10th of June 2005 Chair for Computer Aided Medical Procedures & Augmented Reality Department of Computer Science | Technische Universität München Chair.

Slides:

Advertisements

Similar presentations

Feature Aligned Volume Manipulation for Illustration and Visualization Carlos D. Correa, Deborah Silver Rutgers, The State University of New Jersey Min.

Advertisements

PicoSEC-MCNet TUM Activities Technische Universität München (TUM) Computer Aided Medical Procedures (CAMP) Tobias Reichl January 19, 2012.

Real-Time Template Tracking

Lab Course / Praktikum: Winter Semester 2011/2012 Project Management and Software Development for Medical Applications Computer Aided Medical Procedures.

Prof. dr. ir. J.H.C. Reiber A Multi-Modal Visualisation Environment for Interactive Analysis of Medical Data MULTI-VIS Lorentz Center, VIEW:

TU e technische universiteit eindhoven / department of mathematics and computer science Specification of Adaptive Behavior Using a General- purpose Design.

Results/Conclusions: In computer graphics, AR is achieved by the alignment of the virtual camera with the actual camera and the virtual object with the.

Technische Universität München Fakultät für Informatik Computer Graphics SS 2014 Transformations Rüdiger Westermann Lehrstuhl für Computer Graphik und.

COMPUTER-AIDED SURGICAL PLANNING AND PROCEDURES A.Schaeffer; PolyDimensions GmbH, Bickenbach.

Martin Wagner and Gudrun Klinker Augmented Reality Group Institut für Informatik Technische Universität München December 19, 2003.

/ Where innovation starts 1212 Technische Universiteit Eindhoven University of Technology 1 Incorporating Cognitive/Learning Styles in a General-Purpose.

Towards a zoomable cell abstract cell natural coordinate system Data > D Protein Structures from PDB ? A IHGFBCDE > Images from scientific.

The Discrete Ray-casting Algorithm Qiang Xue Jiaoying Shi State Key Lab Of CAD&CG Zhejiang University.

Lecture Tagging and Search Motivation Ubiquitous Presenter (UP) is a system designed at UCSD to promote and demonstrate the concept of “active learning.”

MEDIP - Platform independent software system for medical image processing IKTA4-6/2001 The aim of the project is to develop an informatical background.

Asa MacWilliams Lehrstuhl für Angewandte Softwaretechnik Institut für Informatik Technische Universität München Dec Software.

CPSC 425: Computer Vision (Jan-April 2007) David Lowe Prerequisites: 4 th year ability in CPSC Math 200 (Calculus III) Math 221 (Matrix Algebra: linear.

Computers in Medicine: Computer-Assisted Surgery Medical Robotics Medical Image Processing Spring 2002 Prof. Leo Joskowicz School of Computer Science and.

ISMT221 Information Systems Analysis and Design Prototyping with MS Access Lab 6 Tony Tam.

1 An Introduction and Demonstration of a New Computer Assisted Visualization and Analysis Software System (CAVASS) Jayaram K. Udupa +, George J. Grevera.

Interactive Systems Technical Design

TU e technische universiteit eindhoven / department of mathematics and computer science Information Systems Group – –

Computer Science Department Graduate Orientation 1 August 31, 2006 Center for Visual Computing.

Ultrasound Visualization Pipeline A Survey

TUMChair for Computer Aided Medical Procedures (I-16)1 Intra-operative Imaging & Visualization Lab Course SS 2004 Lab Course SS 2004 Implementation of.

12 August 2015 Chair for Computer Aided Medical Procedures & Augmented Reality Department of Computer Science | Technische Universität München Chair for.

Chair for Computer Aided Medical Procedures & Augmented Reality Department of Computer Science | Technische Universität München Chair for Computer Aided.

Matthias Wimmer, Sylvia Pietzsch, Freek Stulp and Bernd Radig Chair for Image Understanding Institute for Computer Science Technische Universität München.

Ultrasound Visualization Pipeline A Survey

Your Project Title Here Lab Course / Praktikum: Winter Semester 2012/2013 Project Management and Software Development for Medical Applications Your Name.

CS123 Engineering Computation Lab Lab 2 Bruce Char Department of Computer Science Drexel University Spring 2010.

An Interactive Segmentation Approach Using Color Pre- processing Marisol Martinez Escobar Ph.D Candidate Major Professor: Eliot Winer Department of Mechanical.

New in 3.0 Peter Riegler Wolfenbüttel University of Applied Sciences.

Integration of a Teaching File System into a PACS Environment - Experiences from the User’s Perspective Y. Yang, G. Klos, C. Ahlers, P. Mildenberger Mainz,

Rendering Adaptive Resolution Data Models Daniel Bolan Abstract For the past several years, a model for large datasets has been developed and extended.

Autonomous Navigation for Flying Robots Lecture 2.2: 2D Geometry

Visualizing Information in Global Networks in Real Time Design, Implementation, Usability Study.

Computer Graphics. Requirements Prerequisites Prerequisites CS 255 : Data Structures CS 255 : Data Structures Math 253 Math 253 Experience with C Programming.

Scientific Visualization Module 6 Volumetric Algorithms (adapted by S.V. Moore – slides deleted, modified, and added) prof. dr. Alexandru (Alex) Telea.

Geometric and Visual Computing Proposal for a major/specialization in our Master Programme.

Jeffrey Yap, PhD Ron Kikinis, MD Wendy Plesniak, PhD -1- CTSA at RSNA 2009 PET/CT Analysis using 3D Slicer Jeffrey Yap PhD Ron Kikinis MD Wendy Plesniak.

Introduction Surgical training environments as well as pre- and intra-operative planning environments require physics-based simulation systems to achieve.

19 May 2006 Chair for Computer Aided Medical Procedures & Augmented Reality Department of Computer Science | Technische Universität München Chair for Computer.

May 05, 2006 Chair for Computer Aided Medical Procedures & Augmented Reality Department of Computer Science | Technische Universität München Chair for.

Computer Science Department Pacific University Artificial Intelligence -- Computer Vision.

Live Demo Augmented reality – lets see some pictures flying…Augmented reality – lets see some pictures flying… Facebook -Facebook -

Technische Universität München A User Perspective on Typification of Facade Features of 3D Building Models Mathias Jahnke Hongchao Fan Liqiu Meng ICC 2009.

Lab Course / Praktikum: S ummer Semester 2012 Project Management and Software Development for Medical Applications Computer Aided Medical Procedures (CAMP),

An Enhanced Splatting Method Graphics and Visualization Group Department of Computer Science The University of Auckland Peter Kulka & Richard Lobb.

AnnotatEd: A Social Navigation and Annotation Service for Web-based Educational Resources Rosta Farzan & Peter Brusilovsky Personalized Adaptive Web Systems.

RADIOGRAPHY & IT’S MODALITIES SPRING INFORMATION WORKSHOP 2011.

INTRODUCTION GORT is a virtual 3D modeling environment for computer programmers. Its main area of focus is to aid in the education of programmers learning.

IHE Workshop – June 2006What IHE Delivers 1 Todd Kantchev, Siemens Molecular Imaging Jerold Wallis, Mallinckrodt Institute of Radiology Kevin O’Donnell,

IHE Workshop – June 2006What IHE Delivers 1 Todd Kantchev, Siemens Molecular Imaging Jerold Wallis, Mallinckrodt Institute of Radiology Kevin O’Donnell,

Lab Course / Praktikum: S ummer Semester 2012 Project Management and Software Development for Medical Applications Computer Aided Medical Procedures (CAMP),

Henrik Eriksson Department of Computer and Information Science Linkoping University SE Linkoping, Sweden Raymond W. Fergerson Yuval Shahar Stanford.

CPSC 203 Introduction to Computers Lab 21 By Jie Gao.

Volume Rendering Volumetric Presentation State Supplement 190 Public Comment Review Joe Luszcz, Philips Healthcare Chair, DICOM Working Group 11 January.

Knowledge Systems Lab JN 8/10/2002 Fusion of Multi-Modality Volumetric Medical Imagery Mario Aguilar and Joshua R. New Knowledge Systems Laboratory MCIS.

Improvements on Automated Registration CSc83020 Project Presentation Cecilia Chao Chen.

High-Level Vision Object Recognition.

We want to add here all the Eleven schools that are functional. Next slide shows how it would look when we click on School of Studies.

Lab Course / Praktikum: Winter Semester 2011/2012 Project Management and Software Development for Medical Applications Computer Aided Medical Procedures.

Image Fusion In Real-time, on a PC. Goals Interactive display of volume data in 3D –Allow more than one data set –Allow fusion of different modalities.

Augmented Reality and 3D modelling Done by Stafford Joemat Supervised by Mr James Connan and Mehrdad Ghaziasgar.

Using Virtual Reality for the Visualization of Developing Tissues J.P. Schulze 2, L.D. Soares 1, J. Weaver 1, A.S. Forsberg 2, S.M. Shim 2, K.A. Wharton.

Your Project Title Here

Jamie Wright, Alice Nicol, Ravi Jampana

Planning, assessing, and reporting

NSDL Portals and User Interface Test Designs

Presentation transcript:

10th of June 2005 Chair for Computer Aided Medical Procedures & Augmented Reality Department of Computer Science | Technische Universität München Chair for Computer Aided Medical Procedures & Augmented Reality | wwwnavab.cs.tum.edu User Interface for Realignment and Fusion of 3D Modalities SEP Kickoff Henning Herbers

CAMP | Department of Computer Science | Technische Universität München | 13 January Chair for Computer Aided Medical Procedures & Augmented Reality | wwwnavab.cs.tum.edu Content  Motivation  Given Environment  Project Description  Presentation

CAMP | Department of Computer Science | Technische Universität München | 13 January Chair for Computer Aided Medical Procedures & Augmented Reality | wwwnavab.cs.tum.edu Motivation  Development of an interface for visualization and navigation in 3D  Existing means proofed to be insufficient in certain aspects  Integration of all mandatory features into one interface (widget)  Realignment of image data for further use (segmentation, diagnostics, …)  Examination of requirements

CAMP | Department of Computer Science | Technische Universität München | 13 January Chair for Computer Aided Medical Procedures & Augmented Reality | wwwnavab.cs.tum.edu The given environment  Medical Imaging & Visualization Environment developed as Lab Course SS2004  Consists of GUI to show an arbitrary number of Slice and Volume Renderers  Slice View: visualization of the three orthogonal slices in one view each and one view merged

CAMP | Department of Computer Science | Technische Universität München | 13 January Chair for Computer Aided Medical Procedures & Augmented Reality | wwwnavab.cs.tum.edu Project definition  Advanced visualization system based on common 3-Slice view  Use of given interface developed in Lab Course SS2004  Adapt Slice View to requirements  Implementation of new features into the enviromnent

CAMP | Department of Computer Science | Technische Universität München | 13 January Chair for Computer Aided Medical Procedures & Augmented Reality | wwwnavab.cs.tum.edu Project specification new features  Rigid transformations in the view  Particular: Alignment of human heart CT data along the heart’s main axis  Integration into FLTK Widgets  Ability to display reference set of data, add fading slider  Feature for MPR-Thickness-Value and MIP-Mode  Transparency (Alpha-Blending, …)  Eventual volume rendering & 3D Texture Slice Rendering

CAMP | Department of Computer Science | Technische Universität München | 13 January Chair for Computer Aided Medical Procedures & Augmented Reality | wwwnavab.cs.tum.edu Rigid transformation to set heart axis  Task:Integrate feature to rotate slices to align CT-Slice renderers orthogonally to human heart axis  Mandatory for cardinal diagnostics  Rather user unfriendly implementations in given environments  Based on discussion with S. Nekolla, Nuklearmedizin RDI  Also needed for alignment of volume for registration!

CAMP | Department of Computer Science | Technische Universität München | 13 January Chair for Computer Aided Medical Procedures & Augmented Reality | wwwnavab.cs.tum.edu Rigid transformation to set heart axis