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1. FLEXTAF: Enhancing Table Reasoning with Flexible Tabular Formats

Author

Zhang, Xuanliang, Wang, Dingzirui, Dou, Longxu, Wang, Baoxin, Wu, Dayong, Zhu, Qingfu, and Che, Wanxiang

Subjects
Computer Science - Computation and Language
Abstract

The table reasoning task aims to answer the question according to the given table. Currently, using Large Language Models (LLMs) is the predominant method for table reasoning. Most existing methods employ a fixed tabular format to represent the table, which could limit the performance. Given that each instance requires different capabilities and models possess varying abilities, we assert that different instances and models suit different tabular formats. We prove the aforementioned claim through quantitative analysis of experimental results, where different instances and models achieve different performances using various tabular formats. Building on this discussion, we propose FLEXTAF-Single and FLEXTAF-Vote to enhance table reasoning performance by employing flexible tabular formats. Specifically, (i) FLEXTAF-Single trains a classifier to predict the most suitable tabular format based on the instance and the LLM. (ii) FLEXTAF-Vote integrates the results across different formats. Our experiments on WikiTableQuestions and TabFact reveal significant improvements, with average gains of 2.3% and 4.8% compared to the best performance achieved using a fixed tabular format with greedy decoding and self-consistency decoding, thereby validating the effectiveness of our methods.

Published
2024

2. SparkRA: A Retrieval-Augmented Knowledge Service System Based on Spark Large Language Model

Author

Wu, Dayong, Li, Jiaqi, Wang, Baoxin, Zhao, Honghong, Xue, Siyuan, Yang, Yanjie, Chang, Zhijun, Zhang, Rui, Qian, Li, Wang, Bo, Wang, Shijin, Zhang, Zhixiong, and Hu, Guoping

Subjects
Computer Science - Computation and Language
Abstract

Large language models (LLMs) have shown remarkable achievements across various language tasks.To enhance the performance of LLMs in scientific literature services, we developed the scientific literature LLM (SciLit-LLM) through pre-training and supervised fine-tuning on scientific literature, building upon the iFLYTEK Spark LLM. Furthermore, we present a knowledge service system Spark Research Assistant (SparkRA) based on our SciLit-LLM. SparkRA is accessible online and provides three primary functions: literature investigation, paper reading, and academic writing. As of July 30, 2024, SparkRA has garnered over 50,000 registered users, with a total usage count exceeding 1.3 million.

Published
2024

3. Improving Grammatical Error Correction via Contextual Data Augmentation

Author

Wang, Yixuan, Wang, Baoxin, Liu, Yijun, Zhu, Qingfu, Wu, Dayong, and Che, Wanxiang

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

Nowadays, data augmentation through synthetic data has been widely used in the field of Grammatical Error Correction (GEC) to alleviate the problem of data scarcity. However, these synthetic data are mainly used in the pre-training phase rather than the data-limited fine-tuning phase due to inconsistent error distribution and noisy labels. In this paper, we propose a synthetic data construction method based on contextual augmentation, which can ensure an efficient augmentation of the original data with a more consistent error distribution. Specifically, we combine rule-based substitution with model-based generation, using the generative model to generate a richer context for the extracted error patterns. Besides, we also propose a relabeling-based data cleaning method to mitigate the effects of noisy labels in synthetic data. Experiments on CoNLL14 and BEA19-Test show that our proposed augmentation method consistently and substantially outperforms strong baselines and achieves the state-of-the-art level with only a few synthetic data., Comment: Accepted as Findings of ACL 2024

Published
2024

4. LM-Combiner: A Contextual Rewriting Model for Chinese Grammatical Error Correction

Author

Wang, Yixuan, Wang, Baoxin, Liu, Yijun, Wu, Dayong, and Che, Wanxiang

Subjects
Computer Science - Computation and Language
Abstract

Over-correction is a critical problem in Chinese grammatical error correction (CGEC) task. Recent work using model ensemble methods based on voting can effectively mitigate over-correction and improve the precision of the GEC system. However, these methods still require the output of several GEC systems and inevitably lead to reduced error recall. In this light, we propose the LM-Combiner, a rewriting model that can directly modify the over-correction of GEC system outputs without a model ensemble. Specifically, we train the model on an over-correction dataset constructed through the proposed K-fold cross inference method, which allows it to directly generate filtered sentences by combining the original and the over-corrected text. In the inference stage, we directly take the original sentences and the output results of other systems as input and then obtain the filtered sentences through LM-Combiner. Experiments on the FCGEC dataset show that our proposed method effectively alleviates the over-correction of the original system (+18.2 Precision) while ensuring the error recall remains unchanged. Besides, we find that LM-Combiner still has a good rewriting performance even with small parameters and few training data, and thus can cost-effectively mitigate the over-correction of black-box GEC systems (e.g., ChatGPT)., Comment: Accepted to COLING 2024

Published
2024

6. CSED: A Chinese Semantic Error Diagnosis Corpus

Author

Sun, Bo, Wang, Baoxin, Wang, Yixuan, Che, Wanxiang, Wu, Dayong, Wang, Shijin, and Liu, Ting

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

Recently, much Chinese text error correction work has focused on Chinese Spelling Check (CSC) and Chinese Grammatical Error Diagnosis (CGED). In contrast, little attention has been paid to the complicated problem of Chinese Semantic Error Diagnosis (CSED), which lacks relevant datasets. The study of semantic errors is important because they are very common and may lead to syntactic irregularities or even problems of comprehension. To investigate this, we build the CSED corpus, which includes two datasets. The one is for the CSED-Recognition (CSED-R) task. The other is for the CSED-Correction (CSED-C) task. Our annotation guarantees high-quality data through quality assurance mechanisms. Our experiments show that powerful pre-trained models perform poorly on this corpus. We also find that the CSED task is challenging, as evidenced by the fact that even humans receive a low score. This paper proposes syntax-aware models to specifically adapt to the CSED task. The experimental results show that the introduction of the syntax-aware approach is meaningful., Comment: 12 pages. arXiv admin note: text overlap with arXiv:2204.07464

Published
2023

8. Prognostic risk factors of colorectal cancer patients with stage pT4bN0M0

Author

DONG Jiuxing, ZHAO Jia, WU Zhenming, LIU Jun, WANG Baoxin, SU Yu, and QI Xiuheng

Subjects
pt4bn0m0, colorectal cancer, tumor progression, risk factors, abdominal wall, reticulum, recurrent metastasis, Medicine
Abstract

Objective To analyze the prognostic characteristics of different invasion sites and the risk factors affecting overall prognosis, in patients with pT4b stage colorectal cancer who underwent radical resection and showed no lymph node metastasis (N0) by pathology. Methods The clinical and pathological data of colorectal cancer patients received surgical resection in China National Petroleum Corporation Central Hospital from 2017-01-01 to 2021-12-21 were calculated and followed up to 2022-12-31. The time of operation, the time of local recurrence or distant metastasis and the time of death were recorded. Risk factor analysis was grouped based on whether there was disease progression during follow-up. Prognosis of different groups was compared and logistic binary regression was used to screen for meaningful risk factors. Results Survival analysis showed that the disease-free survival (DFS) of patients with tumor invasion of abdominal wall or omentum was (22.2±3.2) months, DFS of tumor invasion of stomach or intestine was (28.3±5.6) months, DFS of tumor invasion of uterus or adnexal was (35.7±2.6) months, and DFS of tumor invasion of the bladder or ureteral was (30.1±3.4) months, Log-rank P=0.001 among groups. Multivariate analysis showed that the right colon (OR=6.829, 95%CI:1.603-29.093, P=0.009), tumor invasion of abdominal wall, omentum (OR=6.198, 95%CI:1.231-31.210, P=0.027), tumor maximum diameter (OR=0.565, 95%CI:0.365-0.874, P=0.010) were independent factors affecting the progression of colorectal cancer. Conclusion Among colorectal cancer patients with pathological staging pT4bN0M0, patients with tumor invasion of the uterus and appendix have the best prognosis, while patients with invasion of the abdominal wall and omentum have the worst prognosis. Patients with tumors located in the right colon and invading the abdominal wall, omentum, or smaller tumor lesions are more likely to experience regional recurrence or distant metastasis after surgery.

Published
2024
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9. Overview of CTC 2021: Chinese Text Correction for Native Speakers

Author

Zhao, Honghong, Wang, Baoxin, Wu, Dayong, Che, Wanxiang, Chen, Zhigang, and Wang, Shijin

Subjects
Computer Science - Computation and Language
Abstract

In this paper, we present an overview of the CTC 2021, a Chinese text correction task for native speakers. We give detailed descriptions of the task definition and the data for training as well as evaluation. We also summarize the approaches investigated by the participants of this task. We hope the data sets collected and annotated for this task can facilitate and expedite future development in this research area. Therefore, the pseudo training data, gold standards validation data, and entire leaderboard is publicly available online at https://destwang.github.io/CTC2021-explorer/.

Published
2022

10. Improving Pre-trained Language Models with Syntactic Dependency Prediction Task for Chinese Semantic Error Recognition

Author

Sun, Bo, Wang, Baoxin, Che, Wanxiang, Wu, Dayong, Chen, Zhigang, and Liu, Ting

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

Existing Chinese text error detection mainly focuses on spelling and simple grammatical errors. These errors have been studied extensively and are relatively simple for humans. On the contrary, Chinese semantic errors are understudied and more complex that humans cannot easily recognize. The task of this paper is Chinese Semantic Error Recognition (CSER), a binary classification task to determine whether a sentence contains semantic errors. The current research has no effective method to solve this task. In this paper, we inherit the model structure of BERT and design several syntax-related pre-training tasks so that the model can learn syntactic knowledge. Our pre-training tasks consider both the directionality of the dependency structure and the diversity of the dependency relationship. Due to the lack of a published dataset for CSER, we build a high-quality dataset for CSER for the first time named Corpus of Chinese Linguistic Semantic Acceptability (CoCLSA). The experimental results on the CoCLSA show that our methods outperform universal pre-trained models and syntax-infused models., Comment: 12 pages, 4 figures

Published
2022

16. CINO: A Chinese Minority Pre-trained Language Model

Author

Yang, Ziqing, Xu, Zihang, Cui, Yiming, Wang, Baoxin, Lin, Min, Wu, Dayong, and Chen, Zhigang

Subjects
Computer Science - Computation and Language
Abstract

Multilingual pre-trained language models have shown impressive performance on cross-lingual tasks. It greatly facilitates the applications of natural language processing on low-resource languages. However, there are still some languages that the current multilingual models do not perform well on. In this paper, we propose CINO (Chinese Minority Pre-trained Language Model), a multilingual pre-trained language model for Chinese minority languages. It covers Standard Chinese, Yue Chinese, and six other ethnic minority languages. To evaluate the cross-lingual ability of the multilingual model on ethnic minority languages, we collect documents from Wikipedia and news websites, and construct two text classification datasets, WCM (Wiki-Chinese-Minority) and CMNews (Chinese-Minority-News). We show that CINO notably outperforms the baselines on various classification tasks. The CINO model and the datasets are publicly available at http://cino.hfl-rc.com., Comment: Accepted to COLING 2022

Published
2022

17. InterHT: Knowledge Graph Embeddings by Interaction between Head and Tail Entities

Author

Wang, Baoxin, Meng, Qingye, Wang, Ziyue, Zhao, Honghong, Wu, Dayong, Che, Wanxiang, Wang, Shijin, Chen, Zhigang, and Liu, Cong

Subjects
Computer Science - Computation and Language
Abstract

Knowledge graph embedding (KGE) models learn the representation of entities and relations in knowledge graphs. Distance-based methods show promising performance on link prediction task, which predicts the result by the distance between two entity representations. However, most of these methods represent the head entity and tail entity separately, which limits the model capacity. We propose two novel distance-based methods named InterHT and InterHT+ that allow the head and tail entities to interact better and get better entity representation. Experimental results show that our proposed method achieves the best results on ogbl-wikikg2 dataset.

Published
2022

20. Home Self-medication Question-Answering System for the Elderly Based on Seq2Seq Model and Knowledge Graph Technology

Author

Wang, Baoxin, Lin, Shaofu, Huang, Zhisheng, Guo, Chaohui, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Li, Yan, editor, Huang, Zhisheng, editor, Sharma, Manik, editor, Chen, Lu, editor, and Zhou, Rui, editor

Published
2023
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21. TiBERT: A Non-autoregressive Pre-trained Model for Text Editing

Author

Wang, Baoxin, Wang, Ziyue, Che, Wanxiang, Wu, Dayong, Zhang, Rui, Wang, Bo, Wang, Shijin, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Liu, Fei, editor, Duan, Nan, editor, Xu, Qingting, editor, and Hong, Yu, editor

Published
2023
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22. CJRC: A Reliable Human-Annotated Benchmark DataSet for Chinese Judicial Reading Comprehension

Author

Duan, Xingyi, Wang, Baoxin, Wang, Ziyue, Ma, Wentao, Cui, Yiming, Wu, Dayong, Wang, Shijin, Liu, Ting, Huo, Tianxiang, Hu, Zhen, Wang, Heng, and Liu, Zhiyuan

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

We present a Chinese judicial reading comprehension (CJRC) dataset which contains approximately 10K documents and almost 50K questions with answers. The documents come from judgment documents and the questions are annotated by law experts. The CJRC dataset can help researchers extract elements by reading comprehension technology. Element extraction is an important task in the legal field. However, it is difficult to predefine the element types completely due to the diversity of document types and causes of action. By contrast, machine reading comprehension technology can quickly extract elements by answering various questions from the long document. We build two strong baseline models based on BERT and BiDAF. The experimental results show that there is enough space for improvement compared to human annotators.

Published
2019
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25. Ultrasonic-Assisted Marine Antifouling Strategy on Gel-like Epoxy Primer.

Author

Tang, Zhen, Zu, Pengjiao, Chen, Baiyi, Zhang, Xianhui, Lan, Jianfeng, Zhang, Jiaxun, Zhang, Hao, Wang, Baoxin, Ma, Li, and Wu, Jianhua

Subjects
OFFSHORE structures, SURFACE analysis, ZETA potential, MARINE organisms, MICROBIAL adhesion, ADHESION, FOULING organisms
Abstract

Ultrasonic technology has drawn extensive interests for its great potential in marine antifouling applications. However, its effects on the adhesion behavior of marine fouling organisms on marine structures remain underexplored. This work investigated how ultrasonic treatment impacted the adhesion of Pseudoalteromonas on a gel-like marine epoxy primer. And the process parameters for ultrasonic treatment were optimized using response surface analysis with Design-Expert software 11. The results revealed that ultrasonic treatment disrupted the cellular structure of Pseudoalteromonas, causing the deformation and fragmentation of the cell membrane, leading to bacterial death. Additionally, ultrasonic treatment reduced the particle size and Zeta potential value of Pseudoalteromonas, which disrupted the stability of bacterial suspensions. It also increased the relative surface hydrophobicity of Pseudoalteromonas cells, resulting in a reduction in adhesion to the gel-like marine epoxy primer. This study demonstrated that ultrasonic treatment significantly disturbed the adhesion behavior of microorganisms like Pseudoalteromonas on the gel-like marine epoxy primer, which provided an effective approach for controlling marine biofouling. [ABSTRACT FROM AUTHOR]

Published
2024
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26. Various Legal Factors Extraction Based on Machine Reading Comprehension

Author

Wang, Beichen, Wang, Ziyue, Wang, Baoxin, Wu, Dayong, Chen, Zhigang, Wang, Shijin, Hu, Guoping, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Woeginger, Gerhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Lin, Hongfei, editor, Zhang, Min, editor, and Pang, Liang, editor

Published
2021
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28. BIONIC ROBOT FISH GRADIENT RELIABILITY OPTIMIZATION DESIGN BASED ON IMPROVED QUANTUM EVOLUTIONARY ALGORITHM

Author

LI MingHao, QIAO Jie, FAN JiaYi, and WANG BaoXin

Subjects
Bionic robotic fish, Numerical simulation, Reliability, Sensitivity, Quantum evolutionary algorithm, Mechanical engineering and machinery, TJ1-1570, Materials of engineering and construction. Mechanics of materials, TA401-492
Abstract

In order to improve the working reliability of the biomimetic robotic fish, put forward a gradient reliability robust optimization design method method which is applied to the biomimetic robotic fish.Taken the bionic killer whale as the research object, based on the flapping wing motion theory, the dynamic load of the bionic killer whale was obtained by using MATLAB.Based on the theory of reliability sensitivity design, robust design theory and the theory of performance degradation, established optimization evaluation function of bionic killer whale, obtained the influence of the bionic killer whale’s design variables to reliability sensitivity gradient.The improved quantum evolutionary algorithm was used to optimize the design, the optimal solution of caudal fin propulsion mechanism was obtained.The results show that the absolute value of sensitivity of the design variables is decreased, the reliability is improved and the structure is more robust. This paper combine the flapping wing movement theory, the reliability sensitivity design theory, the reliability-based robust design theory, the theory of performance degradation and improved quantum evolutionary algorithm were combined, put forward a gradient reliability robust optimization design method method which is applied to the biomimetic robotic fish, it provides theoretical method and data support for the reliability analysis and design of bionic robot fish.

Published
2022
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31. Multiplex Profiling of miR-122 for Preclinical and Clinical Evaluation of Drug-Induced Liver Injury by a Full-Scale Platform

Author

Dong, Wuqi, Yan, Weizhen, Xu, Yuechen, Shang, Xiaofei, Wang, Wanrong, Qiu, Jie, Wang, Baoxin, Wang, Hua, Zhang, Zhongping, and Zhao, Tingting

Abstract

Diagnostic and monitoring for drug-induced liver injury (DILI) predominantly rely on serum aminotransferases. However, owing to their widespread expression across multiple organs, a significant challenge emerges from the absence of reliable biomarkers for DILI diagnosis. Herein, we introduce a concept for DILI detection, circumventing the nonspecific elevation and delayed release of aminotransferases and then straightforwardly focusing on the core feature of DILI, abnormal gene expression caused by drug overdose. The developed full-scale platform integrates the properties of spherical nucleic acids with elaborately designed fluorescence in situhybridization sequences, enabling the sensitive and specific profiling of drug-overdosed miR-122 expression alterations across molecular, cellular, organismal, and clinical scales and effectively bypassing the phenotypic features of disease. Furthermore, the diagnostic efficacies of serum and total RNA extracted from both mouse and human blood samples for DILI diagnosis were analyzed using the receiver operating characteristic curve and principal component analysis. We anticipate that this universal platform holds potential in facilitating DILI diagnosis, therapeutic evaluation, and prognosis.

Published
2024
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33. NUMERICAL SIMULATION AND RELIABILITY SENSITIVITY ANALYSIS OF BIONIC KILLER WHALES’S LOAD CHARACTERISTIC

Author

LI MingHao, QIAO Jie, ZHAO LiJuan, WANG BaoXin, FAN JiaYi, and GAO CunQiang

Subjects
Bionic, Flapping wing, Numerical simulation, Reliability, Sensitivity, Mechanical engineering and machinery, TJ1-1570, Materials of engineering and construction. Mechanics of materials, TA401-492
Abstract

As a kind of bionic robot fish,bionic killer whale played an important role in ocean development and scientific investigation. Based on the flapping wing movement theory,the bionic killer whale’s mechanism was analyzed,its instantaneous load was simulated by MATLAB. Based on the stress-strength interference theory,the bionic killer’s load reliability state function was established,the reliability index and reliability of bionic killer whale was calculated,combined with the reliability sensitivity analysis theory,the dimensionless sensitivity was obtained,analyzed the influence of the bionic killer whale’s design variables to reliability sensitivity gradient. This paper provides the theoretical basis,accurate data support and an effective numerical calculation method for the design and optimization of the bionic underwater robot with flapping wing theory as the propeller,which has important practical engineering significance.

Published
2021
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