Akim Tsvigun scite author profile

Akim Tsvigun

5Publications

5Citation Statements Received

48Citation Statements Given

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Uncertainty Estimation of Transformer Predictions for Misclassification Detection

Vazhentsev¹,

Kuzmin²,

Shelmanov³

et al. 2022

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Uncertainty quantification (UQ) is a perspective approach to detecting Large Language Model (LLM) hallucinations and low quality output. In this work, we address one of the challenges of UQ in generation tasks that arises from the conditional dependency between the generation steps of an LLM. We propose to learn this dependency from data. We train a regression model, which target variable is the gap between the conditional and the unconditional generation confidence. During LLM inference, we use this learned conditional dependency model to modulate the uncertainty of the current generation step based on the uncertainty of the previous step. Our experimental evaluation on nine datasets and three LLMs shows that the proposed method is highly effective for uncertainty quantification, achieving substantial improvements over rivaling approaches.

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Hybrid Uncertainty Quantification for Selective Text Classification in Ambiguous Tasks

Vazhentsev¹,

Kuzmin²,

Tsvigun³

et al. 2023

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Active Learning for Abstractive Text Summarization

Tsvigun¹,

Лысенко²,

Danila³

et al. 2023

Preprint

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Construction of human-curated annotated datasets for abstractive text summarization (ATS) is very time-consuming and expensive because creating each instance requires a human annotator to read a long document and compose a shorter summary that would preserve the key information relayed by the original document. Active Learning (AL) is a technique developed to reduce the amount of annotation required to achieve a certain level of machine learning model performance. In information extraction and text classification, AL can reduce the amount of labor up to multiple times. Despite its potential for aiding expensive annotation, as far as we know, there were no effective AL query strategies for ATS. This stems from the fact that many AL strategies rely on uncertainty estimation, while as we show in our work, uncertain instances are usually noisy, and selecting them can degrade the model performance compared to passive annotation. We address this problem by proposing the first effective query strategy for AL in ATS based on diversity principles. We show that given a certain annotation budget, using our strategy in AL annotation helps to improve the model performance in terms of ROUGE and consistency scores. Additionally, we analyze the effect of self-learning and show that it can further increase the performance of the model.

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Active Learning for Abstractive Text Summarization

Tsvigun¹,

Лысенко²,

Danila³

et al. 2022

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Efficient Out-of-Domain Detection for Sequence to Sequence Models

Vazhentsev¹,

Tsvigun²,

Vashurin³

et al. 2023

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Akim Tsvigun

Uncertainty Estimation of Transformer Predictions for Misclassification Detection

Hybrid Uncertainty Quantification for Selective Text Classification in Ambiguous Tasks

Active Learning for Abstractive Text Summarization

Active Learning for Abstractive Text Summarization

Efficient Out-of-Domain Detection for Sequence to Sequence Models

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