CardioViz3D description
A software dedicated to cardiac imaging and simulation

CardioViz3D is a software dedicated to the visualization and processing of 4D medical data, and especially cardiac imaging and simulation data.

Besides its capabilities in terms if static image and mesh visualization, CardioViz3D offers adapted tools for visualizing and processing dynamic data (i.e. that integrate a time dimension).

Such time sequences are easy to import, visualize in real time, and process. DICOM exams import is provided and supports time sequences directly. CardioViz3D uses the Visualization ToolKit VTK as its base framework. The user interface uses KWWidgets library. Some image processing tools use the Insight ToolKit ITK.

CardioViz3D targets research, clinicians and industry in cardiac imaging. It is funded by the CardioSense3D project and aims at providing researchers with a set of tools for the processing, simulation and visualization of cardiac data.

With CardioViz3D you'll get a dedicated tool for interactive visualization of cardiac activity.

Here are some key features of "CardioViz3D":

· Static and dynamic image support.
· Static and dynamic surfacic and volumic mesh support.
· Image visualization: color map changing, window level changing, zoom effect, multi plave views, user event synchronization, volume rendering, volume cropping box, user defined plane intersection, shading effect, etc.
· Mesh visualization: color chaging, light/opacity effects, surface representations, surface Gouraud interpolation, scalar mapping, plane intersections.
· DICOM exam import, DICOM flags overviews, dynamic DICOM series support (2D+t and 3D+t).
· DICOM exam export, DICOM flags editing, etc.
· Dynamic sequence creation and export.
· Dynamic scalar field visualization on meshes.
· Magnified snapshot export (2D and 3D), movie export (of static or dynamic objects).
· Dynamic point of interest follow-up on meshes.
· Mesh projection on 2D slices, mesh cropping.
· Interactive (dynamic-)mesh manual registration.
· Vector field visualization on meshes.
· Interactive surface mesh generation.


Requirements:

· At least 1GB of memory
· A powerful processor (P4 2GHz, AMD FX 3800+ or later).