Difference between revisions of "Projects"

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(Helmsley (Larry Smarr, Jurgen Schulze, 2018-2021))
(Helmsley (Larry Smarr, Jurgen Schulze, 2018-2021))
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   <td>In this [https://ucsdnews.ucsd.edu/feature/helmsley-charitable-trust-grants-uc-san-diego-4.7m-to-study-crohns-disease collaborative grant with Dr. Smarr] we have been working on developing software tools to support surgical planning, training and patient education for Crohn's disease.<br>
 
   <td>In this [https://ucsdnews.ucsd.edu/feature/helmsley-charitable-trust-grants-uc-san-diego-4.7m-to-study-crohns-disease collaborative grant with Dr. Smarr] we have been working on developing software tools to support surgical planning, training and patient education for Crohn's disease.<br>
 
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'''Publications:'''
* Lucknavalai, K., Schulze, J.P., [http://web.eng.ucsd.edu/~jschulze/publications/Lucknavalai2020.pdf "Real-Time Contrast Enhancement for 3D Medical Images using Histogram Equalization"], In Proceedings of the International Symposium on Visual Computing (ISVC 2020), San Diego, CA, Oct 5, 2020 </td>
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* Lucknavalai, K., Schulze, J.P., [http://web.eng.ucsd.edu/~jschulze/publications/Lucknavalai2020.pdf "Real-Time Contrast Enhancement for 3D Medical Images using Histogram Equalization"], In Proceedings of the International Symposium on Visual Computing (ISVC 2020), San Diego, CA, Oct 5, 2020  
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* Zhang, M., Schulze, J.P., "Server-Aided 3D DICOM Image Stack Viewer for Android Devices", to be published in the Proceedings of IS&T The Engineering Reality of Virtual Reality, San Francisco, CA, January, 2021
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Revision as of 01:20, 15 December 2020

Contents

Current Projects

Helmsley (Larry Smarr, Jurgen Schulze, 2018-2021)

3dmip.jpg In this collaborative grant with Dr. Smarr we have been working on developing software tools to support surgical planning, training and patient education for Crohn's disease.

Publications:

  • Lucknavalai, K., Schulze, J.P., "Real-Time Contrast Enhancement for 3D Medical Images using Histogram Equalization", In Proceedings of the International Symposium on Visual Computing (ISVC 2020), San Diego, CA, Oct 5, 2020
  • Zhang, M., Schulze, J.P., "Server-Aided 3D DICOM Image Stack Viewer for Android Devices", to be published in the Proceedings of IS&T The Engineering Reality of Virtual Reality, San Francisco, CA, January, 2021

XAI (Jurgen Schulze, 2017-2021)

Xai-icon.jpg The effectiveness of AI systems is limited by the machine’s current inability to explain their decisions and actions to human users. The Department of Defense (DoD) is facing challenges that demand more intelligent, autonomous, and symbiotic systems. The Explainable AI (XAI) program aims to create a suite of machine learning techniques that produce more explainable models, while maintaining a high level of learning performance (prediction accuracy); and enable human users to understand, appropriately trust, and effectively manage the emerging generation of artificially intelligent partners. This project is a collaboration with the Stanford Research Institute (SRI) Princeton, NJ. Our responsibility is the development of the web interface, as well as in-person user studies, for which we recruited over 100 subjects so far.

Publications:


DataCube (Larry Smarr, Jurgen Schulze, 2018-2021)

Datacube.jpg In this project we developed a Bodylogical-powered augmented reality tool for the Microsoft HoloLens to analyze the health of a population such as the employees of a corporation. This video shows a demonstration of the HoloLens application.

Publications:


Catalyst (Tom Levy, Jurgen Schulze, 2017-2019)

Cavekiosk.jpg This collaborative grant with Prof. Levy is a UCOP funded Catalyst project on cyber-archaeology, titled "3-D Digital Preservation of At-Risk Global Cultural Heritage". The goal was the development of software and hardware infrastructure to support the digital preservation and dissemination of 3D cyber-archaeology data, such as point clouds, panoramic images and 3D models.

Publications:


CalVR (Andrew Prudhomme, Philip Weber, Jurgen Schulze, since 2010)

Calvr-logo4-200x144.jpg CalVR is our virtual reality middleware (a.k.a. VR engine), which we have been developing for our graphics clusters. It runs on anything from a laptop to a large multi-node CAVE, and builds under Linux, Windows and MacOS. More information about how to obtain the code and build it can be found on our CalVR page for software developers.

Publications:


Older Projects