Hiroaki Funayama


2024

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Japanese-English Sentence Translation Exercises Dataset for Automatic Grading
Naoki Miura | Hiroaki Funayama | Seiya Kikuchi | Yuichiroh Matsubayashi | Yuya Iwase | Kentaro Inui
Proceedings of the 18th Conference of the European Chapter of the Association for Computational Linguistics: Student Research Workshop

This paper proposes the task of automatic assessment of Sentence Translation Exercises (STEs), that have been used in the early stage of L2 language learning.We formalize the task as grading student responses for each rubric criterion pre-specified by the educators.We then create a dataset for STE between Japanese and English including 21 questions, along with a total of 3,498 student responses (167 on average).The answer responses were collected from students and crowd workers.Using this dataset, we demonstrate the performance of baselines including a finetuned BERT model and GPT-3.5 with few-shot learning. Experimental results showed that the baseline model with fine-tuned BERT was able to classify correct responses with approximately 90% in F1, but only less than 80% for incorrect responses. Furthermore, GPT-3.5 with few-shot learning shows a poorer result than the BERT model, indicating that our newly proposed task presents a challenging issue, even for the state-of-the-art large language model.

2023

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TohokuNLP at SemEval-2023 Task 5: Clickbait Spoiling via Simple Seq2Seq Generation and Ensembling
Hiroto Kurita | Ikumi Ito | Hiroaki Funayama | Shota Sasaki | Shoji Moriya | Ye Mengyu | Kazuma Kokuta | Ryujin Hatakeyama | Shusaku Sone | Kentaro Inui
Proceedings of the 17th International Workshop on Semantic Evaluation (SemEval-2023)

This paper describes our system submitted to SemEval-2023 Task 5: Clickbait Spoiling. We work on spoiler generation of the subtask 2 and develop a system which comprises two parts: 1) simple seq2seq spoiler generation and 2) post-hoc model ensembling. Using this simple method, we address the challenge of generating multipart spoiler. In the test set, our submitted system outperformed the baseline by a large margin (approximately 10 points above on the BLEU score) for mixed types of spoilers. We also found that our system successfully handled the challenge of the multipart spoiler, confirming the effectiveness of our approach.

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Assessing Step-by-Step Reasoning against Lexical Negation: A Case Study on Syllogism
Mengyu Ye | Tatsuki Kuribayashi | Jun Suzuki | Goro Kobayashi | Hiroaki Funayama
Proceedings of the 2023 Conference on Empirical Methods in Natural Language Processing

Large language models (LLMs) take advantage of step-by-step reasoning instructions, e.g., chain-of-thought (CoT) prompting. Building on this, their ability to perform CoT-style reasoning robustly is of interest from a probing perspective. In this study, we inspect the step-by-step reasoning ability of LLMs with a focus on negation, which is a core linguistic phenomenon that is difficult to process. In particular, we introduce several controlled settings (e.g., reasoning in case of fictional entities) to evaluate the logical reasoning abilities of the models. We observed that dozens of modern LLMs were not robust against lexical negation (e.g., plausibleimplausible) when performing CoT-style reasoning, and the results highlight unique limitations in each LLM family.

2020

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Preventing Critical Scoring Errors in Short Answer Scoring with Confidence Estimation
Hiroaki Funayama | Shota Sasaki | Yuichiroh Matsubayashi | Tomoya Mizumoto | Jun Suzuki | Masato Mita | Kentaro Inui
Proceedings of the 58th Annual Meeting of the Association for Computational Linguistics: Student Research Workshop

Many recent Short Answer Scoring (SAS) systems have employed Quadratic Weighted Kappa (QWK) as the evaluation measure of their systems. However, we hypothesize that QWK is unsatisfactory for the evaluation of the SAS systems when we consider measuring their effectiveness in actual usage. We introduce a new task formulation of SAS that matches the actual usage. In our formulation, the SAS systems should extract as many scoring predictions that are not critical scoring errors (CSEs). We conduct the experiments in our new task formulation and demonstrate that a typical SAS system can predict scores with zero CSE for approximately 50% of test data at maximum by filtering out low-reliablility predictions on the basis of a certain confidence estimation. This result directly indicates the possibility of reducing half the scoring cost of human raters, which is more preferable for the evaluation of SAS systems.