Amit Moryossef scite author profile

Data-to-text generation can be conceptually divided into two parts: ordering and structuring the information (planning), and generating fluent language describing the information (realization). Modern neural generation systems conflate these two steps into a single end-to-end differentiable system. We propose to split the generation process into a symbolic text-planning stage that is faithful to the input, followed by a neural generation stage that focuses only on realization. For training a plan-to-text generator, we present a method for matching reference texts to their corresponding text plans. For inference time, we describe a method for selecting high-quality text plans for new inputs. We implement and evaluate our approach on the WebNLG benchmark. Our results demonstrate that decoupling text planning from neural realization indeed improves the system's reliability and adequacy while maintaining fluent output. We observe improvements both in BLEU scores and in manual evaluations. Another benefit of our approach is the ability to output diverse realizations of the same input, paving the way to explicit control over the generated text structure.

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Filling Gender & Number Gaps in Neural Machine Translation with Black-box Context Injection

Moryossef¹,

Aharoni²,

Goldberg³

2019

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When translating from a language that does not morphologically mark information such as gender and number into a language that does, translation systems must "guess" this missing information, often leading to incorrect translations in the given context. We propose a black-box approach for injecting the missing information to a pre-trained neural machine translation system, allowing to control the morphological variations in the generated translations without changing the underlying model or training data. We evaluate our method on an English to Hebrew translation task, and show that it is effective in injecting the gender and number information and that supplying the correct information improves the translation accuracy in up to 2.3 BLEU on a female-speaker test set for a stateof-the-art online black-box system. Finally, we perform a fine-grained syntactic analysis of the generated translations that shows the effectiveness of our method.

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Real-Time Sign Language Detection Using Human Pose Estimation

Moryossef

Tsochantaridis

Aharoni

et al. 2020

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Step-by-Step: Separating Planning from Realization in Neural Data-to-Text Generation

Moryossef¹,

Goldberg²,

Dagan³

2019

Preprint

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Amit Moryossef

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Filling Gender & Number Gaps in Neural Machine Translation with Black-box Context Injection

Real-Time Sign Language Detection Using Human Pose Estimation

Step-by-Step: Separating Planning from Realization in Neural Data-to-Text Generation

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