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 ---
license: apache-2.0
datasets:
- ardamamur/EgoExOR
language:
- en
metrics:
- f1
base_model:
- liuhaotian/llava-v1.5-7b
---
# EgoExOR Scene Graph Foundation Model
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<td style="padding: 0;">
<a href="https://huggingface.co/datasets/ardamamur/EgoExOR">
<img src="https://img.shields.io/badge/Data-4d5eff?style=for-the-badge&logo=huggingface&logoColor=ffffff&labelColor" alt="Data">
</a>
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<td style="padding: 0;">
<a href="https://github.com/ardamamur/EgoExOR">
<img src="https://img.shields.io/badge/Code-000000?style=for-the-badge&logo=github&logoColor=white" alt="Code">
</a>
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</table>
This repository hosts the foundation model for **surgical scene graph generation** trained on the [EgoExOR](https://huggingface.co/datasets/ardamamur/EgoExOR) dataset – a multimodal, multi-perspective dataset collected in a simulated operating room (OR) environment.
> Operating rooms (ORs) demand precise coordination among surgeons, nurses, and equipment in a fast-paced, occlusion-heavy environment, necessitating
> advanced perception models to enhance safety and efficiency. Existing datasets either provide partial egocentric views or sparse exocentric multi-view context,
> but don't explore the comprehensive combination of both. We introduce EgoExOR,
> the first OR dataset and accompanying benchmark to fuse first-person and third-person perspectives.
> Spanning 94 minutes (84,553 frames at 15 FPS) of two simulated spine procedures,
> Ultrasound-Guided Needle Insertion and Minimally Invasive Spine Surgery,
> EgoExOR integrates egocentric data (RGB, gaze, hand tracking, audio) from wearable glasses,
> exocentric RGB and depth from RGB-D cameras, and ultrasound imagery.
> Its detailed scene graph annotations, covering 36 entities and 22 relations (~573,000 triplets), enable robust modeling of clinical interactions,
> supporting tasks like action recognition and human-centric perception. We evaluate the surgical scene graph generation performance of
> two adapted state-of-the-art models and offer a new baseline that explicitly leverages EgoExOR’s multimodal and multi-perspective signals.
> Our new dataset and benchmark set a new foundation for OR perception, offering a rich,
> multimodal resource for next-generation clinical perception. Our code available at [EgoExOR GitHub](https://github.com/ardamamur/EgoExOR) and dataset [EgoExOR Hugging Face Dataset](https://huggingface.co/datasets/ardamamur/EgoExOR)
## 🧠 Model Overview
<p align="center">
<img src="https://github.com/ardamamur/EgoExOR/blob/main/figures/model_overview.png?raw=true" alt="EgoExOR Overview" width="80%"/>
</p>
<p align="center">
<em>Figure: Overview of the proposed EgoExOR model for surgical scene graph generation. The model
employs a dual-branch architecture to separately process egocentric and exocentric modalities. Fused
embeddings are passed to a large language model (LLM) to autoregressively generate scene graph
triplets representing entities and their interactions.</em>
</p>
EgoExOR Model. To fully exploit EgoExOR’s rich multi-perspective data, we introduce a new baseline model featuring a dual-branch architecture.
The egocentric branch processes first
person RGB, hand pose, and gaze data, while the exocentric branch handles third-person RGB-D,
ultrasound recordings, audio, and point clouds. Each branch uses a 2-layer transformer to fuse its inputs into N feature embeddings.
These are concatenated and fed into the LLM for triplet prediction.
By explicitly separating and fusing perspective-specific features,
our model better captures actions and staff interactions, outperforming single-stream baselines in modeling complex OR dynamics.
## 📊 Benchmark Results
This model outperforms prior single-stream baselines like [ORacle](https://arxiv.org/pdf/2404.07031) and [MM2SG](https://arxiv.org/pdf/2503.02579)
by effectively leveraging perspective-specific signals.
> | Model | UI F1 | MISS F1 | Overall F1 |
|------------------|-------|---------|------------|
| ORacle (Baseline) | 0.70 | 0.71 | 0.69 |
| MM2SG (Baseline) | 0.77 | 0.68 | 0.72 |
| **EgoExOR (Ours)**| **0.86** | **0.70** | **0.79** |
Overall the results, shown in Table above, the dual-branch EgoExOR model achieves
the highest macro F1. Several predicates in EgoExOR rely on understanding transient tool-hand
trajectories, and fine-grained action cues. This emphasizes the importance of explicitly modeling
multiple viewpoints and leveraging all available modalities to improve OR scene understanding.
## 🗃️ Dataset
EgoExOR provides:
- 84,553 frames (94 mins)
- 2 surgical procedures (Ultrasound Injection & MISS)
- 36 entities, 22 predicates
- Over 573,000 triplets
- Multimodal signals: RGB, depth, gaze, audio, ultrasound, point cloud, hand tracking
You can find the dataset processing tools [GitHub repo](https://github.com/ardamamur/EgoExOR).
## 🔗 Links
- 🖥️ Code: [EgoExOR GitHub](https://github.com/ardamamur/EgoExOR)
- 🤗 Dataset: [EgoExOR Hugging Face Dataset](https://huggingface.co/datasets/ardamamur/EgoExOR)
- 🤗 Model Card & Weights: [EgoExOR Hugging Face Model](https://huggingface.co/ardamamur/EgoExOR)