Nicolas Zampieri


2022

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Identification of Multiword Expressions in Tweets for Hate Speech Detection
Nicolas Zampieri | Carlos Ramisch | Irina Illina | Dominique Fohr
Proceedings of the Thirteenth Language Resources and Evaluation Conference

Multiword expression (MWE) identification in tweets is a complex task due to the complex linguistic nature of MWEs combined with the non-standard language use in social networks. MWE features were shown to be helpful for hate speech detection (HSD). In this article, we present joint experiments on these two related tasks on English Twitter data: first we focus on the MWE identification task, and then we observe the influence of MWE-based features on the HSD task. For MWE identification, we compare the performance of two systems: lexicon-based and deep neural networks-based (DNN). We experimentally evaluate seven configurations of a state-of-the-art DNN system based on recurrent networks using pre-trained contextual embeddings from BERT. The DNN-based system outperforms the lexicon-based one thanks to its superior generalisation power, yielding much better recall. For the HSD task, we propose a new DNN architecture for incorporating MWE features. We confirm that MWE features are helpful for the HSD task. Moreover, the proposed DNN architecture beats previous MWE-based HSD systems by 0.4 to 1.1 F-measure points on average on four Twitter HSD corpora.

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Identification des Expressions Polylexicales dans les Tweets (Identification of Multiword Expressions in Tweets)
Nicolas Zampieri | Carlos Ramisch | Irina Illina | Dominique Fohr
Actes de la 29e Conférence sur le Traitement Automatique des Langues Naturelles. Volume 1 : conférence principale

L’identification des expressions polylexicales (EP) dans les tweets est une tâche difficile en raison de la nature linguistique complexe des EP combinée à l’utilisation d’un langage non standard. Dans cet article, nous présentons cette tâche d’identification sur des données anglaises de Twitter. Nous comparons les performances de deux systèmes : un utilisant un dictionnaire et un autre des réseaux de neurones. Nous évaluons expérimentalement sept configurations d’un système état de l’art fondé sur des réseaux neuronaux récurrents utilisant des embeddings contextuels générés par BERT. Le système fondé sur les réseaux neuronaux surpasse l’approche dictionnaire, collecté automatiquement à partir des EP dans des corpus, grâce à son pouvoir de généralisation supérieur.

2019

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The Impact of Word Representations on Sequential Neural MWE Identification
Nicolas Zampieri | Carlos Ramisch | Geraldine Damnati
Proceedings of the Joint Workshop on Multiword Expressions and WordNet (MWE-WN 2019)

Recent initiatives such as the PARSEME shared task allowed the rapid development of MWE identification systems. Many of those are based on recent NLP advances, using neural sequence models that take continuous word representations as input. We study two related questions in neural MWE identification: (a) the use of lemmas and/or surface forms as input features, and (b) the use of word-based or character-based embeddings to represent them. Our experiments on Basque, French, and Polish show that character-based representations yield systematically better results than word-based ones. In some cases, character-based representations of surface forms can be used as a proxy for lemmas, depending on the morphological complexity of the language.

2018

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Veyn at PARSEME Shared Task 2018: Recurrent Neural Networks for VMWE Identification
Nicolas Zampieri | Manon Scholivet | Carlos Ramisch | Benoit Favre
Proceedings of the Joint Workshop on Linguistic Annotation, Multiword Expressions and Constructions (LAW-MWE-CxG-2018)

This paper describes the Veyn system, submitted to the closed track of the PARSEME Shared Task 2018 on automatic identification of verbal multiword expressions (VMWEs). Veyn is based on a sequence tagger using recurrent neural networks. We represent VMWEs using a variant of the begin-inside-outside encoding scheme combined with the VMWE category tag. In addition to the system description, we present development experiments to determine the best tagging scheme. Veyn is freely available, covers 19 languages, and was ranked ninth (MWE-based) and eight (Token-based) among 13 submissions, considering macro-averaged F1 across languages.