R-Bench: Are your Large Multimodel Model Robust to Real-world Corruption?

Chunyi Li; Jianbo Zhang; Zicheng Zhang; Haoning Wu; Yuan Tian; Wei Sun; Guo Lu; Xiaohong Liu; Xiongkuo Min; Weisi Lin; Guangtao Zhai

R-Bench: Are your Large Multimodel Model Robust to Real-world Corruption?

Chunyi Li, Jianbo Zhang, Zicheng Zhang, Haoning Wu, Yuan Tian, Wei Sun, Guo Lu, Xiaohong Liu, Xiongkuo Min, Weisi Lin, Guangtao Zhai

27 Sept 2024 (modified: 27 Nov 2024)ICLR 2025 Conference Withdrawn SubmissionEveryoneRevisionsBibTeXCC BY 4.0

Keywords: Large Multimodal Models, Robustness, User Generated Content, Perceptual Quality Corruption

TL;DR: Benchmarking the Real-world Robustness of LMMs

Abstract: The outstanding performance of Large Multimodal Models (LMMs) has made them widely applied in vision-related tasks. However, various corruptions in the real world mean that images will not be as ideal as in simulations, presenting significant challenges for the practical application of LMMs. To address this issue, we introduce R-Bench, a benchmark focused on the **Real-world Robustness of LMMs**. Specifically, we: (a) model the complete link from user capture to LMMs reception, comprising 33 corruption dimensions, including 7 steps according to the corruption sequence, and 7 groups based on low-level attributes; (b) collect reference/distorted image dataset before/after corruption, including 2,970 question-answer pairs with human labeling; (c) propose comprehensive evaluation for absolute/relative robustness and benchmark 20 mainstream LMMs. Results show that while LMMs can correctly handle the original reference images, their performance is not stable when faced with distorted images, and there is a significant gap in robustness compared to the human visual system. We hope that R-Bench will inspire improving the robustness of LMMs, **extending them from experimental simulations to the real-world application**.

Primary Area: datasets and benchmarks

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