Difference between revisions of "User:Gumprecht"

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The proposed software system consists of two distinct components (Fig. 1). First, it records data of a tracked US-device and reconstructs volume data in real-
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The proposed software system consists of two distinct components (Fig. 1). First, it records data of a tracked US-device and reconstructs volume data in real-time. Simultaneously, position and orientation data of a tracked instrument are acquired. Both the volumes and the spatial information about the tracked instrument are forwarded to the 3D simulation and navigation software [http://www.slicer.org Slicer3D].
time. Simultaneously, position and orientation data of a tracked instrument are acquired. Both the volumes and the spatial information about the tracked instru-
 
ment are forwarded to the 3D simulation and navigation software. Second, we use [http://www.slicer.org Slicer3D] as surgical simulation and navigation software.
 
 
 
 
 
In my project I am developing a Software for "Integrated Real-Time 3D Ultrasound Navigation" with the name ''4DUltrasound''. The program creates a 3D volume of recorded ultrasound frames in teal-time. The output of ''4DUltrasound'' is forwarded via [http://www.na-mic.org/Wiki/index.php/OpenIGTLink OpenIGTLink] to [http://www.slicer.org Slicer3D].
 
  
 
[[Image:SystemStructure.png | 800px ]]
 
[[Image:SystemStructure.png | 800px ]]

Revision as of 14:07, 19 March 2009

Wikipage of Jan Gumprecht

About Myself

Jan Gumprecht

I am a student in Computer Engineering from the University of Mannheim, Germany with a specification in Optoelectronics. At the moment I am writing my diploma thesis on the project described below. This is not my first stay in North America. I studied in Waterloo, On, Canada from September 2006 to August 2007 .

Contact Information

If you would like to contact me feel free to write me an e-mail.

E-mail: jgumprec (at sign) bwh.harvard.edu

Project - Development and Validation of an Open-Source Real-Time Freehand 3D Ultrasound Navigation System for Liver Surgery with GPGPU Acceleration

In my project I developed an open-source navigation system with general purpose graphics unit (GPGPU) acceleration for real-time freehand 3D-Ultrasound using conventional hardware equipment.


The proposed software system consists of two distinct components (Fig. 1). First, it records data of a tracked US-device and reconstructs volume data in real-time. Simultaneously, position and orientation data of a tracked instrument are acquired. Both the volumes and the spatial information about the tracked instrument are forwarded to the 3D simulation and navigation software Slicer3D.

SystemStructure.png

Technical Information

All technical Information can be found here: Technical Information

Progress

Here you can see the progress of my project: 4D Ultrasound Progress