Your search keyword '"Wang, Qianying"' showing total 17 results

1. Preclinical risk of bias assessment and PICO extraction using natural language processing

Author

Wang, Qianying, Macleod, Malcolm, and Lapata, Mirella

Abstract

Drug development starts with preclinical studies which test the efficacy and toxicology of potential candidates in living animals, before proceeding to clinical trials examined on human subjects. Many drugs shown to be effective in preclinical animal studies fail in clinical trials, indicating the potential reproducibility issues and translation failure. To obtain less biased research findings, systematic reviews are performed to collate all relevant evidence from publications. However, systematic reviews are time-consuming and researchers have advocated the use of automation techniques to speed the process and reduce human efforts. Good progress has been made in implementing automation tools into reviews for clinical trials while the tools developed for preclinical systematic reviews are scarce. Tools for preclinical systematic reviews should be designed specifically because preclinical experiments differ from clinical trials. In this thesis, I explore natural language processing models for facilitating two stages in preclinical systematic reviews: risk of bias assessment and PICO extraction. There are a range of measures used to reduce bias in animal experiments and many checklist criteria require the reporting of those measures in publications. In the first part of the thesis, I implement several binary classification models to indicate the reporting of random allocation to groups, blinded assessment of outcome, conflict of interests, compliance of animal welfare regulations, and statement of animal exclusions in preclinical publications. I compare traditional machine learning classifiers with several text representation methods, convolutional/recurrent/hierarchical neural networks, and propose two strategies to adapt BERT models to long documents. My findings indicate that neural networks and BERT-based models achieve better performance than traditional classifiers and rule-based approaches. The attention mechanism and hierarchical architecture in neural networks do not improve performance but are useful for extracting relevant words or sentences from publications to inform users' judgement. The advantages of the transformer structure are hindered when documents are long and computing resources are limited. In literature retrieval and citation screening of published evidence, the key elements of interest are Population, Intervention, Comparator and Outcome, which compose the framework of PICO. In the second part of the thesis, I first apply several question answering models based on attention flows and transformers to extract phrases describing intervention or method of induction of disease models from clinical abstracts and preclinical full texts. For preclinical datasets describing multiple interventions or induction methods in the full texts, I apply additional unsupervised information retrieval methods to extract relevant sentences. The question answering models achieve good performance when the text is at abstract-level and contains only one intervention or induction method, while for truncated documents with multiple PICO mentions, the performance is less satisfactory. Considering this limitation, I then collect preclinical abstracts with finer-grained PICO annotations and develop named entity recognition models for extraction of preclinical PICO elements including Species, Strain, Induction, Intervention, Comparator and Outcome. I decompose PICO extraction into two independent tasks: 1) PICO sentences classification, and 2) PICO elements detection. For PICO extraction, BERT-based models pre-trained from biomedical corpus outperform recurrent networks and the conditional probabilistic module only shows advantages in recurrent networks. Self-training strategy applied to enlarge training set from unlabelled abstracts yields better performance for PICO elements which lack enough amount of instances. Experimental results demonstrate the possibilities of facilitating preclinical risk of bias assessment and PICO extraction by natural language processing.

Published

2022

2. See Widely, Think Wisely: Toward Designing a Generative Multi-agent System to Burst Filter Bubbles

Author

Zhang, Yu, Sun, Jingwei, Feng, Li, Yao, Cen, Fan, Mingming, Zhang, Liuxin, Wang, Qianying, Geng, Xin, Rui, Yong, Zhang, Yu, Sun, Jingwei, Feng, Li, Yao, Cen, Fan, Mingming, Zhang, Liuxin, Wang, Qianying, Geng, Xin, and Rui, Yong

Abstract

The proliferation of AI-powered search and recommendation systems has accelerated the formation of “filter bubbles” that reinforce people's biases and narrow their perspectives. Previous research has attempted to address this issue by increasing the diversity of information exposure, which is often hindered by a lack of user motivation to engage with. In this study, we took a human-centered approach to explore how Large Language Models (LLMs) could assist users in embracing more diverse perspectives. We developed a prototype featuring LLM-powered multi-agent characters that users could interact with while reading social media content. We conducted a participatory design study with 18 participants and found that multi-agent dialogues with gamification incentives could motivate users to engage with opposing viewpoints. Additionally, progressive interactions with assessment tasks could promote thoughtful consideration. Based on these findings, we provided design implications with future work outlooks for leveraging LLMs to help users burst their filter bubbles. © 2024 Copyright held by the owner/author(s)

Published

2024

3. DreamSalon: A Staged Diffusion Framework for Preserving Identity-Context in Editable Face Generation

Author

Lin, Haonan, Wang, Mengmeng, Chen, Yan, An, Wenbin, Yao, Yuzhe, Dai, Guang, Wang, Qianying, Liu, Yong, Wang, Jingdong, Lin, Haonan, Wang, Mengmeng, Chen, Yan, An, Wenbin, Yao, Yuzhe, Dai, Guang, Wang, Qianying, Liu, Yong, and Wang, Jingdong

Abstract

While large-scale pre-trained text-to-image models can synthesize diverse and high-quality human-centered images, novel challenges arise with a nuanced task of "identity fine editing": precisely modifying specific features of a subject while maintaining its inherent identity and context. Existing personalization methods either require time-consuming optimization or learning additional encoders, adept in "identity re-contextualization". However, they often struggle with detailed and sensitive tasks like human face editing. To address these challenges, we introduce DreamSalon, a noise-guided, staged-editing framework, uniquely focusing on detailed image manipulations and identity-context preservation. By discerning editing and boosting stages via the frequency and gradient of predicted noises, DreamSalon first performs detailed manipulations on specific features in the editing stage, guided by high-frequency information, and then employs stochastic denoising in the boosting stage to improve image quality. For more precise editing, DreamSalon semantically mixes source and target textual prompts, guided by differences in their embedding covariances, to direct the model's focus on specific manipulation areas. Our experiments demonstrate DreamSalon's ability to efficiently and faithfully edit fine details on human faces, outperforming existing methods both qualitatively and quantitatively.

Published

2024

4. 4DHands: Reconstructing Interactive Hands in 4D with Transformers

Author

Lin, Dixuan, Zhang, Yuxiang, Li, Mengcheng, Liu, Yebin, Jing, Wei, Yan, Qi, Wang, Qianying, Zhang, Hongwen, Lin, Dixuan, Zhang, Yuxiang, Li, Mengcheng, Liu, Yebin, Jing, Wei, Yan, Qi, Wang, Qianying, and Zhang, Hongwen

Abstract

In this paper, we introduce 4DHands, a robust approach to recovering interactive hand meshes and their relative movement from monocular inputs. Our approach addresses two major limitations of previous methods: lacking a unified solution for handling various hand image inputs and neglecting the positional relationship of two hands within images. To overcome these challenges, we develop a transformer-based architecture with novel tokenization and feature fusion strategies. Specifically, we propose a Relation-aware Two-Hand Tokenization (RAT) method to embed positional relation information into the hand tokens. In this way, our network can handle both single-hand and two-hand inputs and explicitly leverage relative hand positions, facilitating the reconstruction of intricate hand interactions in real-world scenarios. As such tokenization indicates the relative relationship of two hands, it also supports more effective feature fusion. To this end, we further develop a Spatio-temporal Interaction Reasoning (SIR) module to fuse hand tokens in 4D with attention and decode them into 3D hand meshes and relative temporal movements. The efficacy of our approach is validated on several benchmark datasets. The results on in-the-wild videos and real-world scenarios demonstrate the superior performances of our approach for interactive hand reconstruction. More video results can be found on the project page: https://4dhands.github.io., Comment: More demo videos can be seen at our project page: https://4dhands.github.io

Published

2024

5. Side-by-Side vs Face-to-Face: Evaluating Colocated Collaboration via a Transparent Wall-sized Display

Author

Gong, Jiangtao, Sun, Jingjing, Chu, Mengdi, Wang, Xiaoye, Luo, Minghai, Lu, Yi, Zhang, Liuxin, Wu, Yaqiang, Wang, Qianying, Liu, Can, Gong, Jiangtao, Sun, Jingjing, Chu, Mengdi, Wang, Xiaoye, Luo, Minghai, Lu, Yi, Zhang, Liuxin, Wu, Yaqiang, Wang, Qianying, and Liu, Can

Abstract

Traditional wall-sized displays mostly only support side-by-side co-located collaboration, while transparent displays naturally support face-to-face interaction. Many previous works assume transparent displays support collaboration. Yet it is unknown how exactly its afforded face-to-face interaction can support loose or close collaboration, especially compared to the side-by-side configuration offered by traditional large displays. In this paper, we used an established experimental task that operationalizes different collaboration coupling and layout locality, to compare pairs of participants collaborating side-by-side versus face-to-face in each collaborative situation. We compared quantitative measures and collected interview and observation data to further illustrate and explain our observed user behavior patterns. The results showed that the unique face-to-face collaboration brought by transparent display can result in more efficient task performance, different territorial behavior, and both positive and negative collaborative factors. Our findings provided empirical understanding about the collaborative experience supported by wall-sized transparent displays and shed light on its future design., Comment: 25 pages, 13 figures

Published

2023

6. Transfer and Alignment Network for Generalized Category Discovery

Author

An, Wenbin, Tian, Feng, Shi, Wenkai, Chen, Yan, Wu, Yaqiang, Wang, Qianying, Chen, Ping, An, Wenbin, Tian, Feng, Shi, Wenkai, Chen, Yan, Wu, Yaqiang, Wang, Qianying, and Chen, Ping

Abstract

Generalized Category Discovery is a crucial real-world task. Despite the improved performance on known categories, current methods perform poorly on novel categories. We attribute the poor performance to two reasons: biased knowledge transfer between labeled and unlabeled data and noisy representation learning on the unlabeled data. To mitigate these two issues, we propose a Transfer and Alignment Network (TAN), which incorporates two knowledge transfer mechanisms to calibrate the biased knowledge and two feature alignment mechanisms to learn discriminative features. Specifically, we model different categories with prototypes and transfer the prototypes in labeled data to correct model bias towards known categories. On the one hand, we pull instances with known categories in unlabeled data closer to these prototypes to form more compact clusters and avoid boundary overlap between known and novel categories. On the other hand, we use these prototypes to calibrate noisy prototypes estimated from unlabeled data based on category similarities, which allows for more accurate estimation of prototypes for novel categories that can be used as reliable learning targets later. After knowledge transfer, we further propose two feature alignment mechanisms to acquire both instance- and category-level knowledge from unlabeled data by aligning instance features with both augmented features and the calibrated prototypes, which can boost model performance on both known and novel categories with less noise. Experiments on three benchmark datasets show that our model outperforms SOTA methods, especially on novel categories. Theoretical analysis is provided for an in-depth understanding of our model in general. Our code and data are available at https://github.com/Lackel/TAN., Comment: Accepted by AAAI 2024

Published

2023

7. Generalized Category Discovery with Large Language Models in the Loop

Author

An, Wenbin, Shi, Wenkai, Tian, Feng, Lin, Haonan, Wang, QianYing, Wu, Yaqiang, Cai, Mingxiang, Wang, Luyan, Chen, Yan, Zhu, Haiping, Chen, Ping, An, Wenbin, Shi, Wenkai, Tian, Feng, Lin, Haonan, Wang, QianYing, Wu, Yaqiang, Cai, Mingxiang, Wang, Luyan, Chen, Yan, Zhu, Haiping, and Chen, Ping

Abstract

Generalized Category Discovery (GCD) is a crucial task that aims to recognize both known and novel categories from a set of unlabeled data by utilizing a few labeled data with only known categories. Due to the lack of supervision and category information, current methods usually perform poorly on novel categories and struggle to reveal semantic meanings of the discovered clusters, which limits their applications in the real world. To mitigate the above issues, we propose Loop, an end-to-end active-learning framework that introduces Large Language Models (LLMs) into the training loop, which can boost model performance and generate category names without relying on any human efforts. Specifically, we first propose Local Inconsistent Sampling (LIS) to select samples that have a higher probability of falling to wrong clusters, based on neighborhood prediction consistency and entropy of cluster assignment probabilities. Then we propose a Scalable Query strategy to allow LLMs to choose true neighbors of the selected samples from multiple candidate samples. Based on the feedback from LLMs, we perform Refined Neighborhood Contrastive Learning (RNCL) to pull samples and their neighbors closer to learn clustering-friendly representations. Finally, we select representative samples from clusters corresponding to novel categories to allow LLMs to generate category names for them. Extensive experiments on three benchmark datasets show that Loop outperforms SOTA models by a large margin and generates accurate category names for the discovered clusters. Code and data are available at https://github.com/Lackel/LOOP., Comment: Accepted by ACL 2024 Findings, code and data are available at https://github.com/Lackel/LOOP

Published

2023

8. A Diffusion Weighted Graph Framework for New Intent Discovery

Author

Shi, Wenkai, An, Wenbin, Tian, Feng, Zheng, Qinghua, Wang, QianYing, Chen, Ping, Shi, Wenkai, An, Wenbin, Tian, Feng, Zheng, Qinghua, Wang, QianYing, and Chen, Ping

Abstract

New Intent Discovery (NID) aims to recognize both new and known intents from unlabeled data with the aid of limited labeled data containing only known intents. Without considering structure relationships between samples, previous methods generate noisy supervisory signals which cannot strike a balance between quantity and quality, hindering the formation of new intent clusters and effective transfer of the pre-training knowledge. To mitigate this limitation, we propose a novel Diffusion Weighted Graph Framework (DWGF) to capture both semantic similarities and structure relationships inherent in data, enabling more sufficient and reliable supervisory signals. Specifically, for each sample, we diffuse neighborhood relationships along semantic paths guided by the nearest neighbors for multiple hops to characterize its local structure discriminately. Then, we sample its positive keys and weigh them based on semantic similarities and local structures for contrastive learning. During inference, we further propose Graph Smoothing Filter (GSF) to explicitly utilize the structure relationships to filter high-frequency noise embodied in semantically ambiguous samples on the cluster boundary. Extensive experiments show that our method outperforms state-of-the-art models on all evaluation metrics across multiple benchmark datasets. Code and data are available at https://github.com/yibai-shi/DWGF., Comment: EMNLP 2023 Main

Published

2023

9. DNA: Denoised Neighborhood Aggregation for Fine-grained Category Discovery

Author

An, Wenbin, Tian, Feng, Shi, Wenkai, Chen, Yan, Zheng, Qinghua, Wang, QianYing, Chen, Ping, An, Wenbin, Tian, Feng, Shi, Wenkai, Chen, Yan, Zheng, Qinghua, Wang, QianYing, and Chen, Ping

Abstract

Discovering fine-grained categories from coarsely labeled data is a practical and challenging task, which can bridge the gap between the demand for fine-grained analysis and the high annotation cost. Previous works mainly focus on instance-level discrimination to learn low-level features, but ignore semantic similarities between data, which may prevent these models learning compact cluster representations. In this paper, we propose Denoised Neighborhood Aggregation (DNA), a self-supervised framework that encodes semantic structures of data into the embedding space. Specifically, we retrieve k-nearest neighbors of a query as its positive keys to capture semantic similarities between data and then aggregate information from the neighbors to learn compact cluster representations, which can make fine-grained categories more separatable. However, the retrieved neighbors can be noisy and contain many false-positive keys, which can degrade the quality of learned embeddings. To cope with this challenge, we propose three principles to filter out these false neighbors for better representation learning. Furthermore, we theoretically justify that the learning objective of our framework is equivalent to a clustering loss, which can capture semantic similarities between data to form compact fine-grained clusters. Extensive experiments on three benchmark datasets show that our method can retrieve more accurate neighbors (21.31% accuracy improvement) and outperform state-of-the-art models by a large margin (average 9.96% improvement on three metrics). Our code and data are available at https://github.com/Lackel/DNA., Comment: Accepted by EMNLP 2023 Main

Published

2023

10. Generalized Category Discovery with Decoupled Prototypical Network

Author

An, Wenbin, Tian, Feng, Zheng, Qinghua, Ding, Wei, Wang, QianYing, Chen, Ping, An, Wenbin, Tian, Feng, Zheng, Qinghua, Ding, Wei, Wang, QianYing, and Chen, Ping

Abstract

Generalized Category Discovery (GCD) aims to recognize both known and novel categories from a set of unlabeled data, based on another dataset labeled with only known categories. Without considering differences between known and novel categories, current methods learn about them in a coupled manner, which can hurt model's generalization and discriminative ability. Furthermore, the coupled training approach prevents these models transferring category-specific knowledge explicitly from labeled data to unlabeled data, which can lose high-level semantic information and impair model performance. To mitigate above limitations, we present a novel model called Decoupled Prototypical Network (DPN). By formulating a bipartite matching problem for category prototypes, DPN can not only decouple known and novel categories to achieve different training targets effectively, but also align known categories in labeled and unlabeled data to transfer category-specific knowledge explicitly and capture high-level semantics. Furthermore, DPN can learn more discriminative features for both known and novel categories through our proposed Semantic-aware Prototypical Learning (SPL). Besides capturing meaningful semantic information, SPL can also alleviate the noise of hard pseudo labels through semantic-weighted soft assignment. Extensive experiments show that DPN outperforms state-of-the-art models by a large margin on all evaluation metrics across multiple benchmark datasets. Code and data are available at https://github.com/Lackel/DPN., Comment: Accepted by AAAI 2023

Published

2022

11. Fine-grained Category Discovery under Coarse-grained supervision with Hierarchical Weighted Self-contrastive Learning

Author

An, Wenbin, Tian, Feng, Chen, Ping, Tang, Siliang, Zheng, Qinghua, Wang, QianYing, An, Wenbin, Tian, Feng, Chen, Ping, Tang, Siliang, Zheng, Qinghua, and Wang, QianYing

Abstract

Novel category discovery aims at adapting models trained on known categories to novel categories. Previous works only focus on the scenario where known and novel categories are of the same granularity. In this paper, we investigate a new practical scenario called Fine-grained Category Discovery under Coarse-grained supervision (FCDC). FCDC aims at discovering fine-grained categories with only coarse-grained labeled data, which can adapt models to categories of different granularity from known ones and reduce significant labeling cost. It is also a challenging task since supervised training on coarse-grained categories tends to focus on inter-class distance (distance between coarse-grained classes) but ignore intra-class distance (distance between fine-grained sub-classes) which is essential for separating fine-grained categories. Considering most current methods cannot transfer knowledge from coarse-grained level to fine-grained level, we propose a hierarchical weighted self-contrastive network by building a novel weighted self-contrastive module and combining it with supervised learning in a hierarchical manner. Extensive experiments on public datasets show both effectiveness and efficiency of our model over compared methods. Code and data are available at https://github.com/Lackel/Hierarchical_Weighted_SCL., Comment: Accepted by EMNLP 2022

Published

2022

12. Remote Co-teaching in Rural Classroom: Current Practices, Impacts, and Challenges

Author

Guo, Siling, Sun, Tianchen, Gong, Jiangtao, Lu, Zhicong, Zhang, Liuxin, Wang, Qianying, Guo, Siling, Sun, Tianchen, Gong, Jiangtao, Lu, Zhicong, Zhang, Liuxin, and Wang, Qianying

Abstract

The shortage of high-quality teachers is one of the biggest educational problems faced by underdeveloped areas. With the development of information and communication technologies (ICTs), China has begun a remote co-teaching intervention program using ICTs for rural classes, forming a unique co-teaching classroom. We conducted semi-structured interviews with nine remote urban teachers and twelve local rural teachers. We identified the remote co-teaching classes standard practices and co-teachers collaborative work process. We also found that remote teachers high-quality class directly impacted local teachers and students. Furthermore, interestingly, local teachers were also actively involved in making indirect impacts on their students by deeply coordinating with remote teachers and adapting the resources offered by the remote teachers. We conclude by summarizing and discussing the challenges faced by teachers, lessons learned from the current program, and related design implications to achieve a more adaptive and sustainable ICT4D program design., Comment: 16 pages, 6 figures, SIGCHI 2022

Published

2022

13. HoloBoard: a Large-format Immersive Teaching Board based on pseudo HoloGraphics

Author

Gong, Jiangtao, Han, Teng, Guo, Siling, Li, Jiannan, Zha, Siyu, Zhang, Liuxin, Tian, Feng, Wang, Qianying, Rui, Yong, Gong, Jiangtao, Han, Teng, Guo, Siling, Li, Jiannan, Zha, Siyu, Zhang, Liuxin, Tian, Feng, Wang, Qianying, and Rui, Yong

Abstract

In this paper, we present HoloBoard, an interactive large-format pseudo-holographic display system for lecture-based classes. With its unique properties of immersive visual display and transparent screen, we designed and implemented a rich set of novel interaction techniques like immersive presentation, role-play, and lecturing behind the scene that is potentially valuable for lecturing in class. We conducted a controlled experimental study to compare a HoloBoard class with a normal class by measuring students' learning outcomes and three dimensions of engagement (i.e., behavioral, emotional, and cognitive engagement). We used pre-/post- knowledge tests and multimodal learning analytics to measure students' learning outcomes and learning experiences. Results indicated that the lecture-based class utilizing HoloBoard lead to slightly better learning outcomes and a significantly higher level of student engagement. Given the results, we discussed the impact of HoloBoard as an immersive media in the classroom setting and suggest several design implications for deploying HoloBoard in immersive teaching practices., Comment: 16 pages,7 figures

Published

2021

14. MatchVIE: Exploiting Match Relevancy between Entities for Visual Information Extraction

Author

Tang, Guozhi, Xie, Lele, Jin, Lianwen, Wang, Jiapeng, Chen, Jingdong, Xu, Zhen, Wang, Qianying, Wu, Yaqiang, Li, Hui, Tang, Guozhi, Xie, Lele, Jin, Lianwen, Wang, Jiapeng, Chen, Jingdong, Xu, Zhen, Wang, Qianying, Wu, Yaqiang, and Li, Hui

Abstract

Visual Information Extraction (VIE) task aims to extract key information from multifarious document images (e.g., invoices and purchase receipts). Most previous methods treat the VIE task simply as a sequence labeling problem or classification problem, which requires models to carefully identify each kind of semantics by introducing multimodal features, such as font, color, layout. But simply introducing multimodal features couldn't work well when faced with numeric semantic categories or some ambiguous texts. To address this issue, in this paper we propose a novel key-value matching model based on a graph neural network for VIE (MatchVIE). Through key-value matching based on relevancy evaluation, the proposed MatchVIE can bypass the recognitions to various semantics, and simply focuses on the strong relevancy between entities. Besides, we introduce a simple but effective operation, Num2Vec, to tackle the instability of encoded values, which helps model converge more smoothly. Comprehensive experiments demonstrate that the proposed MatchVIE can significantly outperform previous methods. Notably, to the best of our knowledge, MatchVIE may be the first attempt to tackle the VIE task by modeling the relevancy between keys and values and it is a good complement to the existing methods., Comment: accepted by IJCAI 2021

Published

2021

15. Towards Robust Visual Information Extraction in Real World: New Dataset and Novel Solution

Author

Wang, Jiapeng, Liu, Chongyu, Jin, Lianwen, Tang, Guozhi, Zhang, Jiaxin, Zhang, Shuaitao, Wang, Qianying, Wu, Yaqiang, Cai, Mingxiang, Wang, Jiapeng, Liu, Chongyu, Jin, Lianwen, Tang, Guozhi, Zhang, Jiaxin, Zhang, Shuaitao, Wang, Qianying, Wu, Yaqiang, and Cai, Mingxiang

Abstract

Visual information extraction (VIE) has attracted considerable attention recently owing to its various advanced applications such as document understanding, automatic marking and intelligent education. Most existing works decoupled this problem into several independent sub-tasks of text spotting (text detection and recognition) and information extraction, which completely ignored the high correlation among them during optimization. In this paper, we propose a robust visual information extraction system (VIES) towards real-world scenarios, which is a unified end-to-end trainable framework for simultaneous text detection, recognition and information extraction by taking a single document image as input and outputting the structured information. Specifically, the information extraction branch collects abundant visual and semantic representations from text spotting for multimodal feature fusion and conversely, provides higher-level semantic clues to contribute to the optimization of text spotting. Moreover, regarding the shortage of public benchmarks, we construct a fully-annotated dataset called EPHOIE (https://github.com/HCIILAB/EPHOIE), which is the first Chinese benchmark for both text spotting and visual information extraction. EPHOIE consists of 1,494 images of examination paper head with complex layouts and background, including a total of 15,771 Chinese handwritten or printed text instances. Compared with the state-of-the-art methods, our VIES shows significant superior performance on the EPHOIE dataset and achieves a 9.01% F-score gain on the widely used SROIE dataset under the end-to-end scenario., Comment: 8 pages, 5 figures, to be published in AAAI 2021

Published

2021

16. Decoupled Attention Network for Text Recognition

Author

Wang, Tianwei, Zhu, Yuanzhi, Jin, Lianwen, Luo, Canjie, Chen, Xiaoxue, Wu, Yaqiang, Wang, Qianying, Cai, Mingxiang, Wang, Tianwei, Zhu, Yuanzhi, Jin, Lianwen, Luo, Canjie, Chen, Xiaoxue, Wu, Yaqiang, Wang, Qianying, and Cai, Mingxiang

Abstract

Text recognition has attracted considerable research interests because of its various applications. The cutting-edge text recognition methods are based on attention mechanisms. However, most of attention methods usually suffer from serious alignment problem due to its recurrency alignment operation, where the alignment relies on historical decoding results. To remedy this issue, we propose a decoupled attention network (DAN), which decouples the alignment operation from using historical decoding results. DAN is an effective, flexible and robust end-to-end text recognizer, which consists of three components: 1) a feature encoder that extracts visual features from the input image; 2) a convolutional alignment module that performs the alignment operation based on visual features from the encoder; and 3) a decoupled text decoder that makes final prediction by jointly using the feature map and attention maps. Experimental results show that DAN achieves state-of-the-art performance on multiple text recognition tasks, including offline handwritten text recognition and regular/irregular scene text recognition., Comment: 9 pages, 8 figures, 6 tables, accepted by AAAI-2020

Published

2019

17. Similarity is more important than expertise : accent effects in speech interfaces

Author

Dahlbäck, Nils, Wang, QianYing, Nass, Clifford, Alwin, Jenny, Dahlbäck, Nils, Wang, QianYing, Nass, Clifford, and Alwin, Jenny

Abstract

In a balanced between-participants experiment (N = 96) American and Swedish participants listened to tourist information on a website about an American or Swedish city presented in English with either an American or Swedish accent and evaluated the speakers' knowledge of the topic, the voice characteristics, and the information characteristics. Users preferred accents similar to their own. Similarity-attraction effects were so powerful that same-accents speakers were viewed as being more knowledgeable than different-accent speakers even when the information would be much better-known by the opposite-accent speaker. Implications for similarity-attraction overwhelming expertise are discussed.

Published

2007