Yachna Sharma scite author profile

We present an automated framework for visual assessment of the expertise level of surgeons using the OSATS (Objective Structured Assessment of Technical Skills) criteria. Video analysis techniques for extracting motion quality via frequency coefficients are introduced. The framework is tested on videos of medical students with different expertise levels performing basic surgical tasks in a surgical training lab setting. We demonstrate that transforming the sequential time data into frequency components effectively extracts the useful information differentiating between different skill levels of the surgeons. The results show significant performance improvements using DFT and DCT coefficients over known state-of-the-art techniques.

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Automated video-based assessment of surgical skills for training and evaluation in medical schools

Zia

Sharma

Bettadapura

et al. 2016

Int J CARS

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Video and accelerometer-based motion analysis for automated surgical skills assessment

et al. 2018

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Automated surgical OSATS prediction from videos

Sharma

Plötz

Hammerld

et al. 2014

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The assessment of surgical skills is an essential part of medical training. The prevalent manual evaluations by expert surgeons are time consuming and often their outcomes vary substantially from one observer to another. We present a videobased framework for automated evaluation of surgical skills based on the Objective Structured Assessment of Technical Skills (OSATS) criteria. We encode the motion dynamics via frame kernel matrices, and represent the motion granularity by texture features. Linear discriminant analysis is used to derive a reduced dimensionality feature space followed by linear regression to predict OSATS skill scores. We achieve statistically significant correlation (p-value <0.01) between the ground-truth (given by domain experts) and the OSATS scores predicted by our framework.

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Yachna Sharma

Automated Assessment of Surgical Skills Using Frequency Analysis

Automated video-based assessment of surgical skills for training and evaluation in medical schools

Video and accelerometer-based motion analysis for automated surgical skills assessment

Automated surgical OSATS prediction from videos

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