Mitigating Open-Vocabulary Caption Hallucinations
This addresses the issue of spurious details in image captioning for AI applications, offering a more realistic evaluation and mitigation approach beyond closed-vocabulary methods.
The paper tackles the problem of hallucinations in image captioning by introducing a new benchmark, OpenCHAIR, for evaluating open-vocabulary object hallucinations, and proposes MOCHa, a reinforcement learning-based method that improves various models by balancing fidelity and adequacy without strong supervision.
While recent years have seen rapid progress in image-conditioned text generation, image captioning still suffers from the fundamental issue of hallucinations, namely, the generation of spurious details that cannot be inferred from the given image. Existing methods largely use closed-vocabulary object lists to mitigate or evaluate hallucinations in image captioning, ignoring the long-tailed nature of hallucinations that occur in practice. To this end, we propose a framework for addressing hallucinations in image captioning in the open-vocabulary setting. Our framework includes a new benchmark, OpenCHAIR, that leverages generative foundation models to evaluate open-vocabulary object hallucinations for image captioning, surpassing the popular and similarly-sized CHAIR benchmark in both diversity and accuracy. Furthermore, to mitigate open-vocabulary hallucinations without using a closed object list, we propose MOCHa, an approach harnessing advancements in reinforcement learning. Our multi-objective reward function explicitly targets the trade-off between fidelity and adequacy in generations without requiring any strong supervision. MOCHa improves a large variety of image captioning models, as captured by our OpenCHAIR benchmark and other existing metrics. Code and models can be found at: https://github.com/assafbk/mocha_code