Search

Your search keyword '"Ding, Han"' showing total 3,884 results
Start Over Author "Ding, Han" Publication Year Range Last 50 years

Refine your results

more »

more »

more »

more »

more »
3,884 results on '"Ding, Han"'

1. Generation of Conservative Dynamical Systems Based on Stiffness Encoding

Author

Hou, Tengyu, Bai, Hanming, Ding, Ye, and Ding, Han

Subjects
Computer Science - Robotics
Abstract

Dynamical systems (DSs) provide a framework for high flexibility, robustness, and control reliability and are widely used in motion planning and physical human-robot interaction. The properties of the DS directly determine the robot's specific motion patterns and the performance of the closed-loop control system. In this paper, we establish a quantitative relationship between stiffness properties and DS. We propose a stiffness encoding framework to modulate DS properties by embedding specific stiffnesses. In particular, from the perspective of the closed-loop control system's passivity, a conservative DS is learned by encoding a conservative stiffness. The generated DS has a symmetric attraction behavior and a variable stiffness profile. The proposed method is applicable to demonstration trajectories belonging to different manifolds and types (e.g., closed and self-intersecting trajectories), and the closed-loop control system is always guaranteed to be passive in different cases. For controllers tracking the general DS, the passivity of the system needs to be guaranteed by the energy tank. We further propose a generic vector field decomposition strategy based on conservative stiffness, which effectively slows down the decay rate of energy in the energy tank and improves the stability margin of the control system. Finally, a series of simulations in various scenarios and experiments on planar and curved motion tasks demonstrate the validity of our theory and methodology.

Published
2024

2. Leveraging Surgical Activity Grammar for Primary Intention Prediction in Laparoscopy Procedures

Author

Zhang, Jie, Zhou, Song, Wang, Yiwei, Wan, Chidan, Zhao, Huan, Cai, Xiong, and Ding, Han

Subjects
Computer Science - Robotics
Abstract

Surgical procedures are inherently complex and dynamic, with intricate dependencies and various execution paths. Accurate identification of the intentions behind critical actions, referred to as Primary Intentions (PIs), is crucial to understanding and planning the procedure. This paper presents a novel framework that advances PI recognition in instructional videos by combining top-down grammatical structure with bottom-up visual cues. The grammatical structure is based on a rich corpus of surgical procedures, offering a hierarchical perspective on surgical activities. A grammar parser, utilizing the surgical activity grammar, processes visual data obtained from laparoscopic images through surgical action detectors, ensuring a more precise interpretation of the visual information. Experimental results on the benchmark dataset demonstrate that our method outperforms existing surgical activity detectors that rely solely on visual features. Our research provides a promising foundation for developing advanced robotic surgical systems with enhanced planning and automation capabilities., Comment: Submitted to ICRA 2025

Published
2024

3. Transport‐Friendly Microstructure in SSC‐MEA: Unveiling the SSC Ionomer‐Based Membrane Electrode Assemblies for Enhanced Fuel Cell Performance

Author

Li, Min, Ding, Han, Song, Jingnan, Hao, Bonan, Zeng, Rui, Li, Zhenyu, Wu, Xuefei, Fink, Zachary, Zhou, Libo, Russel, Thomas P, Liu, Feng, and Zhang, Yongming

Subjects
Engineering, Materials Engineering, Chemical Sciences, SSC/LSC‐MEA, fuel cell, humidity dependence, morphology‐transport‐performance, transport‐friendly structure
Abstract

The significant role of the cathodic binder in modulating mass transport within the catalyst layer (CL) of fuel cells is essential for optimizing cell performance. This investigation focuses on enhancing the membrane electrode assembly (MEA) through the utilization of a short-side-chain perfluoro-sulfonic acid (SSC-PFSA) ionomer as the cathode binder, referred to as SSC-MEA. This study meticulously visualizes the distinctive interpenetrating networks of ionomers and catalysts, and explicitly clarifies the triple-phase interface, unveiling the transport-friendly microstructure and transport mechanisms inherent in SSC-MEA. The SSC-MEA exhibits advantageous microstructural features, including a better-connected ionomer network and well-organized hierarchical porous structure, culminating in superior mass transfer properties. Relative to the MEA bonded by long-side-chain perfluoro-sulfonic acid (LSC-PFSA) ionomer, noted as LSC-MEA, SSC-MEA exhibits a notable peak power density (1.23 W cm-2), efficient O2 transport, and remarkable proton conductivity (65% improvement) at 65 °C and 70% relativity humidity (RH). These findings establish crucial insights into the intricate morphology-transport-performance relationship in the CL, thereby providing strategic guidance for developing highly efficient MEA.

Published
2024

4. Data Processing Techniques for Modern Multimodal Models

Author

Li, Yinheng, Ding, Han, and Chen, Hang

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Data processing plays an significant role in current multimodal model training. In this paper. we provide an comprehensive review of common data processing techniques used in modern multimodal model training with a focus on diffusion models and multimodal large language models (MLLMs). We summarized all techniques into four categories: data quality, data quantity, data distribution and data safety. We further present our findings in the choice of data process methods in different type of models. This study aims to provide guidance to multimodal models developers with effective data processing techniques.

Published
2024

5. Large Language Model Agent in Financial Trading: A Survey

Author

Ding, Han, Li, Yinheng, Wang, Junhao, and Chen, Hang

Subjects
Quantitative Finance - Trading and Market Microstructure, Computer Science - Computation and Language
Abstract

Trading is a highly competitive task that requires a combination of strategy, knowledge, and psychological fortitude. With the recent success of large language models(LLMs), it is appealing to apply the emerging intelligence of LLM agents in this competitive arena and understanding if they can outperform professional traders. In this survey, we provide a comprehensive review of the current research on using LLMs as agents in financial trading. We summarize the common architecture used in the agent, the data inputs, and the performance of LLM trading agents in backtesting as well as the challenges presented in these research. This survey aims to provide insights into the current state of LLM-based financial trading agents and outline future research directions in this field.

Published
2024

6. Diffusion Models For Multi-Modal Generative Modeling

Author

Chen, Changyou, Ding, Han, Sisman, Bunyamin, Xu, Yi, Xie, Ouye, Yao, Benjamin Z., Tran, Son Dinh, and Zeng, Belinda

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Diffusion-based generative modeling has been achieving state-of-the-art results on various generation tasks. Most diffusion models, however, are limited to a single-generation modeling. Can we generalize diffusion models with the ability of multi-modal generative training for more generalizable modeling? In this paper, we propose a principled way to define a diffusion model by constructing a unified multi-modal diffusion model in a common diffusion space. We define the forward diffusion process to be driven by an information aggregation from multiple types of task-data, e.g., images for a generation task and labels for a classification task. In the reverse process, we enforce information sharing by parameterizing a shared backbone denoising network with additional modality-specific decoder heads. Such a structure can simultaneously learn to generate different types of multi-modal data with a multi-task loss, which is derived from a new multi-modal variational lower bound that generalizes the standard diffusion model. We propose several multimodal generation settings to verify our framework, including image transition, masked-image training, joint image-label and joint image-representation generative modeling. Extensive experimental results on ImageNet indicate the effectiveness of our framework for various multi-modal generative modeling, which we believe is an important research direction worthy of more future explorations., Comment: Published as a conference paper at ICLR 2024

Published
2024

11. Large Language Models in Finance: A Survey

Author

Li, Yinheng, Wang, Shaofei, Ding, Han, and Chen, Hang

Subjects
Quantitative Finance - General Finance, Computer Science - Artificial Intelligence, Computer Science - Computation and Language
Abstract

Recent advances in large language models (LLMs) have opened new possibilities for artificial intelligence applications in finance. In this paper, we provide a practical survey focused on two key aspects of utilizing LLMs for financial tasks: existing solutions and guidance for adoption. First, we review current approaches employing LLMs in finance, including leveraging pretrained models via zero-shot or few-shot learning, fine-tuning on domain-specific data, and training custom LLMs from scratch. We summarize key models and evaluate their performance improvements on financial natural language processing tasks. Second, we propose a decision framework to guide financial professionals in selecting the appropriate LLM solution based on their use case constraints around data, compute, and performance needs. The framework provides a pathway from lightweight experimentation to heavy investment in customized LLMs. Lastly, we discuss limitations and challenges around leveraging LLMs in financial applications. Overall, this survey aims to synthesize the state-of-the-art and provide a roadmap for responsibly applying LLMs to advance financial AI., Comment: Accepted by 4th ACM International Conference on AI in Finance (ICAIF-23) https://ai-finance.org

Published
2023

12. Spiral Complete Coverage Path Planning Based on Conformal Slit Mapping in Multi-connected Domains

Author

Shen, Changqing, Mao, Sihao, Xu, Bingzhou, Wang, Ziwei, Zhang, Xiaojian, Yan, Sijie, and Ding, Han

Subjects
Computer Science - Robotics, Computer Science - Computational Geometry
Abstract

The generation of smoother and shorter spiral complete coverage paths in multi-connected domains is a crucial research topic in path planning for robotic cavity machining and other related fields. Traditional methods for spiral path planning in multi-connected domains typically incorporate a subregion division procedure that leads to excessive subregion bridging, requiring longer, more sharply turning, and unevenly spaced spirals to achieve complete coverage. To address this issue, this paper proposes a novel spiral complete coverage path planning method using conformal slit mapping. It takes advantage of the fact that conformal slit mapping can transform multi-connected domains into regular disks or annuluses without the need for subregion division. Firstly, a slit mapping calculation technique is proposed for segmented cubic spline boundaries with corners. Secondly, a spiral path spacing control method is developed based on the maximum inscribed circle radius between adjacent conformal slit mapping iso-parameters. Thirdly, the spiral coverage path is derived by offsetting iso-parameters. Numerical experiments indicate that our method shares a comparable order of magnitude in computation time with the traditional PDE-based spiral complete coverage path method, but it excels in optimizing total path length, smoothness, and spacing consistency. Finally, we performed experiments on cavity milling and dry runs to compare the new method with the traditional PDE-based method in terms of machining duration and steering impact, respectively. The comparison reveals that, with both algorithms achieving complete coverage, the new algorithm reduces machining time and steering impact by 12.34% and 22.78%, respectively, compared with the traditional PDE-based method., Comment: 47 pages, 17 figures, accepted by IJRR on April 10th

Published
2023

13. Design of Recognition and Evaluation System for Table Tennis Players' Motor Skills Based on Artificial Intelligence

Author

Shi, Zhuo-yong, Jia, Ye-tao, Zhang, Ke-xin, Wang, Ding-han, Ji, Long-meng, and Wu, Yong

Subjects
Electrical Engineering and Systems Science - Signal Processing, Computer Science - Artificial Intelligence, Computer Science - Machine Learning, G.1, H.4
Abstract

With the rapid development of electronic science and technology, the research on wearable devices is constantly updated, but for now, it is not comprehensive for wearable devices to recognize and analyze the movement of specific sports. Based on this, this paper improves wearable devices of table tennis sport, and realizes the pattern recognition and evaluation of table tennis players' motor skills through artificial intelligence. Firstly, a device is designed to collect the movement information of table tennis players and the actual movement data is processed. Secondly, a sliding window is made to divide the collected motion data into a characteristic database of six table tennis benchmark movements. Thirdly, motion features were constructed based on feature engineering, and motor skills were identified for different models after dimensionality reduction. Finally, the hierarchical evaluation system of motor skills is established with the loss functions of different evaluation indexes. The results show that in the recognition of table tennis players' motor skills, the feature-based BP neural network proposed in this paper has higher recognition accuracy and stronger generalization ability than the traditional convolutional neural network., Comment: 34pages, 16figures

Published
2023

15. Cross-corpus Readability Compatibility Assessment for English Texts

Author

Li, Zhenzhen, Ding, Han, and Zhang, Shaohong

Subjects
Computer Science - Computation and Language
Abstract

Text readability assessment has gained significant attention from researchers in various domains. However, the lack of exploration into corpus compatibility poses a challenge as different research groups utilize different corpora. In this study, we propose a novel evaluation framework, Cross-corpus text Readability Compatibility Assessment (CRCA), to address this issue. The framework encompasses three key components: (1) Corpus: CEFR, CLEC, CLOTH, NES, OSP, and RACE. Linguistic features, GloVe word vector representations, and their fusion features were extracted. (2) Classification models: Machine learning methods (XGBoost, SVM) and deep learning methods (BiLSTM, Attention-BiLSTM) were employed. (3) Compatibility metrics: RJSD, RRNSS, and NDCG metrics. Our findings revealed: (1) Validated corpus compatibility, with OSP standing out as significantly different from other datasets. (2) An adaptation effect among corpora, feature representations, and classification methods. (3) Consistent outcomes across the three metrics, validating the robustness of the compatibility assessment framework. The outcomes of this study offer valuable insights into corpus selection, feature representation, and classification methods, and it can also serve as a beginning effort for cross-corpus transfer learning., Comment: 14 pages,17 figures

Published
2023

23. CRC-based Reliable WiFi Backscatter Communiation for Supply Chain Management

Author

Liu, Yun-Hao, Liu, Tao, Huang, Yimeng, Ding, Han, Xi, Wei, and Gong, Wei

Subjects
Computer Science - Networking and Internet Architecture
Abstract

Supply chain management is aimed to keep going long-term performance of the supply chain and minimize the costs. Backscatter technology provides a more efficient way of being able to identify items and real-time monitoring. Among the backscatter systems, the ambient backscatter communication (AmBC) system provides a prospect of ultra-low energy consumption and does not require controlled excitation devices. In this paper, we introduce CRCScatter, a CRC reverse algorithm-based AmBC system using a single access point (AP). A CRC reverse decoder is applied to reverse the ambient data from CRC32 sequence in the backscatter packet and realize single-AP decoding. Based on the nature of DBPSK modulation in WiFi signal, the CRCScatter system obtains the tag data by XOR and Differential decoder. Our simulation results verify the effectiveness of our proposed system in the low SNR regime. The average decoding time of CRCScatter system is independent of the length of tag data. Furthermore, our system can append redundant bits in the tag data to improve the decoding accuracy while not increasing the decoding time.

Published
2023

25. Self-Supervised Image Representation Learning: Transcending Masking with Paired Image Overlay

Author

Li, Yinheng, Ding, Han, and Wang, Shaofei

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

Self-supervised learning has become a popular approach in recent years for its ability to learn meaningful representations without the need for data annotation. This paper proposes a novel image augmentation technique, overlaying images, which has not been widely applied in self-supervised learning. This method is designed to provide better guidance for the model to understand underlying information, resulting in more useful representations. The proposed method is evaluated using contrastive learning, a widely used self-supervised learning method that has shown solid performance in downstream tasks. The results demonstrate the effectiveness of the proposed augmentation technique in improving the performance of self-supervised models.

Published
2023

30. Temporal stability of tongue microbiota in older patients – A pilot study

Author

Fa-Tzu Tsai, Cheng-Chieh Yang, Yu-Cheng Lin, Ming-Lun Hsu, Guang Hong, Mu-Chen Yang, Ding-Han Wang, Lin-Jack Huang, Chiu-Tzu Lin, Wun-Eng Hsu, and Hsi-Feng Tu

Subjects
16S rRNA, Amplicon sequence variant, Older patient, Oral microbiota, Temporal stability, Dentistry, RK1-715
Abstract

Background/purpose: Healthy states of human microbiota depend on a stable community of symbiotic microbes irrespective of external challenges from the environment. Thus, long-term stability of the oral microbiota is of importance, particularly for older patient populations. Materials and methods: We used next-generation sequencing (NGS) to examine the tongue microbiota of 18 individuals receiving long-term care over a 10-month period. Results: Beta diversity analysis demonstrated temporal stability of the tongue microbiota, as microbial compositions from all time points were indistinguishable from each other (P = 0.0887). However, significant individual variation in microbial composition (P = 0.0001) was observed, underscoring the presence of a unique microbial profile for each patient. Conclusion: The temporal dynamics of tongue microbiota exhibit long-term stability, providing diagnostic implications for oral diseases within older patient populations.

Published
2024
Full Text
View/download PDF

31. Utilization of 3D evaluation for assessing selective caries removal practice in pre-clinical dental students: a pilot study

Author

Worachate Romalee, Nattira Suksudaj, Patchayaporn Doungkom, Ding-Han Wang, Ming-Lun Hsu, and Piyaphong Panpisut

Subjects
Dental caries, Dental education, Dental students, Operative dentistry, Selective, Caries removal, Special aspects of education, LC8-6691, Medicine
Abstract

Abstract Background Practicing and assessment of selective caries removal techniques in dental students remain challenges in many dental schools. The aim of this study was to utilize a 3D assessment technique, within a designated acceptable range of deviation, to evaluate the tendency of dental students in performing selective caries removal (SCR). The correlation between 3D assessment results and the conventional rubric rated by an instructor was also determined. Methods Fifth-year dental students (n = 61) performed the SCR task on 3D-printed teeth containing simulated deep caries lesions in occlusal and proximal surfaces. One instructor assessed the results using a conventional analytic rubric. The excavated teeth were additionally evaluated using 3D analysis software with the designated acceptable range of deviations (± 0.5 mm) from the standard cavities. The average root mean square (RMS) value, representing the deviation between student-prepared cavities and the predefined standard cavities, was recorded. A tendency towards over-excavation was defined for RMS values > 0.5 mm, and towards under-excavation for RMS values

Published
2024
Full Text
View/download PDF

34. L-2-Hydroxyglutarate remodeling of the epigenome and epitranscriptome creates a metabolic vulnerability in kidney cancer models

Author

Kundu, Anirban, Brinkley, Garrett J., Nam, Hyeyoung, Karki, Suman, Kirkman, Richard, Shim, Madhuparna PandiEunHee, Widden, Hayley, Liu, Juan, Heidarian, Yasaman, Mahmoudzadeh, Nader H., Absher, Alexander J. FitDevin, Ding, Han-Fei, Crossman, David K., Placzek, William J., Locasale, Jason W., Rakheja, Dinesh, McConathy, Jonathan E., Ramachandran, Rekha, Bae, Sejong, Tennessen, Jason M., and Sudarshan, Sunil

Subjects
Gene expression -- Analysis, Kidney cancer -- Diagnosis -- Care and treatment -- Genetic aspects, Methylation -- Health aspects, Metabolites -- Analysis, Health care industry, Diagnosis, Care and treatment, Analysis, Genetic aspects, Health aspects
Abstract

Tumor cells are known to undergo considerable metabolic reprogramming to meet their unique demands and drive tumor growth. At the same time, this reprogramming may come at a cost with resultant metabolic vulnerabilities. The small molecule l-2-hydroxyglutarate (L-2HG) is elevated in the most common histology of renal cancer. Similarly to other oncometabolites, L-2HG has the potential to profoundly impact gene expression. Here, we demonstrate that L-2HG remodels amino acid metabolism in renal cancer cells through combined effects on histone methylation and RNA [N.sup.6]- methyladenosine. The combined effects of L-2HG result in a metabolic liability that renders tumors cells reliant on exogenous serine to support proliferation, redox homeostasis, and tumor growth. In concert with these data, high-L-2HG kidney cancers demonstrate reduced expression of multiple serine biosynthetic enzymes. Collectively, our data indicate that high-L-2HG renal tumors could be specifically targeted by strategies that limit serine availability to tumors., Introduction Oncometabolites are small molecules that aberrantly accumulate within tumor cells. These small molecules can have either tumor-promoting or -suppressive effects, indicating that their impact on tumor biology is highly [...]

Published
2024
Full Text
View/download PDF

35. Mask Wearing Status Estimation with Smartwatches

Author

Meng, Huina, Wu, Xilei, Wang, Xin, Fan, Yuhan, Shi, Jingang, Ding, Han, and Wang, Fei

Subjects
Computer Science - Human-Computer Interaction
Abstract

We present MaskReminder, an automatic mask-wearing status estimation system based on smartwatches, to remind users who may be exposed to the COVID-19 virus transmission scenarios, to wear a mask. MaskReminder with the powerful MLP-Mixer deep learning model can effectively learn long-short range information from the inertial measurement unit readings, and can recognize the mask-related hand movements such as wearing a mask, lowering the metal strap of the mask, removing the strap from behind one side of the ears, etc. Extensive experiments on 20 volunteers and 8000+ data samples show that the average recognition accuracy is 89%. Moreover, MaskReminder is capable to remind a user to wear with a success rate of 90% even in the user-independent setting., Comment: 6 pages, under review

Published
2022

36. Social Distancing Alert with Smartwatches

Author

Wang, Xin, Wu, Xilei, Meng, Huina, Fan, Yuhan, Shi, Jingang, Ding, Han, and Wang, Fei

Subjects
Computer Science - Human-Computer Interaction
Abstract

Social distancing is an efficient public health practice during the COVID-19 pandemic. However, people would violate the social distancing practice unconsciously when they conduct some social activities such as handshaking, hugging, kissing on the face or forehead, etc. In this paper, we present SoDA, a social distancing practice violation alert system based on smartwatches, for preventing COVID-19 virus transmission. SoDA utilizes recordings of accelerometers and gyroscopes to recognize activities that may violate social distancing practice with simple yet effective Vision Transformer models. Extensive experiments over 10 volunteers and 1800+ samples demonstrate that SoDA achieves social activity recognition with the accuracy of 94.7%, 1.8% negative alert, and 2.2% missing alert., Comment: 6 pages, under review

Published
2022

46. Research on high proportion of clean energy grid-connected oscillation risk prediction technology based on CNN and trend feature analysis

Author

Wang Pu, Xie Yingnan, Zhao Chongjuan, Shi Hong, Fan Yingwei, Lu Yunfeng, Ding Han, Jin Ye, Yan xueying, and Hu yuying

Subjects
Medicine, Science
Abstract

Abstract Oscillations, commonly known as a universal, propagative, and intricate event in the new power system, often give rise to generator tripping and load shedding, not only adversely affecting the power flow limit and the power angle stability but also posing threats to the lines of defense for stability and protection. Traditionally, emphasis has been laid on post-fault oscillation management, an emergency measure to deal with the impact and damage that have already affected the power grid. As such, this paper focuses on an oscillation prediction technique to detect oscillation energy early and intervene proactively to prevent further faults. This technique effectively lessens the damage caused by impacts and disconnects to the power grid. Firstly, this paper proposes the concept of disturbance power density and establishes the correlation between disturbance energy and the time domain, thereby exploring a method for evaluating the pattern of electrical quantities before power system oscillation. Secondly, it speeds up the time it takes to detect faults by catching nuances of voltage-current phase angle and impedance. Lastly, it puts forward a technique to cope with the intricacy and variety of power grid equipment using the convolutional neural network (CNN). This technique incorporates an integrated attention mechanism within a one-dimensional CNN model to capture the implicit mapping between voltage, active power, and reactive power at any time in the power system. This enables the model to self-learn multi-device characteristics and enhances the possibility of using theory in practical ways. Moreover, practical case studies also show that the prediction technique proposed in this paper can effectively issue warnings eight minutes before the occurrence of oscillation.

Published
2023
Full Text
View/download PDF

47. You Can Wash Hands Better: Accurate Daily Handwashing Assessment with Smartwatches

Author

Wang, Fei, Wu, Xilei, Wang, Xin, Ding, Han, Shi, Jingang, Han, Jinsong, and Huang, Dong

Subjects
Electrical Engineering and Systems Science - Signal Processing, Computer Science - Machine Learning
Abstract

Hand hygiene is one of the most efficient daily actions to prevent infectious diseases, such as Influenza, Malaria, and skin infections. We have been suggested to wash our hands under professional guidelines to prevent virus infection. However, several surveys show that very few people follow this suggestion. Thus we propose UWash, a wearable solution with smartwatches, to assess handwashing procedures for the purpose of raising users' awareness and cultivating habits of high-quality handwashing. We address the task of handwashing assessment from readings of motion sensors similar to the action segmentation problem in computer vision, and propose a simple and lightweight two-stream UNet-like network to achieve it effectively. Experiments over 51 subjects show that UWash achieves an accuracy of 92.27% on handwashing gesture recognition, <0.5 seconds error on onset/offset detection, and <5 points error on gesture scoring in the user-dependent setting, and keeps promising in the user-independent evaluation and the user-independent-location-independent evaluation. UWash even performs well on 10 random passersby in a hospital 9 months later. UWash is the first work that scores the handwashing quality by gesture sequences and is instructive to guide users in promoting hand hygiene in daily life. Code and data are avaliable at https://github.com/aiotgroup/UWash, Comment: 11 pages, 11 figures, 7 tables

Published
2021

Catalog

Books, media, physical & digital resources
See catalog results