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4,407 results on '"Zhang, Hongjie"'

1. On the H-atom abstractions from C1-C4 alcohols, aldehydes, and ethers by NO2: ab initio and comprehensive kinetic modeling

Author

Wu^, Hongqing, Tang^, Ruoyue, Dong, Yuxin, Ren, Xinrui, Wang, Mingrui, Zhang, Ting, Zhang, Hongjie, Feng, Guangyuan, and Cheng, Song

Subjects
Physics - Chemical Physics
Abstract

As crucial additives and intermediate, alcohols, ethers, and aldehydes play a significant role in the combustion process. However, the chemistry of NOXhydrocarbon interactions and the rate rules governing these interactions remain largely unexplored in this combustion system. To address this gap, this study provides a comprehensive investigation of H-atom abstraction by NO2 from C1-C4 alcohols, aldehydes and ethers that leads to the formation of 3 HNO2 isomers (i.e., transHONO, HNO2, and cisHONO), encompassing 9 hydrocarbons and 45 reactions. Utilizing the DLPNO CCSD(T)cc pVDZ M06 2X 6 311g d,p method, the electronic structures, single point energies, C H bond dissociation energies and 1 D hindered rotor potentials of the reactants, transition states, complexes and products in each reaction are computed. Adding these H atom abstractions to the chemical kinetic model improves the model reactivity and advances the ignition, as indicated by the reduction in ignition delay time for species that initially lacked these reactions. Further sensitivity and flux analyses highlight the crucial role of H atom abstraction by NO2. The findings underscore the importance of accurately incorporating these kinetic parameters into newly developed chemical models for alcohols, aldehydes, and ethers. Additionally, the study highlights the need for future experimental efforts to investigate the effects of NO2 on the combustion systems of these compounds., Comment: 52 pages

Published
2024

2. Fusing Dynamics Equation: A Social Opinions Prediction Algorithm with LLM-based Agents

Author

Yao, Junchi, Zhang, Hongjie, Ou, Jie, Zuo, Dingyi, Yang, Zheng, and Dong, Zhicheng

Subjects
Computer Science - Social and Information Networks, Computer Science - Computers and Society
Abstract

In the context where social media is increasingly becoming a significant platform for social movements and the formation of public opinion, accurately simulating and predicting the dynamics of user opinions is of great importance for understanding social phenomena, policy making, and guiding public opinion. However, existing simulation methods face challenges in capturing the complexity and dynamics of user behavior. Addressing this issue, this paper proposes an innovative simulation method for the dynamics of social media user opinions, the FDE-LLM algorithm, which incorporates opinion dynamics and epidemic model. This effectively constrains the actions and opinion evolution process of large language models (LLM), making them more aligned with the real cyber world. In particular, the FDE-LLM categorizes users into opinion leaders and followers. Opinion leaders are based on LLM role-playing and are constrained by the CA model, while opinion followers are integrated into a dynamic system that combines the CA model with the SIR model. This innovative design significantly improves the accuracy and efficiency of the simulation. Experiments were conducted on four real Weibo datasets and validated using the open-source model ChatGLM. The results show that, compared to traditional agent-based modeling (ABM) opinion dynamics algorithms and LLM-based opinion diffusion algorithms, our FDE-LLM algorithm demonstrates higher accuracy and interpretability., Comment: Submitted to ICASSP 2025

Published
2024

3. Can LLM be a Good Path Planner based on Prompt Engineering? Mitigating the Hallucination for Path Planning

Author

Deng, Hourui, Zhang, Hongjie, Ou, Jie, and Feng, Chaosheng

Subjects
Computer Science - Computation and Language
Abstract

Spatial reasoning in Large Language Models (LLMs) is the foundation for embodied intelligence. However, even in simple maze environments, LLMs still encounter challenges in long-term path-planning, primarily influenced by their spatial hallucination and context inconsistency hallucination by long-term reasoning. To address this challenge, this study proposes an innovative model, Spatial-to-Relational Transformation and Curriculum Q-Learning (S2RCQL). To address the spatial hallucination of LLMs, we propose the Spatial-to-Relational approach, which transforms spatial prompts into entity relations and paths representing entity relation chains. This approach fully taps the potential of LLMs in terms of sequential thinking. As a result, we design a path-planning algorithm based on Q-learning to mitigate the context inconsistency hallucination, which enhances the reasoning ability of LLMs. Using the Q-value of state-action as auxiliary information for prompts, we correct the hallucinations of LLMs, thereby guiding LLMs to learn the optimal path. Finally, we propose a reverse curriculum learning technique based on LLMs to further mitigate the context inconsistency hallucination. LLMs can rapidly accumulate successful experiences by reducing task difficulty and leveraging them to tackle more complex tasks. We performed comprehensive experiments based on Baidu's self-developed LLM: ERNIE-Bot 4.0. The results showed that our S2RCQL achieved a 23%--40% improvement in both success and optimality rates compared with advanced prompt engineering., Comment: Submitted to ICASSP

Published
2024

10. EgoExoLearn: A Dataset for Bridging Asynchronous Ego- and Exo-centric View of Procedural Activities in Real World

Author

Huang, Yifei, Chen, Guo, Xu, Jilan, Zhang, Mingfang, Yang, Lijin, Pei, Baoqi, Zhang, Hongjie, Dong, Lu, Wang, Yali, Wang, Limin, and Qiao, Yu

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Being able to map the activities of others into one's own point of view is one fundamental human skill even from a very early age. Taking a step toward understanding this human ability, we introduce EgoExoLearn, a large-scale dataset that emulates the human demonstration following process, in which individuals record egocentric videos as they execute tasks guided by demonstration videos. Focusing on the potential applications in daily assistance and professional support, EgoExoLearn contains egocentric and demonstration video data spanning 120 hours captured in daily life scenarios and specialized laboratories. Along with the videos we record high-quality gaze data and provide detailed multimodal annotations, formulating a playground for modeling the human ability to bridge asynchronous procedural actions from different viewpoints. To this end, we present benchmarks such as cross-view association, cross-view action planning, and cross-view referenced skill assessment, along with detailed analysis. We expect EgoExoLearn can serve as an important resource for bridging the actions across views, thus paving the way for creating AI agents capable of seamlessly learning by observing humans in the real world. Code and data can be found at: https://github.com/OpenGVLab/EgoExoLearn, Comment: CVPR 2024

Published
2024

11. InternVideo2: Scaling Foundation Models for Multimodal Video Understanding

Author

Wang, Yi, Li, Kunchang, Li, Xinhao, Yu, Jiashuo, He, Yinan, Wang, Chenting, Chen, Guo, Pei, Baoqi, Yan, Ziang, Zheng, Rongkun, Xu, Jilan, Wang, Zun, Shi, Yansong, Jiang, Tianxiang, Li, Songze, Zhang, Hongjie, Huang, Yifei, Qiao, Yu, Wang, Yali, and Wang, Limin

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

We introduce InternVideo2, a new family of video foundation models (ViFM) that achieve the state-of-the-art results in video recognition, video-text tasks, and video-centric dialogue. Our core design is a progressive training approach that unifies the masked video modeling, crossmodal contrastive learning, and next token prediction, scaling up the video encoder size to 6B parameters. At the data level, we prioritize spatiotemporal consistency by semantically segmenting videos and generating video-audio-speech captions. This improves the alignment between video and text. Through extensive experiments, we validate our designs and demonstrate superior performance on over 60 video and audio tasks. Notably, our model outperforms others on various video-related dialogue and long video understanding benchmarks, highlighting its ability to reason and comprehend longer contexts. Code and models are available at https://github.com/OpenGVLab/InternVideo/tree/main/InternVideo2/., Comment: a technical report about video understanding (accepted to ECCV2024)

Published
2024

12. The impact of non-equilibrium plasma distributions on solar wind measurements by Vigil's Plasma Analyser

Author

Zhang, Hongjie, Verscharen, Daniel, and Nicolaou, Georgios

Subjects
Physics - Space Physics, Physics - Geophysics, Physics - Instrumentation and Detectors, Physics - Plasma Physics
Abstract

In order to protect society from space weather impacts, we must monitor space weather and obtain early warnings for extreme events if possible. For this purpose, the European Space Agency is currently preparing to launch the Vigil mission towards the end of this decade as a space-weather monitor at the fifth Lagrange point of the Sun--Earth system. Vigil will carry, amongst other instruments, the Plasma Analyzer (PLA) to provide quasi-continuous measurements of solar wind ions. We model the performance of the PLA instrument, considering typical solar wind plasma conditions, to compare the expected observations of PLA with the assumed input conditions of the solar wind. We evaluate the instrument performance under realistic, non-equilibrium plasma conditions, accounting for temperature anisotropies, proton beams, and the contributions from drifting $\alpha$-particles. We examine the accuracy of the instrument's performance over a range of input solar wind moments. We identify sources of potential errors due to non-equilibrium plasma conditions and link these to instrument characteristics such as its angular and energy resolution and its field of view. We demonstrate the limitations of the instrument and potential improvements such as applying ground-based fitting techniques to obtain more accurate measurements of the solar wind even under non-equilibrium plasma conditions. The use of ground processing of plasma moments instead of on-board processing is crucial for the extraction of reliable measurements., Comment: 26 pages, 11 figures; accepted for publication in Space Weather

Published
2024

13. InternVideo2: Scaling Foundation Models for Multimodal Video Understanding

Author

Wang, Yi, Li, Kunchang, Li, Xinhao, Yu, Jiashuo, He, Yinan, Chen, Guo, Pei, Baoqi, Zheng, Rongkun, Wang, Zun, Shi, Yansong, Jiang, Tianxiang, Li, Songze, Xu, Jilan, Zhang, Hongjie, Huang, Yifei, Qiao, Yu, Wang, Yali, Wang, Limin, 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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16. MoVQA: A Benchmark of Versatile Question-Answering for Long-Form Movie Understanding

Author

Zhang, Hongjie, Liu, Yi, Dong, Lu, Huang, Yifei, Ling, Zhen-Hua, Wang, Yali, Wang, Limin, and Qiao, Yu

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

While several long-form VideoQA datasets have been introduced, the length of both videos used to curate questions and sub-clips of clues leveraged to answer those questions have not yet reached the criteria for genuine long-form video understanding. Moreover, their QAs are unduly narrow and modality-biased, lacking a wider view of understanding long-term video content with rich dynamics and complex narratives. To remedy this, we introduce MoVQA, a long-form movie question-answering dataset, and benchmark to assess the diverse cognitive capabilities of multimodal systems rely on multi-level temporal lengths, with considering both video length and clue length. Additionally, to take a step towards human-level understanding in long-form video, versatile and multimodal question-answering is designed from the moviegoer-perspective to assess the model capabilities on various perceptual and cognitive axes.Through analysis involving various baselines reveals a consistent trend: the performance of all methods significantly deteriorate with increasing video and clue length. Meanwhile, our established baseline method has shown some improvements, but there is still ample scope for enhancement on our challenging MoVQA dataset. We expect our MoVQA to provide a new perspective and encourage inspiring works on long-form video understanding research.

Published
2023

27. Multi-view Feature Extraction based on Triple Contrastive Heads

Author

Zhang, Hongjie

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Multi-view feature extraction is an efficient approach for alleviating the issue of dimensionality in highdimensional multi-view data. Contrastive learning (CL), which is a popular self-supervised learning method, has recently attracted considerable attention. In this study, we propose a novel multi-view feature extraction method based on triple contrastive heads, which combines the sample-, recovery- , and feature-level contrastive losses to extract the sufficient yet minimal subspace discriminative information in compliance with information bottleneck principle. In MFETCH, we construct the feature-level contrastive loss, which removes the redundent information in the consistency information to achieve the minimality of the subspace discriminative information. Moreover, the recovery-level contrastive loss is also constructed in MFETCH, which captures the view-specific discriminative information to achieve the sufficiency of the subspace discriminative information.The numerical experiments demonstrate that the proposed method offers a strong advantage for multi-view feature extraction., Comment: arXiv admin note: text overlap with arXiv:2302.03932

Published
2023

28. Multi-view Feature Extraction based on Dual Contrastive Head

Author

Zhang, Hongjie

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

Multi-view feature extraction is an efficient approach for alleviating the issue of dimensionality in highdimensional multi-view data. Contrastive learning (CL), which is a popular self-supervised learning method, has recently attracted considerable attention. Most CL-based methods were constructed only from the sample level. In this study, we propose a novel multiview feature extraction method based on dual contrastive head, which introduce structural-level contrastive loss into sample-level CL-based method. Structural-level CL push the potential subspace structures consistent in any two cross views, which assists sample-level CL to extract discriminative features more effectively. Furthermore, it is proven that the relationships between structural-level CL and mutual information and probabilistic intraand inter-scatter, which provides the theoretical support for the excellent performance. Finally, numerical experiments on six real datasets demonstrate the superior performance of the proposed method compared to existing methods.

Published
2023

29. STformer: Spatio-Temporal Transformer for Multivariate Time Series Anomaly Detection

Author

Li, Zhengyu, Zhang, Hongjie, Zheng, Wei, 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, Wand, Michael, editor, Malinovská, Kristína, editor, Schmidhuber, Jürgen, editor, and Tetko, Igor V., editor

Published
2024
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31. InternVideo: General Video Foundation Models via Generative and Discriminative Learning

Author

Wang, Yi, Li, Kunchang, Li, Yizhuo, He, Yinan, Huang, Bingkun, Zhao, Zhiyu, Zhang, Hongjie, Xu, Jilan, Liu, Yi, Wang, Zun, Xing, Sen, Chen, Guo, Pan, Junting, Yu, Jiashuo, Wang, Yali, Wang, Limin, and Qiao, Yu

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

The foundation models have recently shown excellent performance on a variety of downstream tasks in computer vision. However, most existing vision foundation models simply focus on image-level pretraining and adpation, which are limited for dynamic and complex video-level understanding tasks. To fill the gap, we present general video foundation models, InternVideo, by taking advantage of both generative and discriminative self-supervised video learning. Specifically, InternVideo efficiently explores masked video modeling and video-language contrastive learning as the pretraining objectives, and selectively coordinates video representations of these two complementary frameworks in a learnable manner to boost various video applications. Without bells and whistles, InternVideo achieves state-of-the-art performance on 39 video datasets from extensive tasks including video action recognition/detection, video-language alignment, and open-world video applications. Especially, our methods can obtain 91.1% and 77.2% top-1 accuracy on the challenging Kinetics-400 and Something-Something V2 benchmarks, respectively. All of these results effectively show the generality of our InternVideo for video understanding. The code will be released at https://github.com/OpenGVLab/InternVideo ., Comment: technical report

Published
2022

32. AcceRL: Policy Acceleration Framework for Deep Reinforcement Learning

Author

Zhang, Hongjie

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

Deep reinforcement learning has achieved great success in various fields with its super decision-making ability. However, the policy learning process requires a large amount of training time, causing energy consumption. Inspired by the redundancy of neural networks, we propose a lightweight parallel training framework based on neural network compression, AcceRL, to accelerate the policy learning while ensuring policy quality. Specifically, AcceRL speeds up the experience collection by flexibly combining various neural network compression methods. Overall, the AcceRL consists of five components, namely Actor, Learner, Compressor, Corrector, and Monitor. The Actor uses the Compressor to compress the Learner's policy network to interact with the environment. And the generated experiences are transformed by the Corrector with Off-Policy methods, such as V-trace, Retrace and so on. Then the corrected experiences are feed to the Learner for policy learning. We believe this is the first general reinforcement learning framework that incorporates multiple neural network compression techniques. Extensive experiments conducted in gym show that the AcceRL reduces the time cost of the actor by about 2.0 X to 4.13 X compared to the traditional methods. Furthermore, the AcceRL reduces the whole training time by about 29.8% to 40.3% compared to the traditional methods while keeps the same policy quality., Comment: 14 pages, 50 figures

Published
2022

33. InternVideo-Ego4D: A Pack of Champion Solutions to Ego4D Challenges

Author

Chen, Guo, Xing, Sen, Chen, Zhe, Wang, Yi, Li, Kunchang, Li, Yizhuo, Liu, Yi, Wang, Jiahao, Zheng, Yin-Dong, Huang, Bingkun, Zhao, Zhiyu, Pan, Junting, Huang, Yifei, Wang, Zun, Yu, Jiashuo, He, Yinan, Zhang, Hongjie, Lu, Tong, Wang, Yali, Wang, Limin, and Qiao, Yu

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

In this report, we present our champion solutions to five tracks at Ego4D challenge. We leverage our developed InternVideo, a video foundation model, for five Ego4D tasks, including Moment Queries, Natural Language Queries, Future Hand Prediction, State Change Object Detection, and Short-term Object Interaction Anticipation. InternVideo-Ego4D is an effective paradigm to adapt the strong foundation model to the downstream ego-centric video understanding tasks with simple head designs. In these five tasks, the performance of InternVideo-Ego4D comprehensively surpasses the baseline methods and the champions of CVPR2022, demonstrating the powerful representation ability of InternVideo as a video foundation model. Our code will be released at https://github.com/OpenGVLab/ego4d-eccv2022-solutions, Comment: Technical report in 2nd International Ego4D Workshop@ECCV 2022. Code will be released at https://github.com/OpenGVLab/ego4d-eccv2022-solutions

Published
2022

38. Study on the Corrosion Failure Mechanism and Integrity Management Strategies of Flash Evaporation Heat Exchanger

Author

WANG Chuanping, LYU Xiaoming, ZHANG Hongjie, LIU Junlin, PENG Wanli, LIU Mingming, ZHONG Xiaolin, TONG Xubo

Subjects
heat exchanger, corrosion, failure, control, Materials of engineering and construction. Mechanics of materials, TA401-492, Technology
Abstract

The corrosion and perforation failure of the flash evaporation heat exchanger tube bundle in a certain treatment station occurred frequently. Therefore, a composition test was conducted on the external media and corrosion products on the surface of the tube bundle. Results showed that the condensate oil medium in the shell side contained a small amount of water, and there were the high concentrations of Cl-, Ca2+ and HCO3- in the water quality components. A black scale layer was formed on the surface of the tube bundle, with patches of corrosion pits under the scale, indicating severe local corrosion. Based on the analysis of the morphology, elements and compounds of the corrosion products, it was found that the corrosion products were mainly composed of FeCO3, and a chlorine-rich layer was formed on the surface of the tube bundle. Therefore, a corrosion mechanism of synergistic HCO3- and Cl- under scale was established. Finally, an integrity management process for flash evaporation heat exchangers with failure control as the core was established, and targeted risk assessment methods and failure control measures were formed to provide assurance for the safe production of the treatment station.

Published
2024
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