Alert button
Picture for Danail Stoyanov

Danail Stoyanov

Alert button

*: shared first/last authors

Affordable Mobile-based Simulator for Robotic Surgery

Jul 20, 2018
Piyamate Wisanuvej, Petros Giataganas, Paul Riordan, Jean Nehme, Danail Stoyanov

Figure 1 for Affordable Mobile-based Simulator for Robotic Surgery
Figure 2 for Affordable Mobile-based Simulator for Robotic Surgery
Figure 3 for Affordable Mobile-based Simulator for Robotic Surgery
Figure 4 for Affordable Mobile-based Simulator for Robotic Surgery
Viaarxiv icon

DeepPhase: Surgical Phase Recognition in CATARACTS Videos

Jul 17, 2018
Odysseas Zisimopoulos, Evangello Flouty, Imanol Luengo, Petros Giataganas, Jean Nehme, Andre Chow, Danail Stoyanov

Figure 1 for DeepPhase: Surgical Phase Recognition in CATARACTS Videos
Figure 2 for DeepPhase: Surgical Phase Recognition in CATARACTS Videos
Figure 3 for DeepPhase: Surgical Phase Recognition in CATARACTS Videos
Figure 4 for DeepPhase: Surgical Phase Recognition in CATARACTS Videos
Viaarxiv icon

Automated Performance Assessment in Transoesophageal Echocardiography with Convolutional Neural Networks

Jun 13, 2018
Evangelos B. Mazomenos, Kamakshi Bansal, Bruce Martin, Andrew Smith, Susan Wright, Danail Stoyanov

Figure 1 for Automated Performance Assessment in Transoesophageal Echocardiography with Convolutional Neural Networks
Figure 2 for Automated Performance Assessment in Transoesophageal Echocardiography with Convolutional Neural Networks
Figure 3 for Automated Performance Assessment in Transoesophageal Echocardiography with Convolutional Neural Networks
Figure 4 for Automated Performance Assessment in Transoesophageal Echocardiography with Convolutional Neural Networks
Viaarxiv icon

Higher Order of Motion Magnification for Vessel Localisation in Surgical Video

Jun 13, 2018
Mirek Janatka, Ashwin Sridhar, John Kelly, Danail Stoyanov

Figure 1 for Higher Order of Motion Magnification for Vessel Localisation in Surgical Video
Figure 2 for Higher Order of Motion Magnification for Vessel Localisation in Surgical Video
Figure 3 for Higher Order of Motion Magnification for Vessel Localisation in Surgical Video
Figure 4 for Higher Order of Motion Magnification for Vessel Localisation in Surgical Video
Viaarxiv icon

Is the winner really the best? A critical analysis of common research practice in biomedical image analysis competitions

Jun 06, 2018
Lena Maier-Hein*, Matthias Eisenmann*, Annika Reinke, Sinan Onogur, Marko Stankovic, Patrick Scholz, Tal Arbel, Hrvoje Bogunovic, Andrew P. Bradley, Aaron Carass, Carolin Feldmann, Alejandro F. Frangi, Peter M. Full, Bram van Ginneken, Allan Hanbury, Katrin Honauer, Michal Kozubek, Bennett A. Landman, Keno März, Oskar Maier, Klaus Maier-Hein, Bjoern H. Menze, Henning Müller, Peter F. Neher, Wiro Niessen, Nasir Rajpoot, Gregory C. Sharp, Korsuk Sirinukunwattana, Stefanie Speidel, Christian Stock, Danail Stoyanov, Abdel Aziz Taha, Fons van der Sommen, Ching-Wei Wang, Marc-André Weber, Guoyan Zheng, Pierre Jannin*, Annette Kopp-Schneider*

Figure 1 for Is the winner really the best? A critical analysis of common research practice in biomedical image analysis competitions
Figure 2 for Is the winner really the best? A critical analysis of common research practice in biomedical image analysis competitions
Figure 3 for Is the winner really the best? A critical analysis of common research practice in biomedical image analysis competitions
Figure 4 for Is the winner really the best? A critical analysis of common research practice in biomedical image analysis competitions
Viaarxiv icon

Comparative evaluation of instrument segmentation and tracking methods in minimally invasive surgery

May 07, 2018
Sebastian Bodenstedt, Max Allan, Anthony Agustinos, Xiaofei Du, Luis Garcia-Peraza-Herrera, Hannes Kenngott, Thomas Kurmann, Beat Müller-Stich, Sebastien Ourselin, Daniil Pakhomov, Raphael Sznitman, Marvin Teichmann, Martin Thoma, Tom Vercauteren, Sandrine Voros, Martin Wagner, Pamela Wochner, Lena Maier-Hein, Danail Stoyanov, Stefanie Speidel

Figure 1 for Comparative evaluation of instrument segmentation and tracking methods in minimally invasive surgery
Figure 2 for Comparative evaluation of instrument segmentation and tracking methods in minimally invasive surgery
Figure 3 for Comparative evaluation of instrument segmentation and tracking methods in minimally invasive surgery
Figure 4 for Comparative evaluation of instrument segmentation and tracking methods in minimally invasive surgery
Viaarxiv icon

Interpretable Fully Convolutional Classification of Intrapapillary Capillary Loops for Real-Time Detection of Early Squamous Neoplasia

May 02, 2018
Luis C. Garcia-Peraza-Herrera, Martin Everson, Wenqi Li, Inmanol Luengo, Lorenz Berger, Omer Ahmad, Laurence Lovat, Hsiu-Po Wang, Wen-Lun Wang, Rehan Haidry, Danail Stoyanov, Tom Vercauteren, Sebastien Ourselin

Figure 1 for Interpretable Fully Convolutional Classification of Intrapapillary Capillary Loops for Real-Time Detection of Early Squamous Neoplasia
Figure 2 for Interpretable Fully Convolutional Classification of Intrapapillary Capillary Loops for Real-Time Detection of Early Squamous Neoplasia
Figure 3 for Interpretable Fully Convolutional Classification of Intrapapillary Capillary Loops for Real-Time Detection of Early Squamous Neoplasia
Figure 4 for Interpretable Fully Convolutional Classification of Intrapapillary Capillary Loops for Real-Time Detection of Early Squamous Neoplasia
Viaarxiv icon

Automated pick-up of suturing needles for robotic surgical assistance

Apr 09, 2018
Claudia D'Ettorre, George Dwyer, Xiaofei Du, Francois Chadebecq, Francisco Vasconcelos, Elena De Momi, Danail Stoyanov

Figure 1 for Automated pick-up of suturing needles for robotic surgical assistance
Figure 2 for Automated pick-up of suturing needles for robotic surgical assistance
Figure 3 for Automated pick-up of suturing needles for robotic surgical assistance
Figure 4 for Automated pick-up of suturing needles for robotic surgical assistance
Viaarxiv icon

Augmented Reality needle ablation guidance tool for Irreversible Electroporation in the pancreas

Feb 09, 2018
Timur Kuzhagaliyev, Neil T. Clancy, Mirek Janatka, Kevin Tchaka, Francisco Vasconcelos, Matthew J. Clarkson, Kurinchi Gurusamy, David J. Hawkes, Brian Davidson, Danail Stoyanov

Viaarxiv icon

Widening siamese architectures for stereo matching

Nov 01, 2017
Patrick Brandao, Evangelos Mazomenos, Danail Stoyanov

Figure 1 for Widening siamese architectures for stereo matching
Figure 2 for Widening siamese architectures for stereo matching
Figure 3 for Widening siamese architectures for stereo matching
Figure 4 for Widening siamese architectures for stereo matching
Viaarxiv icon