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136 results on '"Yin, Huilin"'

1. Segment-Anything Models Achieve Zero-shot Robustness in Autonomous Driving

Author

Yan, Jun, Wang, Pengyu, Wang, Danni, Huang, Weiquan, Watzenig, Daniel, and Yin, Huilin

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

Semantic segmentation is a significant perception task in autonomous driving. It suffers from the risks of adversarial examples. In the past few years, deep learning has gradually transitioned from convolutional neural network (CNN) models with a relatively small number of parameters to foundation models with a huge number of parameters. The segment-anything model (SAM) is a generalized image segmentation framework that is capable of handling various types of images and is able to recognize and segment arbitrary objects in an image without the need to train on a specific object. It is a unified model that can handle diverse downstream tasks, including semantic segmentation, object detection, and tracking. In the task of semantic segmentation for autonomous driving, it is significant to study the zero-shot adversarial robustness of SAM. Therefore, we deliver a systematic empirical study on the robustness of SAM without additional training. Based on the experimental results, the zero-shot adversarial robustness of the SAM under the black-box corruptions and white-box adversarial attacks is acceptable, even without the need for additional training. The finding of this study is insightful in that the gigantic model parameters and huge amounts of training data lead to the phenomenon of emergence, which builds a guarantee of adversarial robustness. SAM is a vision foundation model that can be regarded as an early prototype of an artificial general intelligence (AGI) pipeline. In such a pipeline, a unified model can handle diverse tasks. Therefore, this research not only inspects the impact of vision foundation models on safe autonomous driving but also provides a perspective on developing trustworthy AGI. The code is available at: https://github.com/momo1986/robust_sam_iv., Comment: Accepted to IAVVC 2024

Published
2024

2. SA-Attack: Speed-adaptive stealthy adversarial attack on trajectory prediction

Author

Yin, Huilin, Li, Jiaxiang, Zhen, Pengju, and Yan, Jun

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

Trajectory prediction is critical for the safe planning and navigation of automated vehicles. The trajectory prediction models based on the neural networks are vulnerable to adversarial attacks. Previous attack methods have achieved high attack success rates but overlook the adaptability to realistic scenarios and the concealment of the deceits. To address this problem, we propose a speed-adaptive stealthy adversarial attack method named SA-Attack. This method searches the sensitive region of trajectory prediction models and generates the adversarial trajectories by using the vehicle-following method and incorporating information about forthcoming trajectories. Our method has the ability to adapt to different speed scenarios by reconstructing the trajectory from scratch. Fusing future trajectory trends and curvature constraints can guarantee the smoothness of adversarial trajectories, further ensuring the stealthiness of attacks. The empirical study on the datasets of nuScenes and Apolloscape demonstrates the attack performance of our proposed method. Finally, we also demonstrate the adaptability and stealthiness of SA-Attack for different speed scenarios. Our code is available at the repository: https://github.com/eclipse-bot/SA-Attack., Comment: This work is published in IEEE IV Symposium

Published
2024

3. Random Network Distillation Based Deep Reinforcement Learning for AGV Path Planning

Author

Yin, Huilin, Su, Shengkai, Lin, Yinjia, Zhen, Pengju, Festl, Karin, and Watzenig, Daniel

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

With the flourishing development of intelligent warehousing systems, the technology of Automated Guided Vehicle (AGV) has experienced rapid growth. Within intelligent warehousing environments, AGV is required to safely and rapidly plan an optimal path in complex and dynamic environments. Most research has studied deep reinforcement learning to address this challenge. However, in the environments with sparse extrinsic rewards, these algorithms often converge slowly, learn inefficiently or fail to reach the target. Random Network Distillation (RND), as an exploration enhancement, can effectively improve the performance of proximal policy optimization, especially enhancing the additional intrinsic rewards of the AGV agent which is in sparse reward environments. Moreover, most of the current research continues to use 2D grid mazes as experimental environments. These environments have insufficient complexity and limited action sets. To solve this limitation, we present simulation environments of AGV path planning with continuous actions and positions for AGVs, so that it can be close to realistic physical scenarios. Based on our experiments and comprehensive analysis of the proposed method, the results demonstrate that our proposed method enables AGV to more rapidly complete path planning tasks with continuous actions in our environments. A video of part of our experiments can be found at https://youtu.be/lwrY9YesGmw., Comment: 6 pages, 8 figures

Published
2024

4. PICNN: A Pathway towards Interpretable Convolutional Neural Networks

Author

Guo, Wengang, Yang, Jiayi, Yin, Huilin, Chen, Qijun, and Ye, Wei

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

Convolutional Neural Networks (CNNs) have exhibited great performance in discriminative feature learning for complex visual tasks. Besides discrimination power, interpretability is another important yet under-explored property for CNNs. One difficulty in the CNN interpretability is that filters and image classes are entangled. In this paper, we introduce a novel pathway to alleviate the entanglement between filters and image classes. The proposed pathway groups the filters in a late conv-layer of CNN into class-specific clusters. Clusters and classes are in a one-to-one relationship. Specifically, we use the Bernoulli sampling to generate the filter-cluster assignment matrix from a learnable filter-class correspondence matrix. To enable end-to-end optimization, we develop a novel reparameterization trick for handling the non-differentiable Bernoulli sampling. We evaluate the effectiveness of our method on ten widely used network architectures (including nine CNNs and a ViT) and five benchmark datasets. Experimental results have demonstrated that our method PICNN (the combination of standard CNNs with our proposed pathway) exhibits greater interpretability than standard CNNs while achieving higher or comparable discrimination power.

Published
2023

5. Performance of Graph Database Management Systems as route planning solutions for different data and usage characteristics

Author

Festl, Karin, Promitzer, Patrick, Watzenig, Daniel, and Yin, Huilin

Subjects
Computer Science - Databases, Electrical Engineering and Systems Science - Systems and Control
Abstract

Graph databases have grown in popularity in recent years as they are able to efficiently store and query complex relationships between data. Incidentally, navigation data and road networks can be processed, sampled or modified efficiently when stored as a graph. As a result, graph databases are a solution for solving route planning tasks that comes more and more to the attention of developers of autonomous vehicles. To achieve a computational performance that enables the realization of route planning on large road networks or for a great number of agents concurrently, several aspects need to be considered in the design of the solution. Based on a concrete use case for centralized route planning, we discuss the characteristics and properties of a use case that can significantly influence the computational effort or efficiency of the database management system. Subsequently we evaluate the performance of both Neo4j and ArangoDB depending on these properties. With these results, it is not only possible to choose the most suitable database system but also to improve the resulting performance by addressing relevant aspects in the design of the application., Comment: Submitted to IEEE IAVVC 2023

Published
2023

8. Causal Information Bottleneck Boosts Adversarial Robustness of Deep Neural Network

Author

Hua, Huan, Yan, Jun, Fang, Xi, Huang, Weiquan, Yin, Huilin, and Ge, Wancheng

Subjects
Computer Science - Machine Learning, Computer Science - Artificial Intelligence, Computer Science - Cryptography and Security
Abstract

The information bottleneck (IB) method is a feasible defense solution against adversarial attacks in deep learning. However, this method suffers from the spurious correlation, which leads to the limitation of its further improvement of adversarial robustness. In this paper, we incorporate the causal inference into the IB framework to alleviate such a problem. Specifically, we divide the features obtained by the IB method into robust features (content information) and non-robust features (style information) via the instrumental variables to estimate the causal effects. With the utilization of such a framework, the influence of non-robust features could be mitigated to strengthen the adversarial robustness. We make an analysis of the effectiveness of our proposed method. The extensive experiments in MNIST, FashionMNIST, and CIFAR-10 show that our method exhibits the considerable robustness against multiple adversarial attacks. Our code would be released.

Published
2022

9. Wavelet Regularization Benefits Adversarial Training

Author

Yan, Jun, Yin, Huilin, Deng, Xiaoyang, Zhao, Ziming, Ge, Wancheng, Zhang, Hao, and Rigoll, Gerhard

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Adversarial training methods are state-of-the-art (SOTA) empirical defense methods against adversarial examples. Many regularization methods have been proven to be effective with the combination of adversarial training. Nevertheless, such regularization methods are implemented in the time domain. Since adversarial vulnerability can be regarded as a high-frequency phenomenon, it is essential to regulate the adversarially-trained neural network models in the frequency domain. Faced with these challenges, we make a theoretical analysis on the regularization property of wavelets which can enhance adversarial training. We propose a wavelet regularization method based on the Haar wavelet decomposition which is named Wavelet Average Pooling. This wavelet regularization module is integrated into the wide residual neural network so that a new WideWaveletResNet model is formed. On the datasets of CIFAR-10 and CIFAR-100, our proposed Adversarial Wavelet Training method realizes considerable robustness under different types of attacks. It verifies the assumption that our wavelet regularization method can enhance adversarial robustness especially in the deep wide neural networks. The visualization experiments of the Frequency Principle (F-Principle) and interpretability are implemented to show the effectiveness of our method. A detailed comparison based on different wavelet base functions is presented. The code is available at the repository: \url{https://github.com/momo1986/AdversarialWaveletTraining}., Comment: Preprint version

Published
2022

10. Multi-agent Reinforcement Learning for Cooperative Lane Changing of Connected and Autonomous Vehicles in Mixed Traffic

Author

Zhou, Wei, Chen, Dong, Yan, Jun, Li, Zhaojian, Yin, Huilin, and Ge, Wanchen

Subjects
Computer Science - Machine Learning, Computer Science - Multiagent Systems
Abstract

Autonomous driving has attracted significant research interests in the past two decades as it offers many potential benefits, including releasing drivers from exhausting driving and mitigating traffic congestion, among others. Despite promising progress, lane-changing remains a great challenge for autonomous vehicles (AV), especially in mixed and dynamic traffic scenarios. Recently, reinforcement learning (RL), a powerful data-driven control method, has been widely explored for lane-changing decision makings in AVs with encouraging results demonstrated. However, the majority of those studies are focused on a single-vehicle setting, and lane-changing in the context of multiple AVs coexisting with human-driven vehicles (HDVs) have received scarce attention. In this paper, we formulate the lane-changing decision making of multiple AVs in a mixed-traffic highway environment as a multi-agent reinforcement learning (MARL) problem, where each AV makes lane-changing decisions based on the motions of both neighboring AVs and HDVs. Specifically, a multi-agent advantage actor-critic network (MA2C) is developed with a novel local reward design and a parameter sharing scheme. In particular, a multi-objective reward function is proposed to incorporate fuel efficiency, driving comfort, and safety of autonomous driving. Comprehensive experimental results, conducted under three different traffic densities and various levels of human driver aggressiveness, show that our proposed MARL framework consistently outperforms several state-of-the-art benchmarks in terms of efficiency, safety and driver comfort., Comment: This paper was published on Autonomous Intelligent Systems (Volume 2, article number 5, 2022)

Published
2021
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11. On Procedural Adversarial Noise Attack And Defense

Author

Yan, Jun, Deng, Xiaoyang, Yin, Huilin, and Ge, Wancheng

Subjects
Computer Science - Machine Learning, Computer Science - Artificial Intelligence, Computer Science - Cryptography and Security, Computer Science - Computer Vision and Pattern Recognition
Abstract

Deep Neural Networks (DNNs) are vulnerable to adversarial examples which would inveigle neural networks to make prediction errors with small perturbations on the input images. Researchers have been devoted to promoting the research on the universal adversarial perturbations (UAPs) which are gradient-free and have little prior knowledge on data distributions. Procedural adversarial noise attack is a data-free universal perturbation generation method. In this paper, we propose two universal adversarial perturbation (UAP) generation methods based on procedural noise functions: Simplex noise and Worley noise. In our framework, the shading which disturbs visual classification is generated with rendering technology. Without changing the semantic representations, the adversarial examples generated via our methods show superior performance on the attack., Comment: Remove theoretical analysis and focus on the empirical study

Published
2021

13. Universal Design of ICTs and Equal Right for Elderly People

Author

Meng, Qian, Vihovde, Eva Hadler, Yin, Huilin, Filipe, Joaquim, Editorial Board Member, Ghosh, Ashish, Editorial Board Member, Prates, Raquel Oliveira, Editorial Board Member, Zhou, Lizhu, Editorial Board Member, Stephanidis, Constantine, editor, Antona, Margherita, editor, Ntoa, Stavroula, editor, and Salvendy, Gavriel, editor

Published
2023
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18. Robust object detection for autonomous driving based on semi-supervised learning

Author

Chen Wenwen, Yan Jun, Huang Weiquan, Ge Wancheng, Liu Huaping, and Yin Huilin

Subjects
adversarial attack, robustness, autonomous driving, object detection, semi-supervised learning, Electronic computers. Computer science, QA75.5-76.95
Abstract

Deep learning based on labeled data has brought massive success in computer vision, speech recognition, and natural language processing. Nevertheless, labeled data is just a drop in the ocean compared with unlabeled data. How can people utilize the unlabeled data effectively? Research has focused on unsupervised and semi-supervised learning to solve such a problem. Some theoretical and empirical studies have proved that unlabeled data can help boost the generalization ability and robustness under adversarial attacks. However, current theoretical research on the relationship between robustness and unlabeled data limits its scope to toy datasets. Meanwhile, the visual models in autonomous driving need a significant improvement in robustness to guarantee security and safety. This paper proposes a semi-supervised learning framework for object detection in autonomous vehicles, improving the robustness with unlabeled data. Firstly, we build a baseline with the transfer learning of an unsupervised contrastive learning method—Momentum Contrast (MoCo). Secondly, we propose a semi-supervised co-training method to label the unlabeled data for retraining, which improves generalization on the autonomous driving dataset. Thirdly, we apply the unsupervised Bounding Box data augmentation (BBAug) method based on a search algorithm, which uses reinforcement learning to improve the robustness of object detection for autonomous driving. We present an empirical study on the KITTI dataset with diverse adversarial attack methods. Our proposed method realizes the state-of-the-art generalization and robustness under white-box attacks (DPatch and Contextual Patch) and black-box attacks (Gaussian noise, Rain, Fog, and so on). Our proposed method and empirical study show that using more unlabeled data benefits the robustness of perception systems in autonomous driving.

Published
2024
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26. Guiding Ambient Vapor to Condense at the Fixed Pattern on Micronano Hierarchically Aluminum Substrate for Antifrost Application.

Author

Cui, Guiyuan, Yin, Huilin, Zhou, Wenting, Yang, Chuncheng, Xu, Zhengzheng, and Wang, Guoyong

Abstract

Vapor spontaneously diffuses from areas of high concentration to areas of low concentration as a consequence of the Second Law of Thermodynamics and the hunt for maximum entropy. The distribution of substances with lower saturated vapor pressures on a surface can create this concentration slope in the space. However, most substances, except ice, cannot maintain this slope because humidity sinking causes their saturated vapor pressure to drop. Moreover, the location of ice growth is difficult to control. In this paper, a pattern of CaCl2 was made on the micronano hierarchically aluminum substrate. When the temperature drops below zero, the vapor pressure at the position where CaCl2 is located is low relative to that of water as a way to achieve a continuous phase transition from solid CaCl2 to brine to ice. Thus, vapor nearby continuously diffuses to and deposits at the site, resulting in a lasting dry region around without water condensation. The frost growing on the pattern is also fluffy and can be easily removed by gravity and/or wind. This work has promising applications in areas where it is extremely difficult to use active deicing methods. [ABSTRACT FROM AUTHOR]

Published
2024
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34. DP-VINS: Dynamics Adaptive Plane-Based Visual-Inertial SLAM for Autonomous Vehicles

Author

Zhang, Linchuan, Yin, Huilin, Ye, Wei, and Betz, Johannes

Abstract

Traditional static visual-inertial navigation systems (VINSs) confront substantial challenges in dynamic environments, while current dynamic VINS solutions struggle to maintain high-accuracy performance in static environments. Achieving higher localization accuracy in static environments often requires incorporating additional geometric structural information as constraints. However, effectively leveraging this information in dynamic environments to improve robustness performance poses a significant challenge. This article proposes a novel dynamics adaptive plane-based stereo VINS (DP-VINS), incorporating dynamic factors improved with reprojection and coplanarity constraints, along with an augmentation dynamics adaptive loss function. DP-VINS utilizes the epipolar distance residuals for dynamic assessment and filters out unstable feature points in front-end visual-inertial odometry. It simultaneously extracts, merges, and tracks planar features. In addition to reprojection visual constraints, our method incorporates coplanarity constraints and adaptive weighting for back-end optimization. The design of adaptive weighting and augmented dynamic factors ensure faster attenuation of target weights with strong dynamic characteristics, thereby enhancing the accuracy performance of the system in static environments while maintaining robustness in dynamic environments. The proposed approach is assessed on public static and dynamic datasets and compared with state-of-the-art (SOTA) algorithms. The results demonstrate that the dynamic factors and augmented dynamics adaptive loss function proposed in this article enhance the traditional VINS performance, resulting in significantly higher positioning accuracy and robustness.

Published
2024
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35. CSANet: Cuboid-Wise Shape Augmentation 3D Object Detector for Occluded Targets

Author

Lin, Jia, Ge, Wancheng, Rigoll, Gerhard, and Yin, Huilin

Abstract

For 3D environmental perception tasks, light detection and ranging (LiDAR) assumes a crucial role by supplying extensive data in 3D space. In the context of deep learning-based LiDAR-only 3D object detectors, practical challenges like occlusion and signal missing lead to the loss of partial shape information, thereby causing a decline in detection accuracy. To tackle this issue, we propose a two-stage LiDAR 3D object detector that includes the cuboid-wise shape augmentation network to supplement instance-level foreground points with geometric structure information. Dense point clouds are achieved by introducing gridding procedure and 3D encoder-decoder. Besides, we further capture contextual information and reweight grid points within each proposal. The original region of interest (RoI) features are aggregated with the augmented features in refinement stage to recover intact shape details. The performance of our proposed method on KITTI dataset demonstrates its effectiveness in 3D object detection.

Published
2024
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36. Attack Detection for Intelligent Vehicles via CAN- Bus: A Lightweight Image Network Approach

Author

Gao, Sheng, Zhang, Linchuan, He, Lei, Deng, Xiaoyang, Yin, Huilin, and Zhang, Hao

Abstract

This article investigates the security detection mechanism of intelligent vehicles under DoS attack. A lightweight CanNet-based attack detection mechanism is developed, which is suitable for both periodic and aperiodic DoS attacks. Different from the existing attack detection mechanisms, the proposed one utilizes a designed CAN image generation scheme to convert CAN traffic data into CAN images, which makes the attack visible and traceable. And the lightweight CanNet image classification network is constructed to detect the abnormalities in the generated CAN images. In order to exploit the maximum correlation of data attributes among the acquired CAN traffic data, copula entropy, the equivalent form of mutual information, is introduced into the CAN image generation scheme. In addition, an extended CAN image color coding scheme is also designed to cope with the secure detection of traffic data beyond the 12-bit CAN ID. Finally, the effectiveness of the designed detection mechanism is validated by the comparative experiments employing the CAN traffic data from YF Sonata (the type of car).

Published
2023
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