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1. Generalizing Motion Planners with Mixture of Experts for Autonomous Driving

Author

Sun, Qiao, Wang, Huimin, Zhan, Jiahao, Nie, Fan, Wen, Xin, Xu, Leimeng, Zhan, Kun, Jia, Peng, Lang, Xianpeng, and Zhao, Hang

Subjects
Computer Science - Robotics, Computer Science - Computer Vision and Pattern Recognition
Abstract

Large real-world driving datasets have sparked significant research into various aspects of data-driven motion planners for autonomous driving. These include data augmentation, model architecture, reward design, training strategies, and planner pipelines. These planners promise better generalizations on complicated and few-shot cases than previous methods. However, experiment results show that many of these approaches produce limited generalization abilities in planning performance due to overly complex designs or training paradigms. In this paper, we review and benchmark previous methods focusing on generalizations. The experimental results indicate that as models are appropriately scaled, many design elements become redundant. We introduce StateTransformer-2 (STR2), a scalable, decoder-only motion planner that uses a Vision Transformer (ViT) encoder and a mixture-of-experts (MoE) causal Transformer architecture. The MoE backbone addresses modality collapse and reward balancing by expert routing during training. Extensive experiments on the NuPlan dataset show that our method generalizes better than previous approaches across different test sets and closed-loop simulations. Furthermore, we assess its scalability on billions of real-world urban driving scenarios, demonstrating consistent accuracy improvements as both data and model size grow., Comment: 7 pages, 3 figures

Published
2024

2. DiVE: DiT-based Video Generation with Enhanced Control

Author

Jiang, Junpeng, Hong, Gangyi, Zhou, Lijun, Ma, Enhui, Hu, Hengtong, Zhou, Xia, Xiang, Jie, Liu, Fan, Yu, Kaicheng, Sun, Haiyang, Zhan, Kun, Jia, Peng, and Zhang, Miao

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Generating high-fidelity, temporally consistent videos in autonomous driving scenarios faces a significant challenge, e.g. problematic maneuvers in corner cases. Despite recent video generation works are proposed to tackcle the mentioned problem, i.e. models built on top of Diffusion Transformers (DiT), works are still missing which are targeted on exploring the potential for multi-view videos generation scenarios. Noticeably, we propose the first DiT-based framework specifically designed for generating temporally and multi-view consistent videos which precisely match the given bird's-eye view layouts control. Specifically, the proposed framework leverages a parameter-free spatial view-inflated attention mechanism to guarantee the cross-view consistency, where joint cross-attention modules and ControlNet-Transformer are integrated to further improve the precision of control. To demonstrate our advantages, we extensively investigate the qualitative comparisons on nuScenes dataset, particularly in some most challenging corner cases. In summary, the effectiveness of our proposed method in producing long, controllable, and highly consistent videos under difficult conditions is proven to be effective.

Published
2024

3. Lesion-aware network for diabetic retinopathy diagnosis

Author

Xia, Xue, Zhan, Kun, Fang, Yuming, Jiang, Wenhui, and Shen, Fei

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

Deep learning brought boosts to auto diabetic retinopathy (DR) diagnosis, thus, greatly helping ophthalmologists for early disease detection, which contributes to preventing disease deterioration that may eventually lead to blindness. It has been proved that convolutional neural network (CNN)-aided lesion identifying or segmentation benefits auto DR screening. The key to fine-grained lesion tasks mainly lies in: (1) extracting features being both sensitive to tiny lesions and robust against DR-irrelevant interference, and (2) exploiting and re-using encoded information to restore lesion locations under extremely imbalanced data distribution. To this end, we propose a CNN-based DR diagnosis network with attention mechanism involved, termed lesion-aware network, to better capture lesion information from imbalanced data. Specifically, we design the lesion-aware module (LAM) to capture noise-like lesion areas across deeper layers, and the feature-preserve module (FPM) to assist shallow-to-deep feature fusion. Afterward, the proposed lesion-aware network (LANet) is constructed by embedding the LAM and FPM into the CNN decoders for DR-related information utilization. The proposed LANet is then further extended to a DR screening network by adding a classification layer. Through experiments on three public fundus datasets with pixel-level annotations, our method outperforms the mainstream methods with an area under curve of 0.967 in DR screening, and increases the overall average precision by 7.6%, 2.1%, and 1.2% in lesion segmentation on three datasets. Besides, the ablation study validates the effectiveness of the proposed sub-modules., Comment: This is submitted version wihout improvements by reviewers. The final version is published on International Journal of Imaging Systems and Techonology (https://onlinelibrary.wiley.com/doi/10.1002/ima.22933)

Published
2024
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4. Autonomous LLM-Enhanced Adversarial Attack for Text-to-Motion

Author

Miao, Honglei, Ma, Fan, Quan, Ruijie, Zhan, Kun, and Yang, Yi

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Human motion generation driven by deep generative models has enabled compelling applications, but the ability of text-to-motion (T2M) models to produce realistic motions from text prompts raises security concerns if exploited maliciously. Despite growing interest in T2M, few methods focus on safeguarding these models against adversarial attacks, with existing work on text-to-image models proving insufficient for the unique motion domain. In the paper, we propose ALERT-Motion, an autonomous framework leveraging large language models (LLMs) to craft targeted adversarial attacks against black-box T2M models. Unlike prior methods modifying prompts through predefined rules, ALERT-Motion uses LLMs' knowledge of human motion to autonomously generate subtle yet powerful adversarial text descriptions. It comprises two key modules: an adaptive dispatching module that constructs an LLM-based agent to iteratively refine and search for adversarial prompts; and a multimodal information contrastive module that extracts semantically relevant motion information to guide the agent's search. Through this LLM-driven approach, ALERT-Motion crafts adversarial prompts querying victim models to produce outputs closely matching targeted motions, while avoiding obvious perturbations. Evaluations across popular T2M models demonstrate ALERT-Motion's superiority over previous methods, achieving higher attack success rates with stealthier adversarial prompts. This pioneering work on T2M adversarial attacks highlights the urgency of developing defensive measures as motion generation technology advances, urging further research into safe and responsible deployment.

Published
2024

5. High power GaSb-based distributed feedback laser with laterally coupled dielectric gratings at 1.95{\mu}m

Author

Ding, Zhengqing, Cao, Juntian, Zhan, Kun, Chen, Yihang, Zhou, Lidan, Tan, Hao, Yang, Chenao, Yu, Ying, Niu, Zhichuan, and Yu, Siyuan

Subjects
Physics - Optics, Physics - Applied Physics, 78A60, J.2.6
Abstract

Traditional Distributed Feedback (DFB) or Distributed Bragg Reflector (DBR) lasers typically utilize buried gratings as frequency-selective optical feedback mechanisms. However, the fabrication of such gratings often necessitates regrowth processes, which can pose technical challenges for materials platforms such as GaAs and GaSb. Metal gratings were also used for GaSb lasers but they introduce additional absorption loss that limits device efficiency and output power. In this paper, we introduce a novel laterally coupled dielectric Bragg grating structure, which enables highly controllable, deterministic, and stable coupling between the grating and the optical mode. Our device demonstrates a continuous-wave output power of 47.02 mW at room temperature, exhibiting stable single-mode operation from 300-1000 mA and achieving a maximum side mode suppression ratio of 46.7 dB. These results underscore the innovative lateral coupled dielectric grating as a feasible and technologically superior approach for fabricating DFB and DBR lasers, which hold universal applicability across different material platforms and wavelength bands., Comment: 9 pages, 7 figures, 1 table

Published
2024

6. High-Resolution Cloud Detection Network

Author

Li, Jingsheng, Xue, Tianxiang, Zhao, Jiayi, Ge, Jingmin, Min, Yufang, Su, Wei, and Zhan, Kun

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

The complexity of clouds, particularly in terms of texture detail at high resolutions, has not been well explored by most existing cloud detection networks. This paper introduces the High-Resolution Cloud Detection Network (HR-cloud-Net), which utilizes a hierarchical high-resolution integration approach. HR-cloud-Net integrates a high-resolution representation module, layer-wise cascaded feature fusion module, and multi-resolution pyramid pooling module to effectively capture complex cloud features. This architecture preserves detailed cloud texture information while facilitating feature exchange across different resolutions, thereby enhancing overall performance in cloud detection. Additionally, a novel approach is introduced wherein a student view, trained on noisy augmented images, is supervised by a teacher view processing normal images. This setup enables the student to learn from cleaner supervisions provided by the teacher, leading to improved performance. Extensive evaluations on three optical satellite image cloud detection datasets validate the superior performance of HR-cloud-Net compared to existing methods.The source code is available at \url{https://github.com/kunzhan/HR-cloud-Net}., Comment: Journal of Electronic Imaging

Published
2024

7. Structure-Aware Consensus Network on Graphs with Few Labeled Nodes

Author

Xu, Shuaike, Zhang, Xiaolin, Zhang, Peng, and Zhan, Kun

Subjects
Computer Science - Machine Learning, Computer Science - Computer Vision and Pattern Recognition
Abstract

Graph node classification with few labeled nodes presents significant challenges due to limited supervision. Conventional methods often exploit the graph in a transductive learning manner. They fail to effectively utilize the abundant unlabeled data and the structural information inherent in graphs. To address these issues, we introduce a Structure-Aware Consensus Network (SACN) from three perspectives. Firstly, SACN leverages a novel structure-aware consensus learning strategy between two strongly augmented views. The proposed strategy can fully exploit the potentially useful information of the unlabeled nodes and the structural information of the entire graph. Secondly, SACN uniquely integrates the graph's structural information to achieve strong-to-strong consensus learning, improving the utilization of unlabeled data while maintaining multiview learning. Thirdly, unlike two-branch graph neural network-based methods, SACN is designed for multiview feature learning within a single-branch architecture. Furthermore, a class-aware pseudolabel selection strategy helps address class imbalance and achieve effective weak-to-strong supervision. Extensive experiments on three benchmark datasets demonstrate SACN's superior performance in node classification tasks, particularly at very low label rates, outperforming state-of-the-art methods while maintaining computational simplicity.The source code is available at https://github.com/kunzhan/SACN, Comment: under review

Published
2024

8. 3DRealCar: An In-the-wild RGB-D Car Dataset with 360-degree Views

Author

Du, Xiaobiao, Sun, Haiyang, Wang, Shuyun, Wu, Zhuojie, Sheng, Hongwei, Ying, Jiaying, Lu, Ming, Zhu, Tianqing, Zhan, Kun, and Yu, Xin

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

3D cars are commonly used in self-driving systems, virtual/augmented reality, and games. However, existing 3D car datasets are either synthetic or low-quality, presenting a significant gap toward the high-quality real-world 3D car datasets and limiting their applications in practical scenarios. In this paper, we propose the first large-scale 3D real car dataset, termed 3DRealCar, offering three distinctive features. (1) \textbf{High-Volume}: 2,500 cars are meticulously scanned by 3D scanners, obtaining car images and point clouds with real-world dimensions; (2) \textbf{High-Quality}: Each car is captured in an average of 200 dense, high-resolution 360-degree RGB-D views, enabling high-fidelity 3D reconstruction; (3) \textbf{High-Diversity}: The dataset contains various cars from over 100 brands, collected under three distinct lighting conditions, including reflective, standard, and dark. Additionally, we offer detailed car parsing maps for each instance to promote research in car parsing tasks. Moreover, we remove background point clouds and standardize the car orientation to a unified axis for the reconstruction only on cars without background and controllable rendering. We benchmark 3D reconstruction results with state-of-the-art methods across each lighting condition in 3DRealCar. Extensive experiments demonstrate that the standard lighting condition part of 3DRealCar can be used to produce a large number of high-quality 3D cars, improving various 2D and 3D tasks related to cars. Notably, our dataset brings insight into the fact that recent 3D reconstruction methods face challenges in reconstructing high-quality 3D cars under reflective and dark lighting conditions. \textcolor{red}{\href{https://xiaobiaodu.github.io/3drealcar/}{Our dataset is available here.}}, Comment: Project Page: https://xiaobiaodu.github.io/3drealcar

Published
2024

9. UA-Track: Uncertainty-Aware End-to-End 3D Multi-Object Tracking

Author

Zhou, Lijun, Tang, Tao, Hao, Pengkun, He, Zihang, Ho, Kalok, Gu, Shuo, Hou, Wenbo, Hao, Zhihui, Sun, Haiyang, Zhan, Kun, Jia, Peng, Lang, Xianpeng, and Liang, Xiaodan

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

3D multiple object tracking (MOT) plays a crucial role in autonomous driving perception. Recent end-to-end query-based trackers simultaneously detect and track objects, which have shown promising potential for the 3D MOT task. However, existing methods overlook the uncertainty issue, which refers to the lack of precise confidence about the state and location of tracked objects. Uncertainty arises owing to various factors during motion observation by cameras, especially occlusions and the small size of target objects, resulting in an inaccurate estimation of the object's position, label, and identity. To this end, we propose an Uncertainty-Aware 3D MOT framework, UA-Track, which tackles the uncertainty problem from multiple aspects. Specifically, we first introduce an Uncertainty-aware Probabilistic Decoder to capture the uncertainty in object prediction with probabilistic attention. Secondly, we propose an Uncertainty-guided Query Denoising strategy to further enhance the training process. We also utilize Uncertainty-reduced Query Initialization, which leverages predicted 2D object location and depth information to reduce query uncertainty. As a result, our UA-Track achieves state-of-the-art performance on the nuScenes benchmark, i.e., 66.3% AMOTA on the test split, surpassing the previous best end-to-end solution by a significant margin of 8.9% AMOTA.

Published
2024

10. Unleashing Generalization of End-to-End Autonomous Driving with Controllable Long Video Generation

Author

Ma, Enhui, Zhou, Lijun, Tang, Tao, Zhang, Zhan, Han, Dong, Jiang, Junpeng, Zhan, Kun, Jia, Peng, Lang, Xianpeng, Sun, Haiyang, Lin, Di, and Yu, Kaicheng

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Using generative models to synthesize new data has become a de-facto standard in autonomous driving to address the data scarcity issue. Though existing approaches are able to boost perception models, we discover that these approaches fail to improve the performance of planning of end-to-end autonomous driving models as the generated videos are usually less than 8 frames and the spatial and temporal inconsistencies are not negligible. To this end, we propose Delphi, a novel diffusion-based long video generation method with a shared noise modeling mechanism across the multi-views to increase spatial consistency, and a feature-aligned module to achieves both precise controllability and temporal consistency. Our method can generate up to 40 frames of video without loss of consistency which is about 5 times longer compared with state-of-the-art methods. Instead of randomly generating new data, we further design a sampling policy to let Delphi generate new data that are similar to those failure cases to improve the sample efficiency. This is achieved by building a failure-case driven framework with the help of pre-trained visual language models. Our extensive experiment demonstrates that our Delphi generates a higher quality of long videos surpassing previous state-of-the-art methods. Consequentially, with only generating 4% of the training dataset size, our framework is able to go beyond perception and prediction tasks, for the first time to the best of our knowledge, boost the planning performance of the end-to-end autonomous driving model by a margin of 25%., Comment: Project Page: https://westlake-autolab.github.io/delphi.github.io/, 8 figures

Published
2024

11. PlanAgent: A Multi-modal Large Language Agent for Closed-loop Vehicle Motion Planning

Author

Zheng, Yupeng, Xing, Zebin, Zhang, Qichao, Jin, Bu, Li, Pengfei, Zheng, Yuhang, Xia, Zhongpu, Zhan, Kun, Lang, Xianpeng, Chen, Yaran, and Zhao, Dongbin

Subjects
Computer Science - Robotics
Abstract

Vehicle motion planning is an essential component of autonomous driving technology. Current rule-based vehicle motion planning methods perform satisfactorily in common scenarios but struggle to generalize to long-tailed situations. Meanwhile, learning-based methods have yet to achieve superior performance over rule-based approaches in large-scale closed-loop scenarios. To address these issues, we propose PlanAgent, the first mid-to-mid planning system based on a Multi-modal Large Language Model (MLLM). MLLM is used as a cognitive agent to introduce human-like knowledge, interpretability, and common-sense reasoning into the closed-loop planning. Specifically, PlanAgent leverages the power of MLLM through three core modules. First, an Environment Transformation module constructs a Bird's Eye View (BEV) map and a lane-graph-based textual description from the environment as inputs. Second, a Reasoning Engine module introduces a hierarchical chain-of-thought from scene understanding to lateral and longitudinal motion instructions, culminating in planner code generation. Last, a Reflection module is integrated to simulate and evaluate the generated planner for reducing MLLM's uncertainty. PlanAgent is endowed with the common-sense reasoning and generalization capability of MLLM, which empowers it to effectively tackle both common and complex long-tailed scenarios. Our proposed PlanAgent is evaluated on the large-scale and challenging nuPlan benchmarks. A comprehensive set of experiments convincingly demonstrates that PlanAgent outperforms the existing state-of-the-art in the closed-loop motion planning task. Codes will be soon released., Comment: This work has been submitted to the IEEE for possible publication

Published
2024

12. InfoMatch: Entropy Neural Estimation for Semi-Supervised Image Classification

Author

Han, Qi, Tian, Zhibo, Xia, Chengwei, and Zhan, Kun

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Semi-supervised image classification, leveraging pseudo supervision and consistency regularization, has demonstrated remarkable success. However, the ongoing challenge lies in fully exploiting the potential of unlabeled data. To address this, we employ information entropy neural estimation to utilize the potential of unlabeled samples. Inspired by contrastive learning, the entropy is estimated by maximizing a lower bound on mutual information across different augmented views. Moreover, we theoretically analyze that the information entropy of the posterior of an image classifier is approximated by maximizing the likelihood function of the softmax predictions. Guided by these insights, we optimize our model from both perspectives to ensure that the predicted probability distribution closely aligns with the ground-truth distribution. Given the theoretical connection to information entropy, we name our method InfoMatch. Through extensive experiments, we show its superior performance. The source code is available at https://github.com/kunzhan/InfoMatch., Comment: IJCAI 2024

Published
2024

13. TOD3Cap: Towards 3D Dense Captioning in Outdoor Scenes

Author

Jin, Bu, Zheng, Yupeng, Li, Pengfei, Li, Weize, Zheng, Yuhang, Hu, Sujie, Liu, Xinyu, Zhu, Jinwei, Yan, Zhijie, Sun, Haiyang, Zhan, Kun, Jia, Peng, Long, Xiaoxiao, Chen, Yilun, and Zhao, Hao

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

3D dense captioning stands as a cornerstone in achieving a comprehensive understanding of 3D scenes through natural language. It has recently witnessed remarkable achievements, particularly in indoor settings. However, the exploration of 3D dense captioning in outdoor scenes is hindered by two major challenges: 1) the domain gap between indoor and outdoor scenes, such as dynamics and sparse visual inputs, makes it difficult to directly adapt existing indoor methods; 2) the lack of data with comprehensive box-caption pair annotations specifically tailored for outdoor scenes. To this end, we introduce the new task of outdoor 3D dense captioning. As input, we assume a LiDAR point cloud and a set of RGB images captured by the panoramic camera rig. The expected output is a set of object boxes with captions. To tackle this task, we propose the TOD3Cap network, which leverages the BEV representation to generate object box proposals and integrates Relation Q-Former with LLaMA-Adapter to generate rich captions for these objects. We also introduce the TOD3Cap dataset, the largest one to our knowledge for 3D dense captioning in outdoor scenes, which contains 2.3M descriptions of 64.3K outdoor objects from 850 scenes. Notably, our TOD3Cap network can effectively localize and caption 3D objects in outdoor scenes, which outperforms baseline methods by a significant margin (+9.6 CiDEr@0.5IoU). Code, data, and models are publicly available at https://github.com/jxbbb/TOD3Cap., Comment: Code, data, and models are publicly available at https://github.com/jxbbb/TOD3Cap

Published
2024

14. DriveVLM: The Convergence of Autonomous Driving and Large Vision-Language Models

Author

Tian, Xiaoyu, Gu, Junru, Li, Bailin, Liu, Yicheng, Wang, Yang, Zhao, Zhiyong, Zhan, Kun, Jia, Peng, Lang, Xianpeng, and Zhao, Hang

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

A primary hurdle of autonomous driving in urban environments is understanding complex and long-tail scenarios, such as challenging road conditions and delicate human behaviors. We introduce DriveVLM, an autonomous driving system leveraging Vision-Language Models (VLMs) for enhanced scene understanding and planning capabilities. DriveVLM integrates a unique combination of reasoning modules for scene description, scene analysis, and hierarchical planning. Furthermore, recognizing the limitations of VLMs in spatial reasoning and heavy computational requirements, we propose DriveVLM-Dual, a hybrid system that synergizes the strengths of DriveVLM with the traditional autonomous driving pipeline. Experiments on both the nuScenes dataset and our SUP-AD dataset demonstrate the efficacy of DriveVLM and DriveVLM-Dual in handling complex and unpredictable driving conditions. Finally, we deploy the DriveVLM-Dual on a production vehicle, verifying it is effective in real-world autonomous driving environments., Comment: Project Page: https://tsinghua-mars-lab.github.io/DriveVLM/

Published
2024

15. Street Gaussians: Modeling Dynamic Urban Scenes with Gaussian Splatting

Author

Yan, Yunzhi, Lin, Haotong, Zhou, Chenxu, Wang, Weijie, Sun, Haiyang, Zhan, Kun, Lang, Xianpeng, Zhou, Xiaowei, and Peng, Sida

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Graphics
Abstract

This paper aims to tackle the problem of modeling dynamic urban streets for autonomous driving scenes. Recent methods extend NeRF by incorporating tracked vehicle poses to animate vehicles, enabling photo-realistic view synthesis of dynamic urban street scenes. However, significant limitations are their slow training and rendering speed. We introduce Street Gaussians, a new explicit scene representation that tackles these limitations. Specifically, the dynamic urban scene is represented as a set of point clouds equipped with semantic logits and 3D Gaussians, each associated with either a foreground vehicle or the background. To model the dynamics of foreground object vehicles, each object point cloud is optimized with optimizable tracked poses, along with a 4D spherical harmonics model for the dynamic appearance. The explicit representation allows easy composition of object vehicles and background, which in turn allows for scene editing operations and rendering at 135 FPS (1066 $\times$ 1600 resolution) within half an hour of training. The proposed method is evaluated on multiple challenging benchmarks, including KITTI and Waymo Open datasets. Experiments show that the proposed method consistently outperforms state-of-the-art methods across all datasets. The code will be released to ensure reproducibility., Comment: Project page: https://zju3dv.github.io/street_gaussians/

Published
2024

16. BEV-TSR: Text-Scene Retrieval in BEV Space for Autonomous Driving

Author

Tang, Tao, Wei, Dafeng, Jia, Zhengyu, Gao, Tian, Cai, Changwei, Hou, Chengkai, Jia, Peng, Zhan, Kun, Sun, Haiyang, Fan, Jingchen, Zhao, Yixing, Liu, Fu, Liang, Xiaodan, Lang, Xianpeng, and Wang, Yang

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence
Abstract

The rapid development of the autonomous driving industry has led to a significant accumulation of autonomous driving data. Consequently, there comes a growing demand for retrieving data to provide specialized optimization. However, directly applying previous image retrieval methods faces several challenges, such as the lack of global feature representation and inadequate text retrieval ability for complex driving scenes. To address these issues, firstly, we propose the BEV-TSR framework which leverages descriptive text as an input to retrieve corresponding scenes in the Bird's Eye View (BEV) space. Then to facilitate complex scene retrieval with extensive text descriptions, we employ a large language model (LLM) to extract the semantic features of the text inputs and incorporate knowledge graph embeddings to enhance the semantic richness of the language embedding. To achieve feature alignment between the BEV feature and language embedding, we propose Shared Cross-modal Embedding with a set of shared learnable embeddings to bridge the gap between these two modalities, and employ a caption generation task to further enhance the alignment. Furthermore, there lack of well-formed retrieval datasets for effective evaluation. To this end, we establish a multi-level retrieval dataset, nuScenes-Retrieval, based on the widely adopted nuScenes dataset. Experimental results on the multi-level nuScenes-Retrieval show that BEV-TSR achieves state-of-the-art performance, e.g., 85.78% and 87.66% top-1 accuracy on scene-to-text and text-to-scene retrieval respectively. Codes and datasets will be available.

Published
2024

17. TOD3Cap: Towards 3D Dense Captioning in Outdoor Scenes

Author

Jin, Bu, Zheng, Yupeng, Li, Pengfei, Li, Weize, Zheng, Yuhang, Hu, Sujie, Liu, Xinyu, Zhu, Jinwei, Yan, Zhijie, Sun, Haiyang, Zhan, Kun, Jia, Peng, Long, Xiaoxiao, Chen, Yilun, Zhao, Hao, Goos, Gerhard, Series Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Leonardis, Aleš, editor, Ricci, Elisa, editor, Roth, Stefan, editor, Russakovsky, Olga, editor, Sattler, Torsten, editor, and Varol, Gül, editor

Published
2025
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18. Self-Contrastive Graph Diffusion Network

Author

Ma, Yixian and Zhan, Kun

Subjects
Computer Science - Machine Learning, Computer Science - Artificial Intelligence
Abstract

Augmentation techniques and sampling strategies are crucial in contrastive learning, but in most existing works, augmentation techniques require careful design, and their sampling strategies can only capture a small amount of intrinsic supervision information. Additionally, the existing methods require complex designs to obtain two different representations of the data. To overcome these limitations, we propose a novel framework called the Self-Contrastive Graph Diffusion Network (SCGDN). Our framework consists of two main components: the Attentional Module (AttM) and the Diffusion Module (DiFM). AttM aggregates higher-order structure and feature information to get an excellent embedding, while DiFM balances the state of each node in the graph through Laplacian diffusion learning and allows the cooperative evolution of adjacency and feature information in the graph. Unlike existing methodologies, SCGDN is an augmentation-free approach that avoids "sampling bias" and semantic drift, without the need for pre-training. We conduct a high-quality sampling of samples based on structure and feature information. If two nodes are neighbors, they are considered positive samples of each other. If two disconnected nodes are also unrelated on $k$NN graph, they are considered negative samples for each other. The contrastive objective reasonably uses our proposed sampling strategies, and the redundancy reduction term minimizes redundant information in the embedding and can well retain more discriminative information. In this novel framework, the graph self-contrastive learning paradigm gives expression to a powerful force. SCGDN effectively balances between preserving high-order structure information and avoiding overfitting. The results manifest that SCGDN can consistently generate outperformance over both the contrastive methods and the classical methods., Comment: ACM Multimedia 2013 Accpeted

Published
2023

19. Entropy Neural Estimation for Graph Contrastive Learning

Author

Ma, Yixuan, Zhang, Xiaolin, Zhang, Peng, and Zhan, Kun

Subjects
Computer Science - Machine Learning, Computer Science - Artificial Intelligence
Abstract

Contrastive learning on graphs aims at extracting distinguishable high-level representations of nodes. In this paper, we theoretically illustrate that the entropy of a dataset can be approximated by maximizing the lower bound of the mutual information across different views of a graph, \ie, entropy is estimated by a neural network. Based on this finding, we propose a simple yet effective subset sampling strategy to contrast pairwise representations between views of a dataset. In particular, we randomly sample nodes and edges from a given graph to build the input subset for a view. Two views are fed into a parameter-shared Siamese network to extract the high-dimensional embeddings and estimate the information entropy of the entire graph. For the learning process, we propose to optimize the network using two objectives, simultaneously. Concretely, the input of the contrastive loss function consists of positive and negative pairs. Our selection strategy of pairs is different from previous works and we present a novel strategy to enhance the representation ability of the graph encoder by selecting nodes based on cross-view similarities. We enrich the diversity of the positive and negative pairs by selecting highly similar samples and totally different data with the guidance of cross-view similarity scores, respectively. We also introduce a cross-view consistency constraint on the representations generated from the different views. This objective guarantees the learned representations are consistent across views from the perspective of the entire graph. We conduct extensive experiments on seven graph benchmarks, and the proposed approach achieves competitive performance compared to the current state-of-the-art methods. The source code will be publicly released once this paper is accepted., Comment: ACM MM 2023 accepted

Published
2023

20. Improving Semi-Supervised Semantic Segmentation with Dual-Level Siamese Structure Network

Author

Tain, Zhibo, Zhang, Xiaolin, Zhang, Peng, and Zhan, Kun

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning
Abstract

Semi-supervised semantic segmentation (SSS) is an important task that utilizes both labeled and unlabeled data to reduce expenses on labeling training examples. However, the effectiveness of SSS algorithms is limited by the difficulty of fully exploiting the potential of unlabeled data. To address this, we propose a dual-level Siamese structure network (DSSN) for pixel-wise contrastive learning. By aligning positive pairs with a pixel-wise contrastive loss using strong augmented views in both low-level image space and high-level feature space, the proposed DSSN is designed to maximize the utilization of available unlabeled data. Additionally, we introduce a novel class-aware pseudo-label selection strategy for weak-to-strong supervision, which addresses the limitations of most existing methods that do not perform selection or apply a predefined threshold for all classes. Specifically, our strategy selects the top high-confidence prediction of the weak view for each class to generate pseudo labels that supervise the strong augmented views. This strategy is capable of taking into account the class imbalance and improving the performance of long-tailed classes. Our proposed method achieves state-of-the-art results on two datasets, PASCAL VOC 2012 and Cityscapes, outperforming other SSS algorithms by a significant margin. The source code is available at https://github.com/kunzhan/DSSN., Comment: ACM MM 2023

Published
2023

21. Curriculum Knowledge Switching for Pancreas Segmentation

Author

Tang, Yumou, Zhan, Kun, Tian, Zhibo, Zhang, Mingxuan, Wang, Saisai, and Wen, Xueming

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Pancreas segmentation is challenging due to the small proportion and highly changeable anatomical structure. It motivates us to propose a novel segmentation framework, namely Curriculum Knowledge Switching (CKS) framework, which decomposes detecting pancreas into three phases with different difficulty extent: straightforward, difficult, and challenging. The framework switches from straightforward to challenging phases and thereby gradually learns to detect pancreas. In addition, we adopt the momentum update parameter updating mechanism during switching, ensuring the loss converges gradually when the input dataset changes. Experimental results show that different neural network backbones with the CKS framework achieved state-of-the-art performance on the NIH dataset as measured by the DSC metric., Comment: ICIP 2023

Published
2023

26. Stationary Diffusion State Neural Estimation for Multiview Clustering

Author

Liu, Chenghua, Liao, Zhuolin, Ma, Yixuan, and Zhan, Kun

Subjects
Computer Science - Machine Learning
Abstract

Although many graph-based clustering methods attempt to model the stationary diffusion state in their objectives, their performance limits to using a predefined graph. We argue that the estimation of the stationary diffusion state can be achieved by gradient descent over neural networks. We specifically design the Stationary Diffusion State Neural Estimation (SDSNE) to exploit multiview structural graph information for co-supervised learning. We explore how to design a graph neural network specially for unsupervised multiview learning and integrate multiple graphs into a unified consensus graph by a shared self-attentional module. The view-shared self-attentional module utilizes the graph structure to learn a view-consistent global graph. Meanwhile, instead of using auto-encoder in most unsupervised learning graph neural networks, SDSNE uses a co-supervised strategy with structure information to supervise the model learning. The co-supervised strategy as the loss function guides SDSNE in achieving the stationary state. With the help of the loss and the self-attentional module, we learn to obtain a graph in which nodes in each connected component fully connect by the same weight. Experiments on several multiview datasets demonstrate effectiveness of SDSNE in terms of six clustering evaluation metrics., Comment: AAAI 2022

Published
2021

30. Mutual Teaching for Graph Convolutional Networks

Author

Zhan, Kun and Niu, Chaoxi

Subjects
Computer Science - Machine Learning, Computer Science - Computer Vision and Pattern Recognition, Statistics - Machine Learning
Abstract

Graph convolutional networks produce good predictions of unlabeled samples due to its transductive label propagation. Since samples have different predicted confidences, we take high-confidence predictions as pseudo labels to expand the label set so that more samples are selected for updating models. We propose a new training method named as mutual teaching, i.e., we train dual models and let them teach each other during each batch. First, each network feeds forward all samples and selects samples with high-confidence predictions. Second, each model is updated by samples selected by its peer network. We view the high-confidence predictions as useful knowledge, and the useful knowledge of one network teaches the peer network with model updating in each batch. In mutual teaching, the pseudo-label set of a network is from its peer network. Since we use the new strategy of network training, performance improves significantly. Extensive experimental results demonstrate that our method achieves superior performance over state-of-the-art methods under very low label rates., Comment: GCN, 8 pages, 1 figures

Published
2020

32. Generative approach to unsupervised deep local learning

Author

Chen, Changlu, Niu, Chaoxi, Zhan, Xia, and Zhan, Kun

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Most existing feature learning methods optimize inflexible handcrafted features and the affinity matrix is constructed by shallow linear embedding methods. Different from these conventional methods, we pretrain a generative neural network by stacking convolutional autoencoders to learn the latent data representation and then construct an affinity graph with them as a prior. Based on the pretrained model and the constructed graph, we add a self-expressive layer to complete the generative model and then fine-tune it with a new loss function, including the reconstruction loss and a deliberately defined locality-preserving loss. The locality-preserving loss designed by the constructed affinity graph serves as prior to preserve the local structure during the fine-tuning stage, which in turn improves the quality of feature representation effectively. Furthermore, the self-expressive layer between the encoder and decoder is based on the assumption that each latent feature is a linear combination of other latent features, so the weighted combination coefficients of the self-expressive layer are used to construct a new refined affinity graph for representing the data structure. We conduct experiments on four datasets to demonstrate the superiority of the representation ability of our proposed model over the state-of-the-art methods.

Published
2019
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36. EraseReLU: A Simple Way to Ease the Training of Deep Convolution Neural Networks

Author

Dong, Xuanyi, Kang, Guoliang, Zhan, Kun, and Yang, Yi

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

For most state-of-the-art architectures, Rectified Linear Unit (ReLU) becomes a standard component accompanied with each layer. Although ReLU can ease the network training to an extent, the character of blocking negative values may suppress the propagation of useful information and leads to the difficulty of optimizing very deep Convolutional Neural Networks (CNNs). Moreover, stacking layers with nonlinear activations is hard to approximate the intrinsic linear transformations between feature representations. In this paper, we investigate the effect of erasing ReLUs of certain layers and apply it to various representative architectures following deterministic rules. It can ease the optimization and improve the generalization performance for very deep CNN models. We find two key factors being essential to the performance improvement: 1) the location where ReLU should be erased inside the basic module; 2) the proportion of basic modules to erase ReLU; We show that erasing the last ReLU layer of all basic modules in a network usually yields improved performance. In experiments, our approach successfully improves the performance of various representative architectures, and we report the improved results on SVHN, CIFAR-10/100, and ImageNet. Moreover, we achieve competitive single-model performance on CIFAR-100 with 16.53% error rate compared to state-of-the-art.

Published
2017

39. Street Gaussians for Modeling Dynamic Urban Scenes

Author

Yan, Yunzhi, Lin, Haotong, Zhou, Chenxu, Wang, Weijie, Sun, Haiyang, Zhan, Kun, Lang, Xianpeng, Zhou, Xiaowei, Peng, Sida, Yan, Yunzhi, Lin, Haotong, Zhou, Chenxu, Wang, Weijie, Sun, Haiyang, Zhan, Kun, Lang, Xianpeng, Zhou, Xiaowei, and Peng, Sida

Abstract

This paper aims to tackle the problem of modeling dynamic urban street scenes from monocular videos. Recent methods extend NeRF by incorporating tracked vehicle poses to animate vehicles, enabling photo-realistic view synthesis of dynamic urban street scenes. However, significant limitations are their slow training and rendering speed, coupled with the critical need for high precision in tracked vehicle poses. We introduce Street Gaussians, a new explicit scene representation that tackles all these limitations. Specifically, the dynamic urban street is represented as a set of point clouds equipped with semantic logits and 3D Gaussians, each associated with either a foreground vehicle or the background. To model the dynamics of foreground object vehicles, each object point cloud is optimized with optimizable tracked poses, along with a dynamic spherical harmonics model for the dynamic appearance. The explicit representation allows easy composition of object vehicles and background, which in turn allows for scene editing operations and rendering at 133 FPS (1066$\times$1600 resolution) within half an hour of training. The proposed method is evaluated on multiple challenging benchmarks, including KITTI and Waymo Open datasets. Experiments show that the proposed method consistently outperforms state-of-the-art methods across all datasets. Furthermore, the proposed representation delivers performance on par with that achieved using precise ground-truth poses, despite relying only on poses from an off-the-shelf tracker. The code is available at https://zju3dv.github.io/street_gaussians/., Comment: Project page: https://zju3dv.github.io/street_gaussians

Published
2024

40. BEV-CLIP: Multi-modal BEV Retrieval Methodology for Complex Scene in Autonomous Driving

Author

Wei, Dafeng, Gao, Tian, Jia, Zhengyu, Cai, Changwei, Hou, Chengkai, Jia, Peng, Liu, Fu, Zhan, Kun, Fan, Jingchen, Zhao, Yixing, Wang, Yang, Wei, Dafeng, Gao, Tian, Jia, Zhengyu, Cai, Changwei, Hou, Chengkai, Jia, Peng, Liu, Fu, Zhan, Kun, Fan, Jingchen, Zhao, Yixing, and Wang, Yang

Abstract

The demand for the retrieval of complex scene data in autonomous driving is increasing, especially as passenger vehicles have been equipped with the ability to navigate urban settings, with the imperative to address long-tail scenarios. Meanwhile, under the pre-existing two dimensional image retrieval method, some problems may arise with scene retrieval, such as lack of global feature representation and subpar text retrieval ability. To address these issues, we have proposed \textbf{BEV-CLIP}, the first multimodal Bird's-Eye View(BEV) retrieval methodology that utilizes descriptive text as an input to retrieve corresponding scenes. This methodology applies the semantic feature extraction abilities of a large language model (LLM) to facilitate zero-shot retrieval of extensive text descriptions, and incorporates semi-structured information from a knowledge graph to improve the semantic richness and variety of the language embedding. Our experiments result in 87.66% accuracy on NuScenes dataset in text-to-BEV feature retrieval. The demonstrated cases in our paper support that our retrieval method is also indicated to be effective in identifying certain long-tail corner scenes., Comment: Under review of CVPR 2024

Published
2024

43. Effects of two total mixed diets on growth performance and serum biochemical indexes of ewes bred by F1 generation of Suffolk and Tibetan sheep crossbred in cold season house feeding.

Author

LIU Xin-yu, REN Yue, LIU Meng-jun, DAWA Dun-zhu, NIMA Ci-ren, and TAN Zhan-kun

Subjects
EWES, SHEEP, TIBETANS, SHEEP feeding, ALFALFA as feed, CROSSBREEDING, PROTEINS in animal nutrition
Abstract

The purpose of this experiment was to investigate the effects of two total mixed diets on the growth performance and serum biochemical indexes of 25~35 kg Suffolk and Tibetan sheep crossbred F1 ewe under cold season house feeding conditions. Twenty-one ewes bred in F1 generation of Suffolk and Tibetan sheep hybrid with similar body condition and phenotype were randomly divided into three groups with seven replicates in each group and one sheep in each replicate. Group D (CP 14.26%, ME 12.93 MJ/kg) and Group G (CP 15.06%, ME 11.67 MJ/kg) were fed total mixed diets with different protein and energy levels, while the control group was fed alfalfa and oat hay. The pre-test period was seven days, and the formal test period was 60 days. The results showed that the average daily gain from 1 to 30 days, the average daily gain from 31 to 60 days, the average daily gain from 1 to 60 days, and the average daily gain from 1 to 60 days in Group G were significantly higher than those in Group D and control group (P<0.05), while the feed-to-weight ratio from 31 to 60 days and 1 to 60 days were significantly lower than those in Group D (P<0.05). The average daily feed intake and feed-weight ratio from 1 to 30 days, and average daily feed intake from from 31 to 60 days and 1 to 60 days in Group D were significantly higher than those in the control group (P<0.05). The serum glucose, total cholesterol, and lactate dehydrogenase activity in Group G were significantly higher than those in Group D and control group (P<0.05), the serum glutamic oxalacetic transaminase activity in Group G was significantly higher than that in Group D and control group (P<0.05), the serum albumin and calcium contentrations in Group D were significantly lower than that in control group (P<0.05), the serum total bile acid and inorganic phosphorus content in Group D were significantly higher than that in and control group (P<0.05), and the serum urea nitrogen content in Group D and Group G was significantly lower than that in control group (P<0.05). The study indicates that feeding total mixed diet to F1 ewe of Suffolk and Tibetan hybrid in cold season can improve the growth performance, and the feeding effect of group G is better. [ABSTRACT FROM AUTHOR]

Published
2024
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