Jan A. Botha scite author profile

We propose a new formulation for multilingual entity linking, where language-specific mentions resolve to a language-agnostic Knowledge Base. We train a dual encoder in this new setting, building on prior work with improved feature representation, negative mining, and an auxiliary entity-pairing task, to obtain a single entity retrieval model that covers 100+ languages and 20 million entities. The model outperforms state-of-the-art results from a far more limited cross-lingual linking task. Rare entities and low-resource languages pose challenges at this large-scale, so we advocate for an increased focus on zero-and few-shot evaluation. To this end, we provide Mewsli-9, a large new multilingual dataset 1 matched to our setting, and show how frequency-based analysis provided key insights for our model and training enhancements.

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Learning To Split and Rephrase From Wikipedia Edit History

Botha¹,

Faruqui²,

Alex³

et al. 2018

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Split and rephrase is the task of breaking down a sentence into shorter ones that together convey the same meaning. We extract a rich new dataset for this task by mining Wikipedia's edit history: WikiSplit contains one million naturally occurring sentence rewrites, providing sixty times more distinct split examples and a ninety times larger vocabulary than the WebSplit corpus introduced by Narayan et al.(2017) as a benchmark for this task. Incorporating WikiSplit as training data produces a model with qualitatively better predictions that score 32 BLEU points above the prior best result on the WebSplit benchmark.

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Cross-Lingual Morphological Tagging for Low-Resource Languages

Buys¹,

Botha²

2016

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Morphologically rich languages often lack the annotated linguistic resources required to develop accurate natural language processing tools. We propose models suitable for training morphological taggers with rich tagsets for low-resource languages without using direct supervision. Our approach extends existing approaches of projecting part-of-speech tags across languages, using bitext to infer constraints on the possible tags for a given word type or token. We propose a tagging model using Wsabie, a discriminative embeddingbased model with rank-based learning. In our evaluation on 11 languages, on average this model performs on par with a baseline weakly-supervised HMM, while being more scalable. Multilingual experiments show that the method performs best when projecting between related language pairs. Despite the inherently lossy projection, we show that the morphological tags predicted by our models improve the downstream performance of a parser by +0.6 LAS on average.

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XTREME-R: Towards More Challenging and Nuanced Multilingual Evaluation

Ruder¹,

Constant²,

Botha³

et al. 2021

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Machine learning has brought striking advances in multilingual natural language processing capabilities over the past year. For example, the latest techniques have improved the state-of-the-art performance on the XTREME multilingual benchmark by more than 13 points. While a sizeable gap to humanlevel performance remains, improvements have been easier to achieve in some tasks than in others. This paper analyzes the current state of cross-lingual transfer learning and summarizes some lessons learned. In order to catalyze meaningful progress, we extend XTREME to XTREME-R, which consists of an improved set of ten natural language understanding tasks, including challenging language-agnostic retrieval tasks, and covers 50 typologically diverse languages. In addition, we provide a massively multilingual diagnostic suite (MULTICHECKLIST) and finegrained multi-dataset evaluation capabilities through an interactive public leaderboard to gain a better understanding of such models. 2020. XTREME: A Massively Multilingual Multitask Benchmark for Evaluating Cross-lingual Generalization. In Proceedings of ICML 2020.

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Asking without Telling: Exploring Latent Ontologies in Contextual Representations

Michael

Botha

Tenney

2020

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The success of pretrained contextual encoders, such as ELMo and BERT, has brought a great deal of interest in what these models learn: do they, without explicit supervision, learn to encode meaningful notions of linguistic structure? If so, how is this structure encoded? To investigate this, we introduce latent subclass learning (LSL): a modification to classifierbased probing that induces a latent categorization (or ontology) of the probe's inputs. Without access to fine-grained gold labels, LSL extracts emergent structure from input representations in an interpretable and quantifiable form. In experiments, we find strong evidence of familiar categories, such as a notion of personhood in ELMo, as well as novel ontological distinctions, such as a preference for fine-grained semantic roles on core arguments. Our results provide unique new evidence of emergent structure in pretrained encoders, including departures from existing annotations which are inaccessible to earlier methods.

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Jan A. Botha

Entity Linking in 100 Languages

Learning To Split and Rephrase From Wikipedia Edit History

Cross-Lingual Morphological Tagging for Low-Resource Languages

XTREME-R: Towards More Challenging and Nuanced Multilingual Evaluation

Asking without Telling: Exploring Latent Ontologies in Contextual Representations

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