Abouzar Eslami scite author profile

Real-time instrument tracking is a crucial requirement for various computer-assisted interventions. In order to overcome problems such as specular reflections and motion blur, we propose a novel method that takes advantage of the interdependency between localization and segmentation of the surgical tool. In particular, we reformulate the 2D instrument pose estimation as heatmap regression and thereby enable a concurrent, robust and near real-time regression of both tasks via deep learning. As demonstrated by our experimental results, this modeling leads to a significantly improved performance than directly regressing the tool position and allows our method to outperform the state of the art on a Retinal Microsurgery benchmark and the MICCAI EndoVis Challenge 2015. * I. Laina and N. Rieke contributed equally to this work.

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Segmentation by retrieval with guided random walks: Application to left ventricle segmentation in MRI

Eslami

Karamalis

Katouzian

et al. 2013

Medical Image Analysis

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Real-time localization of articulated surgical instruments in retinal microsurgery

Rieke

Tan

Filippo

et al. 2016

Medical Image Analysis

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Abouzar Eslami

Concurrent Segmentation and Localization for Tracking of Surgical Instruments

Segmentation by retrieval with guided random walks: Application to left ventricle segmentation in MRI

Real-time localization of articulated surgical instruments in retinal microsurgery

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