Litcius/Paper detail

Weakly Supervised Temporal Convolutional Networks for Fine-Grained Surgical Activity Recognition

Sanat Ramesh, Diego Dall’Alba, Cristians González, Tong Yu, Pietro Mascagni, Didier Mutter, Jacques Marescaux, Paolo Fiorini, Nicolas Padoy

2023IEEE Transactions on Medical Imaging13 citationsDOIOpen Access PDF

Abstract

Automatic recognition of fine-grained surgical activities, called steps, is a challenging but crucial task for intelligent intra-operative computer assistance. The development of current vision-based activity recognition methods relies heavily on a high volume of manually annotated data. This data is difficult and time-consuming to generate and requires domain-specific knowledge. In this work, we propose to use coarser and easier-to-annotate activity labels, namely phases, as weak supervision to learn step recognition with fewer step annotated videos. We introduce a step-phase dependency loss to exploit the weak supervision signal. We then employ a Single-Stage Temporal Convolutional Network (SS-TCN) with a ResNet-50 backbone, trained in an end-to-end fashion from weakly annotated videos, for temporal activity segmentation and recognition. We extensively evaluate and show the effectiveness of the proposed method on a large video dataset consisting of 40 laparoscopic gastric bypass procedures and the public benchmark CATARACTS containing 50 cataract surgeries.

Topics & Concepts

Computer scienceBenchmark (surveying)Activity recognitionArtificial intelligenceSegmentationConvolutional neural networkTask (project management)Pattern recognition (psychology)Deep learningExploitDomain knowledgeFeature extractionMachine learningComputer securityGeographyManagementGeodesyEconomicsSurgical Simulation and TrainingCardiac, Anesthesia and Surgical OutcomesAnatomy and Medical Technology
Weakly Supervised Temporal Convolutional Networks for Fine-Grained Surgical Activity Recognition | Litcius