• Aucun résultat trouvé

Layered surface fluid simulation for surgical training

N/A
N/A
Protected

Academic year: 2021

Partager "Layered surface fluid simulation for surgical training"

Copied!
9
0
0

Texte intégral

Loading

Figure

Fig. 1. Brain tumor resection with the Neurotouch simulator. 1. Initial brain surface.
Fig. 2. Top: Processing sequence for a given frame. Bottom: input data at each step.
Fig. 3. Slice view of the depth peeling process and blood propagation for a simple geometric model with an overhang
Fig. 4. Two simple models to illustrate the GPU buffers used for the fluid simulation and for the depth peeling process.Left: Depth peeling and partial simulation on a helical slide model

Références

Documents relatifs

In order to obtain a maximal deflection of the plate for a minimal supply voltage, an optimization is carried out of the length, thickness, and width of both the resonator and

Under this formalism, each volume and interface is described through a lightweight matrix, layering operations reduce to simple matrix products, and total flux accounting

One of the critical challenges encountered when modeling a thermo-mechanical problem in the context of steel casting processes, is to achieve a concurrent and efficient computation

& By By using the using the Biomas Biomas multi multi - - agent system to agent system to s s imulate imulate transfers at territorial scale transfers at territorial

Our approach is to partition the scene into two sections, the near geometry (the portion of the scene close to the view- point — this part will be rendered as geometry) and the

☻Dynamic topological changes ☻Cutting of soft tissue. ☻Implementation

► Multiscale: macro, mesoscopic scale (material scale). ► The algorithm is implemented into

We also describe ocean rendering methods in computer graphics, with a special interest in the simulation of phenomena such as foam and spray, and light’s interaction with the