Ernie Chang scite author profile

The neural attention model has achieved great success in data-to-text generation tasks.Though usually excelling at producing fluent text, it suffers from the problem of information missing, repetition and "hallucination". Due to the black-box nature of the neural attention architecture, avoiding these problems in a systematic way is non-trivial. To address this concern, we propose to explicitly segment target text into fragment units and align them with their data correspondences. The segmentation and correspondence are jointly learned as latent variables without any human annotations. We further impose a soft statistical constraint to regularize the segmental granularity. The resulting architecture maintains the same expressive power as neural attention models, while being able to generate fully interpretable outputs with several times less computational cost. On both E2E and WebNLG benchmarks, we show the proposed model consistently outperforms its neural attention counterparts.

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DART: A Lightweight Quality-Suggestive Data-to-Text Annotation Tool

Chang¹,

Caplinger²,

Marin³

et al. 2020

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We present a lightweight annotation tool, the Data AnnotatoR Tool (DART), for the general task of labeling structured data with textual descriptions. The tool is implemented as an interactive application that reduces human efforts in annotating large quantities of structured data, e.g. in the format of a table or tree structure. By using a backend sequence-to-sequence model, our system iteratively analyzes the annotated labels in order to better sample unlabeled data. In a simulation experiment performed on annotating large quantities of structured data, DART has been shown to reduce the total number of annotations needed with active learning and automatically suggesting relevant labels.

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MovieChats: Chat like Humans in a Closed Domain

Su¹,

Shen²,

Zhang³

et al. 2020

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Being able to perform in-depth chat with humans in a closed domain is a precondition before an open-domain chatbot can ever be claimed. In this work, we take a close look at the movie domain and present a large-scale high-quality corpus with fine-grained annotations in hope of pushing the limit of moviedomain chatbots. We propose a unified, readily scalable neural approach which reconciles all subtasks like intent prediction and knowledge retrieval. The model is first pretrained on the huge general-domain data, then finetuned on our corpus. We show this simple neural approach trained on high-quality data is able to outperform commercial systems replying on complex rules. On both the static and interactive tests, we find responses generated by our system exhibits remarkably good engagement and sensibleness close to human-written ones.We further analyze the limits of our work and point out potential directions for future work 1 .

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Neural Data-to-Text Generation with LM-based Text Augmentation

Chang¹,

Shen

Zhu³

et al. 2021

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For many new application domains for datato-text generation, the main obstacle in training neural models consists of a lack of training data. While usually large numbers of instances are available on the data side, often only very few text samples are available. To address this problem, we here propose a novel fewshot approach for this setting. Our approach automatically augments the data available for training by (i) generating new text samples based on replacing specific values by alternative ones from the same category, (ii) generating new text samples based on GPT-2, and (iii) proposing an automatic method for pairing the new text samples with data samples. As the text augmentation can introduce noise to the training data, we use cycle consistency as an objective, in order to make sure that a given data sample can be correctly reconstructed after having been formulated as text (and that text samples can be reconstructed from data).On both the E2E and WebNLG benchmarks, we show that this weakly supervised training paradigm is able to outperform fully supervised seq2seq models with less than 10% annotations. By utilizing all annotated data, our model can boost the performance of a standard seq2seq model by over 5 BLEU points, establishing a new state-of-the-art on both datasets.

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Improving Language Generation from Feature-Rich Tree-Structured Data with Relational Graph Convolutional Encoders

Hong

Chang

Demberg

2019

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The Multilingual Surface Realization Shared Task 2019 focuses on generating sentences from lemmatized sets of universal dependency parses with rich features. This paper describes the system design and the results of our participation in the deep track. The core innovation in our approach is to use a graph convolutional network to encode the dependency trees given as input. Upon adding morphological features, our system achieves the second rank in the deep track without using data augmentation techniques or additional components (such as a re-ranker).

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Ernie Chang

Neural Data-to-Text Generation via Jointly Learning the Segmentation and Correspondence

DART: A Lightweight Quality-Suggestive Data-to-Text Annotation Tool

MovieChats: Chat like Humans in a Closed Domain

Neural Data-to-Text Generation with LM-based Text Augmentation

Improving Language Generation from Feature-Rich Tree-Structured Data with Relational Graph Convolutional Encoders

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