TY - GEN
T1 - Investigating and Mitigating the Multimodal Hallucination Snowballing in Large Vision-Language Models
AU - Zhong, Weihong
AU - Feng, Xiaocheng
AU - Zhao, Liang
AU - Li, Qiming
AU - Huang, Lei
AU - Gu, Yuxuan
AU - Ma, Weitao
AU - Xu, Yuan
AU - Qin, Bing
N1 - Publisher Copyright:
© 2024 Association for Computational Linguistics.
PY - 2024
Y1 - 2024
N2 - Though advanced in understanding visual information with human languages, Large Vision-Language Models (LVLMs) still suffer from multimodal hallucinations. A natural concern is that during multimodal interaction, the generated hallucinations could influence the LVLMs' subsequent generation. Thus, we raise a question: When presented with a query relevant to the previously generated hallucination, will LVLMs be misled and respond incorrectly, even though the ground visual information exists? To answer this, we propose a framework called MMHalSnowball to evaluate LVLMs' behaviors when encountering generated hallucinations, where LVLMs are required to answer specific visual questions within a curated hallucinatory conversation. Crucially, our experiment shows that the performance of open-source LVLMs drops by at least 31%, indicating that LVLMs are prone to accept the generated hallucinations and make false claims that they would not have supported without distractions. We term this phenomenon Multimodal Hallucination Snowballing. To mitigate this, we further propose a training-free method called Residual Visual Decoding, where we revise the output distribution of LVLMs with the one derived from the residual visual input, providing models with direct access to the visual information. Experiments show that our method can mitigate more than 24% of the snowballed multimodal hallucination while maintaining capabilities.
AB - Though advanced in understanding visual information with human languages, Large Vision-Language Models (LVLMs) still suffer from multimodal hallucinations. A natural concern is that during multimodal interaction, the generated hallucinations could influence the LVLMs' subsequent generation. Thus, we raise a question: When presented with a query relevant to the previously generated hallucination, will LVLMs be misled and respond incorrectly, even though the ground visual information exists? To answer this, we propose a framework called MMHalSnowball to evaluate LVLMs' behaviors when encountering generated hallucinations, where LVLMs are required to answer specific visual questions within a curated hallucinatory conversation. Crucially, our experiment shows that the performance of open-source LVLMs drops by at least 31%, indicating that LVLMs are prone to accept the generated hallucinations and make false claims that they would not have supported without distractions. We term this phenomenon Multimodal Hallucination Snowballing. To mitigate this, we further propose a training-free method called Residual Visual Decoding, where we revise the output distribution of LVLMs with the one derived from the residual visual input, providing models with direct access to the visual information. Experiments show that our method can mitigate more than 24% of the snowballed multimodal hallucination while maintaining capabilities.
UR - https://www.scopus.com/pages/publications/85204454741
U2 - 10.18653/v1/2024.acl-long.648
DO - 10.18653/v1/2024.acl-long.648
M3 - 会议稿件
AN - SCOPUS:85204454741
T3 - Proceedings of the Annual Meeting of the Association for Computational Linguistics
SP - 11991
EP - 12011
BT - Long Papers
A2 - Ku, Lun-Wei
A2 - Martins, Andre F. T.
A2 - Srikumar, Vivek
PB - Association for Computational Linguistics (ACL)
T2 - 62nd Annual Meeting of the Association for Computational Linguistics, ACL 2024
Y2 - 11 August 2024 through 16 August 2024
ER -