Refine
Year of publication
Document Type
- ZIB-Report (62) (remove)
Has Fulltext
- yes (62)
Is part of the Bibliography
- no (62)
Keywords
- volume rendering (3)
- 3D texture mapping (2)
- DVR (2)
- visualization (2)
- 3D neural network (1)
- AMR (1)
- AMR hierarchies (1)
- AMR tree (1)
- Amira (1)
- CCTK (1)
- Cactus (1)
- Cluster Analysis (1)
- Conformations (1)
- Cultural Heritage (1)
- DNA (1)
- Data Grid (1)
- Data Visualization (1)
- Dense connectome (1)
- GPU acceleration (1)
- Gaussian Process (1)
- General Relativity (1)
- Globus (1)
- Grid (1)
- HCI (1)
- HDF5 (1)
- Hierarchical (1)
- Interaction Techniques (1)
- Kendall (1)
- Kiosk application (1)
- Longitudinal (1)
- Medical image segmentation (1)
- Molecular Dynamics (1)
- Numerical Simulations (1)
- Optimal design of computer experiments (1)
- Picking (1)
- Picture/Image Generation, Display algorithms, Three-Dimensional Graphics and Realism, Raytracing (1)
- Procrustes analysis (1)
- RNA (1)
- Reconstruction (1)
- Scalar field visualization (1)
- Shape Space (1)
- Sparse kernels (1)
- Storage Systems (1)
- Surfaces (1)
- VFD (1)
- Visualization (1)
- Volume Rendering (1)
- anatomical atlas (1)
- animation (1)
- applicator design (1)
- atomic radii (1)
- blue-noise (1)
- brushing & linking (1)
- cavity analysis (1)
- computational geometry (1)
- diffusion tensor images (1)
- digitally reconstructed radiographs (1)
- direct volume rendering (1)
- dislocation, diffraction contrast, scanning transmission electron microscopy, stereoscopy, visualization (1)
- finite element meshes (1)
- general relativity (1)
- grid (1)
- grid generation (1)
- hdf5 (1)
- hierarchical space partitioning (1)
- high performance computing (1)
- hyperthermia (1)
- iPad (1)
- image processing (1)
- image registration (1)
- image segmentation (1)
- interaction (1)
- interactive rendering (1)
- interventional MRI (1)
- isosurfaces (1)
- large files (1)
- medical therapy planning (1)
- mesh deformation (1)
- metric (1)
- mixture estimation (1)
- molecular conformations (1)
- molecular dynamics (1)
- morphing (1)
- multi-modal, intergrated data analysis, topology (1)
- multi-resolution techniques (1)
- multimodal circular distribution (1)
- multiresolution volume rendering (1)
- non-conforming hexahedral grids (1)
- octree (1)
- picking (1)
- point set optimization (1)
- pointing (1)
- probability flow (1)
- quantum dynamics (1)
- ray casting (1)
- remote data access (1)
- remote visualization (1)
- ribonucleic acids (1)
- scalar field visualization (1)
- secondary & tertiary structures (1)
- segmentation (1)
- shape space, shape trajectories, geodesic regression, longitudinal analysis, osteoarthritis (1)
- shape transition (1)
- spar (1)
- splatting (1)
- statistical shape and intensity models (1)
- surface parametrization (1)
- tensor field visualization (1)
- therapy planning (1)
- triangulation (1)
- unfolding, papyri, computed tomography (1)
- virtual anatomy (1)
- visualization pipeline (1)
- volume visualization (1)
Institute
- Visual and Data-centric Computing (32)
- ZIB Allgemein (31)
- Visual Data Analysis (30)
- Visual Data Analysis in Science and Engineering (15)
- Image Analysis in Biology and Materials Science (5)
- Therapy Planning (2)
- Computational Medicine (1)
- Distributed Algorithms and Supercomputing (1)
- Geometric Data Analysis and Processing (1)
- Mathematical Optimization (1)
Regional hyperthermia, a clinical cancer therapy, is the main topic of the Sonderforschungsbereich Hyperthermia: Scientific Methods and Clinical Applications'' at Berlin. In recent years, technological improvements towards a better concentration of heat to the desired target region have been achieved. These include a rather sophisticated integrated software environment for therapy planning and a new hyperthermia applicator. In a next step, a detailed closed loop monitoring of the actual treatment is to be developed. For this purpose the hyperthermia applicator is combined with an MRI system, which will allow to check the positioning of the patients and to measure individual blood perfusion as well as the 3D temperature distribution. The measurements will then be employed for an on-line control of the whole treatment. In this intended setting, new fast feedback control algorithms will come into play.