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1. Towards 3D Semantic Scene Completion for Autonomous Driving: A Meta-Learning Framework Empowered by Deformable Large-Kernel Attention and Mamba Model

Author

Qu, Yansong, Huang, Zilin, Sheng, Zihao, Chen, Tiantian, and Chen, Sikai

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

Semantic scene completion (SSC) is essential for achieving comprehensive perception in autonomous driving systems. However, existing SSC methods often overlook the high deployment costs in real-world applications. Traditional architectures, such as 3D Convolutional Neural Networks (3D CNNs) and self-attention mechanisms, face challenges in efficiently capturing long-range dependencies within 3D voxel grids, limiting their effectiveness. To address these issues, we introduce MetaSSC, a novel meta-learning-based framework for SSC that leverages deformable convolution, large-kernel attention, and the Mamba (D-LKA-M) model. Our approach begins with a voxel-based semantic segmentation (SS) pretraining task, aimed at exploring the semantics and geometry of incomplete regions while acquiring transferable meta-knowledge. Using simulated cooperative perception datasets, we supervise the perception training of a single vehicle using aggregated sensor data from multiple nearby connected autonomous vehicles (CAVs), generating richer and more comprehensive labels. This meta-knowledge is then adapted to the target domain through a dual-phase training strategy that does not add extra model parameters, enabling efficient deployment. To further enhance the model's capability in capturing long-sequence relationships within 3D voxel grids, we integrate Mamba blocks with deformable convolution and large-kernel attention into the backbone network. Extensive experiments demonstrate that MetaSSC achieves state-of-the-art performance, significantly outperforming competing models while also reducing deployment costs.

Published
2024

2. TabSec: A Collaborative Framework for Novel Insider Threat Detection

Author

Huang, Zilin, Tang, Xiangyan, Li, Hongyu, Cao, Xinyi, and Cheng, Jieren

Subjects
Computer Science - Cryptography and Security
Abstract

In the era of the Internet of Things (IoT) and data sharing, users frequently upload their personal information to enterprise databases to enjoy enhanced service experiences provided by various online services. However, the widespread presence of system vulnerabilities, remote network intrusions, and insider threats significantly increases the exposure of private enterprise data on the internet. If such data is stolen or leaked by attackers, it can result in severe asset losses and business operation disruptions. To address these challenges, this paper proposes a novel threat detection framework, TabITD. This framework integrates Intrusion Detection Systems (IDS) with User and Entity Behavior Analytics (UEBA) strategies to form a collaborative detection system that bridges the gaps in existing systems' capabilities. It effectively addresses the blurred boundaries between external and insider threats caused by the diversification of attack methods, thereby enhancing the model's learning ability and overall detection performance. Moreover, the proposed method leverages the TabNet architecture, which employs a sparse attention feature selection mechanism that allows TabNet to select the most relevant features at each decision step, thereby improving the detection of rare-class attacks. We evaluated our proposed solution on two different datasets, achieving average accuracies of 96.71% and 97.25%, respectively. The results demonstrate that this approach can effectively detect malicious behaviors such as masquerade attacks and external threats, significantly enhancing network security defenses and the efficiency of network attack detection.

Published
2024

3. Trustworthy Human-AI Collaboration: Reinforcement Learning with Human Feedback and Physics Knowledge for Safe Autonomous Driving

Author

Huang, Zilin, Sheng, Zihao, and Chen, Sikai

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

In the field of autonomous driving, developing safe and trustworthy autonomous driving policies remains a significant challenge. Recently, Reinforcement Learning with Human Feedback (RLHF) has attracted substantial attention due to its potential to enhance training safety and sampling efficiency. Nevertheless, existing RLHF-enabled methods often falter when faced with imperfect human demonstrations, potentially leading to training oscillations or even worse performance than rule-based approaches. Inspired by the human learning process, we propose Physics-enhanced Reinforcement Learning with Human Feedback (PE-RLHF). This novel framework synergistically integrates human feedback (e.g., human intervention and demonstration) and physics knowledge (e.g., traffic flow model) into the training loop of reinforcement learning. The key advantage of PE-RLHF is its guarantee that the learned policy will perform at least as well as the given physics-based policy, even when human feedback quality deteriorates, thus ensuring trustworthy safety improvements. PE-RLHF introduces a Physics-enhanced Human-AI (PE-HAI) collaborative paradigm for dynamic action selection between human and physics-based actions, employs a reward-free approach with a proxy value function to capture human preferences, and incorporates a minimal intervention mechanism to reduce the cognitive load on human mentors. Extensive experiments across diverse driving scenarios demonstrate that PE-RLHF significantly outperforms traditional methods, achieving state-of-the-art (SOTA) performance in safety, efficiency, and generalizability, even with varying quality of human feedback. The philosophy behind PE-RLHF not only advances autonomous driving technology but can also offer valuable insights for other safety-critical domains. Demo video and code are available at: \https://zilin-huang.github.io/PE-RLHF-website/, Comment: 33 pages, 20 figures

Published
2024

4. Traffic expertise meets residual RL: Knowledge-informed model-based residual reinforcement learning for CAV trajectory control

Author

Sheng, Zihao, Huang, Zilin, and Chen, Sikai

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

Model-based reinforcement learning (RL) is anticipated to exhibit higher sample efficiency compared to model-free RL by utilizing a virtual environment model. However, it is challenging to obtain sufficiently accurate representations of the environmental dynamics due to uncertainties in complex systems and environments. An inaccurate environment model may degrade the sample efficiency and performance of model-based RL. Furthermore, while model-based RL can improve sample efficiency, it often still requires substantial training time to learn from scratch, potentially limiting its advantages over model-free approaches. To address these challenges, this paper introduces a knowledge-informed model-based residual reinforcement learning framework aimed at enhancing learning efficiency by infusing established expert knowledge into the learning process and avoiding the issue of beginning from zero. Our approach integrates traffic expert knowledge into a virtual environment model, employing the Intelligent Driver Model (IDM) for basic dynamics and neural networks for residual dynamics, thus ensuring adaptability to complex scenarios. We propose a novel strategy that combines traditional control methods with residual RL, facilitating efficient learning and policy optimization without the need to learn from scratch. The proposed approach is applied to CAV trajectory control tasks for the dissipation of stop-and-go waves in mixed traffic flow. Experimental results demonstrate that our proposed approach enables the CAV agent to achieve superior performance in trajectory control compared to the baseline agents in terms of sample efficiency, traffic flow smoothness and traffic mobility. The source code and supplementary materials are available at https://github.com/zihaosheng/traffic-expertise-RL/.

Published
2024

5. V2X-VLM: End-to-End V2X Cooperative Autonomous Driving Through Large Vision-Language Models

Author

You, Junwei, Shi, Haotian, Jiang, Zhuoyu, Huang, Zilin, Gan, Rui, Wu, Keshu, Cheng, Xi, Li, Xiaopeng, and Ran, Bin

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

Advancements in autonomous driving have increasingly focused on end-to-end (E2E) systems that manage the full spectrum of driving tasks, from environmental perception to vehicle navigation and control. This paper introduces V2X-VLM, an innovative E2E vehicle-infrastructure cooperative autonomous driving (VICAD) framework with Vehicle-to-Everything (V2X) systems and large vision-language models (VLMs). V2X-VLM is designed to enhance situational awareness, decision-making, and ultimate trajectory planning by integrating multimodel data from vehicle-mounted cameras, infrastructure sensors, and textual information. The contrastive learning method is further employed to complement VLM by refining feature discrimination, assisting the model to learn robust representations of the driving environment. Evaluations on the DAIR-V2X dataset show that V2X-VLM outperforms state-of-the-art cooperative autonomous driving methods, while additional tests on corner cases validate its robustness in real-world driving conditions.

Published
2024

6. HAIM-DRL: Enhanced Human-in-the-loop Reinforcement Learning for Safe and Efficient Autonomous Driving

Author

Huang, Zilin, Sheng, Zihao, Ma, Chengyuan, and Chen, Sikai

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

Despite significant progress in autonomous vehicles (AVs), the development of driving policies that ensure both the safety of AVs and traffic flow efficiency has not yet been fully explored. In this paper, we propose an enhanced human-in-the-loop reinforcement learning method, termed the Human as AI mentor-based deep reinforcement learning (HAIM-DRL) framework, which facilitates safe and efficient autonomous driving in mixed traffic platoon. Drawing inspiration from the human learning process, we first introduce an innovative learning paradigm that effectively injects human intelligence into AI, termed Human as AI mentor (HAIM). In this paradigm, the human expert serves as a mentor to the AI agent. While allowing the agent to sufficiently explore uncertain environments, the human expert can take control in dangerous situations and demonstrate correct actions to avoid potential accidents. On the other hand, the agent could be guided to minimize traffic flow disturbance, thereby optimizing traffic flow efficiency. In detail, HAIM-DRL leverages data collected from free exploration and partial human demonstrations as its two training sources. Remarkably, we circumvent the intricate process of manually designing reward functions; instead, we directly derive proxy state-action values from partial human demonstrations to guide the agents' policy learning. Additionally, we employ a minimal intervention technique to reduce the human mentor's cognitive load. Comparative results show that HAIM-DRL outperforms traditional methods in driving safety, sampling efficiency, mitigation of traffic flow disturbance, and generalizability to unseen traffic scenarios. The code and demo videos for this paper can be accessed at: https://zilin-huang.github.io/HAIM-DRL-website/, Comment: Accepted by Communications in Transportation Research

Published
2024
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7. Exploring Driving Behavior for Autonomous Vehicles Based on Gramian Angular Field Vision Transformer

Author

You, Junwei, Chen, Ying, Jiang, Zhuoyu, Liu, Zhangchi, Huang, Zilin, Ding, Yifeng, and Ran, Bin

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

Effective classification of autonomous vehicle (AV) driving behavior emerges as a critical area for diagnosing AV operation faults, enhancing autonomous driving algorithms, and reducing accident rates. This paper presents the Gramian Angular Field Vision Transformer (GAF-ViT) model, designed to analyze AV driving behavior. The proposed GAF-ViT model consists of three key components: GAF Transformer Module, Channel Attention Module, and Multi-Channel ViT Module. These modules collectively convert representative sequences of multivariate behavior into multi-channel images and employ image recognition techniques for behavior classification. A channel attention mechanism is applied to multi-channel images to discern the impact of various driving behavior features. Experimental evaluation on the Waymo Open Dataset of trajectories demonstrates that the proposed model achieves state-of-the-art performance. Furthermore, an ablation study effectively substantiates the efficacy of individual modules within the model.

Published
2023

8. CV2X-LOCA: Roadside Unit-Enabled Cooperative Localization Framework for Autonomous Vehicles

Author

Huang, Zilin, Chen, Sikai, Pian, Yuzhuang, Sheng, Zihao, Ahn, Soyoung, and Noyce, David A.

Subjects
Computer Science - Robotics, Computer Science - Computers and Society
Abstract

An accurate and robust localization system is crucial for autonomous vehicles (AVs) to enable safe driving in urban scenes. While existing global navigation satellite system (GNSS)-based methods are effective at locating vehicles in open-sky regions, achieving high-accuracy positioning in urban canyons such as lower layers of multi-layer bridges, streets beside tall buildings, tunnels, etc., remains a challenge. In this paper, we investigate the potential of cellular-vehicle-to-everything (C-V2X) wireless communications in improving the localization performance of AVs under GNSS-denied environments. Specifically, we propose the first roadside unit (RSU)-enabled cooperative localization framework, namely CV2X-LOCA, that only uses C-V2X channel state information to achieve lane-level positioning accuracy. CV2X-LOCA consists of four key parts: data processing module, coarse positioning module, environment parameter correcting module, and vehicle trajectory filtering module. These modules jointly handle challenges present in dynamic C-V2X networks. Extensive simulation and field experiments show that CV2X-LOCA achieves state-of-the-art performance for vehicle localization even under noisy conditions with high-speed movement and sparse RSUs coverage environments. The study results also provide insights into future investment decisions for transportation agencies regarding deploying RSUs cost-effectively.

Published
2023

9. EPG-MGCN: Ego-Planning Guided Multi-Graph Convolutional Network for Heterogeneous Agent Trajectory Prediction

Author

Sheng, Zihao, Huang, Zilin, and Chen, Sikai

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

To drive safely in complex traffic environments, autonomous vehicles need to make an accurate prediction of the future trajectories of nearby heterogeneous traffic agents (i.e., vehicles, pedestrians, bicyclists, etc). Due to the interactive nature, human drivers are accustomed to infer what the future situations will become if they are going to execute different maneuvers. To fully exploit the impacts of interactions, this paper proposes a ego-planning guided multi-graph convolutional network (EPG-MGCN) to predict the trajectories of heterogeneous agents using both historical trajectory information and ego vehicle's future planning information. The EPG-MGCN first models the social interactions by employing four graph topologies, i.e., distance graphs, visibility graphs, planning graphs and category graphs. Then, the planning information of the ego vehicle is encoded by both the planning graph and the subsequent planning-guided prediction module to reduce uncertainty in the trajectory prediction. Finally, a category-specific gated recurrent unit (CS-GRU) encoder-decoder is designed to generate future trajectories for each specific type of agents. Our network is evaluated on two real-world trajectory datasets: ApolloScape and NGSIM. The experimental results show that the proposed EPG-MGCN achieves state-of-the-art performance compared to existing methods.

Published
2023

11. The Relative Effects of Motivation and Structured Input on the Acquisition of English Past Tense Regular Forms

Author

Huang, Zilin and Benati, Alessandro

Abstract

This study investigates the effects of motivation and structured input on the acquisition of English past tense regular forms. The role of motivation in the positive effects generated by processing instruction has been investigated in one previous study (Farhat & Benati, 2018). However, more research is needed to generalize the initial findings to a different language, language background, processing problem, and age. In addition, the present study measures the effects of the practice component of processing instruction, as no explicit information was given to the participants of this classroom experiment. The Academic Motivation Scale (AMS) questionnaire was used to capture different variables that influence motivation in order to create two different groups (highly- and nominally-motivated). In this experimental study, 43 native Chinese secondary school-age learners (L1 Mandarin) were assigned to three groups: a highly-motivated group (n = 16), a nominally-motivated group (n = 14), and a control group (n =13). The two instructional groups received structured input activities, which lasted for two hours. The control group received no instruction. A one-sentence-level interpretation test was used in a pre-test and post-test design to measure instructional effects on the interpretation of sentences containing past tense forms. The results indicated that both instructional groups improved equally from the pre-test to the post-test. Both groups outperformed the control group. Structured input was shown to be the main factor for learners' improvement in performance regardless of their level of motivation.

Published
2023

15. Understanding Avoidance Behaviors of Users for Conversational AI

Author

Wu, Siyuan, Shu, Yatong, Yang, Xinyue, Huang, Zilin, Zhang, Xuzheng, Chen, Xiyin, Peng, Guochao, Goos, Gerhard, Founding 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, Streitz, Norbert A., editor, and Konomi, Shin'ichi, editor

Published
2023
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19. 核桃衣多酚改性对植物蛋白溶解性和抗氧化活性的影响Effect of walnut pellicle polyphenols modification on solubility and antioxidant activity of vegetable protein

Author

黄子林,陈思蕊,孔祥珍,张彩猛,华欲飞,陈业明,李兴飞HUANG Zilin,CHEN Sirui,KONG Xiangzhen,ZHANG Caimeng, HUA Yufei,CHEN Yeming,LI Xingfei

Subjects
核桃蛋白;小麦蛋白;芝麻蛋白;核桃衣;多酚;溶解性;抗氧化活性, walnut protein, wheat protein, sesame protein, walnut pellicle, polyphenols, solubility, antioxidant activity, Oils, fats, and waxes, TP670-699
Abstract

为改善植物蛋白的溶解性并提升其抗氧化活性,选择核桃蛋白、小麦蛋白和芝麻蛋白为实验对象,在碱性条件下与核桃衣多酚相互作用,考察了核桃衣多酚改性对3种植物蛋白中性条件下的溶解度和抗氧化活性的影响。此外,通过SDS-PAGE、圆二色光谱和荧光光谱对溶出蛋白质的结构变化进行表征。结果表明:在核桃衣多酚添加量为75 mg/g时,核桃蛋白、小麦蛋白和芝麻蛋白在中性条件下的溶解度分别提升了61.54、 61.23、69.25百分点;同时,添加核桃衣多酚改性后的核桃蛋白、小麦蛋白和芝麻蛋白的DPPH自由基和ABTS自由基清除活性显著升高;3种植物蛋白在核桃衣多酚的作用下均形成了大分子聚集体,总体上蛋白质的α-螺旋和β-转角含量增加,β-折叠含量减少,同时内源性荧光强度降低。综上所述,核桃衣多酚改性可以使蛋白质结构发生改变,显著改善植物蛋白的溶解性并提升其抗氧化活性。 In order to improve the solubility and antioxidant activity of vegetable protein, walnut protein, wheat protein and sesame protein were selected as experimental objects, and the interaction of the vegetable protein with walnut pellicle polyphenols under alkaline conditions was performed to study the effects of walnut pellicle polyphenols modification on the solubility under neutral conditions and antioxidant activity of three vegetable proteins. The structural changes of dissolved proteins were characterized by SDS-PAGE, circular dichroism and fluorescence spectra. The results showed that the solubility of walnut protein, wheat protein and sesame protein increased by 61.54, 61.23 percentage points and 69.25 percentage points respectively when the dosage of walnut pellicle polyphenols was 75 mg/g. At the same time, the DPPH free radical and ABTS free radical scavenging activity of walnut protein, wheat protein and sesame protein were significantly improved. It was found that the three vegetable proteins formed macromolecular aggregates under the action of polyphenols, the contents of α-helix and β-turn contents of protein increased, while β-sheet content decreased, as well as the endogenous fluorescence intensity. In conclusion, the walnut pellicle polyphenols modification can change the structure of vegetable protein and significantly improve the solubility and antioxidant activity.

Published
2023
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27. Ego‐planning‐guided multi‐graph convolutional network for heterogeneous agent trajectory prediction.

Author

Sheng, Zihao, Huang, Zilin, and Chen, Sikai

Subjects
*ROADSIDE improvement, *FORECASTING, *SPEED, *NAVIGATION, *TOPOLOGY
Abstract

Accurate prediction of the future trajectories of traffic agents is a critical aspect of autonomous vehicle navigation. However, most existing approaches focus on predicting trajectories from a static roadside perspective, ignoring the influence of autonomous vehicles' future plans on neighboring traffic agents. To address this challenge, this paper introduces EPG‐MGCN, an ego‐planning‐guided multi‐graph convolutional network. EPG‐MGCN leverages graph convolutional networks and ego‐planning guidance to predict the trajectories of heterogeneous traffic agents near the ego vehicle. The model captures interactions through multiple graph topologies from four distinct perspectives: distance, visibility, ego planning, and category. Additionally, it encodes the ego vehicle's planning information via the planning graph and a planning‐guided prediction module. The model is evaluated on three challenging trajectory datasets: ApolloScape, nuScenes, and next generation simulation (NGSIM). Comparative evaluations against mainstream methods demonstrate its superior predictive capabilities and inference speed. [ABSTRACT FROM AUTHOR]

Published
2024
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28. Wi-CL: Low-Cost WiFi-Based Detection System for Nonmotorized Traffic Travel Mode Classification

Author

Xu, Runnan, Huang, Zilin, Chen, Sikai, Li, Jinlong, Wu, Pan, and Lin, Yongjie

Subjects
Neural network, Algorithm, Wi-Fi -- Analysis -- Economic aspects, Detectors -- Evaluation, Noise pollution -- Economic aspects -- Analysis, Data entry -- Analysis -- Economic aspects, Neural networks -- Evaluation, Algorithms -- Analysis -- Economic aspects, Walking -- Analysis -- Economic aspects
Abstract

Traffic travel mode identification and classification are crucial for the development of intelligent transportation systems (ITSs). At present, scholars have investigated the classification of motorized and nonmotorized traffic travel in various road environments; however, the classification of walking and bicycle modes in nonmotorized travel has been largely ignored. Therefore, in this paper, we investigate nonmotorized traffic travel and propose a new low-cost nonmotorized traffic travel mode classification system, known as the Wi-Fi classification (Wi-CL) system that uses Wi-Fi signal detectors and the refined characteristics of nonmotorized travel modes. The Wi-CL system includes four modules: data acquisition module, data processing module, feature extraction module, and mode classification module. In the data acquisition module, the proposed system detects the Wi-Fi signals of traffic participants in road environments. In addition, we propose a received signal strength indicator (RSSI) filtering algorithm for hybrid traffic networks that effectively addresses surrounding obstacles and environmental noise. In the feature extraction module, we extract relevant traffic features to construct a mode classification model. Finally, a recurrent neural network (RNN) framework based on the long short-term memory (LSTM) algorithm is successfully implemented in the mode classification module for traffic travel mode identification. To validate the effectiveness of the Wi-CL system, extensive experiments were conducted using field data collected by Wi-Fi detectors installed at the South China University of Technology (SCUT). The experimental results show that the proposed RSSI filtering algorithm achieves excellent signal filtering results in real road traffic environments. In addition, the constructed travel speed estimation algorithm outperforms other baseline models in four different scenarios (flat-peak walking, midday peak walking, flat-peak cycling, and midday peak cycling), achieving an overall classification accuracy of 97.92%. In summary, our Wi-CL system is a feasible approach for nonmotorized traffic travel mode classification., Author(s): Runnan Xu [1]; Zilin Huang (corresponding author) [2]; Sikai Chen [2]; Jinlong Li [3]; Pan Wu [3]; Yongjie Lin [3] 1. Introduction Intelligent transportation systems (ITSs) and city surveillance [...]

Published
2023
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30. Imputation Methods Used in Missing Traffic Data: A Literature Review

Author

Wu, Pan, Xu, Lunhui, Huang, Zilin, Filipe, Joaquim, Editorial Board Member, Ghosh, Ashish, Editorial Board Member, Kotenko, Igor, Editorial Board Member, Prates, Raquel Oliveira, Editorial Board Member, Zhou, Lizhu, Editorial Board Member, Li, Kangshun, editor, Li, Wei, editor, Wang, Hui, editor, and Liu, Yong, editor

Published
2020
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31. Exploring Driving Behavior for Autonomous Vehicles Based on Gramian Angular Field Vision Transformer

Author

You, Junwei, Chen, Ying, Jiang, Zhuoyu, Liu, Zhangchi, Huang, Zilin, Ding, Yifeng, and Ran, Bin

Abstract

Effective classification of autonomous vehicle (AV) driving behavior emerges as a critical area for diagnosing AV operation faults, enhancing autonomous driving algorithms, and reducing accident rates. This paper presents the Gramian Angular Field Vision Transformer (GAF-ViT) model, specifically designed for analyzing AV driving behavior. The GAF-ViT model is developed upon a novel integration of three key components: GAF Transformation Module, which transforms multivariate driving behavior representative sequences into multi-channel images; Channel Attention Module, which prioritizes relevant behavioral features to enhance classification effectiveness; and Multi-Channel ViT Module, which employs advanced image recognition techniques to accurately classify the resulting multi-channel driving behavior images. This framework not only facilitates detailed analysis of complex multivariate driving behavioral data but also leverages the capabilities of vision-based pattern recognition methods to uncover subtle driving behavior nuances. Experimental evaluation on the Waymo Open Dataset of trajectories demonstrates that the proposed model outperforms baseline models, achieving state-of-the-art performance. Furthermore, an ablation study effectively validates the efficacy of individual modules within the model.

Published
2024
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32. Toward C-V2X Enabled Connected Transportation System: RSU-Based Cooperative Localization Framework for Autonomous Vehicles

Author

Huang, Zilin, Chen, Sikai, Pian, Yuzhuang, Sheng, Zihao, Ahn, Soyoung, and Noyce, David A.

Abstract

An accurate and robust localization system is crucial for autonomous vehicles (AVs) to enable safe driving in urban scenes. While existing global navigation satellite system (GNSS)-based methods are effective at locating vehicles in open-sky regions, achieving high-accuracy positioning in urban canyons such as lower layers of multi-layer bridges, streets beside tall buildings, tunnels, etc., remains a challenge. In this paper, we investigate the potential of cellular-vehicle-to-everything (C-V2X) wireless communications in improving the localization performance of AVs under GNSS-denied environments. Specifically, we propose the first roadside unit (RSU)-based cooperative localization framework, namely CV2X-LOCA, that only uses C-V2X channel state information to achieve lane-level positioning accuracy. CV2X-LOCA consists of four key parts: data processing module, coarse positioning module, environment parameter correcting module, and vehicle trajectory filtering module. These modules jointly handle challenges present in dynamic C-V2X networks. Extensive simulation and field experiments show that CV2X-LOCA achieves state-of-the-art performance for vehicle localization even under noisy conditions with high-speed movement and sparse RSU coverage environments. While focusing on AV localization, CV2X-LOCA also can extend to other C-V2X-equipped road users. The study results also provide insights into future investment decisions for transportation agencies regarding deploying RSUs cost-effectively.

Published
2024
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33. Human as AI Mentor: Enhanced Human-in-the-loop Reinforcement Learning for Safe and Efficient Autonomous Driving

Author

Huang, Zilin, Sheng, Zihao, Ma, Chengyuan, Chen, Sikai, Huang, Zilin, Sheng, Zihao, Ma, Chengyuan, and Chen, Sikai

Abstract

Despite significant progress in autonomous vehicles (AVs), the development of driving policies that ensure both the safety of AVs and traffic flow efficiency has not yet been fully explored. In this paper, we propose an enhanced human-in-the-loop reinforcement learning method, termed the Human as AI mentor-based deep reinforcement learning (HAIM-DRL) framework, which facilitates safe and efficient autonomous driving in mixed traffic platoon. Drawing inspiration from the human learning process, we first introduce an innovative learning paradigm that effectively injects human intelligence into AI, termed Human as AI mentor (HAIM). In this paradigm, the human expert serves as a mentor to the AI agent. While allowing the agent to sufficiently explore uncertain environments, the human expert can take control in dangerous situations and demonstrate correct actions to avoid potential accidents. On the other hand, the agent could be guided to minimize traffic flow disturbance, thereby optimizing traffic flow efficiency. In detail, HAIM-DRL leverages data collected from free exploration and partial human demonstrations as its two training sources. Remarkably, we circumvent the intricate process of manually designing reward functions; instead, we directly derive proxy state-action values from partial human demonstrations to guide the agents' policy learning. Additionally, we employ a minimal intervention technique to reduce the human mentor's cognitive load. Comparative results show that HAIM-DRL outperforms traditional methods in driving safety, sampling efficiency, mitigation of traffic flow disturbance, and generalizability to unseen traffic scenarios. The code and demo videos for this paper can be accessed at: https://zilin-huang.github.io/HAIM-DRL-website, Comment: Accepted by Communications in Transportation Research

Published
2024

41. Additional file 1 of CT texture analysis in predicting treatment response and survival in patients with hepatocellular carcinoma treated with transarterial chemoembolization using random forest models

Author

An, He, Bhatia, Inderjeet, Cao, Fei, Huang, Zilin, and Xie, Chuanmiao

Abstract

Additional file 1: Suppl 1. Contrast-enhanced CT in a 65-year-old male with HCC. The red mask is the demonstration of ROIs placement on the axial phase image. Suppl 2. Summary of general imaging features. Suppl 3. Feature selection using the LASSO algorithm. (A) Selection of the tuning parameter (λ) using 10-fold cross-validation and the minimum criteria. A plot of the partial likelihood deviance was made against log (λ). The minimum and 1-SE criteria were used to draw the dotted vertical lines at the optimal values. (B) Profiles of the LASSO coefficients for the texture features. The vertical line was drawn at a value selected from the log (λ) sequence using 10-fold cross-validation. Seventeen texture features were selected within this range. Suppl 4. ROC curves of Model 1 (A) incorporating selected clinical information, general imaging features and texture features and Model 2 (B) without texture features for the prediction of treatment response.

Published
2023
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42. A Combined Deep Learning Method with Attention-Based LSTM Model for Short-Term Traffic Speed Forecasting

Author

Wu, Pan, Huang, Zilin, Pian, Yuzhuang, Xu, Lunhui, Li, Jinlong, and Chen, Kaixun

Subjects
Data warehousing/data mining, Neural network, Algorithm, Neural networks -- Methods, Data mining -- Methods, Algorithms -- Methods, Traffic regulations -- Methods
Abstract

Short-term traffic speed prediction is a promising research topic in intelligent transportation systems (ITSs), which also plays an important role in the real-time decision-making of traffic control and guidance systems. However, the urban traffic speed has strong temporal, spatial correlation and the characteristic of complex nonlinearity and randomness, which makes it challenging to accurately and efficiently forecast short-term traffic speeds. We investigate the relevant literature and found that although most methods can achieve good prediction performance with the complete sample data, when there is a certain missing rate in the database, it is difficult to maintain accuracy with these methods. Recent studies have shown that deep learning methods, especially long short-term memory (LSTM) models, have good results in short-term traffic flow prediction. Furthermore, the attention mechanism can properly assign weights to distinguish the importance of traffic time sequences, thereby further improving the computational efficiency of the prediction model. Therefore, we propose a framework for short-term traffic speed prediction, including data preprocessing module and short-term traffic prediction module. In the data preprocessing module, the missing traffic data are repaired to provide a complete dataset for subsequent prediction. In the prediction module, a combined deep learning method that is an attention-based LSTM (ATT-LSTM) model for predicting short-term traffic speed on urban roads is proposed. The proposed framework was applied to the urban road network in Nanshan District, Shenzhen, Guangdong Province, China, with a 30-day traffic speed dataset (floating car data) used as the experimental sample. Results show that the proposed method outperforms other deep learning algorithms (such as recurrent neural network (RNN) and convolutional neural network (CNN)) in terms of both calculating efficiency and prediction accuracy. The attention mechanism can significantly reduce the error of the LSTM model (up to 12.4%) and improves the prediction performance., Author(s): Pan Wu [1]; Zilin Huang (corresponding author) [1]; Yuzhuang Pian [1]; Lunhui Xu [1]; Jinlong Li [1]; Kaixun Chen [1] 1. Introduction Future short-term traffic speed information is critical [...]

Published
2020
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49. Kinetics‐Regulated Interfacial Selective Superassembly of Asymmetric Smart Nanovehicles with Tailored Topological Hollow Architectures

Author

Xie, Lei, primary, Liu, Tianyi, additional, He, Yanjun, additional, Zeng, Jie, additional, Zhang, Wei, additional, Liang, Qirui, additional, Huang, Zilin, additional, Tang, Jinyao, additional, Liang, Kang, additional, Jiang, Lei, additional, Terasaki, Osamu, additional, Zhao, Dongyuan, additional, and Kong, Biao, additional

Published
2022
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