ISINet: An Instance-Based Approach for Surgical Instrument Segmentation
About
We study the task of semantic segmentation of surgical instruments in robotic-assisted surgery scenes. We propose the Instance-based Surgical Instrument Segmentation Network (ISINet), a method that addresses this task from an instance-based segmentation perspective. Our method includes a temporal consistency module that takes into account the previously overlooked and inherent temporal information of the problem. We validate our approach on the existing benchmark for the task, the Endoscopic Vision 2017 Robotic Instrument Segmentation Dataset, and on the 2018 version of the dataset, whose annotations we extended for the fine-grained version of instrument segmentation. Our results show that ISINet significantly outperforms state-of-the-art methods, with our baseline version duplicating the Intersection over Union (IoU) of previous methods and our complete model triplicating the IoU.
Related benchmarks
| Task | Dataset | Result | Rank | |
|---|---|---|---|---|
| Surgical Instrument Segmentation | EndoVis 2018 (test) | Ch_IoU73.03 | 32 | |
| Surgical Instrument Segmentation | Robust-MIS 2019 (test) | Mean Dice89.6 | 24 | |
| Surgical Instrument Segmentation | EndoVis 2017 (test) | mIoU52.2 | 22 | |
| Surgical Instrument Segmentation | EndoVis 2017 | Ch_IoU55.62 | 11 | |
| Instrument Semantic Segmentation | GraSP (cross-validation) | mIoU0.7844 | 8 | |
| Surgical Tool Segmentation | CaDIS (test) | IoU (m)11.51 | 7 | |
| Tool Segmentation | Sankara-MSICS (test) | mIoU27.55 | 6 | |
| Instrument Instance Segmentation | GraSP (cross-validation) | mAP@0.5 (Box)79.85 | 6 | |
| Binary Instrument Segmentation | Robust-MIS 2019 (Stage 1) | Mean Dice90.9 | 5 | |
| Binary Instrument Segmentation | Robust-MIS 2019 (Stage 3) | mDice0.862 | 5 |