Search

Your search keyword '"Tao, Jian"' showing total 2,243 results
Start Over Author "Tao, Jian"
2,243 results on '"Tao, Jian"'

1. AutoFLUKA: A Large Language Model Based Framework for Automating Monte Carlo Simulations in FLUKA

Author

Ndum, Zavier Ndum, Tao, Jian, Ford, John, and Liu, Yang

Subjects
Computer Science - Artificial Intelligence, High Energy Physics - Experiment, Nuclear Experiment, Physics - Computational Physics, Physics - Medical Physics
Abstract

Monte Carlo (MC) simulations, particularly using FLUKA, are essential for replicating real-world scenarios across scientific and engineering fields. Despite the robustness and versatility, FLUKA faces significant limitations in automation and integration with external post-processing tools, leading to workflows with a steep learning curve, which are time-consuming and prone to human errors. Traditional methods involving the use of shell and Python scripts, MATLAB, and Microsoft Excel require extensive manual intervention and lack flexibility, adding complexity to evolving scenarios. This study explores the potential of Large Language Models (LLMs) and AI agents to address these limitations. AI agents, integrate natural language processing with autonomous reasoning for decision-making and adaptive planning, making them ideal for automation. We introduce AutoFLUKA, an AI agent application developed using the LangChain Python Framework to automate typical MC simulation workflows in FLUKA. AutoFLUKA can modify FLUKA input files, execute simulations, and efficiently process results for visualization, significantly reducing human labor and error. Our case studies demonstrate that AutoFLUKA can handle both generalized and domain-specific cases, such as Microdosimetry, with an streamlined automated workflow, showcasing its scalability and flexibility. The study also highlights the potential of Retrieval Augmentation Generation (RAG) tools to act as virtual assistants for FLUKA, further improving user experience, time and efficiency. In conclusion, AutoFLUKA represents a significant advancement in automating MC simulation workflows, offering a robust solution to the inherent limitations. This innovation not only saves time and resources but also opens new paradigms for research and development in high energy physics, medical physics, nuclear engineering space and environmental science., Comment: 58 pages including text, figures, references and appendices

Published
2024

2. Dynamic Data-Driven Digital Twin Testbed for Enhanced First Responder Training and Communication

Author

Cassity, Alyssa, Le, Hieu, Santos, Hernan, Priest, Erik, and Tao, Jian

Subjects
Computer Science - Computers and Society, Computer Science - Networking and Internet Architecture, Electrical Engineering and Systems Science - Signal Processing
Abstract

The study focuses on developing a digital twin testbed tailored for public safety technologies, incorporating simulated wireless communication within the digital world. The integration enables rapid analysis of signal strength, facilitating effective communication among personnel during catastrophic incidents in the virtual environment. The virtual world also helps with the training of first responders. The digital environment is constructed using the actual training facility for first responders as a blueprint. Using the photo-reference method, we meticulously constructed all buildings and objects within this environment. These reconstructed models are precisely placed relative to their real-world counterparts. Subsequently, all structures and objects are integrated into the Unreal Engine (UE) to create an interactive environment tailored specifically to the requirements of first responders.

Published
2024

3. Guiding Wireless Signals with Arrays of Metallic Linear Fresnel Reflectors: A Low-cost, Frequency-versatile, and Practical Approach

Author

Le, Hieu, Bedir, Oguz, Tao, Jian, Ekin, Sabit, and Ibrahim, Mostafa

Subjects
Electrical Engineering and Systems Science - Signal Processing
Abstract

This study presents a novel mechanical metallic reflector array to guide wireless signals to the point of interest, thereby enhancing received signal quality. Comprised of numerous individual units, this device, which acts as a linear Fresnel reflector (LFR), facilitates the reflection of incoming signals to a desired location. Leveraging geometric principles, we present a systematic approach for redirecting beams from an Access Point (AP) toward User Equipment (UE) positions. This methodology is geared towards optimizing beam allocation, thereby maximizing the number of beams directed towards the UE. Ray tracing simulations conducted for two 3D wireless communication scenarios demonstrate significant increases in path gains and received signal strengths (RSS) by at least 50dB with strategically positioned devices., Comment: This manuscript is under peer review

Published
2024

4. World Models with Hints of Large Language Models for Goal Achieving

Author

Liu, Zeyuan, Huan, Ziyu, Wang, Xiyao, Lyu, Jiafei, Tao, Jian, Li, Xiu, Huang, Furong, and Xu, Huazhe

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

Reinforcement learning struggles in the face of long-horizon tasks and sparse goals due to the difficulty in manual reward specification. While existing methods address this by adding intrinsic rewards, they may fail to provide meaningful guidance in long-horizon decision-making tasks with large state and action spaces, lacking purposeful exploration. Inspired by human cognition, we propose a new multi-modal model-based RL approach named Dreaming with Large Language Models (DLLM). DLLM integrates the proposed hinting subgoals from the LLMs into the model rollouts to encourage goal discovery and reaching in challenging tasks. By assigning higher intrinsic rewards to samples that align with the hints outlined by the language model during model rollouts, DLLM guides the agent toward meaningful and efficient exploration. Extensive experiments demonstrate that the DLLM outperforms recent methods in various challenging, sparse-reward environments such as HomeGrid, Crafter, and Minecraft by 27.7\%, 21.1\%, and 9.9\%, respectively.

Published
2024

5. Exploration and Anti-Exploration with Distributional Random Network Distillation

Author

Yang, Kai, Tao, Jian, Lyu, Jiafei, and Li, Xiu

Subjects
Computer Science - Machine Learning
Abstract

Exploration remains a critical issue in deep reinforcement learning for an agent to attain high returns in unknown environments. Although the prevailing exploration Random Network Distillation (RND) algorithm has been demonstrated to be effective in numerous environments, it often needs more discriminative power in bonus allocation. This paper highlights the "bonus inconsistency" issue within RND, pinpointing its primary limitation. To address this issue, we introduce the Distributional RND (DRND), a derivative of the RND. DRND enhances the exploration process by distilling a distribution of random networks and implicitly incorporating pseudo counts to improve the precision of bonus allocation. This refinement encourages agents to engage in more extensive exploration. Our method effectively mitigates the inconsistency issue without introducing significant computational overhead. Both theoretical analysis and experimental results demonstrate the superiority of our approach over the original RND algorithm. Our method excels in challenging online exploration scenarios and effectively serves as an anti-exploration mechanism in D4RL offline tasks. Our code is publicly available at https://github.com/yk7333/DRND., Comment: ICML 2024 accepted

Published
2024

6. Using Human Feedback to Fine-tune Diffusion Models without Any Reward Model

Author

Yang, Kai, Tao, Jian, Lyu, Jiafei, Ge, Chunjiang, Chen, Jiaxin, Li, Qimai, Shen, Weihan, Zhu, Xiaolong, and Li, Xiu

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

Using reinforcement learning with human feedback (RLHF) has shown significant promise in fine-tuning diffusion models. Previous methods start by training a reward model that aligns with human preferences, then leverage RL techniques to fine-tune the underlying models. However, crafting an efficient reward model demands extensive datasets, optimal architecture, and manual hyperparameter tuning, making the process both time and cost-intensive. The direct preference optimization (DPO) method, effective in fine-tuning large language models, eliminates the necessity for a reward model. However, the extensive GPU memory requirement of the diffusion model's denoising process hinders the direct application of the DPO method. To address this issue, we introduce the Direct Preference for Denoising Diffusion Policy Optimization (D3PO) method to directly fine-tune diffusion models. The theoretical analysis demonstrates that although D3PO omits training a reward model, it effectively functions as the optimal reward model trained using human feedback data to guide the learning process. This approach requires no training of a reward model, proving to be more direct, cost-effective, and minimizing computational overhead. In experiments, our method uses the relative scale of objectives as a proxy for human preference, delivering comparable results to methods using ground-truth rewards. Moreover, D3PO demonstrates the ability to reduce image distortion rates and generate safer images, overcoming challenges lacking robust reward models. Our code is publicly available at https://github.com/yk7333/D3PO., Comment: CVPR 2024 accepted; huggingface daily paper

Published
2023

7. Precise p-type and n-type doping of two-dimensional semiconductors for monolithic integrated circuits

Author

Yu Pan, Tao Jian, Pingfan Gu, Yiwen Song, Qi Wang, Bo Han, Yuqia Ran, Zemin Pan, Yanping Li, Wanjin Xu, Peng Gao, Chendong Zhang, Jun He, Xiaolong Xu, and Yu Ye

Subjects
Science
Abstract

Abstract The controllable fabrication of patterned p-type and n-type channels with precise doping control presents a significant challenge, impeding the realization of complementary metal-oxide-semiconductor (CMOS) logic using a single van der Waals material. However, such an achievement could offer substantial benefits by enabling continued transistor scaling and unprecedented interlayer interconnect technologies. In this study, we devise a precise method for two-dimensional (2D) semiconductor substitutional doping, which allows for the production of wafer-scale 2H-MoTe2 thin films with specific p-type or n-type doping. Notably, we extend this approach to the synthesis of spatially selective doped 2H-MoTe2 thin films via a one-step growth method, facilitating the monolithic integration of p-type and n-type semiconductor channels. Leveraging this advancement, we successfully fabricate a chip-sized 2D CMOS inverter array that demonstrates excellent device performance and yield. Collectively, these findings represent a significant stride towards the practical incorporation of 2D semiconductors in very large-scale integration technology.

Published
2024
Full Text
View/download PDF

8. Adaptive Screening Approach of Training Data with an Unknown Number of Outliers

Author

Tao JIAN, Yingliang MA, Haipeng WANG, Lei GUO, and Guangfen WEI

Subjects
adaptive target detection, number of outliers, adaptive screening, likelihood function, normalized generalized inner product, Electricity and magnetism, QC501-766
Abstract

In multichannel adaptive radar target detection, diverse nonhomogeneous background factors can cause considerable outlier interference, making it challenging to meet the requirements of independent and identically distributed training data. Current methods for screening training data rely on prior knowledge of the number of outliers, often leading to poor performance in real-world scenarios where this number is usually unknown. This paper addresses these issues by focusing on adaptive training data screening when the number of outliers is unknown. First, the outlier set is estimated using maximum likelihood estimation, assuming known covariance matrices of clutter and noise. In particular, the training data is initially ranked based on the generalized inner product of each range cell data, approximately transforming the maximum likelihood estimation of the outlier set to the estimation of the number of outliers. Second, a fast maximum likelihood estimation algorithm is employed to calculate the unknown covariance matrix, and an adaptive screening approach is designed for scenarios with an unspecified number of outliers. Furthermore, to address the adverse effects of outliers on ranking performance, a normalized generalized inner product form is devised utilizing the normalized sampling covariance matrix. This form is subsequently incorporated into an iterative estimation procedure to improve the adaptive screening accuracy of training data. Simulation results demonstrate that the screening accuracy of the normalized generalized inner product exceeds that of the generalized inner product. Moreover, through even a small number of reiterations, maintaining a consistent enhancement in terms of the Normalized Signal-to-Interference Ratio (NSIR) is still possible. Compared with existing methods, the proposed algorithm considerably improves screening performance, especially when the number of outliers is unknown.

Published
2024
Full Text
View/download PDF

9. Hierarchical Autoencoder-based Lossy Compression for Large-scale High-resolution Scientific Data

Author

Le, Hieu and Tao, Jian

Subjects
Computer Science - Machine Learning, Computer Science - Artificial Intelligence, Electrical Engineering and Systems Science - Image and Video Processing
Abstract

Lossy compression has become an important technique to reduce data size in many domains. This type of compression is especially valuable for large-scale scientific data, whose size ranges up to several petabytes. Although Autoencoder-based models have been successfully leveraged to compress images and videos, such neural networks have not widely gained attention in the scientific data domain. Our work presents a neural network that not only significantly compresses large-scale scientific data, but also maintains high reconstruction quality. The proposed model is tested with scientific benchmark data available publicly and applied to a large-scale high-resolution climate modeling data set. Our model achieves a compression ratio of 140 on several benchmark data sets without compromising the reconstruction quality. 2D simulation data from the High-Resolution Community Earth System Model (CESM) Version 1.3 over 500 years are also being compressed with a compression ratio of 200 while the reconstruction error is negligible for scientific analysis., Comment: 14 pages

Published
2023
Full Text
View/download PDF

10. Multi-agent Exploration with Sub-state Entropy Estimation

Author

Tao, Jian, Zhang, Yang, Chen, Yangkun, and Li, Xiu

Subjects
Computer Science - Multiagent Systems
Abstract

Researchers have integrated exploration techniques into multi-agent reinforcement learning (MARL) algorithms, drawing on their remarkable success in deep reinforcement learning. Nonetheless, exploration in MARL presents a more substantial challenge, as agents need to coordinate their efforts in order to achieve comprehensive state coverage. Reaching a unanimous agreement on which kinds of states warrant exploring can be a struggle for agents in this context. We introduce \textbf{M}ulti-agent \textbf{E}xploration based on \textbf{S}ub-state \textbf{E}ntropy (MESE) to address this limitation. This novel approach incentivizes agents to explore states cooperatively by directing them to achieve consensus via an extra team reward. Calculating the additional reward is based on the novelty of the current sub-state that merits cooperative exploration. MESE employs a conditioned entropy approach to select the sub-state, using particle-based entropy estimation to calculate the entropy. MESE is a plug-and-play module that can be seamlessly integrated into most existing MARL algorithms, which makes it a highly effective tool for reinforcement learning. Our experiments demonstrate that MESE can substantially improve the MAPPO's performance on various tasks in the StarCraft multi-agent challenge (SMAC).

Published
2023

15. Construction of Fluorescent Probe System Based on Click-Declick Chemical Reaction for Hg2+ Detection

Author

TAO Jian, CHENG Jie, SUN Zhiyuan, YIN Yuyun, YANG Jingjing, ZHANG Rufan, SUN Pengjuan, CAI Shuo, QU Lingbo, YANG Ran

Subjects
ternary fluorescence detection system, fluorescent probe, hg2+, fast detection, Food processing and manufacture, TP368-456
Abstract

Based on the click chemical reaction between hybrid rhodamine and thiol compounds and the declick chemical reaction caused by the coordinative interaction between thiol compounds and mercury ions, a ternary system of coumarin hybrid rhodamine probe, 1,3,5-benzenetrithiol and Hg2+ for fluorescence detection of Hg2+ was constructed. In this system, the probe underwent an addition reaction with the thiol group in 1,3,5-benzenetrithiol, destroying the conjugate structure of the probe and thus resulting in quenching of its red fluorescence. Hg2+ could remove 1,3,5-benzenetrithiol from the probe’s structure by coordinative binding to the compound, so the conjugate structure and red fluorescence of the probe were restored. The fluorescence intensity of the probe had a good linear relationship with the concentration of Hg2+ in the range of 5 × 10-9-1 × 10-8 and 1 × 10-8–1.1 × 10-7 mol/L, and the detection limit was 2 × 10-9 mol/L. Common heavy metal ions had no significant interference on the specific recognition of Hg2+. The recoveries of Hg2+ from spiked drinking water samples ranged from 86.7% to 110.2%.

Published
2024
Full Text
View/download PDF

16. Determination and Application of Excavation Footage in the Shallow-Buried Biased Section of the North-South Road Tunnel in Kyrgyzstan

Author

Zhang, Lu, Feng, Hao, Du, Yunfeng, Tao, Jian, Lun, Kangbao, di Prisco, Marco, Series Editor, Chen, Sheng-Hong, Series Editor, Vayas, Ioannis, Series Editor, Kumar Shukla, Sanjay, Series Editor, Sharma, Anuj, Series Editor, Kumar, Nagesh, Series Editor, Wang, Chien Ming, Series Editor, Cui, Zhen-Dong, Series Editor, Lu, Xinzheng, Series Editor, Bieliatynskyi, Andrii, editor, Komyshev, Dmytro, editor, and Zhao, Wen, editor

Published
2024
Full Text
View/download PDF

17. Quantitative detection methods of bovine-derived ingredients in meat product by chip digital PCR

Author

DENG Yingchun, GUO Xuguang, SU Lixia, and TAO Jian

Subjects
bovine-derived ingredients, chip digital pcr, meat products, copy number, quantitative detection, Food processing and manufacture, TP368-456, Nutrition. Foods and food supply, TX341-641
Abstract

ObjectiveIn order to accurately quantify the proportion of bovine-derived ingredients in meat products, the Mitochondrial Cytb gene of bovine for quantitatively detection of bovine ingredients by the digital PCR (Dpcr) technology was developed in this paper.MethodsThis duplex dignal PCR was developed and optimized by designing bovine-derived specific, duck-derived specific, porcine-derived specific and animal-derived universal primers and probes according to standards.ResultsGood linear relationships between the raw beef meat weight and DNA content and between the DNA content and DNA copy number. By using the dPCR method, we found good linear relationships between the raw meat weight and DNA content and between the bovine -derived DNA content and DNA copy number. Using the DNA content as an intermediate value, we established the following formulae for calculating the weight of the original raw beef meat from the specific DNA copy number: Mbeef=0.020 9C+0.676. The mixed samples of known bovine quality were tested, and the results showed that the method can accurately quantify bovine-derive dingredients, which has litter interference by foreign species. Using this method to test 10 samples of the bovine-derived products on the market, by using the ratio of universal and specific amplified copy number, it could determine whether other animal-derived components were present in the beef meat product. it was found that the content of some samples was not up to standard.ConclusionThis method can realize the quantitative detection of bovine origin components, which can be used as a basis to distinguish intentional addition from unintentional pollution and provide a strong technical guarantee for law enforcement and supervision departments.

Published
2024
Full Text
View/download PDF

18. ERNAS: An Evolutionary Neural Architecture Search for Magnetic Resonance Image Reconstructions

Author

Eslahi, Samira Vafay, Tao, Jian, and Ji, Jim

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

Magnetic resonance imaging (MRI) is one of the noninvasive imaging modalities that can produce high-quality images. However, the scan procedure is relatively slow, which causes patient discomfort and motion artifacts in images. Accelerating MRI hardware is constrained by physical and physiological limitations. A popular alternative approach to accelerated MRI is to undersample the k-space data. While undersampling speeds up the scan procedure, it generates artifacts in the images, and advanced reconstruction algorithms are needed to produce artifact-free images. Recently deep learning has emerged as a promising MRI reconstruction method to address this problem. However, straightforward adoption of the existing deep learning neural network architectures in MRI reconstructions is not usually optimal in terms of efficiency and reconstruction quality. In this work, MRI reconstruction from undersampled data was carried out using an optimized neural network using a novel evolutionary neural architecture search algorithm. Brain and knee MRI datasets show that the proposed algorithm outperforms manually designed neural network-based MR reconstruction models., Comment: 11 pages, 9 figures, and 4 tables

Published
2022

22. Revealing the Global Linguistic and Geographical Disparities of Public Awareness to Covid-19 Outbreak through Social Media

Author

Lin, Binbin, Zou, Lei, Duffield, Nick, Mostafavi, Ali, Cai, Heng, Zhou, Bing, Tao, Jian, Yang, Mingzheng, Mandal, Debayan, and Abedin, Joynal

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

The Covid-19 has presented an unprecedented challenge to public health worldwide. However, residents in different countries showed diverse levels of Covid-19 awareness during the outbreak and suffered from uneven health impacts. This study analyzed the global Twitter data from January 1st to June 30th, 2020, seeking to answer two research questions. What are the linguistic and geographical disparities of public awareness in the Covid-19 outbreak period reflected on social media? Can the changing pandemic awareness predict the Covid-19 outbreak? We established a Twitter data mining framework calculating the Ratio index to quantify and track the awareness. The lag correlations between awareness and health impacts were examined at global and country levels. Results show that users presenting the highest Covid-19 awareness were mainly those tweeting in the official languages of India and Bangladesh. Asian countries showed more significant disparities in awareness than European countries, and awareness in the eastern part of Europe was higher than in central Europe. Finally, the Ratio index could accurately predict global mortality rate, global case fatality ratio, and country-level mortality rate, with 21-30, 35-42, and 17 leading days, respectively. This study yields timely insights into social media use in understanding human behaviors for public health research.

Published
2021

32. Bayesian Model Selection Methods for Multilevel IRT Models: A Comparison of Five DIC-Based Indices

Author

Zhang, Xue, Tao, Jian, Wang, Chun, and Shi, Ning-Zhong

Abstract

Model selection is important in any statistical analysis, and the primary goal is to find the preferred (or most parsimonious) model, based on certain criteria, from a set of candidate models given data. Several recent publications have employed the deviance information criterion (DIC) to do model selection among different forms of multilevel item response theory models (MLIRT). The majority of the practitioners use WinBUGS for implementing MCMC algorithms for MLIRT models, and the default version of DIC provided by WinBUGS focused on the measurement-level parameters only. The results herein show that this version of DIC is inappropriate. This study introduces five variants of DIC as a model selection index for MLIRT models with dichotomous outcomes. Considering a multilevel IRT model with three levels, five forms of DIC are formed: first-level conditional DIC computed from the measurement model only, which is the index given by many software packages such as WinBUGS; second-level marginalized DIC and second-level joint DIC computed from the second-level model; and top-level marginalized DIC and top-level joint DIC computed from the entire model. We evaluate the performance of the five model selection indices via simulation studies. The manipulated factors include the number of groups, the number of second-level covariates, the number of top-level covariates, and the types of measurement models (one-parameter vs. two-parameter). Considering the computational viability and interpretability, the second-level joint DIC is recommended for MLIRT models under our simulated conditions. [This article was published in "Journal of Educational Measurement" (EJ1208645).]

Published
2019
Full Text
View/download PDF

36. Research on aviation data intelligence technology based on event graph

Author

GAO Long, WEI Qingyan, TAO Jian, WU Duo, WANG Xiaotian, and DONG Hongfei

Subjects
aviation manufacturing industry, event graph, data intelligence, rapid quality response, Motor vehicles. Aeronautics. Astronautics, TL1-4050
Abstract

The new generation information technology, such as big data, artificial intelligence, has an important role in promoting the digital transformation of the aviation manufacturing industry. In view of the characteristics of multi-source and heterogeneity, few samples, and strong correlation of data in the aviation manufacturing industry, utilizing a new generation of knowledge engineering technologies such as knowledge graph with the ability of structured description and efficient management of data, a technical system and process are established in this paper for aviation data intelligence based on the event graph. The research focuses on the technical methods such as ontology modeling, event relationship recognition, event extraction, and event disambiguation for aviation data. With a selection of aviation product quality data for data intelligence technology validation, a series of work are carried out pertinent to application and prototype system developments, including classification of quality problem causes, construction of quality event graph, logic knowledge push, etc., to assist the identification of quality problem and the rapid response to quality issues. The results indicate that the technical system and path of using data and knowledge to carry out digital intelligent quality management are feasible, and the quality knowledge extraction algorithm based on event graph has strong practicality. It provides support for promoting the application of digital intelligence in the whole life cycle of aviation manufacturing industry.

Published
2023
Full Text
View/download PDF

37. Subspace gradient tests for range‐spread target detection in structured interference plus Gaussian clutter

Author

Tao Jian, Jia He, Yu Liu, Haipeng Wang, Xiaodong Huang, and Zikeng Xie

Subjects
adaptive detection, gradient test, homogeneous, partially homogeneous, subspace interference, Telecommunication, TK5101-6720
Abstract

Abstract This study considers the problem of detecting range‐spread targets embedded in subspace interference plus Gaussian clutter with an unknown covariance matrix. The target and interference signals are modeled in terms of deterministic signals belonging to two known subspaces, respectively. Based on the Gradient test criterion, two adaptive detectors are devised for rejecting subspace interference in homogeneous and partially homogeneous environments, respectively. Both of the proposed detectors theoretically exhibit a desirable property of a constant false alarm rate with respect to the clutter covariance matrix as well as the power level. Furthermore, the numerical results show that, compared with their existing counterparts, the proposed detectors exhibit better detection performance and satisfactory suppression performance for the interference.

Published
2023
Full Text
View/download PDF

40. Business English Students' Multifaceted and Contradictory Perceptions of Intercultural Communication Education (ICE) at a Chinese University

Author

Simpson, Ashley, Dervin, Fr, and Tao, Jian

Abstract

Intercultural communication education (ICE) is occurring in different departments and faculties of higher education globally. Yet, there is a lack of research on how this complex field is perceived by both teachers and students. The same goes for the perceptions of the ideal teacher of the subject. This article proposes to fill these gaps by problematizing current discussions about ICE. First, the article presents an overview of the field and shows how polysemic, ideologically and politically oriented ICE is. Based on focus groups with Chinese students of Business English at a Chinese university, this case study examines how they discuss, construct and perceive, on the one hand, the idea of intercultural communication as a subject, and on the other, those who teach it. ICE is multifaceted in Chinese higher education and we do not claim to generalize for the field as a whole in this paper. Based on a dialogical approach to students' discourses, the results show that they do not seem to have a uniform and coherent way of representing "intercultural communication." As far as teachers of the subject are concerned, native/non-native and Chinese/non-Chinese dichotomies seem to dominate. Implications are discussed for the future of ICE in higher education.

Published
2022
Full Text
View/download PDF

42. Assessing Item-Level Fit for Higher Order Item Response Theory Models

Author

Zhang, Xue, Wang, Chun, and Tao, Jian

Abstract

Testing item-level fit is important in scale development to guide item revision/deletion. Many item-level fit indices have been proposed in literature, yet none of them were directly applicable to an important family of models, namely, the higher order item response theory (HO-IRT) models. In this study, chi-square-based fit indices (i.e., Yen's Q[subscript 1], McKinley and Mill's G[superscript 2], Orlando and Thissen's S-X[superscript 2], and S-G[superscript 2]) were extended to HO-IRT models. Their performances are evaluated via simulation studies in terms of false positive rates and correct detection rates. The manipulated factors include test structure (i.e., test length and number of dimensions), sample size, level of correlations among dimensions, and the proportion of misfitting items. For misfitting items, the sources of misfit, including the misfitting item response functions, and misspecifying factor structures were also manipulated. The results from simulation studies demonstrate that the S-G[superscript 2] is promising for higher order items.

Published
2018

43. Expression Analysis Based on Face Regions in Read-world Conditions

Author

Lian, Zheng, Li, Ya, Tao, Jian-Hua, Huang, Jian, and Niu, Ming-Yue

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Facial emotion recognition is an essential and important aspect of the field of human-machine interaction. Past research on facial emotion recognition focuses on the laboratory environment. However, it faces many challenges in real-world conditions, i.e., illumination changes, large pose variations and partial or full occlusions. Those challenges lead to different face areas with different degrees of sharpness and completeness. Inspired by this fact, we focus on the authenticity of predictions generated by different pairs. For example, if only the mouth areas are available and the emotion classifier predicts happiness, then there is a question of how to judge the authenticity of predictions. This problem can be converted into the contribution of different face areas to different emotions. In this paper, we divide the whole face into six areas: nose areas, mouth areas, eyes areas, nose to mouth areas, nose to eyes areas and mouth to eyes areas. To obtain more convincing results, our experiments are conducted on three different databases: facial expression recognition + ( FER+), real-world affective faces database (RAF-DB) and expression in-the-wild (ExpW) dataset. Through analysis of the classification accuracy, the confusion matrix and the class activation map (CAM), we can establish convincing results. To sum up, the contributions of this paper lie in two areas: 1) We visualize concerned areas of human faces in emotion recognition; 2) We analyze the contribution of different face areas to different emotions in real-world conditions through experimental analysis. Our findings can be combined with findings in psychology to promote the understanding of emotional expressions., Comment: International Journal of Automation and Computing 2018

Published
2019
Full Text
View/download PDF

44. Simplified Rapid Hydration Prevents Contrast-Associated Acute Kidney Injury Among CKD Patients Undergoing Coronary Angiography

Author

Liu, Yong, Tan, Ning, Huo, Yong, Chen, Shi-Qun, Liu, Jin, Wang, Yan, Li, Lang, Tao, Jian-Hong, Su, Xi, Zhang, Li, Li, Qing-Xian, Zhang, Jin-Ying, Guo, Yan-Song, Du, Zhi-Min, Zhou, Yin-Pin, Fang, Zhen-Fei, Xu, Guang-Ma, Liang, Yan, Tao, Ling, Chen, Hui, Ji, Zheng, Han, Bing, Chen, Ping-Yan, Ge, Jun-Bo, Han, Ya-Ling, and Chen, Ji-Yan

Published
2023
Full Text
View/download PDF

47. Mining regular behaviors based on spatiotemporal trajectory multi‐dimensional features

Author

Qiaowen Jiang, Yu Liu, Bencai Wang, Qifang He, Caisheng Zhang, Ziran Ding, and Tao Jian

Subjects
Hausdorff distance, multidimensional features, regular behaviour, spatiotemporal trajectory, trajectory clustering, Telecommunication, TK5101-6720
Abstract

Abstract In the military and civilian surveillance domain, it is of great significance to mine regular behaviours of targets for situation awareness and command decision support. Most of the existing trajectory clustering algorithms only consider the similarity of spatial position of the trajectory, without sufficient multi‐dimensional information such as time, course and velocity. Some approaches based on information fusion take these multi‐dimensional information into account, but the features with different dimensions fused by weight coefficients are not robust and universal for different scenarios. In this paper, a regular behaviour mining method based on spatiotemporal trajectory multi‐dimensional features and density clustering is proposed. Firstly, multi‐dimensional Hausdorff similarity is defined to measure spatiotemporal trajectory from different feature dimensionalities. Different from methods based on information fusion, the proposed method defines trajectory density in feature similarity of different dimensions and adaptively determines parameters according to feature distribution in different dimensions. Experimental results in simulated and radar measured trajectory data show that the proposed method can be accurate and robust in clustering evaluation indexes such as Purity, Precision, Recall and Rand Index from different scenarios, which has a good application prospect in intelligent surveillance tasks.

Published
2022
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results