Sparse representation of terrains for procedural modeling
Résumé
In this paper, we present a simple and efficient method to represent terrains as elevation functions built from linear combinations
of landform features (atoms). These features can be extracted either from real world data-sets or procedural primitives, or
from any combination of multiple terrain models. Our approach consists in representing the elevation function as a sparse
combination of primitives, a concept which we call Sparse Construction Tree, which blends the different landform features
stored in a dictionary. The sparse representation allows us to represent complex terrains using combinations of atoms from a
small dictionary, yielding a powerful and compact terrain representation and synthesis tool. Moreover, we present a method
for automatically learning the dictionary and generating the Sparse Construction Tree model. We demonstrate the efficiency of
our method in several applications: inverse procedural modeling of terrains, terrain amplification and synthesis from a coarse
sketch.