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Main Authors: Ta, Minh Ngoc, Van, Dong Cao, Hoang, Duc-Anh, Le-Anh, Minh, Nguyen, Truong, Nguyen, My Anh Tran, Wang, Yuxia, Nakov, Preslav, Dinh, Sang
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2505.14271
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author Ta, Minh Ngoc
Van, Dong Cao
Hoang, Duc-Anh
Le-Anh, Minh
Nguyen, Truong
Nguyen, My Anh Tran
Wang, Yuxia
Nakov, Preslav
Dinh, Sang
author_facet Ta, Minh Ngoc
Van, Dong Cao
Hoang, Duc-Anh
Le-Anh, Minh
Nguyen, Truong
Nguyen, My Anh Tran
Wang, Yuxia
Nakov, Preslav
Dinh, Sang
contents The growing collaboration between humans and AI models in generative tasks has introduced new challenges in distinguishing between human-written, LLM-generated, and human-LLM collaborative texts. In this work, we collect a multilingual, multi-domain, multi-generator dataset FAIDSet. We further introduce a fine-grained detection framework FAID to classify text into these three categories, and also to identify the underlying LLM family of the generator. Unlike existing binary classifiers, FAID is built to capture both authorship and model-specific characteristics. Our method combines multi-level contrastive learning with multi-task auxiliary classification to learn subtle stylistic cues. By modeling LLM families as distinct stylistic entities, we incorporate an adaptation to address distributional shifts without retraining for unseen data. Our experimental results demonstrate that FAID outperforms several baselines, particularly enhancing the generalization accuracy on unseen domains and new LLMs, thus offering a potential solution for improving transparency and accountability in AI-assisted writing. Our data and code are available at https://github.com/mbzuai-nlp/FAID
format Preprint
id arxiv_https___arxiv_org_abs_2505_14271
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle FAID: Fine-Grained AI-Generated Text Detection Using Multi-Task Auxiliary and Multi-Level Contrastive Learning
Ta, Minh Ngoc
Van, Dong Cao
Hoang, Duc-Anh
Le-Anh, Minh
Nguyen, Truong
Nguyen, My Anh Tran
Wang, Yuxia
Nakov, Preslav
Dinh, Sang
Computation and Language
The growing collaboration between humans and AI models in generative tasks has introduced new challenges in distinguishing between human-written, LLM-generated, and human-LLM collaborative texts. In this work, we collect a multilingual, multi-domain, multi-generator dataset FAIDSet. We further introduce a fine-grained detection framework FAID to classify text into these three categories, and also to identify the underlying LLM family of the generator. Unlike existing binary classifiers, FAID is built to capture both authorship and model-specific characteristics. Our method combines multi-level contrastive learning with multi-task auxiliary classification to learn subtle stylistic cues. By modeling LLM families as distinct stylistic entities, we incorporate an adaptation to address distributional shifts without retraining for unseen data. Our experimental results demonstrate that FAID outperforms several baselines, particularly enhancing the generalization accuracy on unseen domains and new LLMs, thus offering a potential solution for improving transparency and accountability in AI-assisted writing. Our data and code are available at https://github.com/mbzuai-nlp/FAID
title FAID: Fine-Grained AI-Generated Text Detection Using Multi-Task Auxiliary and Multi-Level Contrastive Learning
topic Computation and Language
url https://arxiv.org/abs/2505.14271