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358 results on '"Zheng, Junhao"'

1. Neural-Symbolic Message Passing with Dynamic Pruning

Author

Zhang, Chongzhi, Zheng, Junhao, Peng, Zhiping, and Ma, Qianli

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

Complex Query Answering (CQA) over incomplete Knowledge Graphs (KGs) is a challenging task. Recently, a line of message-passing-based research has been proposed to solve CQA. However, they perform unsatisfactorily on negative queries and fail to address the noisy messages between variable nodes in the query graph. Moreover, they offer little interpretability and require complex query data and resource-intensive training. In this paper, we propose a Neural-Symbolic Message Passing (NSMP) framework based on pre-trained neural link predictors. By introducing symbolic reasoning and fuzzy logic, NSMP can generalize to arbitrary existential first order logic queries without requiring training while providing interpretable answers. Furthermore, we introduce a dynamic pruning strategy to filter out noisy messages between variable nodes. Experimental results show that NSMP achieves a strong performance. Additionally, through complexity analysis and empirical verification, we demonstrate the superiority of NSMP in inference time over the current state-of-the-art neural-symbolic method. Compared to this approach, NSMP demonstrates faster inference times across all query types on benchmark datasets, with speedup ranging from 2$\times$ to over 150$\times$., Comment: 19 pages, 5 figures, 16 tables

Published
2025

2. Spurious Forgetting in Continual Learning of Language Models

Author

Zheng, Junhao, Cai, Xidi, Qiu, Shengjie, and Ma, Qianli

Subjects
Computer Science - Machine Learning
Abstract

Recent advancements in large language models (LLMs) reveal a perplexing phenomenon in continual learning: despite extensive training, models experience significant performance declines, raising questions about task alignment and underlying knowledge retention. This study first explores the concept of "spurious forgetting", proposing that such performance drops often reflect a decline in task alignment rather than true knowledge loss. Through controlled experiments with a synthesized dataset, we investigate the dynamics of model performance during the initial training phases of new tasks, discovering that early optimization steps can disrupt previously established task alignments. Our theoretical analysis connects these shifts to orthogonal updates in model weights, providing a robust framework for understanding this behavior. Ultimately, we introduce a Freezing strategy that fix the bottom layers of the model, leading to substantial improvements in four continual learning scenarios. Our findings underscore the critical distinction between task alignment and knowledge retention, paving the way for more effective strategies in continual learning., Comment: ICLR2025

Published
2025

3. ListConRanker: A Contrastive Text Reranker with Listwise Encoding

Author

Liu, Junlong, Ma, Yue, Zhao, Ruihui, Zheng, Junhao, Ma, Qianli, and Kang, Yangyang

Subjects
Computer Science - Computation and Language, Computer Science - Information Retrieval
Abstract

Reranker models aim to re-rank the passages based on the semantics similarity between the given query and passages, which have recently received more attention due to the wide application of the Retrieval-Augmented Generation. Most previous methods apply pointwise encoding, meaning that it can only encode the context of the query for each passage input into the model. However, for the reranker model, given a query, the comparison results between passages are even more important, which is called listwise encoding. Besides, previous models are trained using the cross-entropy loss function, which leads to issues of unsmooth gradient changes during training and low training efficiency. To address these issues, we propose a novel Listwise-encoded Contrastive text reRanker (ListConRanker). It can help the passage to be compared with other passages during the encoding process, and enhance the contrastive information between positive examples and between positive and negative examples. At the same time, we use the circle loss to train the model to increase the flexibility of gradients and solve the problem of training efficiency. Experimental results show that ListConRanker achieves state-of-the-art performance on the reranking benchmark of Chinese Massive Text Embedding Benchmark, including the cMedQA1.0, cMedQA2.0, MMarcoReranking, and T2Reranking datasets., Comment: 11 pages, 4 figures

Published
2025

4. Lifelong Learning of Large Language Model based Agents: A Roadmap

Author

Zheng, Junhao, Shi, Chengming, Cai, Xidi, Li, Qiuke, Zhang, Duzhen, Li, Chenxing, Yu, Dong, and Ma, Qianli

Subjects
Computer Science - Artificial Intelligence
Abstract

Lifelong learning, also known as continual or incremental learning, is a crucial component for advancing Artificial General Intelligence (AGI) by enabling systems to continuously adapt in dynamic environments. While large language models (LLMs) have demonstrated impressive capabilities in natural language processing, existing LLM agents are typically designed for static systems and lack the ability to adapt over time in response to new challenges. This survey is the first to systematically summarize the potential techniques for incorporating lifelong learning into LLM-based agents. We categorize the core components of these agents into three modules: the perception module for multimodal input integration, the memory module for storing and retrieving evolving knowledge, and the action module for grounded interactions with the dynamic environment. We highlight how these pillars collectively enable continuous adaptation, mitigate catastrophic forgetting, and improve long-term performance. This survey provides a roadmap for researchers and practitioners working to develop lifelong learning capabilities in LLM agents, offering insights into emerging trends, evaluation metrics, and application scenarios. Relevant literature and resources are available at \href{this url}{https://github.com/qianlima-lab/awesome-lifelong-llm-agent}., Comment: 46 pages

Published
2025

5. Cross-domain Named Entity Recognition via Graph Matching

Author

Zheng, Junhao, Chen, Haibin, and Ma, Qianli

Subjects
Computer Science - Computation and Language
Abstract

Cross-domain NER is a practical yet challenging problem since the data scarcity in the real-world scenario. A common practice is first to learn a NER model in a rich-resource general domain and then adapt the model to specific domains. Due to the mismatch problem between entity types across domains, the wide knowledge in the general domain can not effectively transfer to the target domain NER model. To this end, we model the label relationship as a probability distribution and construct label graphs in both source and target label spaces. To enhance the contextual representation with label structures, we fuse the label graph into the word embedding output by BERT. By representing label relationships as graphs, we formulate cross-domain NER as a graph matching problem. Furthermore, the proposed method has good applicability with pre-training methods and is potentially capable of other cross-domain prediction tasks. Empirical results on four datasets show that our method outperforms a series of transfer learning, multi-task learning, and few-shot learning methods., Comment: Findings of ACL; available at Findings 2022 https://aclanthology.org/2022.findings-acl.210/; Improve presentation

Published
2024
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6. Pathformer: Recursive Path Query Encoding for Complex Logical Query Answering

Author

Zhang, Chongzhi, Peng, Zhiping, Zheng, Junhao, Wang, Linghao, Shi, Ruifeng, and Ma, Qianli

Subjects
Computer Science - Machine Learning, Computer Science - Logic in Computer Science
Abstract

Complex Logical Query Answering (CLQA) over incomplete knowledge graphs is a challenging task. Recently, Query Embedding (QE) methods are proposed to solve CLQA by performing multi-hop logical reasoning. However, most of them only consider historical query context information while ignoring future information, which leads to their failure to capture the complex dependencies behind the elements of a query. In recent years, the transformer architecture has shown a strong ability to model long-range dependencies between words. The bidirectional attention mechanism proposed by the transformer can solve the limitation of these QE methods regarding query context. Still, as a sequence model, it is difficult for the transformer to model complex logical queries with branch structure computation graphs directly. To this end, we propose a neural one-point embedding method called Pathformer based on the tree-like computation graph, i.e., query computation tree. Specifically, Pathformer decomposes the query computation tree into path query sequences by branches and then uses the transformer encoder to recursively encode these path query sequences to obtain the final query embedding. This allows Pathformer to fully utilize future context information to explicitly model the complex interactions between various parts of the path query. Experimental results show that Pathformer outperforms existing competitive neural QE methods, and we found that Pathformer has the potential to be applied to non-one-point embedding space., Comment: This work has been submitted to the IEEE

Published
2024

7. Towards Lifelong Learning of Large Language Models: A Survey

Author

Zheng, Junhao, Qiu, Shengjie, Shi, Chengming, and Ma, Qianli

Subjects
Computer Science - Machine Learning, Computer Science - Computation and Language
Abstract

As the applications of large language models (LLMs) expand across diverse fields, the ability of these models to adapt to ongoing changes in data, tasks, and user preferences becomes crucial. Traditional training methods, relying on static datasets, are increasingly inadequate for coping with the dynamic nature of real-world information. Lifelong learning, also known as continual or incremental learning, addresses this challenge by enabling LLMs to learn continuously and adaptively over their operational lifetime, integrating new knowledge while retaining previously learned information and preventing catastrophic forgetting. This survey delves into the sophisticated landscape of lifelong learning, categorizing strategies into two primary groups: Internal Knowledge and External Knowledge. Internal Knowledge includes continual pretraining and continual finetuning, each enhancing the adaptability of LLMs in various scenarios. External Knowledge encompasses retrieval-based and tool-based lifelong learning, leveraging external data sources and computational tools to extend the model's capabilities without modifying core parameters. The key contributions of our survey are: (1) Introducing a novel taxonomy categorizing the extensive literature of lifelong learning into 12 scenarios; (2) Identifying common techniques across all lifelong learning scenarios and classifying existing literature into various technique groups within each scenario; (3) Highlighting emerging techniques such as model expansion and data selection, which were less explored in the pre-LLM era. Through a detailed examination of these groups and their respective categories, this survey aims to enhance the adaptability, reliability, and overall performance of LLMs in real-world applications., Comment: 37 pages

Published
2024

8. Physical 3D Adversarial Attacks against Monocular Depth Estimation in Autonomous Driving

Author

Zheng, Junhao, Lin, Chenhao, Sun, Jiahao, Zhao, Zhengyu, Li, Qian, and Shen, Chao

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Cryptography and Security
Abstract

Deep learning-based monocular depth estimation (MDE), extensively applied in autonomous driving, is known to be vulnerable to adversarial attacks. Previous physical attacks against MDE models rely on 2D adversarial patches, so they only affect a small, localized region in the MDE map but fail under various viewpoints. To address these limitations, we propose 3D Depth Fool (3D$^2$Fool), the first 3D texture-based adversarial attack against MDE models. 3D$^2$Fool is specifically optimized to generate 3D adversarial textures agnostic to model types of vehicles and to have improved robustness in bad weather conditions, such as rain and fog. Experimental results validate the superior performance of our 3D$^2$Fool across various scenarios, including vehicles, MDE models, weather conditions, and viewpoints. Real-world experiments with printed 3D textures on physical vehicle models further demonstrate that our 3D$^2$Fool can cause an MDE error of over 10 meters., Comment: Accepted by CVPR 2024

Published
2024

9. Self-Adaptive Reconstruction with Contrastive Learning for Unsupervised Sentence Embeddings

Author

Liu, Junlong, Shang, Xichen, Feng, Huawen, Zheng, Junhao, and Ma, Qianli

Subjects
Computer Science - Computation and Language, Computer Science - Machine Learning
Abstract

Unsupervised sentence embeddings task aims to convert sentences to semantic vector representations. Most previous works directly use the sentence representations derived from pretrained language models. However, due to the token bias in pretrained language models, the models can not capture the fine-grained semantics in sentences, which leads to poor predictions. To address this issue, we propose a novel Self-Adaptive Reconstruction Contrastive Sentence Embeddings (SARCSE) framework, which reconstructs all tokens in sentences with an AutoEncoder to help the model to preserve more fine-grained semantics during tokens aggregating. In addition, we proposed a self-adaptive reconstruction loss to alleviate the token bias towards frequency. Experimental results show that SARCSE gains significant improvements compared with the strong baseline SimCSE on the 7 STS tasks., Comment: 8 pages, 3 figures

Published
2024

10. Conditional Logical Message Passing Transformer for Complex Query Answering

Author

Zhang, Chongzhi, Peng, Zhiping, Zheng, Junhao, and Ma, Qianli

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

Complex Query Answering (CQA) over Knowledge Graphs (KGs) is a challenging task. Given that KGs are usually incomplete, neural models are proposed to solve CQA by performing multi-hop logical reasoning. However, most of them cannot perform well on both one-hop and multi-hop queries simultaneously. Recent work proposes a logical message passing mechanism based on the pre-trained neural link predictors. While effective on both one-hop and multi-hop queries, it ignores the difference between the constant and variable nodes in a query graph. In addition, during the node embedding update stage, this mechanism cannot dynamically measure the importance of different messages, and whether it can capture the implicit logical dependencies related to a node and received messages remains unclear. In this paper, we propose Conditional Logical Message Passing Transformer (CLMPT), which considers the difference between constants and variables in the case of using pre-trained neural link predictors and performs message passing conditionally on the node type. We empirically verified that this approach can reduce computational costs without affecting performance. Furthermore, CLMPT uses the transformer to aggregate received messages and update the corresponding node embedding. Through the self-attention mechanism, CLMPT can assign adaptive weights to elements in an input set consisting of received messages and the corresponding node and explicitly model logical dependencies between various elements. Experimental results show that CLMPT is a new state-of-the-art neural CQA model. https://github.com/qianlima-lab/CLMPT., Comment: KDD 2024 Research Track

Published
2024

11. Incremental Sequence Labeling: A Tale of Two Shifts

Author

Qiu, Shengjie, Zheng, Junhao, Liu, Zhen, Luo, Yicheng, and Ma, Qianli

Subjects
Computer Science - Computation and Language, Computer Science - Machine Learning
Abstract

The incremental sequence labeling task involves continuously learning new classes over time while retaining knowledge of the previous ones. Our investigation identifies two significant semantic shifts: E2O (where the model mislabels an old entity as a non-entity) and O2E (where the model labels a non-entity or old entity as a new entity). Previous research has predominantly focused on addressing the E2O problem, neglecting the O2E issue. This negligence results in a model bias towards classifying new data samples as belonging to the new class during the learning process. To address these challenges, we propose a novel framework, Incremental Sequential Labeling without Semantic Shifts (IS3). Motivated by the identified semantic shifts (E2O and O2E), IS3 aims to mitigate catastrophic forgetting in models. As for the E2O problem, we use knowledge distillation to maintain the model's discriminative ability for old entities. Simultaneously, to tackle the O2E problem, we alleviate the model's bias towards new entities through debiased loss and optimization levels. Our experimental evaluation, conducted on three datasets with various incremental settings, demonstrates the superior performance of IS3 compared to the previous state-of-the-art method by a significant margin.The data, code, and scripts are publicly available at https://github.com/zzz47zzz/codebase-for-incremental-learning-with-llm., Comment: accepted to ACL 2024

Published
2024

12. Balancing the Causal Effects in Class-Incremental Learning

Author

Zheng, Junhao, Wang, Ruiyan, Zhang, Chongzhi, Feng, Huawen, and Ma, Qianli

Subjects
Computer Science - Machine Learning
Abstract

Class-Incremental Learning (CIL) is a practical and challenging problem for achieving general artificial intelligence. Recently, Pre-Trained Models (PTMs) have led to breakthroughs in both visual and natural language processing tasks. Despite recent studies showing PTMs' potential ability to learn sequentially, a plethora of work indicates the necessity of alleviating the catastrophic forgetting of PTMs. Through a pilot study and a causal analysis of CIL, we reveal that the crux lies in the imbalanced causal effects between new and old data. Specifically, the new data encourage models to adapt to new classes while hindering the adaptation of old classes. Similarly, the old data encourages models to adapt to old classes while hindering the adaptation of new classes. In other words, the adaptation process between new and old classes conflicts from the causal perspective. To alleviate this problem, we propose Balancing the Causal Effects (BaCE) in CIL. Concretely, BaCE proposes two objectives for building causal paths from both new and old data to the prediction of new and classes, respectively. In this way, the model is encouraged to adapt to all classes with causal effects from both new and old data and thus alleviates the causal imbalance problem. We conduct extensive experiments on continual image classification, continual text classification, and continual named entity recognition. Empirical results show that BaCE outperforms a series of CIL methods on different tasks and settings.

Published
2024

13. Can LLMs Learn New Concepts Incrementally without Forgetting?

Author

Zheng, Junhao, Qiu, Shengjie, and Ma, Qianli

Subjects
Computer Science - Machine Learning, Computer Science - Computation and Language
Abstract

Large Language Models (LLMs) have achieved remarkable success across various tasks, yet their ability to learn incrementally without forgetting remains underexplored. Incremental learning (IL) is crucial as it enables models to acquire new knowledge while retaining previously learned information, akin to human learning. Existing benchmarks for IL are insufficient due to data leakage issues and the overqualification of LLMs. To address these challenges, we introduce Concept-1K, a novel dataset comprising 1,023 recently emerged concepts across diverse domains. The concepts in Concept-1K are discrete, interpretable units of knowledge that allow for fine-grained analysis of learning and forgetting processes. Using Concept-1K as a testbed, we aim to answer the question: ``Can LLMs learn new concepts incrementally without forgetting like humans?'' Our investigation reveals that LLMs still suffer from catastrophic forgetting and that LoRA, despite fine-tuning fewer parameters, may lead to more forgetting on training data. Additionally, we explore the roles of in-context learning, model scale, buffer size, and pretraining in IL performance. These findings highlight the strengths and limitations of LLMs in IL scenarios and provide a robust benchmark for future research., Comment: 28 pages

Published
2024

14. Beyond Anti-Forgetting: Multimodal Continual Instruction Tuning with Positive Forward Transfer

Author

Zheng, Junhao, Ma, Qianli, Liu, Zhen, Wu, Binquan, and Feng, Huawen

Subjects
Computer Science - Machine Learning
Abstract

Multimodal Continual Instruction Tuning (MCIT) enables Multimodal Large Language Models (MLLMs) to meet continuously emerging requirements without expensive retraining. MCIT faces two major obstacles: catastrophic forgetting (where old knowledge is forgotten) and negative forward transfer (where the performance of future tasks is degraded). Although existing methods have greatly alleviated catastrophic forgetting, they still suffer from negative forward transfer. We discover a large discrepancy in different input embeddings by performing singular value decomposition (SVD) on input embeddings. This discrepancy results in the model learning irrelevant information for old and pre-trained tasks, leading to catastrophic forgetting and negative forward transfer. To address these issues, we propose Prompt Tuning with Positive Forward Transfer (Fwd-Prompt), a prompt-based method that projects the prompt gradient to the residual space to minimize interference between tasks and to the pre-trained subspace for reusing pre-trained knowledge. Our experiments demonstrate that Fwd-Prompt achieves state-of-the-art performance while updating fewer parameters and requiring no old samples. Our research illuminates the potential of continuously adapting MLLMs to new tasks under the instruction tuning paradigm and encourages future studies to explore MCIT.

Published
2024

15. Learn or Recall? Revisiting Incremental Learning with Pre-trained Language Models

Author

Zheng, Junhao, Qiu, Shengjie, and Ma, Qianli

Subjects
Computer Science - Computation and Language, Computer Science - Machine Learning
Abstract

Incremental Learning (IL) has been a long-standing problem in both vision and Natural Language Processing (NLP) communities. In recent years, as Pre-trained Language Models (PLMs) have achieved remarkable progress in various NLP downstream tasks, utilizing PLMs as backbones has become a common practice in recent research of IL in NLP. Most assume that catastrophic forgetting is the biggest obstacle to achieving superior IL performance and propose various techniques to overcome this issue. However, we find that this assumption is problematic. Specifically, we revisit more than 20 methods on four classification tasks (Text Classification, Intent Classification, Relation Extraction, and Named Entity Recognition) under the two most popular IL settings (Class-Incremental and Task-Incremental) and reveal that most of them severely underestimate the inherent anti-forgetting ability of PLMs. Based on the observation, we propose a frustratingly easy method called SEQ* for IL with PLMs. The results show that SEQ* has competitive or superior performance compared to state-of-the-art (SOTA) IL methods and requires considerably less trainable parameters and training time. These findings urge us to revisit the IL with PLMs and encourage future studies to have a fundamental understanding of the catastrophic forgetting in PLMs. The data, code and scripts are publicly available at https://github.com/zzz47zzz/codebase-for-incremental-learning-with-llm., Comment: ACL 2024 main conference (Oral)

Published
2023

16. Preserving Commonsense Knowledge from Pre-trained Language Models via Causal Inference

Author

Zheng, Junhao, Ma, Qianli, Qiu, Shengjie, Wu, Yue, Ma, Peitian, Liu, Junlong, Feng, Huawen, Shang, Xichen, and Chen, Haibin

Subjects
Computer Science - Computation and Language, Computer Science - Artificial Intelligence
Abstract

Fine-tuning has been proven to be a simple and effective technique to transfer the learned knowledge of Pre-trained Language Models (PLMs) to downstream tasks. However, vanilla fine-tuning easily overfits the target data and degrades the generalization ability. Most existing studies attribute it to catastrophic forgetting, and they retain the pre-trained knowledge indiscriminately without identifying what knowledge is transferable. Motivated by this, we frame fine-tuning into a causal graph and discover that the crux of catastrophic forgetting lies in the missing causal effects from the pretrained data. Based on the causal view, we propose a unified objective for fine-tuning to retrieve the causality back. Intriguingly, the unified objective can be seen as the sum of the vanilla fine-tuning objective, which learns new knowledge from target data, and the causal objective, which preserves old knowledge from PLMs. Therefore, our method is flexible and can mitigate negative transfer while preserving knowledge. Since endowing models with commonsense is a long-standing challenge, we implement our method on commonsense QA with a proposed heuristic estimation to verify its effectiveness. In the experiments, our method outperforms state-of-the-art fine-tuning methods on all six commonsense QA datasets and can be implemented as a plug-in module to inflate the performance of existing QA models., Comment: ACL 2023 (oral paper)

Published
2023

17. Artificial Intelligence Security Competition (AISC)

Author

Dong, Yinpeng, Chen, Peng, Deng, Senyou, L, Lianji, Sun, Yi, Zhao, Hanyu, Li, Jiaxing, Tan, Yunteng, Liu, Xinyu, Dong, Yangyi, Xu, Enhui, Xu, Jincai, Xu, Shu, Fu, Xuelin, Sun, Changfeng, Han, Haoliang, Zhang, Xuchong, Chen, Shen, Sun, Zhimin, Cao, Junyi, Yao, Taiping, Ding, Shouhong, Wu, Yu, Lin, Jian, Wu, Tianpeng, Wang, Ye, Fu, Yu, Feng, Lin, Gao, Kangkang, Liu, Zeyu, Pang, Yuanzhe, Duan, Chengqi, Zhou, Huipeng, Wang, Yajie, Zhao, Yuhang, Wu, Shangbo, Lyu, Haoran, Lin, Zhiyu, Gao, Yifei, Li, Shuang, Wang, Haonan, Sang, Jitao, Ma, Chen, Zheng, Junhao, Li, Yijia, Shen, Chao, Lin, Chenhao, Cui, Zhichao, Liu, Guoshuai, Shi, Huafeng, Hu, Kun, and Zhang, Mengxin

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

The security of artificial intelligence (AI) is an important research area towards safe, reliable, and trustworthy AI systems. To accelerate the research on AI security, the Artificial Intelligence Security Competition (AISC) was organized by the Zhongguancun Laboratory, China Industrial Control Systems Cyber Emergency Response Team, Institute for Artificial Intelligence, Tsinghua University, and RealAI as part of the Zhongguancun International Frontier Technology Innovation Competition (https://www.zgc-aisc.com/en). The competition consists of three tracks, including Deepfake Security Competition, Autonomous Driving Security Competition, and Face Recognition Security Competition. This report will introduce the competition rules of these three tracks and the solutions of top-ranking teams in each track., Comment: Technical report of AISC

Published
2022

20. Distilling Causal Effect from Miscellaneous Other-Class for Continual Named Entity Recognition

Author

Zheng, Junhao, Liang, Zhanxian, Chen, Haibin, and Ma, Qianli

Subjects
Computer Science - Computation and Language, Computer Science - Artificial Intelligence
Abstract

Continual Learning for Named Entity Recognition (CL-NER) aims to learn a growing number of entity types over time from a stream of data. However, simply learning Other-Class in the same way as new entity types amplifies the catastrophic forgetting and leads to a substantial performance drop. The main cause behind this is that Other-Class samples usually contain old entity types, and the old knowledge in these Other-Class samples is not preserved properly. Thanks to the causal inference, we identify that the forgetting is caused by the missing causal effect from the old data. To this end, we propose a unified causal framework to retrieve the causality from both new entity types and Other-Class. Furthermore, we apply curriculum learning to mitigate the impact of label noise and introduce a self-adaptive weight for balancing the causal effects between new entity types and Other-Class. Experimental results on three benchmark datasets show that our method outperforms the state-of-the-art method by a large margin. Moreover, our method can be combined with the existing state-of-the-art methods to improve the performance in CL-NER, Comment: Accepted by EMNLP2022

Published
2022

21. From Bitcoin to Solana -- Innovating Blockchain towards Enterprise Applications

Author

Li, Xiangyu, Wang, Xinyu, Kong, Tingli, Zheng, Junhao, and Luo, Min

Subjects
Computer Science - Cryptography and Security
Abstract

This survey presents a comprehensive study of recent advances in block-chain technologies, focusing on how issues that affecting the enterprise adoption were progressively addressed from the original Bitcoin system to Ethereum, to Solana etc. Key issues preventing the wide adoption are scala-bility and performance, while recent advances in Solana has clearly demon-strated that it is possible to significantly improve on those issues by innovat-ing on data structure, processes and algorithms by consolidating various time-consuming algorithms and security enforcements, and differentiate and balance users and their responsibilities and rights, while maintaining the re-quired security and integrity that blockchain systems inherently offer.

Published
2022
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24. Defining Global Benchmarks for Laparoscopic Right Posterior Sectionectomy/H67: An International Multicenter Study

Author

Zhao, Jianping, Lu, Yuanxiang, Zhang, Wanguang, Chua, Darren W., Liu, Qu, Liu, Rong, Pratschke, Johann, Ratti, Francesca, Zimmitti, Giuseppe, Aghayan, Davit L., Edwin, Bjørn, Siow, Tiing-Foong, Scatton, Olivier, Herman, Paulo, Marino, Marco V., Mazzaferro, Vincenzo, Chiow, Adrian K. H., Sucandy, Iswanto, Ivanecz, Arpad, Choi, Sung Hoon, Lee, Jae Hoon, Gastaca, Mikel, Vivarelli, Marco, Giuliante, Felice, Ruzzenente, Andrea, Yong, Chee-Chien, Yin, Mengqiu, Fondevila, Constantino, Efanov, Mikhail, Morise, Zenichi, Di Benedetto, Fabrizio, Brustia, Raffaele, Dalla Valle, Raffaele, Boggi, Ugo, Geller, David, Belli, Andrea, Memeo, Riccardo, Mejia, Alejandro, Park, James O., Rotellar, Fernando, Choi, Gi-Hong, Robles-Campos, Ricardo, Wang, Xiaoying, Sutcliffe, Robert P., Lai, Eric C. H., Chong, Charing C. N., D’Hondt, Mathieu, Monden, Kazuteru, Lopez-Ben, Santiago, Kingham, T. Peter, Ferrero, Alessandro, Ettorre, Giuseppe Maria, Cherqui, Daniel, Liang, Xiao, Soubrane, Olivier, Fuks, David, Wakabayashi, Go, Troisi, Roberto I., Cheung, Tan-To, Sugioka, Atsushi, Long, Tran Cong duy, Abu Hilal, Mohammad, Aldrighetti, Luca, Chen, Kuo-Hsin, Han, Ho-Seong, Goh, Brian K. P., Prieto, Mikel, De Meyere, Celine, Meurs, Juul, Ng, Kelvin K., Lee, Kit-Fai, Tarakanov, Pavel, Alikhanov, Ruslan, Thiruchelvam, Nita, Jang, Jae Young, Kojima, Masayuki, Kato, Yutaro, Kruger, Jaime Arthur Pirola, Coelho, Fabricio Ferreira, Lopez-Lopez, Victor, Casellas I Robert, Margarida, Montalti, Roberto, Giglio, Mariano, Lee, Boram, Wang, Hao-Ping, Salleh, Mansour, Pascual, Franco, Yu, Shian, Chen, Zewei, Vani, Simone, Ardito, Francesco, Giustizieri, Ugo, Citterio, Davide, Mocchegiani, Federico, Colasanti, Marco, Berardi, Giammauro, Guzmán, Yoelimar, Labadie, Kevin P., Conticchio, Maria, Dogeas, Epameinondas, Kauffmann, Emanuele F., Giuffrida, Mario, Sommacale, Daniele, Amory, Boris, Magistri, Paolo, Mishima, Kohei, Kadam, Prashant, Tang, Chung-Ngai, Ghotbi, Jacob, Fretland, Åsmund Avdem, Forchino, Fabio, Mazzotta, Alessandro, Barbara, Marco, Pagano, Duilio, Gruttadauria, Salvatore, Krenzien, Felix, Schmelzle, Moritz, Cipriani, Federica, Lim, Chetana, Zheng, Junhao, Nghia, Phan Phuoc, Valle, Bernardo Dalla, and Cipriani, Federica

Published
2024
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28. Impact of neoadjuvant chemotherapy on short-term outcomes after simple and complex minimally invasive minor hepatectomy for colorectal liver metastases: A propensity-score matched and coarsened exact matched study

Author

Syn, Nicholas L., Prieto, Mikel, Meurs, Juul, De Meyere, Celine, Lee, Kit-Fai, Ng, Kelvin K., Salimgereeva, Diana, Alikhanov, Ruslan, Thiruchelvam, Nita, Jang, Jae Young, Kato, Yutaro, Kojima, Masayuki, Coelho, Fabricio Ferreira, Pirola Kruger, Jaime Arthur, Lopez-Lopez, Victor, Casellas I Robert, Margarida, Montalti, Roberto, Giglio, Mariano, Lee, Boram, D'Silva, Mizelle, Wang, Hao-Ping, Saleh, Mansour, Pascual, Franco, Chen, Zewei, Yu, Shian, Vani, Simone, Ardito, Francesco, Giustizieri, Ugo, Citterio, Davide, Mocchegiani, Federico, Colasanti, Marco, Berardi, Giammauro, Guzmán, Yoelimar, Labadie, Kevin P., Conticchio, Maria, Dogeas, Epameinondas, Kauffmann, Emanuele F., Giuffrida, Mario, Sommacale, Daniele, Laurent, Alexis, Magistri, Paolo, Nghia, Phan Phuoc, Mishima, Kohei, Valle, Bernardo Dalla, Krenzien, Felix, Schmelzle, Moritz, Kadam, Prashant, Liu, Qu, Lai, Eric C.H., Zheng, Junhao, Siow, Tiing Foong, Forchino, Fabio, Ghotbi, Jacob, Fretland, Åsmund A., Lim, Chetana, Mazzotta, Alessandro, Cauchy, Francois, Karam, Elias, Barbara, Marco, Pagano, Duilio, Ratti, Francesca, Hoogteijling, Tijs J., Abu Hilal, Mohammad, Zimmitti, Giuseppe, Aghayan, Davit L., Wu, Andrew G.R., Cipriani, Federica, Gruttadauria, Salvatore, Scatton, Olivier, Long, Tran Cong duy, Herman, Paulo, Marino, Marco V., Mazzaferro, Vincenzo, Chiow, Adrian K.H., Sucandy, Iswanto, Ivanecz, Arpad, Choi, Sung Hoon, Lee, Jae Hoon, Gastaca, Mikel, Vivarelli, Marco, Giuliante, Felice, Ruzzenente, Andrea, Yong, Chee Chien, Yin, Mengqiu, Fondevila, Constantino, Efanov, Mikhail, Morise, Zenichi, Di Benedetto, Fabrizio, Brustia, Raffaele, Dalla Valle, Raffaele, Boggi, Ugo, Geller, David, Belli, Andrea, Memeo, Riccardo, Mejia, Alejandro, Park, James O., Rotellar, Fernando, Choi, Gi Hong, Robles-Campos, Ricardo, Wang, Xiaoying, Sutcliffe, Robert P., Pratschke, Johann, Tang, Chung-Ngai, Chong, Charing C.N., D'Hondt, Mathieu, Monden, Kazuteru, Lopez-Ben, Santiago, Kingham, T. Peter, Ferrero, Alessandro, Ettorre, Giuseppe Maria, Cherqui, Daniel, Liang, Xiao, Soubrane, Olivier, Wakabayashi, Go, Troisi, Roberto I., Han, Ho Seong, Cheung, Tan To, Sugioka, Atsushi, Dokmak, Safi, Chen, Kuo Hsin, Liu, Rong, Fuks, David, Zhang, Wanguang, Aldrighetti, Luca, Edwin, Bjørn, and Goh, Brian K.P.

Published
2024
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38. Impact of liver cirrhosis, the severity of cirrhosis, and portal hypertension on the outcomes of minimally invasive left lateral sectionectomies for primary liver malignancies

Author

Syn, Nicholas L., Prieto, Mikel, Meurs, Juul, De Meyere, Celine, Lee, Kit-Fai, Salimgereeva, Diana, Alikhanov, Ruslan, Kato, Yutaro, Kojima, Masayuki, Robert, Margarida Casellas I., Lee, Boram, D’Silva, Mizelle, Saleh, Mansour, Pascual, Franco, Ardito, Francesco, Citterio, Davide, Mocchegiani, Federico, Berardi, Giammauro, Colasanti, Marco, Guzmán, Yoelimar, Labadie, Kevin P., Conticchio, Maria, Dogeas, Epameinondas, Kauffmann, Emanuele F., Giuffrida, Mario, Laurent, Alexis, Magistri, Paolo, Mishima, Kohei, Schmelzle, Moritz, Krenzien, Felix, Kadam, Prashant, Lai, Eric C., Ghotbi, Jacob, Fretland, Åsmund Avdem, Forchino, Fabio, Mazzotta, Alessandro, Cauchy, Francois, Kawaguchi, Yoshikuni, Lim, Chetana, Valle, Bernardo Dalla, Liu, Qu, Zheng, Junhao, Nghia, Phan Phuoc, Chen, Zewei, Yu, Shian, Coelho, Fabricio Ferreira, Herman, Paulo, Kruger, Jaime A.P., Wu, Andrew G.R., Chin, Ken-Min, Hasegawa, Kiyoshi, Zhang, Wanguang, Alzoubi, Mohammad, Aghayan, Davit L., Siow, Tiing-Foong, Scatton, Olivier, Kingham, T. Peter, Marino, Marco V., Mazzaferro, Vincenzo, Chiow, Adrian K.H., Sucandy, Iswanto, Ivanecz, Arpad, Choi, Sung Hoon, Lee, Jae Hoon, Gastaca, Mikel, Vivarelli, Marco, Giuliante, Felice, Ruzzenente, Andrea, Yong, Chee-Chien, Dokmak, Safi, Fondevila, Constantino, Efanov, Mikhail, Morise, Zenichi, Di Benedetto, Fabrizio, Brustia, Raffaele, Valle, Raffaele Dalla, Boggi, Ugo, Geller, David, Belli, Andrea, Memeo, Riccardo, Gruttadauria, Salvatore, Mejia, Alejandro, Park, James O., Rotellar, Fernando, Choi, Gi Hong, Robles-Campos, Ricardo, Wang, Xiaoying, Sutcliffe, Robert P., Pratschke, Johann, Lai, Eric C.H., Chong, Charing C.N., D’Hondt, Mathieu, Monden, Kazuteru, Lopez-Ben, Santiago, Liu, Rong, Ferrero, Alessandro, Ettorre, Giuseppe Maria, Cipriani, Federica, Cherqui, Daniel, Liang, Xiao, Soubrane, Olivier, Wakabayashi, Go, Troisi, Roberto I., Yin, Mengqiu, Cheung, Tan-To, Sugioka, Atsushi, Han, Ho-Seong, Long, Tran Cong Duy, Fuks, David, Abu Hilal, Mohammad, Chen, Kuo-Hsin, Aldrighetti, Luca, Edwin, Bjørn, and Goh, Brian K.P.

Published
2023
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40. Impact of body mass index on perioperative outcomes of laparoscopic major hepatectomies

Author

Prieto, Mikel, De Meyere, Celine, Lee, Kit-Fai, Ng, Kelvin K., Salimgereeva, Diana, Alikhanov, Ruslan, Lee, Lip-Seng, Jang, Jae Young, Kojima, Masayuki, Kruger, Jaime Arthur Pirola, Lopez-Lopez, Victor, Robert, Margarida Casellas I., Montalti, Roberto, Giglio, Mariano, Lee, Boram, Wang, Hao-Ping, Saleh, Mansour, Yu, Shian, Vani, Simone, Ardito, Francesco, Giustizieri, Ugo, Citterio, Davide, Mocchegiani, Federico, Colasanti, Marco, Guzmán, Yoelimar, Labadie, Kevin P., Conticchio, Maria, Dogeas, Epameinondas, Kauffmann, Emanuele F., Giuffrida, Mario, Sommacale, Daniele, Laurent, Alexis, Magistri, Paolo, Mishima, Kohei, Krenzien, Felix, Kadam, Prashant, Lai, Eric C.H., Ghotbi, Jacob, Fretland, Åsmund Avdem, Forchino, Fabio, Mazzotta, Alessandro, Berardi, Giammauro, Kingham, T. Peter, Zhang, Wanguang, Syn, Nicholas L., Koh, Ye-Xin, Jaber, Bashar, Aghayan, Davit L., Siow, Tiing Foong, Lim, Chetana, Scatton, Olivier, Herman, Paulo, Coelho, Fabricio Ferreira, Marino, Marco V., Mazzaferro, Vincenzo, Chiow, Adrian K.H., Sucandy, Iswanto, Ivanecz, Arpad, Choi, Sung Hoon, Lee, Jae Hoon, Gastaca, Mikel, Vivarelli, Marco, Giuliante, Felice, Dalla Valle, Bernardo, Ruzzenente, Andrea, Yong, Chee-Chien, Chen, Zewei, Yin, Mengqiu, Fondevila, Constantino, Efanov, Mikhail, Morise, Zenichi, Di Benedetto, Fabrizio, Brustia, Raffaele, Dalla Valle, Raffaele, Boggi, Ugo, Geller, David, Belli, Andrea, Memeo, Riccardo, Gruttadauria, Salvatore, Mejia, Alejandro, Park, James O., Rotellar, Fernando, Choi, Gi-Hong, Robles-Campos, Ricardo, Wang, Xiaoying, Sutcliffe, Robert P., Schmelzle, Moritz, Pratschke, Johann, Chong, Charing C.N., Meurs, Juul, D’Hondt, Mathieu, Monden, Kazuteru, Lopez-Ben, Santiago, Liu, Qu, Liu, Rong, Ferrero, Alessandro, Ettorre, Giuseppe Maria, Cipriani, Federica, Pascual, Franco, Cherqui, Daniel, Zheng, Junhao, Liang, Xiao, Soubrane, Olivier, Wakabayashi, Go, Troisi, Roberto I., Cheung, Tan-To, Kato, Yutaro, Sugioka, Atsushi, D’Silva, Mizelle, Han, Ho-Seong, Nghia, Phan Phuoc, Long, Tran Cong duy, Edwin, Bjørn, Fuks, David, Abu Hilal, Mohammad, Aldrighetti, Luca, Chen, Kuo-Hsin, and Goh, Brian K.P.

Published
2023
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41. Propensity Score-Matching Analysis Comparing Robotic Versus Laparoscopic Limited Liver Resections of the Posterosuperior Segments: An International Multicenter Study

Author

Krenzien, Felix, Schmelzle, Moritz, Pratschke, Johann, Feldbrügge, Linda, Liu, Rong, Liu, Qu, Zhang, Wanguang, Zhao, Joseph J., Tan, Hwee-Leong, Cipriani, Federica, Hoogteijling, Tijs J., Aghayan, Davit L., Fretland, Åsmund A., Siow, Tiing Foong, Lim, Chetana, Scatton, Olivier, Herman, Paulo, Coelho, Fabricio F., Marino, Marco V., Mazzaferro, Vincenzo, Chiow, Adrian K.H., Sucandy, Iswanto, Ivanecz, Arpad, Choi, Sung Hoon, Lee, Jae Hoon, Gastaca, Mikel, Vivarelli, Marco, Giuliante, Felice, Dalla Valle, Bernardo, Ruzzenente, Andrea, Yong, Chee-Chien, Chen, Zewei, Yin, Mengqiu, Fondevila, Constantino, Efanov, Mikhail, Morise, Zenichi, Di Benedetto, Fabrizio, Brustia, Raffaele, Dalla Valle, Raffaele, Boggi, Ugo, Geller, David, Belli, Andrea, Memeo, Riccardo, Gruttadauria, Salvatore, Mejia, Alejandro, Park, James O., Rotellar, Fernando, Choi, Gi-Hong, Robles-Campos, Ricardo, Wang, Xiaoying, Sutcliffe, Robert P., Hasegawa, Kiyoshi, Tang, Chung-Ngai, Chong, Charing C. N., Lee, Kit-Fai, Meurs, Juul, D’Hondt, Mathieu, Monden, Kazuteru, Lopez-Ben, Santiago, Kingham, T. Peter, Ferrero, Alessandro, Ettorre, Giuseppe M., Pascual, Franco, Cherqui, Daniel, Zheng, Junhao, Liang, Xiao, Soubrane, Olivier, Wakabayashi, Go, Troisi, Roberto I., Cheung, Tan-To, Kato, Yutaro, Sugioka, Atsushi, Dokmak, Safi, D’Silva, Mizelle, Han, Ho-Seong, Nghia, Phan Phuoc, Long, Tran Cong duy, Hilal, Mohammad Abu, Chen, Kuo-Hsin, Fuks, David, Aldrighetti, Luca, Edwin, Bjørn, Goh, Brian K. P., Syn, Nicholas L., Prieto, Mikel, De Meyere, Celine, Ng, Kelvin K., Salimgereeva, Diana, Alikhanov, Ruslan, Thiruchelvam, Nita, Jang, Jae Young, Kojima, Masayuki, Kruger, Jaime Arthur Pirola, Lopez-Lopez, Victor, Robert, Margarida Casellas I, Montalti, Roberto, Giglio, Mariano, Lee, Boram, Wang, Hao-Ping, Salleh, Mansour, Yu, Shian, Vani, Simone, Ardito, Francesco, Giustizieri, Ugo, Citterio, Davide, Mocchegiani, Federico, Colasanti, Marco, Berardi, Giammauro, Guzmán, Yoelimar, Labadie, Kevin P., Conticchio, Maria, Dogeas, Epameinondas, Kauffmann, Emanuele F., Giuffrida, Mario, Sommacale, Daniele, Amory, Boris, Magistri, Paolo, Mishima, Kohei, Kadam, Prashant, Lai, Eric C. H., Ghotbi, Jacob, Forchino, Fabio, Mazzotta, Alessandro, Kawaguchi, Yoshikuni, Cauchy, Francois, Karam, Elias, Barbara, Marco, and Pagano, Duilio

Published
2024
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42. Propensity-score Matched and Coarsened-exact Matched Analysis Comparing Robotic and Laparoscopic Major Hepatectomies: An International Multicenter Study of 4822 Cases

Author

Liu, Qu, Zhang, Wanguang, Zhao, Joseph J., Syn, Nicholas L., Cipriani, Federica, Alzoubi, Mohammad, Aghayan, Davit L., Siow, Tiing-Foong, Lim, Chetana, Scatton, Olivier, Herman, Paulo, Coelho, Fabricio Ferreira, Marino, Marco V., Mazzaferro, Vincenzo, Chiow, Adrian K. H., Sucandy, Iswanto, Ivanecz, Arpad, Choi, Sung-Hoon, Lee, Jae Hoon, Prieto, Mikel, Vivarelli, Marco, Giuliante, Felice, Dalla Valle, Bernardo, Ruzzenente, Andrea, Yong, Chee-Chien, Chen, Zewei, Yin, Mengqiu, Fondevila, Constantino, Efanov, Mikhail, Morise, Zenichi, Di Benedetto, Fabrizio, Brustia, Raffaele, Dalla Valle, Raffaele, Boggi, Ugo, Geller, David, Belli, Andrea, Memeo, Riccardo, Gruttadauria, Salvatore, Mejia, Alejandro, Park, James O., Rotellar, Fernando, Choi, Gi-Hong, Robles-Campos, Ricardo, Wang, Xiaoying, Sutcliffe, Robert P., Schmelzle, Moritz, Pratschke, Johann, Tang, Chung-Ngai, Chong, Charing C. N., Lee, Kit-Fai, Meurs, Juul, D’Hondt, Mathieu, Monden, Kazuteru, Lopez-Ben, Santiago, Kingham, Thomas Peter, Ferrero, Alessandro, Ettorre, Giuseppe Maria, Levi Sandri, Giovanni Battista, Saleh, Mansour, Cherqui, Daniel, Zheng, Junhao, Liang, Xiao, Mazzotta, Alessandro, Soubrane, Olivier, Wakabayashi, Go, Troisi, Roberto I., Cheung, Tan-To, Kato, Yutaro, Sugioka, Atsushi, D’Silva, Mizelle, Han, Ho-Seong, Nghia, Phan Phuoc, Long, Tran Cong duy, Edwin, Bjørn, Fuks, David, Chen, Kuo-Hsin, Abu Hilal, Mohammad, Aldrighetti, Luca, Liu, Rong, Goh, Brian K. P., Gastaca, Mikel, De Meyere, Celine, Ng, Kelvin K., Salimgereeva, Diana, Alikhanov, Ruslan, Lee, Lip-Seng, Jang, Jae Young, Kojima, Masayuki, Kruger, Jaime Arthur Pirola, Lopez-Lopez, Victor, Casellas I Robert, Margarida, Roberto, Montalti, Giglio, Mariano, Lee, Boram, Wang, Hao-Ping, Pascual, Franco, Yu, Shian, Vani, Simone, Ardito, Francesco, Giustizieri, Ugo, Citterio, Davide, Mocchegiani, Federico, Colasanti, Marco, Guzmán, Yoelimar, Labadie, Kevin P., Conticchio, Maria, Dogeas, Epameinondas, Kauffmann, Emanuele F., Giuffrida, Mario, Sommacale, Daniele, Laurent, Alexis, Magistri, Paolo, Mishima, Kohei, Krenzien, Felix, Kadam, Prashant, Lai, Eric C. H., Ghotbi, Jacob, Fretland, Åsmund Avdem, and Forchino, Fabio

Published
2023
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50. GLPp16 gene amplification induces susceptibility to high-grade urothelial carcinoma.

Author

Liu, Yuxin, Sun, Qihao, Long, Houtao, Zhang, Daofeng, Zheng, Junhao, and Zhang, Haiyang

Subjects
P16 gene, TRANSITIONAL cell carcinoma, GENE amplification, DELETION mutation, UNIVARIATE analysis
Abstract

Background: Urothelial carcinoma is a common malignant tumor of the urinary system, with prognosis linked to pathological grade and TNM stage. Alterations in chromosomes 3, 7, and 17, along with the P16 locus on chromosome 9 (CSP3, CSP7, CSP17, and GLPp16), are associated with cancer progression and may serve as important biomarkers. This study aimed to explore the relationships between these chromosomal factors and the pathological grade and TNM stage of UCC, potentially leading to a novel diagnostic approach that enhances patient stratification and treatment planning. Methods: A retrospective analysis was conducted on 149 patients to evaluate the correlation between CSP3, CSP7, CSP17, GLPp16, TNM stage, and pathological grade using chi-square tests and logistic regression. Immunohistochemistry was employed to assess the associated changes. Results: Univariate analysis indicated that only CSP7 and GLPp16 were significantly associated with pathological grade. Logistic regression linked GLPp16 and gender to pathological grade in urothelial carcinoma. A nomogram model incorporating these factors demonstrated reliable calibration in the training set (non-significant Hosmer-Lemeshow test, P = 0.436; AUC = 0.785, 95% CI: 0.707 - 0.863) and effective discrimination in the test set (AUC = 0.740, 95% CI: 0.559 - 0.920). Immunohistochemistry revealed P16 gene deletion in low-grade urothelial carcinoma and amplification in high-grade urothelial carcinoma. Conclusion: Mutations at the GLPp16 were significantly correlated with the pathological grade of urothelial carcinoma. Additionally, the amplification of GLPp16 was recognized as a contributing factor to the development of high-grade urothelial carcinoma. [ABSTRACT FROM AUTHOR]

Published
2024
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