I have implemented a system for generating iso-surface terrain, based on a regular 3D grid of voxels defined by a Perlin noise scalar field. The noise is obtained via a continuous function, so it is seamless across voxels and "chunks", (groups of voxels).
The problem I have run into is what to do to accomplish deformable terrain with this system. I have a "picking" system in place, so that I can select a voxel. Through this, I have access to the voxel's data, and can modify the scalar field at that point.
So far, I have tried modifying the data points in the selected voxel, (for example increasing of decreasing the values), which successfully moves the generated polygons up or down according to Marching Cubes.
However, this creates a tear in the terrain, as the triangles are separated from the rest of the mesh above or below.
What I need is a way to affect the scalar field itself in a natural way, starting at a localized point, and radiating outward from it, blending in seamlessly.
Does anyone have experience with this?