Your search keyword '"Zhou Jun"' showing total 493 results

1. Investigation of surface engineering and monitoring for reliable wind turbine gearboxes

Author

Zhou, Jun

Subjects

669, TJ Mechanical engineering and machinery

Abstract

Most industrial wind turbines use gearboxes to increase the speed of rotor to the speed required by the generator. However, gearbox is among the least reliable wind turbine subsystems. In this study, the root failure cause of gearbox components retrieved from the field has been analysed and deduced to be the result of the combined effects of misalignment, coarse non-metallic inclusions, and inadequate or inconsistent lubrication, which has been verified using Finite Element Analysis (FEA) simulations. Subsequently, duplex surface systems were designed as WC/a-C:H coating deposited on surface hardened steel to mitigate or eliminate the life-limiting problems of gearboxes, which exhibited superior properties and performance than single coating systems and carburised samples. In addition to the advanced surface systems, an improved methodology of condition monitoring has been developed to avoid unpredictable gearbox failures. Four wheels made of as-received EN36 and EN40BT steel grades, carburised EN36 and nitrided EN40BT were tested against WC wheel using a rolling-sliding wear tester. The development of wheel damage was found to be closely interrelated with the AE signals. The vibration spectrum significantly changed after severe and visible damage formed on the surface of the tested wheel samples.

Published

2017

2. IPOCIM: Artificial Intelligent Architecture Design Space Exploration With Scalable Ping-Pong Computing-in-Memory Macro

Author

Chang, Liang, Zhao, Xin, Yue, Ting, Yang, Xi, Li, Chenglong, Lin, Shuisheng, Zhou, Jun, Chang, Liang, Zhao, Xin, Yue, Ting, Yang, Xi, Li, Chenglong, Lin, Shuisheng, and Zhou, Jun

Abstract

Computing-in-memory (CIM) architecture has become a possible solution to designing an energy-efficient artificial intelligent processor. Various CIM demonstrators indicated the computing efficiency of CIM macro and CIM-based processors. However, previous studies mainly focus on macro optimization and low CIM capacity without considering the weight update strategy of CIM architecture. The artificial intelligence (AI) processor with a CIM engine practically induces issues, including updating memory data and supporting different operators. For instance, AI-oriented applications usually contain various weight parameters. The weight stored in the CIM architecture should be reloaded for the considerable gap between the capacity of CIM and growing weight parameters. The computation efficiency of the CIM architecture is reduced by the weight updating and waiting. In addition, the natural parallelism of CIM leads to the mismatch of various convolution kernel sizes in different networks and layers, which reduces hardware utilization efficiency. In this work, we develop a CIM engine with a ping-pong computing strategy as an alternative to typical CIM macro and weight buffer, hiding the data update latency and improving the data reuse ratio. Based on the pingpong engine, we propose a flexible CIM architecture adapting to different sizes of neural networks, namely, intelligent pong computing-in memory (IPOCIM), with a fine-grained data flow mapping strategy. Based on the evaluation, IPOCIM can achieve a 1.27-6.27x performance and 2.34-5.30x energy efficiency improvement compared to the state-of-the-art works.

Published

2024

3. Retrospective Investigation and Research on Fall Events Among Hospitalized Patients in the Rehabilitation Department

Author

Lin,Fang-Fang, Yang,Wei-Yuan, Zhou,Jun-Xiang, Cao,Luo-Yuan, Huang,Ling-Ling, Lin,Fang-Fang, Yang,Wei-Yuan, Zhou,Jun-Xiang, Cao,Luo-Yuan, and Huang,Ling-Ling

Abstract

Fang-Fang Lin,1 Wei-Yuan Yang,1 Jun-Xiang Zhou,1 Luo-Yuan Cao,2 Ling-Ling Huang1 1Department of Rehabilitation, Ningde Municipal Hospital Affiliated to Ningde Normal University, Ningde, 352000, People’s Republic of China; 2Department of Central Laboratory, Ningde Municipal Hospital Affiliated to Ningde Normal University, Ningde, 352000, People’s Republic of ChinaCorrespondence: Jun-Xiang Zhou; Wei-Yuan Yang, Department of Rehabilitation, Ningde Municipal Hospital Affiliated to Ningde Normal University, No. 7 of Jiaocheng North Road, Jiaocheng District, Ningde, 352000, People’s Republic of China, Tel +86-15159370026 ; +86-13004929861, Email zhoujunxiangz@126.com; weiyuanyang9@126.comObjective: We investigated the clinical characteristics, fall outcomes, and related factors of falls in patients who were hospitalized in the rehabilitation department, and explored strategies to reduce the incidence of falls and prevent falls in patients.Methods: Data from 60 patients who fell in the rehabilitation department between 2016 and 2021 were analyzed for clinical characteristics, associated factors, incidence of falls, injuries, and patient demographics. Under the random stratified sampling method, 60 patients who did not fall during the same period were selected as the control group, and relevant data was collected. Measurement data were compared using an independent sample t-test. Enumeration data were compared using chi-squared (χ2) test was employed to compare these data between the two groups. Non-parametric data were analyzed using the Mann–Whitney U-test. Factors potentially influencing falls were scrutinized through both univariate and binary logistic regression analyses.Results: The median annual incidence of falls among patients who were hospitalized in the rehabilitation department was 0.04%, while the overall fall injury rate was 60%. Falls were most prevalent within 30 days of hospitalization (71.67%). The most common fall-related condition was craniocere

Published

2024

4. Breaking the Length Barrier: LLM-Enhanced CTR Prediction in Long Textual User Behaviors

Author

Geng, Binzong, Huan, Zhaoxin, Zhang, Xiaolu, He, Yong, Zhang, Liang, Yuan, Fajie, Zhou, Jun, Mo, Linjian, Geng, Binzong, Huan, Zhaoxin, Zhang, Xiaolu, He, Yong, Zhang, Liang, Yuan, Fajie, Zhou, Jun, and Mo, Linjian

Abstract

With the rise of large language models (LLMs), recent works have leveraged LLMs to improve the performance of click-through rate (CTR) prediction. However, we argue that a critical obstacle remains in deploying LLMs for practical use: the efficiency of LLMs when processing long textual user behaviors. As user sequences grow longer, the current efficiency of LLMs is inadequate for training on billions of users and items. To break through the efficiency barrier of LLMs, we propose Behavior Aggregated Hierarchical Encoding (BAHE) to enhance the efficiency of LLM-based CTR modeling. Specifically, BAHE proposes a novel hierarchical architecture that decouples the encoding of user behaviors from inter-behavior interactions. Firstly, to prevent computational redundancy from repeated encoding of identical user behaviors, BAHE employs the LLM's pre-trained shallow layers to extract embeddings of the most granular, atomic user behaviors from extensive user sequences and stores them in the offline database. Subsequently, the deeper, trainable layers of the LLM facilitate intricate inter-behavior interactions, thereby generating comprehensive user embeddings. This separation allows the learning of high-level user representations to be independent of low-level behavior encoding, significantly reducing computational complexity. Finally, these refined user embeddings, in conjunction with correspondingly processed item embeddings, are incorporated into the CTR model to compute the CTR scores. Extensive experimental results show that BAHE reduces training time and memory by five times for CTR models using LLMs, especially with longer user sequences. BAHE has been deployed in a real-world system, allowing for daily updates of 50 million CTR data on 8 A100 GPUs, making LLMs practical for industrial CTR prediction., Comment: Accepted by the 47th International ACM SIGIR Conference on Research and Development in Information Retrieval (SIGIR), 2024

Published

2024

5. DNGaussian: Optimizing Sparse-View 3D Gaussian Radiance Fields with Global-Local Depth Normalization

Author

Li, Jiahe, Zhang, Jiawei, Bai, Xiao, Zheng, Jin, Ning, Xin, Zhou, Jun, Gu, Lin, Li, Jiahe, Zhang, Jiawei, Bai, Xiao, Zheng, Jin, Ning, Xin, Zhou, Jun, and Gu, Lin

Abstract

Radiance fields have demonstrated impressive performance in synthesizing novel views from sparse input views, yet prevailing methods suffer from high training costs and slow inference speed. This paper introduces DNGaussian, a depth-regularized framework based on 3D Gaussian radiance fields, offering real-time and high-quality few-shot novel view synthesis at low costs. Our motivation stems from the highly efficient representation and surprising quality of the recent 3D Gaussian Splatting, despite it will encounter a geometry degradation when input views decrease. In the Gaussian radiance fields, we find this degradation in scene geometry primarily lined to the positioning of Gaussian primitives and can be mitigated by depth constraint. Consequently, we propose a Hard and Soft Depth Regularization to restore accurate scene geometry under coarse monocular depth supervision while maintaining a fine-grained color appearance. To further refine detailed geometry reshaping, we introduce Global-Local Depth Normalization, enhancing the focus on small local depth changes. Extensive experiments on LLFF, DTU, and Blender datasets demonstrate that DNGaussian outperforms state-of-the-art methods, achieving comparable or better results with significantly reduced memory cost, a $25 \times$ reduction in training time, and over $3000 \times$ faster rendering speed., Comment: Accepted at CVPR 2024. Project page: https://fictionarry.github.io/DNGaussian

Published

2024

6. Financial Default Prediction via Motif-preserving Graph Neural Network with Curriculum Learning

Author

Wang, Daixin, Zhang, Zhiqiang, Zhao, Yeyu, Huang, Kai, Kang, Yulin, Zhou, Jun, Wang, Daixin, Zhang, Zhiqiang, Zhao, Yeyu, Huang, Kai, Kang, Yulin, and Zhou, Jun

Abstract

User financial default prediction plays a critical role in credit risk forecasting and management. It aims at predicting the probability that the user will fail to make the repayments in the future. Previous methods mainly extract a set of user individual features regarding his own profiles and behaviors and build a binary-classification model to make default predictions. However, these methods cannot get satisfied results, especially for users with limited information. Although recent efforts suggest that default prediction can be improved by social relations, they fail to capture the higher-order topology structure at the level of small subgraph patterns. In this paper, we fill in this gap by proposing a motif-preserving Graph Neural Network with curriculum learning (MotifGNN) to jointly learn the lower-order structures from the original graph and higherorder structures from multi-view motif-based graphs for financial default prediction. Specifically, to solve the problem of weak connectivity in motif-based graphs, we design the motif-based gating mechanism. It utilizes the information learned from the original graph with good connectivity to strengthen the learning of the higher-order structure. And considering that the motif patterns of different samples are highly unbalanced, we propose a curriculum learning mechanism on the whole learning process to more focus on the samples with uncommon motif distributions. Extensive experiments on one public dataset and two industrial datasets all demonstrate the effectiveness of our proposed method.

Published

2024

7. Empowering Sequential Recommendation from Collaborative Signals and Semantic Relatedness

Author

Cheng, Mingyue, Zhang, Hao, Liu, Qi, Yuan, Fajie, Li, Zhi, Huang, Zhenya, Chen, Enhong, Zhou, Jun, Li, Longfei, Cheng, Mingyue, Zhang, Hao, Liu, Qi, Yuan, Fajie, Li, Zhi, Huang, Zhenya, Chen, Enhong, Zhou, Jun, and Li, Longfei

Abstract

Sequential recommender systems (SRS) could capture dynamic user preferences by modeling historical behaviors ordered in time. Despite effectiveness, focusing only on the \textit{collaborative signals} from behaviors does not fully grasp user interests. It is also significant to model the \textit{semantic relatedness} reflected in content features, e.g., images and text. Towards that end, in this paper, we aim to enhance the SRS tasks by effectively unifying collaborative signals and semantic relatedness together. Notably, we empirically point out that it is nontrivial to achieve such a goal due to semantic gap issues. Thus, we propose an end-to-end two-stream architecture for sequential recommendation, named TSSR, to learn user preferences from ID-based and content-based sequence. Specifically, we first present novel hierarchical contrasting module, including coarse user-grained and fine item-grained terms, to align the representations of inter-modality. Furthermore, we also design a two-stream architecture to learn the dependence of intra-modality sequence and the complex interactions of inter-modality sequence, which can yield more expressive capacity in understanding user interests. We conduct extensive experiments on five public datasets. The experimental results show that the TSSR could yield superior performance than competitive baselines. We also make our experimental codes publicly available at https://anonymous.4open.science/r/TSSR-2A27/.

Published

2024

8. Graph Neural Network with Two Uplift Estimators for Label-Scarcity Individual Uplift Modeling

Author

Zhu, Dingyuan, Wang, Daixin, Zhang, Zhiqiang, Kuang, Kun, Zhang, Yan, Kang, Yulin, Zhou, Jun, Zhu, Dingyuan, Wang, Daixin, Zhang, Zhiqiang, Kuang, Kun, Zhang, Yan, Kang, Yulin, and Zhou, Jun

Abstract

Uplift modeling aims to measure the incremental effect, which we call uplift, of a strategy or action on the users from randomized experiments or observational data. Most existing uplift methods only use individual data, which are usually not informative enough to capture the unobserved and complex hidden factors regarding the uplift. Furthermore, uplift modeling scenario usually has scarce labeled data, especially for the treatment group, which also poses a great challenge for model training. Considering that the neighbors' features and the social relationships are very informative to characterize a user's uplift, we propose a graph neural network-based framework with two uplift estimators, called GNUM, to learn from the social graph for uplift estimation. Specifically, we design the first estimator based on a class-transformed target. The estimator is general for all types of outcomes, and is able to comprehensively model the treatment and control group data together to approach the uplift. When the outcome is discrete, we further design the other uplift estimator based on our defined partial labels, which is able to utilize more labeled data from both the treatment and control groups, to further alleviate the label scarcity problem. Comprehensive experiments on a public dataset and two industrial datasets show a superior performance of our proposed framework over state-of-the-art methods under various evaluation metrics. The proposed algorithms have been deployed online to serve real-world uplift estimation scenarios.

Published

2024

9. ChatUIE: Exploring Chat-based Unified Information Extraction using Large Language Models

Author

Xu, Jun, Sun, Mengshu, Zhang, Zhiqiang, Zhou, Jun, Xu, Jun, Sun, Mengshu, Zhang, Zhiqiang, and Zhou, Jun

Abstract

Recent advancements in large language models have shown impressive performance in general chat. However, their domain-specific capabilities, particularly in information extraction, have certain limitations. Extracting structured information from natural language that deviates from known schemas or instructions has proven challenging for previous prompt-based methods. This motivated us to explore domain-specific modeling in chat-based language models as a solution for extracting structured information from natural language. In this paper, we present ChatUIE, an innovative unified information extraction framework built upon ChatGLM. Simultaneously, reinforcement learning is employed to improve and align various tasks that involve confusing and limited samples. Furthermore, we integrate generation constraints to address the issue of generating elements that are not present in the input. Our experimental results demonstrate that ChatUIE can significantly improve the performance of information extraction with a slight decrease in chatting ability., Comment: Accepted by LREC-COLING 2024

Published

2024

10. Can Small Language Models be Good Reasoners for Sequential Recommendation?

Author

Wang, Yuling, Tian, Changxin, Hu, Binbin, Yu, Yanhua, Liu, Ziqi, Zhang, Zhiqiang, Zhou, Jun, Pang, Liang, Wang, Xiao, Wang, Yuling, Tian, Changxin, Hu, Binbin, Yu, Yanhua, Liu, Ziqi, Zhang, Zhiqiang, Zhou, Jun, Pang, Liang, and Wang, Xiao

Abstract

Large language models (LLMs) open up new horizons for sequential recommendations, owing to their remarkable language comprehension and generation capabilities. However, there are still numerous challenges that should be addressed to successfully implement sequential recommendations empowered by LLMs. Firstly, user behavior patterns are often complex, and relying solely on one-step reasoning from LLMs may lead to incorrect or task-irrelevant responses. Secondly, the prohibitively resource requirements of LLM (e.g., ChatGPT-175B) are overwhelmingly high and impractical for real sequential recommender systems. In this paper, we propose a novel Step-by-step knowLedge dIstillation fraMework for recommendation (SLIM), paving a promising path for sequential recommenders to enjoy the exceptional reasoning capabilities of LLMs in a "slim" (i.e., resource-efficient) manner. We introduce CoT prompting based on user behavior sequences for the larger teacher model. The rationales generated by the teacher model are then utilized as labels to distill the downstream smaller student model (e.g., LLaMA2-7B). In this way, the student model acquires the step-by-step reasoning capabilities in recommendation tasks. We encode the generated rationales from the student model into a dense vector, which empowers recommendation in both ID-based and ID-agnostic scenarios. Extensive experiments demonstrate the effectiveness of SLIM over state-of-the-art baselines, and further analysis showcasing its ability to generate meaningful recommendation reasoning at affordable costs., Comment: Accepted by TheWebConf (WWW) 2024

Published

2024

11. RemoteCLIP: A Vision Language Foundation Model for Remote Sensing

Author

Liu, Fan, Chen, Delong, Guan, Zhangqingyun, Zhou, Xiaocong, Zhu, Jiale, Ye, Qiaolin, Fu, Liyong, Zhou, Jun, Liu, Fan, Chen, Delong, Guan, Zhangqingyun, Zhou, Xiaocong, Zhu, Jiale, Ye, Qiaolin, Fu, Liyong, and Zhou, Jun

Abstract

General-purpose foundation models have led to recent breakthroughs in artificial intelligence. In remote sensing, self-supervised learning (SSL) and Masked Image Modeling (MIM) have been adopted to build foundation models. However, these models primarily learn low-level features and require annotated data for fine-tuning. Moreover, they are inapplicable for retrieval and zero-shot applications due to the lack of language understanding. To address these limitations, we propose RemoteCLIP, the first vision-language foundation model for remote sensing that aims to learn robust visual features with rich semantics and aligned text embeddings for seamless downstream application. To address the scarcity of pre-training data, we leverage data scaling which converts heterogeneous annotations into a unified image-caption data format based on Box-to-Caption (B2C) and Mask-to-Box (M2B) conversion. By further incorporating UAV imagery, we produce a 12 × larger pretraining dataset than the combination of all available datasets. RemoteCLIP can be applied to a variety of downstream tasks, including zero-shot image classification, linear probing, k -NN classification, few-shot classification, image-text retrieval, and object counting in remote sensing images. Evaluation on 16 datasets, including a newly introduced RemoteCount benchmark to test the object counting ability, shows that RemoteCLIP consistently outperforms baseline foundation models across different model scales. Impressively, RemoteCLIP beats the state-of-the-art method by 9.14% mean recall on the RSITMD dataset and 8.92% on the RSICD dataset. For zero-shot classification, our RemoteCLIP outperforms the CLIP baseline by up to 6.39% average accuracy on 12 downstream datasets.

Published

2024

12. Resolution-Agnostic Neural Compression for High-Fidelity Portrait Video Conferencing via Implicit Radiance Fields

Author

Li, Yifei, Liu, Xiaohong, Peng, Yicong, Zhai, Guangtao, Zhou, Jun, Li, Yifei, Liu, Xiaohong, Peng, Yicong, Zhai, Guangtao, and Zhou, Jun

Abstract

Video conferencing has caught much more attention recently. High fidelity and low bandwidth are two major objectives of video compression for video conferencing applications. Most pioneering methods rely on classic video compression codec without high-level feature embedding and thus can not reach the extremely low bandwidth. Recent works instead employ model-based neural compression to acquire ultra-low bitrates using sparse representations of each frame such as facial landmark information, while these approaches can not maintain high fidelity due to 2D image-based warping. In this paper, we propose a novel low bandwidth neural compression approach for high-fidelity portrait video conferencing using implicit radiance fields to achieve both major objectives. We leverage dynamic neural radiance fields to reconstruct high-fidelity talking head with expression features, which are represented as frame substitution for transmission. The overall system employs deep model to encode expression features at the sender and reconstruct portrait at the receiver with volume rendering as decoder for ultra-low bandwidth. In particular, with the characteristic of neural radiance fields based model, our compression approach is resolution-agnostic, which means that the low bandwidth achieved by our approach is independent of video resolution, while maintaining fidelity for higher resolution reconstruction. Experimental results demonstrate that our novel framework can (1) construct ultra-low bandwidth video conferencing, (2) maintain high fidelity portrait and (3) have better performance on high-resolution video compression than previous works., Comment: 16 pages, 5 figures, accepted by IFTC2023

Published

2024

13. CMNER: A Chinese Multimodal NER Dataset based on Social Media

Author

Ji, Yuanze, Li, Bobo, Zhou, Jun, Li, Fei, Teng, Chong, Ji, Donghong, Ji, Yuanze, Li, Bobo, Zhou, Jun, Li, Fei, Teng, Chong, and Ji, Donghong

Abstract

Multimodal Named Entity Recognition (MNER) is a pivotal task designed to extract named entities from text with the support of pertinent images. Nonetheless, a notable paucity of data for Chinese MNER has considerably impeded the progress of this natural language processing task within the Chinese domain. Consequently, in this study, we compile a Chinese Multimodal NER dataset (CMNER) utilizing data sourced from Weibo, China's largest social media platform. Our dataset encompasses 5,000 Weibo posts paired with 18,326 corresponding images. The entities are classified into four distinct categories: person, location, organization, and miscellaneous. We perform baseline experiments on CMNER, and the outcomes underscore the effectiveness of incorporating images for NER. Furthermore, we conduct cross-lingual experiments on the publicly available English MNER dataset (Twitter2015), and the results substantiate our hypothesis that Chinese and English multimodal NER data can mutually enhance the performance of the NER model.

Published

2024

14. LiDAR-Guided Cross-Attention Fusion for Hyperspectral Band Selection and Image Classification

Author

Yang, Judy X., Zhou, Jun, Wang, Jing, Tian, Hui, Liew, Alan Wee-Chung, Yang, Judy X., Zhou, Jun, Wang, Jing, Tian, Hui, and Liew, Alan Wee-Chung

Abstract

The fusion of hyperspectral and light detection and range (LiDAR) data has been an active research topic. Existing fusion methods have ignored the high-dimensionality and redundancy challenges in hyperspectral images (HSIs), despite that band selection methods have been intensively studied for HSI processing. This article addresses this significant gap by introducing a cross-attention mechanism from the transformer architecture for the selection of HSI bands guided by LiDAR data. LiDAR provides high-resolution vertical structural information, which can be useful in distinguishing different types of land cover that may have similar spectral signatures but different structural profiles. In our approach, the LiDAR data are used as the “query” to search and identify the “key” from the HSI to choose the most pertinent bands for LiDAR. This method ensures that the selected HSI bands drastically reduce redundancy and computational requirements while working optimally with the LiDAR data. Extensive experiments have been undertaken on three paired HSI and LiDAR datasets: Houston 2013, Trento, and MUUFL. The results highlight the superiority of the cross-attention mechanism, underlining the enhanced classification accuracy of the identified HSI bands when fused with the LiDAR features. The results also show that the use of fewer bands combined with LiDAR surpasses the performance of state-of-the-art fusion models.

Published

2024

15. MDGNN: Multi-Relational Dynamic Graph Neural Network for Comprehensive and Dynamic Stock Investment Prediction

Author

Qian, Hao, Zhou, Hongting, Zhao, Qian, Chen, Hao, Yao, Hongxiang, Wang, Jingwei, Liu, Ziqi, Yu, Fei, Zhang, Zhiqiang, Zhou, Jun, Qian, Hao, Zhou, Hongting, Zhao, Qian, Chen, Hao, Yao, Hongxiang, Wang, Jingwei, Liu, Ziqi, Yu, Fei, Zhang, Zhiqiang, and Zhou, Jun

Abstract

The stock market is a crucial component of the financial system, but predicting the movement of stock prices is challenging due to the dynamic and intricate relations arising from various aspects such as economic indicators, financial reports, global news, and investor sentiment. Traditional sequential methods and graph-based models have been applied in stock movement prediction, but they have limitations in capturing the multifaceted and temporal influences in stock price movements. To address these challenges, the Multi-relational Dynamic Graph Neural Network (MDGNN) framework is proposed, which utilizes a discrete dynamic graph to comprehensively capture multifaceted relations among stocks and their evolution over time. The representation generated from the graph offers a complete perspective on the interrelationships among stocks and associated entities. Additionally, the power of the Transformer structure is leveraged to encode the temporal evolution of multiplex relations, providing a dynamic and effective approach to predicting stock investment. Further, our proposed MDGNN framework achieves the best performance in public datasets compared with state-of-the-art (SOTA) stock investment methods., Comment: 9 pages, 3 figures, accepted by AAAI 2024

Published

2024

16. Enhancing Zero-shot Counting via Language-guided Exemplar Learning

Author

Wang, Mingjie, Zhou, Jun, Dai, Yong, Buys, Eric, Gong, Minglun, Wang, Mingjie, Zhou, Jun, Dai, Yong, Buys, Eric, and Gong, Minglun

Abstract

Recently, Class-Agnostic Counting (CAC) problem has garnered increasing attention owing to its intriguing generality and superior efficiency compared to Category-Specific Counting (CSC). This paper proposes a novel ExpressCount to enhance zero-shot object counting by delving deeply into language-guided exemplar learning. Specifically, the ExpressCount is comprised of an innovative Language-oriented Exemplar Perceptron and a downstream visual Zero-shot Counting pipeline. Thereinto, the perceptron hammers at exploiting accurate exemplar cues from collaborative language-vision signals by inheriting rich semantic priors from the prevailing pre-trained Large Language Models (LLMs), whereas the counting pipeline excels in mining fine-grained features through dual-branch and cross-attention schemes, contributing to the high-quality similarity learning. Apart from building a bridge between the LLM in vogue and the visual counting tasks, expression-guided exemplar estimation significantly advances zero-shot learning capabilities for counting instances with arbitrary classes. Moreover, devising a FSC-147-Express with annotations of meticulous linguistic expressions pioneers a new venue for developing and validating language-based counting models. Extensive experiments demonstrate the state-of-the-art performance of our ExpressCount, even showcasing the accuracy on par with partial CSC models.

Published

2024

17. GLISP: A Scalable GNN Learning System by Exploiting Inherent Structural Properties of Graphs

Author

Zhu, Zhongshu, Jing, Bin, Wan, Xiaopei, Liu, Zhizhen, Liang, Lei, zhou, Jun, Zhu, Zhongshu, Jing, Bin, Wan, Xiaopei, Liu, Zhizhen, Liang, Lei, and zhou, Jun

Abstract

As a powerful tool for modeling graph data, Graph Neural Networks (GNNs) have received increasing attention in both academia and industry. Nevertheless, it is notoriously difficult to deploy GNNs on industrial scale graphs, due to their huge data size and complex topological structures. In this paper, we propose GLISP, a sampling based GNN learning system for industrial scale graphs. By exploiting the inherent structural properties of graphs, such as power law distribution and data locality, GLISP addresses the scalability and performance issues that arise at different stages of the graph learning process. GLISP consists of three core components: graph partitioner, graph sampling service and graph inference engine. The graph partitioner adopts the proposed vertex-cut graph partitioning algorithm AdaDNE to produce balanced partitioning for power law graphs, which is essential for sampling based GNN systems. The graph sampling service employs a load balancing design that allows the one hop sampling request of high degree vertices to be handled by multiple servers. In conjunction with the memory efficient data structure, the efficiency and scalability are effectively improved. The graph inference engine splits the $K$-layer GNN into $K$ slices and caches the vertex embeddings produced by each slice in the data locality aware hybrid caching system for reuse, thus completely eliminating redundant computation caused by the data dependency of graph. Extensive experiments show that GLISP achieves up to $6.53\times$ and $70.77\times$ speedups over existing GNN systems for training and inference tasks, respectively, and can scale to the graph with over 10 billion vertices and 40 billion edges with limited resources.

Published

2024

18. G-Meta: Distributed Meta Learning in GPU Clusters for Large-Scale Recommender Systems

Author

Xiao, Youshao, Zhao, Shangchun, Zhou, Zhenglei, Huan, Zhaoxin, Ju, Lin, Zhang, Xiaolu, Wang, Lin, Zhou, Jun, Xiao, Youshao, Zhao, Shangchun, Zhou, Zhenglei, Huan, Zhaoxin, Ju, Lin, Zhang, Xiaolu, Wang, Lin, and Zhou, Jun

Abstract

Recently, a new paradigm, meta learning, has been widely applied to Deep Learning Recommendation Models (DLRM) and significantly improves statistical performance, especially in cold-start scenarios. However, the existing systems are not tailored for meta learning based DLRM models and have critical problems regarding efficiency in distributed training in the GPU cluster. It is because the conventional deep learning pipeline is not optimized for two task-specific datasets and two update loops in meta learning. This paper provides a high-performance framework for large-scale training for Optimization-based Meta DLRM models over the \textbf{G}PU cluster, namely \textbf{G}-Meta. Firstly, G-Meta utilizes both data parallelism and model parallelism with careful orchestration regarding computation and communication efficiency, to enable high-speed distributed training. Secondly, it proposes a Meta-IO pipeline for efficient data ingestion to alleviate the I/O bottleneck. Various experimental results show that G-Meta achieves notable training speed without loss of statistical performance. Since early 2022, G-Meta has been deployed in Alipay's core advertising and recommender system, shrinking the continuous delivery of models by four times. It also obtains 6.48\% improvement in Conversion Rate (CVR) and 1.06\% increase in CPM (Cost Per Mille) in Alipay's homepage display advertising, with the benefit of larger training samples and tasks.

Published

2024

19. XUAT-Copilot: Multi-Agent Collaborative System for Automated User Acceptance Testing with Large Language Model

Author

Wang, Zhitao, Wang, Wei, Li, Zirao, Wang, Long, Yi, Can, Xu, Xinjie, Cao, Luyang, Su, Hanjing, Chen, Shouzhi, Zhou, Jun, Wang, Zhitao, Wang, Wei, Li, Zirao, Wang, Long, Yi, Can, Xu, Xinjie, Cao, Luyang, Su, Hanjing, Chen, Shouzhi, and Zhou, Jun

Abstract

In past years, we have been dedicated to automating user acceptance testing (UAT) process of WeChat Pay, one of the most influential mobile payment applications in China. A system titled XUAT has been developed for this purpose. However, there is still a human-labor-intensive stage, i.e, test scripts generation, in the current system. Therefore, in this paper, we concentrate on methods of boosting the automation level of the current system, particularly the stage of test scripts generation. With recent notable successes, large language models (LLMs) demonstrate significant potential in attaining human-like intelligence and there has been a growing research area that employs LLMs as autonomous agents to obtain human-like decision-making capabilities. Inspired by these works, we propose an LLM-powered multi-agent collaborative system, named XUAT-Copilot, for automated UAT. The proposed system mainly consists of three LLM-based agents responsible for action planning, state checking and parameter selecting, respectively, and two additional modules for state sensing and case rewriting. The agents interact with testing device, make human-like decision and generate action command in a collaborative way. The proposed multi-agent system achieves a close effectiveness to human testers in our experimental studies and gains a significant improvement of Pass@1 accuracy compared with single-agent architecture. More importantly, the proposed system has launched in the formal testing environment of WeChat Pay mobile app, which saves a considerable amount of manpower in the daily development work.

Published

2024

20. A Comprehensive Study of Knowledge Editing for Large Language Models

Author

Zhang, Ningyu, Yao, Yunzhi, Tian, Bozhong, Wang, Peng, Deng, Shumin, Wang, Mengru, Xi, Zekun, Mao, Shengyu, Zhang, Jintian, Ni, Yuansheng, Cheng, Siyuan, Xu, Ziwen, Xu, Xin, Gu, Jia-Chen, Jiang, Yong, Xie, Pengjun, Huang, Fei, Liang, Lei, Zhang, Zhiqiang, Zhu, Xiaowei, Zhou, Jun, Chen, Huajun, Zhang, Ningyu, Yao, Yunzhi, Tian, Bozhong, Wang, Peng, Deng, Shumin, Wang, Mengru, Xi, Zekun, Mao, Shengyu, Zhang, Jintian, Ni, Yuansheng, Cheng, Siyuan, Xu, Ziwen, Xu, Xin, Gu, Jia-Chen, Jiang, Yong, Xie, Pengjun, Huang, Fei, Liang, Lei, Zhang, Zhiqiang, Zhu, Xiaowei, Zhou, Jun, and Chen, Huajun

Abstract

Large Language Models (LLMs) have shown extraordinary capabilities in understanding and generating text that closely mirrors human communication. However, a primary limitation lies in the significant computational demands during training, arising from their extensive parameterization. This challenge is further intensified by the dynamic nature of the world, necessitating frequent updates to LLMs to correct outdated information or integrate new knowledge, thereby ensuring their continued relevance. Note that many applications demand continual model adjustments post-training to address deficiencies or undesirable behaviors. There is an increasing interest in efficient, lightweight methods for on-the-fly model modifications. To this end, recent years have seen a burgeoning in the techniques of knowledge editing for LLMs, which aim to efficiently modify LLMs' behaviors within specific domains while preserving overall performance across various inputs. In this paper, we first define the knowledge editing problem and then provide a comprehensive review of cutting-edge approaches. Drawing inspiration from educational and cognitive research theories, we propose a unified categorization criterion that classifies knowledge editing methods into three groups: resorting to external knowledge, merging knowledge into the model, and editing intrinsic knowledge. Furthermore, we introduce a new benchmark, KnowEdit, for a comprehensive empirical evaluation of representative knowledge editing approaches. Additionally, we provide an in-depth analysis of knowledge location, which can give a deeper understanding of the knowledge structures inherent within LLMs. Finally, we discuss several potential applications of knowledge editing, outlining its broad and impactful implications., Comment: Ongoing work; 52 pages, 282 citations; benchmark is available at https://huggingface.co/datasets/zjunlp/KnowEdit code is available at https://github.com/zjunlp/EasyEdit paper list is available at https://github.com/zjunlp/KnowledgeEditingPapers

Published

2024

21. Similarity is Not All You Need: Endowing Retrieval Augmented Generation with Multi Layered Thoughts

Author

Gan, Chunjing, Yang, Dan, Hu, Binbin, Zhang, Hanxiao, Li, Siyuan, Liu, Ziqi, Shen, Yue, Ju, Lin, Zhang, Zhiqiang, Gu, Jinjie, Liang, Lei, Zhou, Jun, Gan, Chunjing, Yang, Dan, Hu, Binbin, Zhang, Hanxiao, Li, Siyuan, Liu, Ziqi, Shen, Yue, Ju, Lin, Zhang, Zhiqiang, Gu, Jinjie, Liang, Lei, and Zhou, Jun

Abstract

In recent years, large language models (LLMs) have made remarkable achievements in various domains. However, the untimeliness and cost of knowledge updates coupled with hallucination issues of LLMs have curtailed their applications in knowledge intensive tasks, where retrieval augmented generation (RAG) can be of help. Nevertheless, existing retrieval augmented models typically use similarity as a bridge between queries and documents and follow a retrieve then read procedure. In this work, we argue that similarity is not always the panacea and totally relying on similarity would sometimes degrade the performance of retrieval augmented generation. To this end, we propose MetRag, a Multi layEred Thoughts enhanced Retrieval Augmented Generation framework. To begin with, beyond existing similarity oriented thought, we embrace a small scale utility model that draws supervision from an LLM for utility oriented thought and further come up with a smarter model by comprehensively combining the similarity and utility oriented thoughts. Furthermore, given the fact that the retrieved document set tends to be huge and using them in isolation makes it difficult to capture the commonalities and characteristics among them, we propose to make an LLM as a task adaptive summarizer to endow retrieval augmented generation with compactness-oriented thought. Finally, with multi layered thoughts from the precedent stages, an LLM is called for knowledge augmented generation. Extensive experiments on knowledge-intensive tasks have demonstrated the superiority of MetRag., Comment: 12 pages

Published

2024

22. Vim-F: Visual State Space Model Benefiting from Learning in the Frequency Domain

Author

Zhang, Juntao, Bian, Kun, Cheng, Peng, An, Wenbo, Liu, Jianning, Zhou, Jun, Zhang, Juntao, Bian, Kun, Cheng, Peng, An, Wenbo, Liu, Jianning, and Zhou, Jun

Abstract

In recent years, State Space Models (SSMs) with efficient hardware-aware designs, known as the Mamba deep learning models, have made significant progress in modeling long sequences such as language understanding. Therefore, building efficient and general-purpose visual backbones based on SSMs is a promising direction. Compared to traditional convolutional neural networks (CNNs) and Vision Transformers (ViTs), the performance of Vision Mamba (ViM) methods is not yet fully competitive. To enable SSMs to process image data, ViMs typically flatten 2D images into 1D sequences, inevitably ignoring some 2D local dependencies, thereby weakening the model's ability to interpret spatial relationships from a global perspective. We use Fast Fourier Transform (FFT) to obtain the spectrum of the feature map and add it to the original feature map, enabling ViM to model a unified visual representation in both frequency and spatial domains. The introduction of frequency domain information enables ViM to have a global receptive field during scanning. We propose a novel model called Vim-F, which employs pure Mamba encoders and scans in both the frequency and spatial domains. Moreover, we question the necessity of position embedding in ViM and remove it accordingly in Vim-F, which helps to fully utilize the efficient long-sequence modeling capability of ViM. Finally, we redesign a patch embedding for Vim-F, leveraging a convolutional stem to capture more local correlations, further improving the performance of Vim-F. Code is available at: \url{https://github.com/yws-wxs/Vim-F}.

Published

2024

23. Your decision path does matter in pre-training industrial recommenders with multi-source behaviors

Author

Gan, Chunjing, Hu, Binbin, Huang, Bo, Liu, Ziqi, Ma, Jian, Zhang, Zhiqiang, Zhong, Wenliang, Zhou, Jun, Gan, Chunjing, Hu, Binbin, Huang, Bo, Liu, Ziqi, Ma, Jian, Zhang, Zhiqiang, Zhong, Wenliang, and Zhou, Jun

Abstract

Online service platforms offering a wide range of services through miniapps have become crucial for users who visit these platforms with clear intentions to find services they are interested in. Aiming at effective content delivery, cross-domain recommendation are introduced to learn high-quality representations by transferring behaviors from data-rich scenarios. However, these methods overlook the impact of the decision path that users take when conduct behaviors, that is, users ultimately exhibit different behaviors based on various intents. To this end, we propose HIER, a novel Hierarchical decIsion path Enhanced Representation learning for cross-domain recommendation. With the help of graph neural networks for high-order topological information of the knowledge graph between multi-source behaviors, we further adaptively learn decision paths through well-designed exemplar-level and information bottleneck based contrastive learning. Extensive experiments in online and offline environments show the superiority of HIER.

Published

2024

24. Efficient Point Transformer with Dynamic Token Aggregating for Point Cloud Processing

Author

Lu, Dening, Zhou, Jun, Kyle, Gao, Xu, Linlin, Li, Jonathan, Lu, Dening, Zhou, Jun, Kyle, Gao, Xu, Linlin, and Li, Jonathan

Abstract

Recently, point cloud processing and analysis have made great progress due to the development of 3D Transformers. However, existing 3D Transformer methods usually are computationally expensive and inefficient due to their huge and redundant attention maps. They also tend to be slow due to requiring time-consuming point cloud sampling and grouping processes. To address these issues, we propose an efficient point TransFormer with Dynamic Token Aggregating (DTA-Former) for point cloud representation and processing. Firstly, we propose an efficient Learnable Token Sparsification (LTS) block, which considers both local and global semantic information for the adaptive selection of key tokens. Secondly, to achieve the feature aggregation for sparsified tokens, we present the first Dynamic Token Aggregating (DTA) block in the 3D Transformer paradigm, providing our model with strong aggregated features while preventing information loss. After that, a dual-attention Transformer-based Global Feature Enhancement (GFE) block is used to improve the representation capability of the model. Equipped with LTS, DTA, and GFE blocks, DTA-Former achieves excellent classification results via hierarchical feature learning. Lastly, a novel Iterative Token Reconstruction (ITR) block is introduced for dense prediction whereby the semantic features of tokens and their semantic relationships are gradually optimized during iterative reconstruction. Based on ITR, we propose a new W-net architecture, which is more suitable for Transformer-based feature learning than the common U-net design. Extensive experiments demonstrate the superiority of our method. It achieves SOTA performance with up to 30$\times$ faster than prior point Transformers on ModelNet40, ShapeNet, and airborne MultiSpectral LiDAR (MS-LiDAR) datasets., Comment: 16 pages, 12 figures, 7 tables

Published

2024

25. 3D Learnable Supertoken Transformer for LiDAR Point Cloud Scene Segmentation

Author

Lu, Dening, Zhou, Jun, Gao, Kyle, Xu, Linlin, Li, Jonathan, Lu, Dening, Zhou, Jun, Gao, Kyle, Xu, Linlin, and Li, Jonathan

Abstract

3D Transformers have achieved great success in point cloud understanding and representation. However, there is still considerable scope for further development in effective and efficient Transformers for large-scale LiDAR point cloud scene segmentation. This paper proposes a novel 3D Transformer framework, named 3D Learnable Supertoken Transformer (3DLST). The key contributions are summarized as follows. Firstly, we introduce the first Dynamic Supertoken Optimization (DSO) block for efficient token clustering and aggregating, where the learnable supertoken definition avoids the time-consuming pre-processing of traditional superpoint generation. Since the learnable supertokens can be dynamically optimized by multi-level deep features during network learning, they are tailored to the semantic homogeneity-aware token clustering. Secondly, an efficient Cross-Attention-guided Upsampling (CAU) block is proposed for token reconstruction from optimized supertokens. Thirdly, the 3DLST is equipped with a novel W-net architecture instead of the common U-net design, which is more suitable for Transformer-based feature learning. The SOTA performance on three challenging LiDAR datasets (airborne MultiSpectral LiDAR (MS-LiDAR) (89.3% of the average F1 score), DALES (80.2% of mIoU), and Toronto-3D dataset (80.4% of mIoU)) demonstrate the superiority of 3DLST and its strong adaptability to various LiDAR point cloud data (airborne MS-LiDAR, aerial LiDAR, and vehicle-mounted LiDAR data). Furthermore, 3DLST also achieves satisfactory results in terms of algorithm efficiency, which is up to 5x faster than previous best-performing methods., Comment: 13 pages, 10 figures, 7 tables

Published

2024

26. Keypoint-based Progressive Chain-of-Thought Distillation for LLMs

Author

Feng, Kaituo, Li, Changsheng, Zhang, Xiaolu, Zhou, Jun, Yuan, Ye, Wang, Guoren, Feng, Kaituo, Li, Changsheng, Zhang, Xiaolu, Zhou, Jun, Yuan, Ye, and Wang, Guoren

Abstract

Chain-of-thought distillation is a powerful technique for transferring reasoning abilities from large language models (LLMs) to smaller student models. Previous methods typically require the student to mimic the step-by-step rationale produced by LLMs, often facing the following challenges: (i) Tokens within a rationale vary in significance, and treating them equally may fail to accurately mimic keypoint tokens, leading to reasoning errors. (ii) They usually distill knowledge by consistently predicting all the steps in a rationale, which falls short in distinguishing the learning order of step generation. This diverges from the human cognitive progression of starting with easy tasks and advancing to harder ones, resulting in sub-optimal outcomes. To this end, we propose a unified framework, called KPOD, to address these issues. Specifically, we propose a token weighting module utilizing mask learning to encourage accurate mimicry of keypoint tokens by the student during distillation. Besides, we develop an in-rationale progressive distillation strategy, starting with training the student to generate the final reasoning steps and gradually extending to cover the entire rationale. To accomplish this, a weighted token generation loss is proposed to assess step reasoning difficulty, and a value function is devised to schedule the progressive distillation by considering both step difficulty and question diversity. Extensive experiments on four reasoning benchmarks illustrate our KPOD outperforms previous methods by a large margin., Comment: Accepted by ICML 2024

Published

2024

27. Scale-Invariant Feature Disentanglement via Adversarial Learning for UAV-based Object Detection

Author

Liu, Fan, Yao, Liang, Zhang, Chuanyi, Wu, Ting, Zhang, Xinlei, Jiang, Xiruo, Zhou, Jun, Liu, Fan, Yao, Liang, Zhang, Chuanyi, Wu, Ting, Zhang, Xinlei, Jiang, Xiruo, and Zhou, Jun

Abstract

Detecting objects from Unmanned Aerial Vehicles (UAV) is often hindered by a large number of small objects, resulting in low detection accuracy. To address this issue, mainstream approaches typically utilize multi-stage inferences. Despite their remarkable detecting accuracies, real-time efficiency is sacrificed, making them less practical to handle real applications. To this end, we propose to improve the single-stage inference accuracy through learning scale-invariant features. Specifically, a Scale-Invariant Feature Disentangling module is designed to disentangle scale-related and scale-invariant features. Then an Adversarial Feature Learning scheme is employed to enhance disentanglement. Finally, scale-invariant features are leveraged for robust UAV-based object detection. Furthermore, we construct a multi-modal UAV object detection dataset, State-Air, which incorporates annotated UAV state parameters. We apply our approach to three state-of-the-art lightweight detection frameworks on three benchmark datasets, including State-Air. Extensive experiments demonstrate that our approach can effectively improve model accuracy. Our code and dataset are provided in Supplementary Materials and will be publicly available once the paper is accepted.

Published

2024

28. TimeMixer: Decomposable Multiscale Mixing for Time Series Forecasting

Author

Wang, Shiyu, Wu, Haixu, Shi, Xiaoming, Hu, Tengge, Luo, Huakun, Ma, Lintao, Zhang, James Y., Zhou, Jun, Wang, Shiyu, Wu, Haixu, Shi, Xiaoming, Hu, Tengge, Luo, Huakun, Ma, Lintao, Zhang, James Y., and Zhou, Jun

Abstract

Time series forecasting is widely used in extensive applications, such as traffic planning and weather forecasting. However, real-world time series usually present intricate temporal variations, making forecasting extremely challenging. Going beyond the mainstream paradigms of plain decomposition and multiperiodicity analysis, we analyze temporal variations in a novel view of multiscale-mixing, which is based on an intuitive but important observation that time series present distinct patterns in different sampling scales. The microscopic and the macroscopic information are reflected in fine and coarse scales respectively, and thereby complex variations can be inherently disentangled. Based on this observation, we propose TimeMixer as a fully MLP-based architecture with Past-Decomposable-Mixing (PDM) and Future-Multipredictor-Mixing (FMM) blocks to take full advantage of disentangled multiscale series in both past extraction and future prediction phases. Concretely, PDM applies the decomposition to multiscale series and further mixes the decomposed seasonal and trend components in fine-to-coarse and coarse-to-fine directions separately, which successively aggregates the microscopic seasonal and macroscopic trend information. FMM further ensembles multiple predictors to utilize complementary forecasting capabilities in multiscale observations. Consequently, TimeMixer is able to achieve consistent state-of-the-art performances in both long-term and short-term forecasting tasks with favorable run-time efficiency.

Published

2024

29. Hummer: Towards Limited Competitive Preference Dataset

Author

Jiang, Li, Wu, Yusen, Xiong, Junwu, Ruan, Jingqing, Ding, Yichuan, Guo, Qingpei, Wen, Zujie, Zhou, Jun, Deng, Xiaotie, Jiang, Li, Wu, Yusen, Xiong, Junwu, Ruan, Jingqing, Ding, Yichuan, Guo, Qingpei, Wen, Zujie, Zhou, Jun, and Deng, Xiaotie

Abstract

Preference datasets are essential for incorporating human preferences into pre-trained language models, playing a key role in the success of Reinforcement Learning from Human Feedback. However, these datasets often demonstrate conflicting alignment objectives, leading to increased vulnerability to jailbreak attacks and challenges in adapting downstream tasks to prioritize specific alignment objectives without negatively impacting others. In this work, we introduce a novel statistical metric, Alignment Dimension Conflict, to quantify the degree of conflict within preference datasets. We then present \texttt{Hummer} and its fine-grained variant, \texttt{Hummer-F}, as innovative pairwise preference datasets with reduced-conflict alignment objectives. \texttt{Hummer} is built based on UltraFeedback and is enhanced by AI feedback from GPT-4, marking as the first preference dataset aimed at reducing the competition between alignment objectives. Furthermore, we develop reward models, HummerRM and HummerRM-F, which employ a hybrid sampling approach to balance diverse alignment objectives effectively. This sampling method positions HummerRM as an ideal model for domain-specific further fine-tuning and reducing vulnerabilities to attacks., Comment: 9 pages, 5 figures

Published

2024

30. AntBatchInfer: Elastic Batch Inference in the Kubernetes Cluster

Author

Li, Siyuan, Xiao, Youshao, Meng, Fanzhuang, Ju, Lin, Liang, Lei, Wang, Lin, Zhou, Jun, Li, Siyuan, Xiao, Youshao, Meng, Fanzhuang, Ju, Lin, Liang, Lei, Wang, Lin, and Zhou, Jun

Abstract

Offline batch inference is a common task in the industry for deep learning applications, but it can be challenging to ensure stability and performance when dealing with large amounts of data and complicated inference pipelines. This paper demonstrated AntBatchInfer, an elastic batch inference framework, which is specially optimized for the non-dedicated cluster. AntBatchInfer addresses these challenges by providing multi-level fault-tolerant capabilities, enabling the stable execution of versatile and long-running inference tasks. It also improves inference efficiency by pipelining, intra-node, and inter-node scaling. It further optimizes the performance in complicated multiple-model batch inference scenarios. Through extensive experiments and real-world statistics, we demonstrate the superiority of our framework in terms of stability and efficiency. In the experiment, it outperforms the baseline by at least $2\times$ and $6\times$ in the single-model or multiple-model batch inference. Also, it is widely used at Ant Group, with thousands of daily jobs from various scenarios, including DLRM, CV, and NLP, which proves its practicability in the industry.

Published

2024

31. AntDT: A Self-Adaptive Distributed Training Framework for Leader and Straggler Nodes

Author

Xiao, Youshao, Ju, Lin, Zhou, Zhenglei, Li, Siyuan, Huan, Zhaoxin, Zhang, Dalong, Jiang, Rujie, Wang, Lin, Zhang, Xiaolu, Liang, Lei, Zhou, Jun, Xiao, Youshao, Ju, Lin, Zhou, Zhenglei, Li, Siyuan, Huan, Zhaoxin, Zhang, Dalong, Jiang, Rujie, Wang, Lin, Zhang, Xiaolu, Liang, Lei, and Zhou, Jun

Abstract

Many distributed training techniques like Parameter Server and AllReduce have been proposed to take advantage of the increasingly large data and rich features. However, stragglers frequently occur in distributed training due to resource contention and hardware heterogeneity, which significantly hampers the training efficiency. Previous works only address part of the stragglers and could not adaptively solve various stragglers in practice. Additionally, it is challenging to use a systematic framework to address all stragglers because different stragglers require diverse data allocation and fault-tolerance mechanisms. Therefore, this paper proposes a unified distributed training framework called AntDT (Ant Distributed Training Framework) to adaptively solve the straggler problems. Firstly, the framework consists of four components, including the Stateful Dynamic Data Sharding service, Monitor, Controller, and Agent. These components work collaboratively to efficiently distribute workloads and provide a range of pre-defined straggler mitigation methods with fault tolerance, thereby hiding messy details of data allocation and fault handling. Secondly, the framework provides a high degree of flexibility, allowing for the customization of straggler mitigation solutions based on the specific circumstances of the cluster. Leveraging this flexibility, we introduce two straggler mitigation solutions, namely AntDT-ND for non-dedicated clusters and AntDT-DD for dedicated clusters, as practical examples to resolve various types of stragglers at Ant Group. Justified by our comprehensive experiments and industrial deployment statistics, AntDT outperforms other SOTA methods more than 3x in terms of training efficiency. Additionally, in Alipay's homepage recommendation scenario, using AntDT reduces the training duration of the ranking model from 27.8 hours to just 5.4 hours.

Published

2024

32. Unsupervised Band Selection Using Fused HSI and LiDAR Attention Integrating With Autoencoder

Author

Yang, Judy X, Zhou, Jun, Wang, Jing, Tian, Hui, Liew, Alan Wee Chung, Yang, Judy X, Zhou, Jun, Wang, Jing, Tian, Hui, and Liew, Alan Wee Chung

Abstract

Band selection in hyperspectral imaging (HSI) is critical for optimising data processing and enhancing analytical accuracy. Traditional approaches have predominantly concentrated on analysing spectral and pixel characteristics within individual bands independently. These approaches overlook the potential benefits of integrating multiple data sources, such as Light Detection and Ranging (LiDAR), and is further challenged by the limited availability of labeled data in HSI processing, which represents a significant obstacle. To address these challenges, this paper introduces a novel unsupervised band selection framework that incorporates attention mechanisms and an Autoencoder for reconstruction-based band selection. Our methodology distinctively integrates HSI with LiDAR data through an attention score, using a convolutional Autoencoder to process the combined feature mask. This fusion effectively captures essential spatial and spectral features and reduces redundancy in hyperspectral datasets. A comprehensive comparative analysis of our innovative fused band selection approach is performed against existing unsupervised band selection and fusion models. We used data sets such as Houston 2013, Trento, and MUUFLE for our experiments. The results demonstrate that our method achieves superior classification accuracy and significantly outperforms existing models. This enhancement in HSI band selection, facilitated by the incorporation of LiDAR features, underscores the considerable advantages of integrating features from different sources., Comment: 13 pages, 13figures, 6 tables

Published

2024

33. Leave No One Behind: Online Self-Supervised Self-Distillation for Sequential Recommendation

Author

Wei, Shaowei, Wu, Zhengwei, Li, Xin, Wu, Qintong, Zhang, Zhiqiang, Zhou, Jun, Gu, Lihong, Gu, Jinjie, Wei, Shaowei, Wu, Zhengwei, Li, Xin, Wu, Qintong, Zhang, Zhiqiang, Zhou, Jun, Gu, Lihong, and Gu, Jinjie

Abstract

Sequential recommendation methods play a pivotal role in modern recommendation systems. A key challenge lies in accurately modeling user preferences in the face of data sparsity. To tackle this challenge, recent methods leverage contrastive learning (CL) to derive self-supervision signals by maximizing the mutual information of two augmented views of the original user behavior sequence. Despite their effectiveness, CL-based methods encounter a limitation in fully exploiting self-supervision signals for users with limited behavior data, as users with extensive behaviors naturally offer more information. To address this problem, we introduce a novel learning paradigm, named Online Self-Supervised Self-distillation for Sequential Recommendation ($S^4$Rec), effectively bridging the gap between self-supervised learning and self-distillation methods. Specifically, we employ online clustering to proficiently group users by their distinct latent intents. Additionally, an adversarial learning strategy is utilized to ensure that the clustering procedure is not affected by the behavior length factor. Subsequently, we employ self-distillation to facilitate the transfer of knowledge from users with extensive behaviors (teachers) to users with limited behaviors (students). Experiments conducted on four real-world datasets validate the effectiveness of the proposed method.

Published

2024

34. LiDAR-Guided Cross-Attention Fusion for Hyperspectral Band Selection and Image Classification

Author

Yang, Judy X, Zhou, Jun, Wang, Jing, Tian, Hui, Liew, Alan Wee-Chung, Yang, Judy X, Zhou, Jun, Wang, Jing, Tian, Hui, and Liew, Alan Wee-Chung

Abstract

The fusion of hyperspectral and LiDAR data has been an active research topic. Existing fusion methods have ignored the high-dimensionality and redundancy challenges in hyperspectral images, despite that band selection methods have been intensively studied for hyperspectral image (HSI) processing. This paper addresses this significant gap by introducing a cross-attention mechanism from the transformer architecture for the selection of HSI bands guided by LiDAR data. LiDAR provides high-resolution vertical structural information, which can be useful in distinguishing different types of land cover that may have similar spectral signatures but different structural profiles. In our approach, the LiDAR data are used as the "query" to search and identify the "key" from the HSI to choose the most pertinent bands for LiDAR. This method ensures that the selected HSI bands drastically reduce redundancy and computational requirements while working optimally with the LiDAR data. Extensive experiments have been undertaken on three paired HSI and LiDAR data sets: Houston 2013, Trento and MUUFL. The results highlight the superiority of the cross-attention mechanism, underlining the enhanced classification accuracy of the identified HSI bands when fused with the LiDAR features. The results also show that the use of fewer bands combined with LiDAR surpasses the performance of state-of-the-art fusion models., Comment: 15 pages, 13 figures

Published

2024

35. HeMeNet: Heterogeneous Multichannel Equivariant Network for Protein Multitask Learning

Author

Han, Rong, Huang, Wenbing, Luo, Lingxiao, Han, Xinyan, Shen, Jiaming, Zhang, Zhiqiang, Zhou, Jun, Chen, Ting, Han, Rong, Huang, Wenbing, Luo, Lingxiao, Han, Xinyan, Shen, Jiaming, Zhang, Zhiqiang, Zhou, Jun, and Chen, Ting

Abstract

Understanding and leveraging the 3D structures of proteins is central to a variety of biological and drug discovery tasks. While deep learning has been applied successfully for structure-based protein function prediction tasks, current methods usually employ distinct training for each task. However, each of the tasks is of small size, and such a single-task strategy hinders the models' performance and generalization ability. As some labeled 3D protein datasets are biologically related, combining multi-source datasets for larger-scale multi-task learning is one way to overcome this problem. In this paper, we propose a neural network model to address multiple tasks jointly upon the input of 3D protein structures. In particular, we first construct a standard structure-based multi-task benchmark called Protein-MT, consisting of 6 biologically relevant tasks, including affinity prediction and property prediction, integrated from 4 public datasets. Then, we develop a novel graph neural network for multi-task learning, dubbed Heterogeneous Multichannel Equivariant Network (HeMeNet), which is E(3) equivariant and able to capture heterogeneous relationships between different atoms. Besides, HeMeNet can achieve task-specific learning via the task-aware readout mechanism. Extensive evaluations on our benchmark verify the effectiveness of multi-task learning, and our model generally surpasses state-of-the-art models.

Published

2024

36. AddSR: Accelerating Diffusion-based Blind Super-Resolution with Adversarial Diffusion Distillation

Author

Xie, Rui, Tai, Ying, Zhao, Chen, Zhang, Kai, Zhang, Zhenyu, Zhou, Jun, Ye, Xiaoqian, Wang, Qian, Yang, Jian, Xie, Rui, Tai, Ying, Zhao, Chen, Zhang, Kai, Zhang, Zhenyu, Zhou, Jun, Ye, Xiaoqian, Wang, Qian, and Yang, Jian

Abstract

Blind super-resolution methods based on stable diffusion showcase formidable generative capabilities in reconstructing clear high-resolution images with intricate details from low-resolution inputs. However, their practical applicability is often hampered by poor efficiency, stemming from the requirement of thousands or hundreds of sampling steps. Inspired by the efficient adversarial diffusion distillation (ADD), we design~\name~to address this issue by incorporating the ideas of both distillation and ControlNet. Specifically, we first propose a prediction-based self-refinement strategy to provide high-frequency information in the student model output with marginal additional time cost. Furthermore, we refine the training process by employing HR images, rather than LR images, to regulate the teacher model, providing a more robust constraint for distillation. Second, we introduce a timestep-adaptive ADD to address the perception-distortion imbalance problem introduced by original ADD. Extensive experiments demonstrate our~\name~generates better restoration results, while achieving faster speed than previous SD-based state-of-the-art models (e.g., $7$$\times$ faster than SeeSR).

Published

2024

37. HSIMamba: Hyperpsectral Imaging Efficient Feature Learning with Bidirectional State Space for Classification

Author

Yang, Judy X, Zhou, Jun, Wang, Jing, Tian, Hui, Liew, Alan Wee Chung, Yang, Judy X, Zhou, Jun, Wang, Jing, Tian, Hui, and Liew, Alan Wee Chung

Abstract

Classifying hyperspectral images is a difficult task in remote sensing, due to their complex high-dimensional data. To address this challenge, we propose HSIMamba, a novel framework that uses bidirectional reversed convolutional neural network pathways to extract spectral features more efficiently. Additionally, it incorporates a specialized block for spatial analysis. Our approach combines the operational efficiency of CNNs with the dynamic feature extraction capability of attention mechanisms found in Transformers. However, it avoids the associated high computational demands. HSIMamba is designed to process data bidirectionally, significantly enhancing the extraction of spectral features and integrating them with spatial information for comprehensive analysis. This approach improves classification accuracy beyond current benchmarks and addresses computational inefficiencies encountered with advanced models like Transformers. HSIMamba were tested against three widely recognized datasets Houston 2013, Indian Pines, and Pavia University and demonstrated exceptional performance, surpassing existing state-of-the-art models in HSI classification. This method highlights the methodological innovation of HSIMamba and its practical implications, which are particularly valuable in contexts where computational resources are limited. HSIMamba redefines the standards of efficiency and accuracy in HSI classification, thereby enhancing the capabilities of remote sensing applications. Hyperspectral imaging has become a crucial tool for environmental surveillance, agriculture, and other critical areas that require detailed analysis of the Earth surface. Please see our code in HSIMamba for more details., Comment: 11 pages, 2 figures, 8 tables

Published

2024

38. CSA-Net: Channel-wise Spatially Autocorrelated Attention Networks

Author

Nikzad, Nick, Gao, Yongsheng, Zhou, Jun, Nikzad, Nick, Gao, Yongsheng, and Zhou, Jun

Abstract

In recent years, convolutional neural networks (CNNs) with channel-wise feature refining mechanisms have brought noticeable benefits to modelling channel dependencies. However, current attention paradigms fail to infer an optimal channel descriptor capable of simultaneously exploiting statistical and spatial relationships among feature maps. In this paper, to overcome this shortcoming, we present a novel channel-wise spatially autocorrelated (CSA) attention mechanism. Inspired by geographical analysis, the proposed CSA exploits the spatial relationships between channels of feature maps to produce an effective channel descriptor. To the best of our knowledge, this is the f irst time that the concept of geographical spatial analysis is utilized in deep CNNs. The proposed CSA imposes negligible learning parameters and light computational overhead to the deep model, making it a powerful yet efficient attention module of choice. We validate the effectiveness of the proposed CSA networks (CSA-Nets) through extensive experiments and analysis on ImageNet, and MS COCO benchmark datasets for image classification, object detection, and instance segmentation. The experimental results demonstrate that CSA-Nets are able to consistently achieve competitive performance and superior generalization than several state-of-the-art attention-based CNNs over different benchmark tasks and datasets.

Published

2024

39. SSUMamba: Spatial-Spectral Selective State Space Model for Hyperspectral Image Denoising

Author

Fu, Guanyiman, Xiong, Fengchao, Lu, Jianfeng, Zhou, Jun, Qian, Yuntao, Fu, Guanyiman, Xiong, Fengchao, Lu, Jianfeng, Zhou, Jun, and Qian, Yuntao

Abstract

Denoising is a crucial preprocessing procedure for hyperspectral images (HSIs) due to the noise originating from intra-imaging mechanisms and environmental factors. Utilizing domain knowledge of HSIs, such as spectral correlation, spatial self-similarity, and spatial-spectral correlation, is essential for deep learning-based denoising. Existing methods are often constrained by running time, space complexity, and computational complexity, employing strategies that explore these kinds of domain knowledge separately. While these strategies can avoid some redundant information, they inevitably overlook broader and more in-depth long-range spatial-spectral information that positively impacts image restoration. This paper proposes a Spatial-Spectral Selective State Space Model-based U-shaped network, Spatial-Spectral U-Mamba (SSUMamba), for hyperspectral image denoising. The SSUMamba can exploit complete global spatial-spectral correlation within a module thanks to the linear space complexity in State Space Model (SSM) computations. We introduce a Spatial-Spectral Alternating Zigzag Scan (SSAZS) strategy for HSIs, which helps exploit the continuous information flow in multiple directions of 3-D characteristics within HSIs. Experimental results demonstrate that our method outperforms comparison methods. The source code is available at https://github.com/lronkitty/SSUMamba.

Published

2024

40. Diffeomorphic Transformer-based Abdomen MRI-CT Deformable Image Registration

Author

Lei, Yang, Matkovic, Luke A., Roper, Justin, Wang, Tonghe, Zhou, Jun, Ghavidel, Beth, McDonald, Mark, Patel, Pretesh, Yang, Xiaofeng, Lei, Yang, Matkovic, Luke A., Roper, Justin, Wang, Tonghe, Zhou, Jun, Ghavidel, Beth, McDonald, Mark, Patel, Pretesh, and Yang, Xiaofeng

Abstract

This paper aims to create a deep learning framework that can estimate the deformation vector field (DVF) for directly registering abdominal MRI-CT images. The proposed method assumed a diffeomorphic deformation. By using topology-preserved deformation features extracted from the probabilistic diffeomorphic registration model, abdominal motion can be accurately obtained and utilized for DVF estimation. The model integrated Swin transformers, which have demonstrated superior performance in motion tracking, into the convolutional neural network (CNN) for deformation feature extraction. The model was optimized using a cross-modality image similarity loss and a surface matching loss. To compute the image loss, a modality-independent neighborhood descriptor (MIND) was used between the deformed MRI and CT images. The surface matching loss was determined by measuring the distance between the warped coordinates of the surfaces of contoured structures on the MRI and CT images. The deformed MRI image was assessed against the CT image using the target registration error (TRE), Dice similarity coefficient (DSC), and mean surface distance (MSD) between the deformed contours of the MRI image and manual contours of the CT image. When compared to only rigid registration, DIR with the proposed method resulted in an increase of the mean DSC values of the liver and portal vein from 0.850 and 0.628 to 0.903 and 0.763, a decrease of the mean MSD of the liver from 7.216 mm to 3.232 mm, and a decrease of the TRE from 26.238 mm to 8.492 mm. The proposed deformable image registration method based on a diffeomorphic transformer provides an effective and efficient way to generate an accurate DVF from an MRI-CT image pair of the abdomen. It could be utilized in the current treatment planning workflow for liver radiotherapy., Comment: 18 pages and 4 figures

Published

2024

41. Aligning Knowledge Graphs Provided by Humans and Generated from Neural Networks in Specific Tasks

Author

Li, Tangrui, Zhou, Jun, Li, Tangrui, and Zhou, Jun

Abstract

This paper develops an innovative method that enables neural networks to generate and utilize knowledge graphs, which describe their concept-level knowledge and optimize network parameters through alignment with human-provided knowledge. This research addresses a gap where traditionally, network-generated knowledge has been limited to applications in downstream symbolic analysis or enhancing network transparency. By integrating a novel autoencoder design with the Vector Symbolic Architecture (VSA), we have introduced auxiliary tasks that support end-to-end training. Our approach eschews traditional dependencies on ontologies or word embedding models, mining concepts from neural networks and directly aligning them with human knowledge. Experiments show that our method consistently captures network-generated concepts that align closely with human knowledge and can even uncover new, useful concepts not previously identified by humans. This plug-and-play strategy not only enhances the interpretability of neural networks but also facilitates the integration of symbolic logical reasoning within these systems.

Published

2024

42. ConsistentID: Portrait Generation with Multimodal Fine-Grained Identity Preserving

Author

Huang, Jiehui, Dong, Xiao, Song, Wenhui, Li, Hanhui, Zhou, Jun, Cheng, Yuhao, Liao, Shutao, Chen, Long, Yan, Yiqiang, Liao, Shengcai, Liang, Xiaodan, Huang, Jiehui, Dong, Xiao, Song, Wenhui, Li, Hanhui, Zhou, Jun, Cheng, Yuhao, Liao, Shutao, Chen, Long, Yan, Yiqiang, Liao, Shengcai, and Liang, Xiaodan

Abstract

Diffusion-based technologies have made significant strides, particularly in personalized and customized facialgeneration. However, existing methods face challenges in achieving high-fidelity and detailed identity (ID)consistency, primarily due to insufficient fine-grained control over facial areas and the lack of a comprehensive strategy for ID preservation by fully considering intricate facial details and the overall face. To address these limitations, we introduce ConsistentID, an innovative method crafted for diverseidentity-preserving portrait generation under fine-grained multimodal facial prompts, utilizing only a single reference image. ConsistentID comprises two key components: a multimodal facial prompt generator that combines facial features, corresponding facial descriptions and the overall facial context to enhance precision in facial details, and an ID-preservation network optimized through the facial attention localization strategy, aimed at preserving ID consistency in facial regions. Together, these components significantly enhance the accuracy of ID preservation by introducing fine-grained multimodal ID information from facial regions. To facilitate training of ConsistentID, we present a fine-grained portrait dataset, FGID, with over 500,000 facial images, offering greater diversity and comprehensiveness than existing public facial datasets. % such as LAION-Face, CelebA, FFHQ, and SFHQ. Experimental results substantiate that our ConsistentID achieves exceptional precision and diversity in personalized facial generation, surpassing existing methods in the MyStyle dataset. Furthermore, while ConsistentID introduces more multimodal ID information, it maintains a fast inference speed during generation., Comment: Project page: https://ssugarwh.github.io/consistentid.github.io

Published

2024

43. Unifying Bayesian Flow Networks and Diffusion Models through Stochastic Differential Equations

Author

Xue, Kaiwen, Zhou, Yuhao, Nie, Shen, Min, Xu, Zhang, Xiaolu, Zhou, Jun, Li, Chongxuan, Xue, Kaiwen, Zhou, Yuhao, Nie, Shen, Min, Xu, Zhang, Xiaolu, Zhou, Jun, and Li, Chongxuan

Abstract

Bayesian flow networks (BFNs) iteratively refine the parameters, instead of the samples in diffusion models (DMs), of distributions at various noise levels through Bayesian inference. Owing to its differentiable nature, BFNs are promising in modeling both continuous and discrete data, while simultaneously maintaining fast sampling capabilities. This paper aims to understand and enhance BFNs by connecting them with DMs through stochastic differential equations (SDEs). We identify the linear SDEs corresponding to the noise-addition processes in BFNs, demonstrate that BFN's regression losses are aligned with denoise score matching, and validate the sampler in BFN as a first-order solver for the respective reverse-time SDE. Based on these findings and existing recipes of fast sampling in DMs, we propose specialized solvers for BFNs that markedly surpass the original BFN sampler in terms of sample quality with a limited number of function evaluations (e.g., 10) on both image and text datasets. Notably, our best sampler achieves an increase in speed of 5~20 times for free. Our code is available at https://github.com/ML-GSAI/BFN-Solver., Comment: Published as a conference paper at ICML 2024

Published

2024

44. A Comprehensive Survey for Hyperspectral Image Classification: The Evolution from Conventional to Transformers

Author

Ahmad, Muhammad, Distifano, Salvatore, Khan, Adil Mehmood, Mazzara, Manuel, Li, Chenyu, Yao, Jing, Li, Hao, Aryal, Jagannath, Zhou, Jun, Vivone, Gemine, Hong, Danfeng, Ahmad, Muhammad, Distifano, Salvatore, Khan, Adil Mehmood, Mazzara, Manuel, Li, Chenyu, Yao, Jing, Li, Hao, Aryal, Jagannath, Zhou, Jun, Vivone, Gemine, and Hong, Danfeng

Abstract

Hyperspectral Image Classification (HSC) is a challenging task due to the high dimensionality and complex nature of Hyperspectral (HS) data. Traditional Machine Learning approaches while effective, face challenges in real-world data due to varying optimal feature sets, subjectivity in human-driven design, biases, and limitations. Traditional approaches encounter the curse of dimensionality, struggle with feature selection and extraction, lack spatial information consideration, exhibit limited robustness to noise, face scalability issues, and may not adapt well to complex data distributions. In recent years, Deep Learning (DL) techniques have emerged as powerful tools for addressing these challenges. This survey provides a comprehensive overview of the current trends and future prospects in HSC, focusing on the advancements from DL models to the emerging use of Transformers. We review the key concepts, methodologies, and state-of-the-art approaches in DL for HSC. We explore the potential of Transformer-based models in HSC, outlining their benefits and challenges. We also delve into emerging trends in HSC, as well as thorough discussions on Explainable AI and Interoperability concepts along with Diffusion Models (image denoising, feature extraction, and image fusion). Lastly, we address several open challenges and research questions pertinent to HSC. Comprehensive experimental results have been undertaken using three HS datasets to verify the efficacy of various conventional DL models and Transformers. Finally, we outline future research directions and potential applications that can further enhance the accuracy and efficiency of HSC. The Source code is available at \href{https://github.com/mahmad00/Conventional-to-Transformer-for-Hyperspectral-Image-Classification-Survey-2024}{github.com/mahmad00}.

Published

2024

45. TalkingGaussian: Structure-Persistent 3D Talking Head Synthesis via Gaussian Splatting

Author

Li, Jiahe, Zhang, Jiawei, Bai, Xiao, Zheng, Jin, Ning, Xin, Zhou, Jun, Gu, Lin, Li, Jiahe, Zhang, Jiawei, Bai, Xiao, Zheng, Jin, Ning, Xin, Zhou, Jun, and Gu, Lin

Abstract

Radiance fields have demonstrated impressive performance in synthesizing lifelike 3D talking heads. However, due to the difficulty in fitting steep appearance changes, the prevailing paradigm that presents facial motions by directly modifying point appearance may lead to distortions in dynamic regions. To tackle this challenge, we introduce TalkingGaussian, a deformation-based radiance fields framework for high-fidelity talking head synthesis. Leveraging the point-based Gaussian Splatting, facial motions can be represented in our method by applying smooth and continuous deformations to persistent Gaussian primitives, without requiring to learn the difficult appearance change like previous methods. Due to this simplification, precise facial motions can be synthesized while keeping a highly intact facial feature. Under such a deformation paradigm, we further identify a face-mouth motion inconsistency that would affect the learning of detailed speaking motions. To address this conflict, we decompose the model into two branches separately for the face and inside mouth areas, therefore simplifying the learning tasks to help reconstruct more accurate motion and structure of the mouth region. Extensive experiments demonstrate that our method renders high-quality lip-synchronized talking head videos, with better facial fidelity and higher efficiency compared with previous methods., Comment: Project page: https://fictionarry.github.io/TalkingGaussian

Published

2024

46. Antenna aided interference mitigation for cognitive radio

Author

Zhou, Jun

Subjects

621.384

Published

2009

47. Design and Measurement of Synchronizers

Author

Zhou, Jun

Subjects

621.395

Abstract

Future Systems on Chip (SoCs) are likely to consist of many independent or semi-independent clock regions with the need to synchronize the data passing between them. Consequently, there will be many synchronizers together with interconnecting and routing elements forming an on-chip communication network.

Published

2008

48. A study of academic staff development in Chinese higher education institutions

Author

Zhou, Jun

Subjects

378.122140951

Published

2005

49. Alginate hydrogel cross-linked by Ca2+ to promote spinal cord neural stem/progenitor cell differentiation and functional recovery after a spinal cord injuryhh.

Author

Zhou, Jun, Zhou, Jun, Wu, Yaqi, Tang, Zhijian, Zou, Kaipeng, Chen, Juan, Lei, Zuowei, Wan, Xueyan, Liu, Yanchao, Zhang, Huaqiu, Wang, Yu, Blesch, Armin, Lei, Ting, Liu, Shengwen, Zhou, Jun, Zhou, Jun, Wu, Yaqi, Tang, Zhijian, Zou, Kaipeng, Chen, Juan, Lei, Zuowei, Wan, Xueyan, Liu, Yanchao, Zhang, Huaqiu, Wang, Yu, Blesch, Armin, Lei, Ting, and Liu, Shengwen

Abstract

Alginate capillary hydrogels seeded with differentiated cells can fill the lesion cavity and promote axonal regeneration after grafting into the injured spinal cord. Neural stem/progenitor cells (NSPCs) can potentially repair the spinal cord; however, effects of alginate hydrogels (AHs) on NSPCs remain unknown. In this study, we fabricated AHs cross-linked by Ca2+ and seeded hydrogels with rat embryonic day 14 NSPCs. Immunocytochemistry and electron microscopy show that NSPCs survive, proliferate and differentiate into neurons in vitro within the capillaries. After transplantation into an acute T8 complete spinal cord transection site in adult rats, approximately one-third (38.3%) of grafted cells survive and differentiate into neurons (40.7%), astrocytes (26.6%) and oligodendrocytes (28.4%) at 8 weeks post-grafting. NSPCs promote the growth of host axons within the capillaries in a time-dependent manner. Host axons make synapse-like contacts with NSPC-derived neurons within the hydrogel channels, and graft-derived axons extend into the host white and gray matter making putative synapses. This is paralleled by improved electrophysiological conductivity across the lesion and partial hindlimb locomotor recovery.

Published

2022

50. Epidemiological and Molecular Characteristics of blaNDM-1 and blaKPC-2 Co-Occurrence Carbapenem-Resistant Klebsiella pneumoniae

Author

Rong,Fang, Liu,Ziyi, Yang,Pengbin, Wu,Feng, Sun,Yu, Sun,Xuewei, Zhou,Jun, Rong,Fang, Liu,Ziyi, Yang,Pengbin, Wu,Feng, Sun,Yu, Sun,Xuewei, and Zhou,Jun

Abstract

Fang Rong,1,2,* Ziyi Liu,3,4,* Pengbin Yang,3,4 Feng Wu,5 Yu Sun,5 Xuewei Sun,5 Jun Zhou5 1Department of General Practice, The Affiliated Hospital of Yangzhou University, Yangzhou, Jiangsu, People’s Republic of China; 2Graduate School Department of Dalian Medical University, Dalian, Liaoning, People’s Republic of China; 3Jiangsu Co-Innovation Center for Prevention and Control of Important Animal Infectious Diseases and Zoonoses, College of Veterinary Medicine, Yangzhou University, Yangzhou, Jiangsu, People’s Republic of China; 4Institute of Comparative Medicine, Yangzhou University, Yangzhou, Jiangsu, People’s Republic of China; 5Department of Respiratory and Critical Care Medicine, The Affiliated Hospital of Yangzhou University, Yangzhou University, Yangzhou, Jiangsu, People’s Republic of China*These authors contributed equally to this workCorrespondence: Jun Zhou, Department of Respiratory and Critical Care Medicine, The Affiliated Hospital of Yangzhou University, Yangzhou University, 368 Hanjiang Middle Road, Yangzhou, Jiangsu, 225009, People’s Republic of China, Email zj662121@163.comObjective: Carbapenem-resistant Klebsiella pneumoniae (CRKP) has emerged and spread worldwide. It can usually cause a serious threat complicating treatment options in clinical settings. However, treatment options are limited. The present study investigates the prevalence and genetic characteristics of blaNDM-1 and blaKPC-2 co-harboring clinical isolates of Klebsiella pneumoniae.Methods: In this study, Multiplex polymerase chain reaction (PCR) was performed to detect the carbapenem-resistant genes, and the broth microdilution method was used to determine the minimum inhibitory concentrations (MICs) of antibacterial drugs. The transferability of carbapenem-resistant phenotypes was examined using filter mating assays. Overall, we used Illumina sequencing to evaluate the epidemiological and molecular characteristics of blaNDM-1 and blaKPC-2 (genes

Published

2023