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ORacle: Large Vision-Language Models for Knowledge-Guided Holistic OR Domain Modeling

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arxiv 2404.07031 v1 pith:GSOOHYYE submitted 2024-04-10 cs.CV

ORacle: Large Vision-Language Models for Knowledge-Guided Holistic OR Domain Modeling

classification cs.CV
keywords oracledatadomainholisticmodelingmodelsdatasetdemonstrates
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Every day, countless surgeries are performed worldwide, each within the distinct settings of operating rooms (ORs) that vary not only in their setups but also in the personnel, tools, and equipment used. This inherent diversity poses a substantial challenge for achieving a holistic understanding of the OR, as it requires models to generalize beyond their initial training datasets. To reduce this gap, we introduce ORacle, an advanced vision-language model designed for holistic OR domain modeling, which incorporates multi-view and temporal capabilities and can leverage external knowledge during inference, enabling it to adapt to previously unseen surgical scenarios. This capability is further enhanced by our novel data augmentation framework, which significantly diversifies the training dataset, ensuring ORacle's proficiency in applying the provided knowledge effectively. In rigorous testing, in scene graph generation, and downstream tasks on the 4D-OR dataset, ORacle not only demonstrates state-of-the-art performance but does so requiring less data than existing models. Furthermore, its adaptability is displayed through its ability to interpret unseen views, actions, and appearances of tools and equipment. This demonstrates ORacle's potential to significantly enhance the scalability and affordability of OR domain modeling and opens a pathway for future advancements in surgical data science. We will release our code and data upon acceptance.

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Cited by 1 Pith paper

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  1. TwinOR: Photorealistic Digital Twins of Dynamic Operating Rooms for Embodied AI Research

    cs.CV 2025-11 unverdicted novelty 5.0

    TwinOR creates dynamic photorealistic digital twins of operating rooms that generate realistic RGB and depth data enabling embodied AI perception and localization tasks to match real-world performance levels.