Difference between revisions of "2012 Summer Project Week Breakout Session:Ultrasound"

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* Improving Ultrasound imaging.  This involves acquiring RF level or other data from the mid-processor stage of the imager (see http://www.ti.com/lit/wp/sprab12/sprab12.pdf, Figure 2) with the intent to provide a more suitable image for  a particular application.
 
* Improving Ultrasound imaging.  This involves acquiring RF level or other data from the mid-processor stage of the imager (see http://www.ti.com/lit/wp/sprab12/sprab12.pdf, Figure 2) with the intent to provide a more suitable image for  a particular application.
 
* Ultrasound post-processing, in which the image is processed to better enable, for example, registration to a CT data set.
 
* Ultrasound post-processing, in which the image is processed to better enable, for example, registration to a CT data set.
 +
** [[2012 Summer Project Week Breakout Session: Ultrasound: Denoising|Denoising with Ultrasound specific statistical filters]]
 
* Calibration, registration and display of ultrasound in 3D Slicer
 
* Calibration, registration and display of ultrasound in 3D Slicer
 
* Real time (lag free) display of high quality US in Slicer for procedure guidance  and lag free registered display in 3D models.  
 
* Real time (lag free) display of high quality US in Slicer for procedure guidance  and lag free registered display in 3D models.  

Revision as of 20:54, 14 June 2012

Home < 2012 Summer Project Week Breakout Session:Ultrasound

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  • Improving Ultrasound imaging. This involves acquiring RF level or other data from the mid-processor stage of the imager (see http://www.ti.com/lit/wp/sprab12/sprab12.pdf, Figure 2) with the intent to provide a more suitable image for a particular application.
  • Ultrasound post-processing, in which the image is processed to better enable, for example, registration to a CT data set.
  • Calibration, registration and display of ultrasound in 3D Slicer
  • Real time (lag free) display of high quality US in Slicer for procedure guidance and lag free registered display in 3D models.
  • The combination of 3 and 4 on low cost commodity hardware.
  • The capture of all data to enable post procedure replay of a experimental or clinical session, so that the various processing steps can be debugged and optimized.

Tentative list of presentations

  • Temporal and spatial calibration of US using PLUS (Andras/Csaba)
  • Registration and real time display of US in Slicer for procedure guidance (Tamas)
  • Perk Tutor: A configurable, Slicer-based training platform for ultrasound-guided needle insertions (Tamas)
  • Low cost hardware. Capture and replay of experimental or clinical sessions (Kirby)
  • Slicer CaseHub - Plans for capturing, organizing, and accessing multi-track procedure data (Steve)