International audienceIn this paper we present an approach combining a finite element method and a deep neural network to learn complex elastic deformations with the objective of providing augmented reality during hep-atic surgery. Derived from the U-Net architecture, our network is built entirely from physically-based simulations of a preoperative segmenta-tion of the organ. These simulations are performed using an immersed-boundary method, which offers several numerical and practical benefits, such as not requiring boundary-conforming volume elements. We perform a quantitative assessment of the method using synthetic and ex vivo patient data. Results show that the network is capable of solving the deformed state of the organ using only a ...
International audienceIntroductionIntraoperative navigation during liver resection remains difficult...
International audienceThis paper introduces an Augmented Reality (AR) system for open liver surgery....
Presented at the SAGES 2016 Annual Meeting, March 16–19, 2016, Boston, MAInternational audienceAccur...
International audienceIn this paper we present an approach combining a finite element method and a d...
International audienceTo build an augmented view of an organ during surgery, it is essential to have...
Many engineering applications require accurate numerical simulations of non-linear structures in rea...
Many engineering applications require accurate numerical simulations of non-linear structures in rea...
International audiencePurpose:Augmented reality can improve the outcome of hepatic surgeries, assumi...
International audienceIn this paper we introduce a method for augmenting the laparoscopic view durin...
International audienceThis paper presents a method for real-time augmentation of vas- cular network ...
This thesis addresses the problem soft tissue simulation for augmented reality applications in liver...
International audienceThis paper presents a method for real-time augmented reality of internal liver...
International audienceIntroductionIntraoperative navigation during liver resection remains difficult...
International audienceThis paper introduces an Augmented Reality (AR) system for open liver surgery....
Presented at the SAGES 2016 Annual Meeting, March 16–19, 2016, Boston, MAInternational audienceAccur...
International audienceIn this paper we present an approach combining a finite element method and a d...
International audienceTo build an augmented view of an organ during surgery, it is essential to have...
Many engineering applications require accurate numerical simulations of non-linear structures in rea...
Many engineering applications require accurate numerical simulations of non-linear structures in rea...
International audiencePurpose:Augmented reality can improve the outcome of hepatic surgeries, assumi...
International audienceIn this paper we introduce a method for augmenting the laparoscopic view durin...
International audienceThis paper presents a method for real-time augmentation of vas- cular network ...
This thesis addresses the problem soft tissue simulation for augmented reality applications in liver...
International audienceThis paper presents a method for real-time augmented reality of internal liver...
International audienceIntroductionIntraoperative navigation during liver resection remains difficult...
International audienceThis paper introduces an Augmented Reality (AR) system for open liver surgery....
Presented at the SAGES 2016 Annual Meeting, March 16–19, 2016, Boston, MAInternational audienceAccur...