English

RADAR: Robust AI-Text Detection via Adversarial Learning

Computation and Language 2023-10-25 v2 Artificial Intelligence Machine Learning

Abstract

Recent advances in large language models (LLMs) and the intensifying popularity of ChatGPT-like applications have blurred the boundary of high-quality text generation between humans and machines. However, in addition to the anticipated revolutionary changes to our technology and society, the difficulty of distinguishing LLM-generated texts (AI-text) from human-generated texts poses new challenges of misuse and fairness, such as fake content generation, plagiarism, and false accusations of innocent writers. While existing works show that current AI-text detectors are not robust to LLM-based paraphrasing, this paper aims to bridge this gap by proposing a new framework called RADAR, which jointly trains a robust AI-text detector via adversarial learning. RADAR is based on adversarial training of a paraphraser and a detector. The paraphraser's goal is to generate realistic content to evade AI-text detection. RADAR uses the feedback from the detector to update the paraphraser, and vice versa. Evaluated with 8 different LLMs (Pythia, Dolly 2.0, Palmyra, Camel, GPT-J, Dolly 1.0, LLaMA, and Vicuna) across 4 datasets, experimental results show that RADAR significantly outperforms existing AI-text detection methods, especially when paraphrasing is in place. We also identify the strong transferability of RADAR from instruction-tuned LLMs to other LLMs, and evaluate the improved capability of RADAR via GPT-3.5-Turbo.

Keywords

Cite

@article{arxiv.2307.03838,
  title  = {RADAR: Robust AI-Text Detection via Adversarial Learning},
  author = {Xiaomeng Hu and Pin-Yu Chen and Tsung-Yi Ho},
  journal= {arXiv preprint arXiv:2307.03838},
  year   = {2023}
}

Comments

Accepted by NeurIPS 2023. Project page and demos: https://radar.vizhub.ai

R2 v1 2026-06-28T11:24:54.772Z