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activities:theme1:projects:video:index [2012/02/06 02:58]
127.0.0.1 external edit
activities:theme1:projects:video:index [2016/01/05 14:42]
janin
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   * [[members:​pierre.jannin:​index|Pierre Jannin]] - Leader   * [[members:​pierre.jannin:​index|Pierre Jannin]] - Leader
-  * [[members:​florent.lalys:​index|Florent Lalys]] - PhD student +  * [[members:​florent.lalys:​index|Florent Lalys]] - Post doc
-  * [[members:​xavier.morandi:​index|Xavier Morandi]] - Medical expert+
   * [[members:​laurent.riffaud:​index|Laurent Riffaud]] - Medical expert   * [[members:​laurent.riffaud:​index|Laurent Riffaud]] - Medical expert
 +  * [[members:​david.bouget:​index|David Bouget]] - PhD student
 +  * [[members:​xavier.morandi:​index|Xavier Morandi]] - Medical expert
  
  
 ====== General purpose ====== ====== General purpose ======
  
-We are using machine learning based approaches along with computer vision techniques to automatically recognize ​the surgical ​phases ​from surgical videos (PhD of [[members:​florent.lalys:​index|Florent Lalys]]). In collaboration with Carl Zeiss Medical Systems (http://​wwww.zeiss.com/​),​ we are studying the use of this approach for automatic ​labelling and indexation of surgical videos. +The need for a better integration of the new generation of Computer-Assisted-Surgical (CAS) systems has been recently emphasized. One necessity to achieve this objective is to retrieve data from the Operating Room (OR) with different sensors, then to derive models from these data. Recently, the use of videos from cameras in the OR has demonstrated its efficiency. In this project, we propose a framework to assist in the development of systems for the automatic recognition of high level surgical tasks using microscope videos analysis. ​We are using machine learning based approaches along with computer vision techniques to automatically recognize surgical ​tasks from surgical videos (PhD of [[members:​florent.lalys:​index|Florent Lalys]]). In collaboration with Carl Zeiss Medical Systems (http://​wwww.zeiss.com/​),​ we are studying the use of this approach for automatic indexation of surgical videos.
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-{{ :​activities:​theme1:​projects:​video:​workflow.png?​130x416| }}+
  
 ====== Description ====== ====== Description ======
  
-In order to better understand and describe surgical procedures using surgical process models, the field of surgical workflow segmentation has recently emerged. It aims at recognizing high-level surgical tasks in the Operating Room with the help of sensor- or human-based systems. Our novel approach focused on the automatic recognition ​of phases by microscope ​image analysis, which has never been done beforeWe used a hybrid method that combines supervised ​classification and a discrete ​Hidden Markov ​Model. We first performed feature extraction and selection on surgical microscope frames to create image databases. Then, machine learning algorithms along with data dimension reduction ​were assessedThe entire workflow is shown on the figure.+The idea is to combine state-of-the-art computer vision techniques ​with time series analysis. The first step of the framework consisted in the definition of several visual cues for extracting semantic information,​ therefore characterizing each frame of the video. Five different pieces ​of image-based classifiers were therefore implementedSpecific pre-processing steps may also be applied for dedicated visual cue detection. Time series ​classification ​algorithms were then applied to model time-varying data. Dynamic Time Warping (DTW) and Hidden Markov ​Models (HMM) were testedThis association combined the advantages of all methods for better understanding of the problem
  
-Then, our framework was tested on two various datasets, including one specific types of neurosurgical interventions and one type of ophthalmological surgery. The figure show the different surgical phases that have been defined by surgeons.+{{:​activities:​theme1:​projects:​video:​workflow_tmi.jpg|}}
  
-With this systemwe are now able to recognize the surgical phase of every unknown image by computing its signature ​and then classifying it with machine learning techniques.This will enable ​the system to be used in clinical applications such as post-operative video indexation.+Thenour framework was validated on two various datasets, including one specific types of neurosurgical interventions ​and one type of ophthalmological surgeryThe following figures show the different surgical phases that have been defined by surgeons.
  
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 Definition of 6 surgical phases in Hypophyse surgeries :  Definition of 6 surgical phases in Hypophyse surgeries : 
 {{ :​activities:​theme1:​projects:​video:​hypophyse.png?​560x250 }}\\ {{ :​activities:​theme1:​projects:​video:​hypophyse.png?​560x250 }}\\
 Definition of 8 surgical phases in Cataract surgeries : Definition of 8 surgical phases in Cataract surgeries :
-{{ :​activities:​theme1:​projects:​video:​cataract.png?512x188 ​}}+{{ :​activities:​theme1:​projects:​video:​8_etape_cataracte.jpg?600 }}\\
  
 +With this system, we are now able to recognize the surgical phase of every unknown image by computing its signature and then classifying it with machine learning techniques.This will enable the system to be used in clinical applications such as post-operative video indexation.
  
-====== ​Demonstration ​======+==== Results ​==== 
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 +=== Demonstration ​===
  
 Here is a demonstration of the system, in the context of cataract surgeries :  ​ Here is a demonstration of the system, in the context of cataract surgeries :  ​
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 <​flashplayer width=600 height=400>​file=https://​www.irisa.fr/​visages/​old/​team/​lalys/​demo_these.flv</​flashplayer>​\\ <​flashplayer width=600 height=400>​file=https://​www.irisa.fr/​visages/​old/​team/​lalys/​demo_these.flv</​flashplayer>​\\
  
 +=== Publications ===
 +
 +====== Publications ======
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