted to IEEE/CVF Winter Conference on Applications of Computer Vision (WACV) 2023

Published

2022

18. Treating Motion as Option to Reduce Motion Dependency in Unsupervised Video Object Segmentation

Author

Cho, Suhwan, Lee, Minhyeok, Lee, Seunghoon, Park, Chaewon, Kim, Donghyeong, Lee, Sangyoun, Cho, Suhwan, Lee, Minhyeok, Lee, Seunghoon, Park, Chaewon, Kim, Donghyeong, and Lee, Sangyoun

Abstract

Unsupervised video object segmentation (VOS) aims to detect the most salient object in a video sequence at the pixel level. In unsupervised VOS, most state-of-the-art methods leverage motion cues obtained from optical flow maps in addition to appearance cues to exploit the property that salient objects usually have distinctive movements compared to the background. However, as they are overly dependent on motion cues, which may be unreliable in some cases, they cannot achieve stable prediction. To reduce this motion dependency of existing two-stream VOS methods, we propose a novel motion-as-option network that optionally utilizes motion cues. Additionally, to fully exploit the property of the proposed network that motion is not always required, we introduce a collaborative network learning strategy. On all the public benchmark datasets, our proposed network affords state-of-the-art performance with real-time inference speed., Comment: WACV 2023

Published

2022

19. Pixel-Level Equalized Matching for Video Object Segmentation

Author

Cho, Suhwan, Kim, Woo Jin, Cho, MyeongAh, Lee, Seunghoon, Lee, Minhyeok, Park, Chaewon, Lee, Sangyoun, Cho, Suhwan, Kim, Woo Jin, Cho, MyeongAh, Lee, Seunghoon, Lee, Minhyeok, Park, Chaewon, and Lee, Sangyoun

Abstract

Feature similarity matching, which transfers the information of the reference frame to the query frame, is a key component in semi-supervised video object segmentation. If surjective matching is adopted, background distractors can easily occur and degrade the performance. Bijective matching mechanisms try to prevent this by restricting the amount of information being transferred to the query frame, but have two limitations: 1) surjective matching cannot be fully leveraged as it is transformed to bijective matching at test time; and 2) test-time manual tuning is required for searching the optimal hyper-parameters. To overcome these limitations while ensuring reliable information transfer, we introduce an equalized matching mechanism. To prevent the reference frame information from being overly referenced, the potential contribution to the query frame is equalized by simply applying a softmax operation along with the query. On public benchmark datasets, our proposed approach achieves a comparable performance to state-of-the-art methods.

Published

2022

20. Hierarchically Decomposed Graph Convolutional Networks for Skeleton-Based Action Recognition

Author

Lee, Jungho, Lee, Minhyeok, Lee, Dogyoon, Lee, Sangyoun, Lee, Jungho, Lee, Minhyeok, Lee, Dogyoon, and Lee, Sangyoun

Abstract

Graph convolutional networks (GCNs) are the most commonly used methods for skeleton-based action recognition and have achieved remarkable performance. Generating adjacency matrices with semantically meaningful edges is particularly important for this task, but extracting such edges is challenging problem. To solve this, we propose a hierarchically decomposed graph convolutional network (HD-GCN) architecture with a novel hierarchically decomposed graph (HD-Graph). The proposed HD-GCN effectively decomposes every joint node into several sets to extract major structurally adjacent and distant edges, and uses them to construct an HD-Graph containing those edges in the same semantic spaces of a human skeleton. In addition, we introduce an attention-guided hierarchy aggregation (A-HA) module to highlight the dominant hierarchical edge sets of the HD-Graph. Furthermore, we apply a new six-way ensemble method, which uses only joint and bone stream without any motion stream. The proposed model is evaluated and achieves state-of-the-art performance on four large, popular datasets. Finally, we demonstrate the effectiveness of our model with various comparative experiments., Comment: Accepted by ICCV 2023

Published

2022

21. NIR-to-VIS Face Recognition via Embedding Relations and Coordinates of the Pairwise Features

Author

Cho, MyeongAh, Chun, Tae-young, Kim, g Taeoh, Lee, Sangyoun, Cho, MyeongAh, Chun, Tae-young, Kim, g Taeoh, and Lee, Sangyoun

Abstract

NIR-to-VIS face recognition is identifying faces of two different domains by extracting domain-invariant features. However, this is a challenging problem due to the two different domain characteristics, and the lack of NIR face dataset. In order to reduce domain discrepancy while using the existing face recognition models, we propose a 'Relation Module' which can simply add-on to any face recognition models. The local features extracted from face image contain information of each component of the face. Based on two different domain characteristics, to use the relationships between local features is more domain-invariant than to use it as it is. In addition to these relationships, positional information such as distance from lips to chin or eye to eye, also provides domain-invariant information. In our Relation Module, Relation Layer implicitly captures relationships, and Coordinates Layer models the positional information. Also, our proposed Triplet loss with conditional margin reduces intra-class variation in training, and resulting in additional performance improvements. Different from the general face recognition models, our add-on module does not need to pre-train with the large scale dataset. The proposed module fine-tuned only with CASIA NIR-VIS 2.0 database. With the proposed module, we achieve 14.81% rank-1 accuracy and 15.47% verification rate of 0.1% FAR improvements compare to two baseline models.

Published

2022

22. N-RPN: Hard Example Learning for Region Proposal Networks

Author

Cho, MyeongAh, Chung, Tae-young, Lee, Hyeongmin, Lee, Sangyoun, Cho, MyeongAh, Chung, Tae-young, Lee, Hyeongmin, and Lee, Sangyoun

Abstract

The region proposal task is to generate a set of candidate regions that contain an object. In this task, it is most important to propose as many candidates of ground-truth as possible in a fixed number of proposals. In a typical image, however, there are too few hard negative examples compared to the vast number of easy negatives, so region proposal networks struggle to train on hard negatives. Because of this problem, networks tend to propose hard negatives as candidates, while failing to propose ground-truth candidates, which leads to poor performance. In this paper, we propose a Negative Region Proposal Network(nRPN) to improve Region Proposal Network(RPN). The nRPN learns from the RPN's false positives and provide hard negative examples to the RPN. Our proposed nRPN leads to a reduction in false positives and better RPN performance. An RPN trained with an nRPN achieves performance improvements on the PASCAL VOC 2007 dataset.

Published

2022

23. SPSN: Superpixel Prototype Sampling Network for RGB-D Salient Object Detection

Author

Lee, Minhyeok, Park, Chaewon, Cho, Suhwan, Lee, Sangyoun, Lee, Minhyeok, Park, Chaewon, Cho, Suhwan, and Lee, Sangyoun

Abstract

RGB-D salient object detection (SOD) has been in the spotlight recently because it is an important preprocessing operation for various vision tasks. However, despite advances in deep learning-based methods, RGB-D SOD is still challenging due to the large domain gap between an RGB image and the depth map and low-quality depth maps. To solve this problem, we propose a novel superpixel prototype sampling network (SPSN) architecture. The proposed model splits the input RGB image and depth map into component superpixels to generate component prototypes. We design a prototype sampling network so that the network only samples prototypes corresponding to salient objects. In addition, we propose a reliance selection module to recognize the quality of each RGB and depth feature map and adaptively weight them in proportion to their reliability. The proposed method makes the model robust to inconsistencies between RGB images and depth maps and eliminates the influence of non-salient objects. Our method is evaluated on five popular datasets, achieving state-of-the-art performance. We prove the effectiveness of the proposed method through comparative experiments., Comment: Accepted to European Conference on Computer Vision (ECCV) 2022

Published

2022

24. Tackling Background Distraction in Video Object Segmentation

Author

Cho, Suhwan, Lee, Heansung, Lee, Minhyeok, Park, Chaewon, Jang, Sungjun, Kim, Minjung, Lee, Sangyoun, Cho, Suhwan, Lee, Heansung, Lee, Minhyeok, Park, Chaewon, Jang, Sungjun, Kim, Minjung, and Lee, Sangyoun

Abstract

Semi-supervised video object segmentation (VOS) aims to densely track certain designated objects in videos. One of the main challenges in this task is the existence of background distractors that appear similar to the target objects. We propose three novel strategies to suppress such distractors: 1) a spatio-temporally diversified template construction scheme to obtain generalized properties of the target objects; 2) a learnable distance-scoring function to exclude spatially-distant distractors by exploiting the temporal consistency between two consecutive frames; 3) swap-and-attach augmentation to force each object to have unique features by providing training samples containing entangled objects. On all public benchmark datasets, our model achieves a comparable performance to contemporary state-of-the-art approaches, even with real-time performance. Qualitative results also demonstrate the superiority of our approach over existing methods. We believe our approach will be widely used for future VOS research., Comment: ECCV 2022

Published

2022

25. Exploring Temporally Dynamic Data Augmentation for Video Recognition

Author

Kim, Taeoh, Kim, Jinhyung, Shim, Minho, Yun, Sangdoo, Kang, Myunggu, Wee, Dongyoon, Lee, Sangyoun, Kim, Taeoh, Kim, Jinhyung, Shim, Minho, Yun, Sangdoo, Kang, Myunggu, Wee, Dongyoon, and Lee, Sangyoun

Abstract

Data augmentation has recently emerged as an essential component of modern training recipes for visual recognition tasks. However, data augmentation for video recognition has been rarely explored despite its effectiveness. Few existing augmentation recipes for video recognition naively extend the image augmentation methods by applying the same operations to the whole video frames. Our main idea is that the magnitude of augmentation operations for each frame needs to be changed over time to capture the real-world video's temporal variations. These variations should be generated as diverse as possible using fewer additional hyper-parameters during training. Through this motivation, we propose a simple yet effective video data augmentation framework, DynaAugment. The magnitude of augmentation operations on each frame is changed by an effective mechanism, Fourier Sampling that parameterizes diverse, smooth, and realistic temporal variations. DynaAugment also includes an extended search space suitable for video for automatic data augmentation methods. DynaAugment experimentally demonstrates that there are additional performance rooms to be improved from static augmentations on diverse video models. Specifically, we show the effectiveness of DynaAugment on various video datasets and tasks: large-scale video recognition (Kinetics-400 and Something-Something-v2), small-scale video recognition (UCF- 101 and HMDB-51), fine-grained video recognition (Diving-48 and FineGym), video action segmentation on Breakfast, video action localization on THUMOS'14, and video object detection on MOT17Det. DynaAugment also enables video models to learn more generalized representation to improve the model robustness on the corrupted videos., Comment: Technical Report

Published

2022

26. Exploring Discontinuity for Video Frame Interpolation

Author

Lee, Sangjin, Lee, Hyeongmin, Shin, Chajin, Son, Hanbin, Lee, Sangyoun, Lee, Sangjin, Lee, Hyeongmin, Shin, Chajin, Son, Hanbin, and Lee, Sangyoun

Abstract

Video frame interpolation (VFI) is the task that synthesizes the intermediate frame given two consecutive frames. Most of the previous studies have focused on appropriate frame warping operations and refinement modules for the warped frames. These studies have been conducted on natural videos containing only continuous motions. However, many practical videos contain various unnatural objects with discontinuous motions such as logos, user interfaces and subtitles. We propose three techniques to make the existing deep learning-based VFI architectures robust to these elements. First is a novel data augmentation strategy called figure-text mixing (FTM) which can make the models learn discontinuous motions during training stage without any extra dataset. Second, we propose a simple but effective module that predicts a map called discontinuity map (D-map), which densely distinguishes between areas of continuous and discontinuous motions. Lastly, we propose loss functions to give supervisions of the discontinuous motion areas which can be applied along with FTM and D-map. We additionally collect a special test benchmark called Graphical Discontinuous Motion (GDM) dataset consisting of some mobile games and chatting videos. Applied to the various state-of-the-art VFI networks, our method significantly improves the interpolation qualities on the videos from not only GDM dataset, but also the existing benchmarks containing only continuous motions such as Vimeo90K, UCF101, and DAVIS., Comment: highlight at CVPR 2023 (10% of accepted papers)

Published

2022

27. RandomSEMO: Normality Learning Of Moving Objects For Video Anomaly Detection

Author

Park, Chaewon, Lee, Minhyeok, Cho, MyeongAh, Lee, Sangyoun, Park, Chaewon, Lee, Minhyeok, Cho, MyeongAh, and Lee, Sangyoun

Abstract

Recent anomaly detection algorithms have shown powerful performance by adopting frame predicting autoencoders. However, these methods face two challenging circumstances. First, they are likely to be trained to be excessively powerful, generating even abnormal frames well, which leads to failure in detecting anomalies. Second, they are distracted by the large number of objects captured in both foreground and background. To solve these problems, we propose a novel superpixel-based video data transformation technique named Random Superpixel Erasing on Moving Objects (RandomSEMO) and Moving Object Loss (MOLoss), built on top of a simple lightweight autoencoder. RandomSEMO is applied to the moving object regions by randomly erasing their superpixels. It enforces the network to pay attention to the foreground objects and learn the normal features more effectively, rather than simply predicting the future frame. Moreover, MOLoss urges the model to focus on learning normal objects captured within RandomSEMO by amplifying the loss on the pixels near the moving objects. The experimental results show that our model outperforms state-of-the-arts on three benchmarks., Comment: 4 pages, ICIP 2022 under review

Published

2022

28. Saliency Detection via Global Context Enhanced Feature Fusion and Edge Weighted Loss

Author

Park, Chaewon, Lee, Minhyeok, Cho, MyeongAh, Lee, Sangyoun, Park, Chaewon, Lee, Minhyeok, Cho, MyeongAh, and Lee, Sangyoun

Abstract

UNet-based methods have shown outstanding performance in salient object detection (SOD), but are problematic in two aspects. 1) Indiscriminately integrating the encoder feature, which contains spatial information for multiple objects, and the decoder feature, which contains global information of the salient object, is likely to convey unnecessary details of non-salient objects to the decoder, hindering saliency detection. 2) To deal with ambiguous object boundaries and generate accurate saliency maps, the model needs additional branches, such as edge reconstructions, which leads to increasing computational cost. To address the problems, we propose a context fusion decoder network (CFDN) and near edge weighted loss (NEWLoss) function. The CFDN creates an accurate saliency map by integrating global context information and thus suppressing the influence of the unnecessary spatial information. NEWLoss accelerates learning of obscure boundaries without additional modules by generating weight maps on object boundaries. Our method is evaluated on four benchmarks and achieves state-of-the-art performance. We prove the effectiveness of the proposed method through comparative experiments., Comment: 4 pages, 5 figures

Published

2021

29. Pixel-Level Bijective Matching for Video Object Segmentation

Author

Cho, Suhwan, Lee, Heansung, Kim, Minjung, Jang, Sungjun, Lee, Sangyoun, Cho, Suhwan, Lee, Heansung, Kim, Minjung, Jang, Sungjun, and Lee, Sangyoun

Abstract

Semi-supervised video object segmentation (VOS) aims to track the designated objects present in the initial frame of a video at the pixel level. To fully exploit the appearance information of an object, pixel-level feature matching is widely used in VOS. Conventional feature matching runs in a surjective manner, i.e., only the best matches from the query frame to the reference frame are considered. Each location in the query frame refers to the optimal location in the reference frame regardless of how often each reference frame location is referenced. This works well in most cases and is robust against rapid appearance variations, but may cause critical errors when the query frame contains background distractors that look similar to the target object. To mitigate this concern, we introduce a bijective matching mechanism to find the best matches from the query frame to the reference frame and vice versa. Before finding the best matches for the query frame pixels, the optimal matches for the reference frame pixels are first considered to prevent each reference frame pixel from being overly referenced. As this mechanism operates in a strict manner, i.e., pixels are connected if and only if they are the sure matches for each other, it can effectively eliminate background distractors. In addition, we propose a mask embedding module to improve the existing mask propagation method. By embedding multiple historic masks with coordinate information, it can effectively capture the position information of a target object., Comment: WACV 2022

Published

2021

30. MKConv: Multidimensional Feature Representation for Point Cloud Analysis

Author

Woo, Sungmin, Lee, Dogyoon, Hwang, Sangwon, Kim, Woojin, Lee, Sangyoun, Woo, Sungmin, Lee, Dogyoon, Hwang, Sangwon, Kim, Woojin, and Lee, Sangyoun

Abstract

Despite the remarkable success of deep learning, an optimal convolution operation on point clouds remains elusive owing to their irregular data structure. Existing methods mainly focus on designing an effective continuous kernel function that can handle an arbitrary point in continuous space. Various approaches exhibiting high performance have been proposed, but we observe that the standard pointwise feature is represented by 1D channels and can become more informative when its representation involves additional spatial feature dimensions. In this paper, we present Multidimensional Kernel Convolution (MKConv), a novel convolution operator that learns to transform the point feature representation from a vector to a multidimensional matrix. Unlike standard point convolution, MKConv proceeds via two steps. (i) It first activates the spatial dimensions of local feature representation by exploiting multidimensional kernel weights. These spatially expanded features can represent their embedded information through spatial correlation as well as channel correlation in feature space, carrying more detailed local structure information. (ii) Then, discrete convolutions are applied to the multidimensional features which can be regarded as a grid-structured matrix. In this way, we can utilize the discrete convolutions for point cloud data without voxelization that suffers from information loss. Furthermore, we propose a spatial attention module, Multidimensional Local Attention (MLA), to provide comprehensive structure awareness within the local point set by reweighting the spatial feature dimensions. We demonstrate that MKConv has excellent applicability to point cloud processing tasks including object classification, object part segmentation, and scene semantic segmentation with superior results., Comment: Accepted by Pattern Recognition 2023

Published

2021

31. FastAno: Fast Anomaly Detection via Spatio-temporal Patch Transformation

Author

Park, Chaewon, Cho, MyeongAh, Lee, Minhyeok, Lee, Sangyoun, Park, Chaewon, Cho, MyeongAh, Lee, Minhyeok, and Lee, Sangyoun

Abstract

Video anomaly detection has gained significant attention due to the increasing requirements of automatic monitoring for surveillance videos. Especially, the prediction based approach is one of the most studied methods to detect anomalies by predicting frames that include abnormal events in the test set after learning with the normal frames of the training set. However, a lot of prediction networks are computationally expensive owing to the use of pre-trained optical flow networks, or fail to detect abnormal situations because of their strong generative ability to predict even the anomalies. To address these shortcomings, we propose spatial rotation transformation (SRT) and temporal mixing transformation (TMT) to generate irregular patch cuboids within normal frame cuboids in order to enhance the learning of normal features. Additionally, the proposed patch transformation is used only during the training phase, allowing our model to detect abnormal frames at fast speed during inference. Our model is evaluated on three anomaly detection benchmarks, achieving competitive accuracy and surpassing all the previous works in terms of speed., Comment: Accepted to IEEE/CVF Winter Conference on Applications of Computer Vision (WACV) 2022

Published

2021

32. EdgeConv with Attention Module for Monocular Depth Estimation

Author

Lee, Minhyeok, Hwang, Sangwon, Park, Chaewon, Lee, Sangyoun, Lee, Minhyeok, Hwang, Sangwon, Park, Chaewon, and Lee, Sangyoun

Abstract

Monocular depth estimation is an especially important task in robotics and autonomous driving, where 3D structural information is essential. However, extreme lighting conditions and complex surface objects make it difficult to predict depth in a single image. Therefore, to generate accurate depth maps, it is important for the model to learn structural information about the scene. We propose a novel Patch-Wise EdgeConv Module (PEM) and EdgeConv Attention Module (EAM) to solve the difficulty of monocular depth estimation. The proposed modules extract structural information by learning the relationship between image patches close to each other in space using edge convolution. Our method is evaluated on two popular datasets, the NYU Depth V2 and the KITTI Eigen split, achieving state-of-the-art performance. We prove that the proposed model predicts depth robustly in challenging scenes through various comparative experiments., Comment: Accepted to IEEE/CVF Winter Conference on Applications of Computer Vision (WACV) 2022

Published

2021

33. Robust Lane Detection via Expanded Self Attention

Author

Lee, Minhyeok, Lee, Junhyeop, Lee, Dogyoon, Kim, Woojin, Hwang, Sangwon, Lee, Sangyoun, Lee, Minhyeok, Lee, Junhyeop, Lee, Dogyoon, Kim, Woojin, Hwang, Sangwon, and Lee, Sangyoun

Abstract

The image-based lane detection algorithm is one of the key technologies in autonomous vehicles. Modern deep learning methods achieve high performance in lane detection, but it is still difficult to accurately detect lanes in challenging situations such as congested roads and extreme lighting conditions. To be robust on these challenging situations, it is important to extract global contextual information even from limited visual cues. In this paper, we propose a simple but powerful self-attention mechanism optimized for lane detection called the Expanded Self Attention (ESA) module. Inspired by the simple geometric structure of lanes, the proposed method predicts the confidence of a lane along the vertical and horizontal directions in an image. The prediction of the confidence enables estimating occluded locations by extracting global contextual information. ESA module can be easily implemented and applied to any encoder-decoder-based model without increasing the inference time. The performance of our method is evaluated on three popular lane detection benchmarks (TuSimple, CULane and BDD100K). We achieve state-of-the-art performance in CULane and BDD100K and distinct improvement on TuSimple dataset. The experimental results show that our approach is robust to occlusion and extreme lighting conditions., Comment: Accepted to IEEE/CVF Winter Conference on Applications of Computer Vision (WACV) 2022

Published

2021

34. Regularization Strategy for Point Cloud via Rigidly Mixed Sample

Author

Lee, Dogyoon, Lee, Jaeha, Lee, Junhyeop, Lee, Hyeongmin, Lee, Minhyeok, Woo, Sungmin, Lee, Sangyoun, Lee, Dogyoon, Lee, Jaeha, Lee, Junhyeop, Lee, Hyeongmin, Lee, Minhyeok, Woo, Sungmin, and Lee, Sangyoun

Abstract

Data augmentation is an effective regularization strategy to alleviate the overfitting, which is an inherent drawback of the deep neural networks. However, data augmentation is rarely considered for point cloud processing despite many studies proposing various augmentation methods for image data. Actually, regularization is essential for point clouds since lack of generality is more likely to occur in point cloud due to small datasets. This paper proposes a Rigid Subset Mix (RSMix), a novel data augmentation method for point clouds that generates a virtual mixed sample by replacing part of the sample with shape-preserved subsets from another sample. RSMix preserves structural information of the point cloud sample by extracting subsets from each sample without deformation using a neighboring function. The neighboring function was carefully designed considering unique properties of point cloud, unordered structure and non-grid. Experiments verified that RSMix successfully regularized the deep neural networks with remarkable improvement for shape classification. We also analyzed various combinations of data augmentations including RSMix with single and multi-view evaluations, based on abundant ablation studies., Comment: CVPR2021 Accepted, 10 pages, 5 figures, 7 tables

Published

2021

35. A NIR-to-VIS face recognition via part adaptive and relation attention module

Author

Xu, Rushuang, Cho, MyeongAh, Lee, Sangyoun, Xu, Rushuang, Cho, MyeongAh, and Lee, Sangyoun

Abstract

In the face recognition application scenario, we need to process facial images captured in various conditions, such as at night by near-infrared (NIR) surveillance cameras. The illumination difference between NIR and visible-light (VIS) causes a domain gap between facial images, and the variations in pose and emotion also make facial matching more difficult. Heterogeneous face recognition (HFR) has difficulties in domain discrepancy, and many studies have focused on extracting domain-invariant features, such as facial part relational information. However, when pose variation occurs, the facial component position changes, and a different part relation is extracted. In this paper, we propose a part relation attention module that crops facial parts obtained through a semantic mask and performs relational modeling using each of these representative features. Furthermore, we suggest component adaptive triplet loss function using adaptive weights for each part to reduce the intra-class identity regardless of the domain as well as pose. Finally, our method exhibits a performance improvement in the CASIA NIR-VIS 2.0 and achieves superior result in the BUAA-VisNir with large pose and emotion variations., Comment: 5 pages

Published

2021

36. Test-Time Adaptation for Out-of-distributed Image Inpainting

Author

Shin, Chajin, Kim, Taeoh, Lee, Sangjin, Lee, Sangyoun, Shin, Chajin, Kim, Taeoh, Lee, Sangjin, and Lee, Sangyoun

Abstract

Deep learning-based image inpainting algorithms have shown great performance via powerful learned prior from the numerous external natural images. However, they show unpleasant results on the test image whose distribution is far from the that of training images because their models are biased toward the training images. In this paper, we propose a simple image inpainting algorithm with test-time adaptation named AdaFill. Given a single out-of-distributed test image, our goal is to complete hole region more naturally than the pre-trained inpainting models. To achieve this goal, we treat remained valid regions of the test image as another training cues because natural images have strong internal similarities. From this test-time adaptation, our network can exploit externally learned image priors from the pre-trained features as well as the internal prior of the test image explicitly. Experimental results show that AdaFill outperforms other models on the various out-of-distribution test images. Furthermore, the model named ZeroFill, that are not pre-trained also sometimes outperforms the pre-trained models., Comment: ICIP 2021 Accepted

Published

2021

37. Learning Temporally Invariant and Localizable Features via Data Augmentation for Video Recognition

Author

Kim, Taeoh, Lee, Hyeongmin, Cho, MyeongAh, Lee, Ho Seong, Cho, Dong Heon, Lee, Sangyoun, Kim, Taeoh, Lee, Hyeongmin, Cho, MyeongAh, Lee, Ho Seong, Cho, Dong Heon, and Lee, Sangyoun

Abstract

Deep-Learning-based video recognition has shown promising improvements along with the development of large-scale datasets and spatiotemporal network architectures. In image recognition, learning spatially invariant features is a key factor in improving recognition performance and robustness. Data augmentation based on visual inductive priors, such as cropping, flipping, rotating, or photometric jittering, is a representative approach to achieve these features. Recent state-of-the-art recognition solutions have relied on modern data augmentation strategies that exploit a mixture of augmentation operations. In this study, we extend these strategies to the temporal dimension for videos to learn temporally invariant or temporally localizable features to cover temporal perturbations or complex actions in videos. Based on our novel temporal data augmentation algorithms, video recognition performances are improved using only a limited amount of training data compared to the spatial-only data augmentation algorithms, including the 1st Visual Inductive Priors (VIPriors) for data-efficient action recognition challenge. Furthermore, learned features are temporally localizable that cannot be achieved using spatial augmentation algorithms. Our source code is available at https://github.com/taeoh-kim/temporal_data_augmentation., Comment: European Conference on Computer Vision (ECCV) 2020, 1st Visual Inductive Priors for Data-Efficient Deep Learning Workshop (Oral)

Published

2020

38. Extrapolative-Interpolative Cycle-Consistency Learning for Video Frame Extrapolation

Author

Lee, Sangjin, Lee, Hyeongmin, Kim, Taeoh, Lee, Sangyoun, Lee, Sangjin, Lee, Hyeongmin, Kim, Taeoh, and Lee, Sangyoun

Abstract

Video frame extrapolation is a task to predict future frames when the past frames are given. Unlike previous studies that usually have been focused on the design of modules or construction of networks, we propose a novel Extrapolative-Interpolative Cycle (EIC) loss using pre-trained frame interpolation module to improve extrapolation performance. Cycle-consistency loss has been used for stable prediction between two function spaces in many visual tasks. We formulate this cycle-consistency using two mapping functions; frame extrapolation and interpolation. Since it is easier to predict intermediate frames than to predict future frames in terms of the object occlusion and motion uncertainty, interpolation module can give guidance signal effectively for training the extrapolation function. EIC loss can be applied to any existing extrapolation algorithms and guarantee consistent prediction in the short future as well as long future frames. Experimental results show that simply adding EIC loss to the existing baseline increases extrapolation performance on both UCF101 and KITTI datasets., Comment: This paper has been accepted to 2020 IEEE International Conference on Image Processing (ICIP 2020)

Published

2020

39. False Positive Removal for 3D Vehicle Detection with Penetrated Point Classifier

Author

Woo, Sungmin, Hwang, Sangwon, Kim, Woojin, Lee, Junhyeop, Lee, Dogyoon, Lee, Sangyoun, Woo, Sungmin, Hwang, Sangwon, Kim, Woojin, Lee, Junhyeop, Lee, Dogyoon, and Lee, Sangyoun

Abstract

Recently, researchers have been leveraging LiDAR point cloud for higher accuracy in 3D vehicle detection. Most state-of-the-art methods are deep learning based, but are easily affected by the number of points generated on the object. This vulnerability leads to numerous false positive boxes at high recall positions, where objects are occasionally predicted with few points. To address the issue, we introduce Penetrated Point Classifier (PPC) based on the underlying property of LiDAR that points cannot be generated behind vehicles. It determines whether a point exists behind the vehicle of the predicted box, and if does, the box is distinguished as false positive. Our straightforward yet unprecedented approach is evaluated on KITTI dataset and achieved performance improvement of PointRCNN, one of the state-of-the-art methods. The experiment results show that precision at the highest recall position is dramatically increased by 15.46 percentage points and 14.63 percentage points on the moderate and hard difficulty of car class, respectively., Comment: Accepted by ICIP 2020

Published

2020

40. Regularized Adaptation for Stable and Efficient Continuous-Level Learning on Image Processing Networks

Author

Lee, Hyeongmin, Kim, Taeoh, Son, Hanbin, Baek, Sangwook, Cheon, Minsu, Lee, Sangyoun, Lee, Hyeongmin, Kim, Taeoh, Son, Hanbin, Baek, Sangwook, Cheon, Minsu, and Lee, Sangyoun

Abstract

In Convolutional Neural Network (CNN) based image processing, most of the studies propose networks that are optimized for a single-level (or a single-objective); thus, they underperform on other levels and must be retrained for delivery of optimal performance. Using multiple models to cover multiple levels involves very high computational costs. To solve these problems, recent approaches train the networks on two different levels and propose their own interpolation methods to enable the arbitrary intermediate levels. However, many of them fail to adapt hard tasks or interpolate smoothly, or the others still require large memory and computational cost. In this paper, we propose a novel continuous-level learning framework using a Filter Transition Network (FTN) which is a non-linear module that easily adapt to new levels, and is regularized to prevent undesirable side-effects. Additionally, for stable learning of FTN, we newly propose a method to initialize non-linear CNNs with identity mappings. Furthermore, FTN is extremely lightweight module since it is a data-independent module, which means it is not affected by the spatial resolution of the inputs. Extensive results for various image processing tasks indicate that the performance of FTN is stable in terms of adaptation and interpolation, and comparable to that of the other heavy frameworks.

Published

2020

41. Relational Deep Feature Learning for Heterogeneous Face Recognition

Author

Cho, MyeongAh, Kim, Taeoh, Kim, Ig-Jae, Lee, Kyungjae, Lee, Sangyoun, Cho, MyeongAh, Kim, Taeoh, Kim, Ig-Jae, Lee, Kyungjae, and Lee, Sangyoun

Abstract

Heterogeneous Face Recognition (HFR) is a task that matches faces across two different domains such as visible light (VIS), near-infrared (NIR), or the sketch domain. Due to the lack of databases, HFR methods usually exploit the pre-trained features on a large-scale visual database that contain general facial information. However, these pre-trained features cause performance degradation due to the texture discrepancy with the visual domain. With this motivation, we propose a graph-structured module called Relational Graph Module (RGM) that extracts global relational information in addition to general facial features. Because each identity's relational information between intra-facial parts is similar in any modality, the modeling relationship between features can help cross-domain matching. Through the RGM, relation propagation diminishes texture dependency without losing its advantages from the pre-trained features. Furthermore, the RGM captures global facial geometrics from locally correlated convolutional features to identify long-range relationships. In addition, we propose a Node Attention Unit (NAU) that performs node-wise recalibration to concentrate on the more informative nodes arising from relation-based propagation. Furthermore, we suggest a novel conditional-margin loss function (C-softmax) for the efficient projection learning of the embedding vector in HFR. The proposed method outperforms other state-of-the-art methods on five HFR databases. Furthermore, we demonstrate performance improvement on three backbones because our module can be plugged into any pre-trained face recognition backbone to overcome the limitations of a small HFR database.

Published

2020

42. CRVOS: Clue Refining Network for Video Object Segmentation

Author

Cho, Suhwan, Cho, MyeongAh, Chung, Tae-young, Lee, Heansung, Lee, Sangyoun, Cho, Suhwan, Cho, MyeongAh, Chung, Tae-young, Lee, Heansung, and Lee, Sangyoun

Abstract

The encoder-decoder based methods for semi-supervised video object segmentation (Semi-VOS) have received extensive attention due to their superior performances. However, most of them have complex intermediate networks which generate strong specifiers to be robust against challenging scenarios, and this is quite inefficient when dealing with relatively simple scenarios. To solve this problem, we propose a real-time network, Clue Refining Network for Video Object Segmentation (CRVOS), that does not have any intermediate network to efficiently deal with these scenarios. In this work, we propose a simple specifier, referred to as the Clue, which consists of the previous frame's coarse mask and coordinates information. We also propose a novel refine module which shows the better performance compared with the general ones by using a deconvolution layer instead of a bilinear upsampling layer. Our proposed method shows the fastest speed among the existing methods with a competitive accuracy. On DAVIS 2016 validation set, our method achieves 63.5 fps and J&F score of 81.6%., Comment: ICIP 2020. Code: https://github.com/suhwan-cho/CRVOS

Published

2020

43. AD-VO: Scale-Resilient Visual Odometry Using Attentive Disparity Map

Author

Lee, Joosung, Hwang, Sangwon, Lee, Kyungjae, Kim, Woo Jin, Lee, Junhyeop, Chung, Tae-young, Lee, Sangyoun, Lee, Joosung, Hwang, Sangwon, Lee, Kyungjae, Kim, Woo Jin, Lee, Junhyeop, Chung, Tae-young, and Lee, Sangyoun

Abstract

Visual odometry is an essential key for a localization module in SLAM systems. However, previous methods require tuning the system to adapt environment changes. In this paper, we propose a learning-based approach for frame-to-frame monocular visual odometry estimation. The proposed network is only learned by disparity maps for not only covering the environment changes but also solving the scale problem. Furthermore, attention block and skip-ordering scheme are introduced to achieve robust performance in various driving environment. Our network is compared with the conventional methods which use common domain such as color or optical flow. Experimental results confirm that the proposed network shows better performance than other approaches with higher and more stable results., Comment: 5 pages, 5 figures, 2018.02 papers

Published

2020

44. Multi-object tracking with self-supervised associating network

Author

Chung, Tae-young, Lee, Heansung, Cho, Myeong Ah, Cho, Suhwan, Lee, Sangyoun, Chung, Tae-young, Lee, Heansung, Cho, Myeong Ah, Cho, Suhwan, and Lee, Sangyoun

Abstract

Multi-Object Tracking (MOT) is the task that has a lot of potential for development, and there are still many problems to be solved. In the traditional tracking by detection paradigm, There has been a lot of work on feature based object re-identification methods. However, this method has a lack of training data problem. For labeling multi-object tracking dataset, every detection in a video sequence need its location and IDs. Since assigning consecutive IDs to each detection in every sequence is a very labor-intensive task, current multi-object tracking dataset is not sufficient enough to train re-identification network. So in this paper, we propose a novel self-supervised learning method using a lot of short videos which has no human labeling, and improve the tracking performance through the re-identification network trained in the self-supervised manner to solve the lack of training data problem. Despite the re-identification network is trained in a self-supervised manner, it achieves the state-of-the-art performance of MOTA 62.0\% and IDF1 62.6\% on the MOT17 test benchmark. Furthermore, the performance is improved as much as learned with a large amount of data, it shows the potential of self-supervised method.

Published

2020

45. Unsupervised Video Anomaly Detection via Normalizing Flows with Implicit Latent Features

Author

Cho, MyeongAh, Kim, Taeoh, Kim, Woo Jin, Cho, Suhwan, Lee, Sangyoun, Cho, MyeongAh, Kim, Taeoh, Kim, Woo Jin, Cho, Suhwan, and Lee, Sangyoun

Abstract

In contemporary society, surveillance anomaly detection, i.e., spotting anomalous events such as crimes or accidents in surveillance videos, is a critical task. As anomalies occur rarely, most training data consists of unlabeled videos without anomalous events, which makes the task challenging. Most existing methods use an autoencoder (AE) to learn to reconstruct normal videos; they then detect anomalies based on their failure to reconstruct the appearance of abnormal scenes. However, because anomalies are distinguished by appearance as well as motion, many previous approaches have explicitly separated appearance and motion information-for example, using a pre-trained optical flow model. This explicit separation restricts reciprocal representation capabilities between two types of information. In contrast, we propose an implicit two-path AE (ITAE), a structure in which two encoders implicitly model appearance and motion features, along with a single decoder that combines them to learn normal video patterns. For the complex distribution of normal scenes, we suggest normal density estimation of ITAE features through normalizing flow (NF)-based generative models to learn the tractable likelihoods and identify anomalies using out of distribution detection. NF models intensify ITAE performance by learning normality through implicitly learned features. Finally, we demonstrate the effectiveness of ITAE and its feature distribution modeling on six benchmarks, including databases that contain various anomalies in real-world scenarios.

Published

2020

46. Smoother Network Tuning and Interpolation for Continuous-level Image Processing

Author

Lee, Hyeongmin, Kim, Taeoh, Son, Hanbin, Baek, Sangwook, Cheon, Minsu, Lee, Sangyoun, Lee, Hyeongmin, Kim, Taeoh, Son, Hanbin, Baek, Sangwook, Cheon, Minsu, and Lee, Sangyoun

Abstract

In Convolutional Neural Network (CNN) based image processing, most studies propose networks that are optimized to single-level (or single-objective); thus, they underperform on other levels and must be retrained for delivery of optimal performance. Using multiple models to cover multiple levels involves very high computational costs. To solve these problems, recent approaches train networks on two different levels and propose their own interpolation methods to enable arbitrary intermediate levels. However, many of them fail to generalize or have certain side effects in practical usage. In this paper, we define these frameworks as network tuning and interpolation and propose a novel module for continuous-level learning, called Filter Transition Network (FTN). This module is a structurally smoother module than existing ones. Therefore, the frameworks with FTN generalize well across various tasks and networks and cause fewer undesirable side effects. For stable learning of FTN, we additionally propose a method to initialize non-linear neural network layers with identity mappings. Extensive results for various image processing tasks indicate that the performance of FTN is comparable in multiple continuous levels, and is significantly smoother and lighter than that of other frameworks., Comment: arXiv admin note: substantial text overlap with arXiv:2003.05145

Published

2020

47. Enhanced Standard Compatible Image Compression Framework based on Auxiliary Codec Networks

Author

Son, Hanbin, Kim, Taeoh, Lee, Hyeongmin, Lee, Sangyoun, Son, Hanbin, Kim, Taeoh, Lee, Hyeongmin, and Lee, Sangyoun

Abstract

To enhance image compression performance, recent deep neural network-based research can be divided into three categories: a learnable codec, a postprocessing network, and a compact representation network. The learnable codec has been designed for an end-to-end learning beyond the conventional compression modules. The postprocessing network increases the quality of decoded images using an example-based learning. The compact representation network is learned to reduce the capacity of an input image to reduce the bitrate while keeping the quality of the decoded image. However, these approaches are not compatible with the existing codecs or not optimal to increase the coding efficiency. Specifically, it is difficult to achieve optimal learning in the previous studies using the compact representation network, due to the inaccurate consideration of the codecs. In this paper, we propose a novel standard compatible image compression framework based on Auxiliary Codec Networks (ACNs). ACNs are designed to imitate image degradation operations of the existing codec, which delivers more accurate gradients to the compact representation network. Therefore, the compact representation and the postprocessing networks can be learned effectively and optimally. We demonstrate that our proposed framework based on JPEG and High Efficiency Video Coding (HEVC) standard substantially outperforms existing image compression algorithms in a standard compatible manner., Comment: Accepted by IEEE Transactions on image processing

Published

2020

48. PMVOS: Pixel-Level Matching-Based Video Object Segmentation

Author

Cho, Suhwan, Lee, Heansung, Woo, Sungmin, Jang, Sungjun, Lee, Sangyoun, Cho, Suhwan, Lee, Heansung, Woo, Sungmin, Jang, Sungjun, and Lee, Sangyoun

Abstract

Semi-supervised video object segmentation (VOS) aims to segment arbitrary target objects in video when the ground truth segmentation mask of the initial frame is provided. Due to this limitation of using prior knowledge about the target object, feature matching, which compares template features representing the target object with input features, is an essential step. Recently, pixel-level matching (PM), which matches every pixel in template features and input features, has been widely used for feature matching because of its high performance. However, despite its effectiveness, the information used to build the template features is limited to the initial and previous frames. We address this issue by proposing a novel method-PM-based video object segmentation (PMVOS)-that constructs strong template features containing the information of all past frames. Furthermore, we apply self-attention to the similarity maps generated from PM to capture global dependencies. On the DAVIS 2016 validation set, we achieve new state-of-the-art performance among real-time methods (> 30 fps), with a J&F score of 85.6%. Performance on the DAVIS 2017 and YouTube-VOS validation sets is also impressive, with J&F scores of 74.0% and 68.2%, respectively., Comment: Code: https://github.com/suhwan-cho/PMVOS

Published

2020

49. AdaCoF: Adaptive Collaboration of Flows for Video Frame Interpolation

Author

Lee, Hyeongmin, Kim, Taeoh, Chung, Tae-young, Pak, Daehyun, Ban, Yuseok, Lee, Sangyoun, Lee, Hyeongmin, Kim, Taeoh, Chung, Tae-young, Pak, Daehyun, Ban, Yuseok, and Lee, Sangyoun

Abstract

Video frame interpolation is one of the most challenging tasks in video processing research. Recently, many studies based on deep learning have been suggested. Most of these methods focus on finding locations with useful information to estimate each output pixel using their own frame warping operations. However, many of them have Degrees of Freedom (DoF) limitations and fail to deal with the complex motions found in real world videos. To solve this problem, we propose a new warping module named Adaptive Collaboration of Flows (AdaCoF). Our method estimates both kernel weights and offset vectors for each target pixel to synthesize the output frame. AdaCoF is one of the most generalized warping modules compared to other approaches, and covers most of them as special cases of it. Therefore, it can deal with a significantly wide domain of complex motions. To further improve our framework and synthesize more realistic outputs, we introduce dual-frame adversarial loss which is applicable only to video frame interpolation tasks. The experimental results show that our method outperforms the state-of-the-art methods for both fixed training set environments and the Middlebury benchmark., Comment: CVPR 2020

Published

2019