Supplemental material number 2 / 4 for
Bi-Layer textures: a Model for Synthesis and Deformation of Composite Textures
G. Guingo, B. Sauvage, J.-M. Dischler & M.-P. Cani
Published in Eurographics Symposium on Rendering 2017 / Computer Graphics Forum 36(4) This document presents a comparison for different synthesis methods for every input.
1
Input Wang tiling
Content exchange Single layer (+ rotation + scaling)
Offline (KNL*15) Our bilayer model (+ rotation + scaling)
1
Input Wang tiling
Content exchange Single layer (+ rotation + scaling)
Offline (KNL*15) Our bilayer model (+ rotation + scaling)
2
Input Wang tiling
Content exchange Single layer (+ rotation + scaling)
Offline (KNL*15) Our bilayer model (+ rotation + scaling)
3
Input Wang tiling
Content exchange Single layer (+ rotation + scaling)
Offline (KNL*15) Our bilayer model (+ rotation + scaling)
4
Input Wang tiling
Content exchange Single layer (+ rotation + scaling)
Offline (KNL*15) Our bilayer model (+ rotation + scaling)
5
Input Wang tiling
Content exchange Single layer (+ rotation + scaling)
Offline (KNL*15) Our bilayer model (+ rotation + scaling)
6
Input Wang tiling
Content exchange Single layer (+ rotation + scaling)
Offline (KNL*15) Our bilayer model (+ rotation + scaling)
7
Input Wang tiling
Content exchange Single layer (+ rotation + scaling)
Offline (KNL*15) Our bilayer model (+ rotation + scaling)
8
Input Wang tiling
Content exchange Single layer (+ rotation + scaling)
Offline (KNL*15) Our bilayer model (+ rotation + scaling)
9
Input Wang tiling
Content exchange Single layer (+ rotation + scaling)
Offline (KNL*15) Our bilayer model (+ rotation + scaling)
10
Input Wang tiling
Content exchange Single layer (+ rotation + scaling)
Offline (KNL*15) Our bilayer model (+ rotation + scaling)
11
Input Wang tiling
Content exchange Single layer (+ rotation + scaling)
Offline (KNL*15) Our bilayer model (+ rotation + scaling)
12
Input Wang tiling
Content exchange Single layer (+ rotation + scaling)
Offline (KNL*15) Our bilayer model (+ rotation + scaling)
13
Input Wang tiling
Content exchange Single layer (+rotation+scaling)
Offline (KNL*15) Our bilayer model (+ rotation + scaling)
14
Input Wang tiling
Content exchange Single layer (+ rotation + scaling)
Offline (KNL*15) Our bilayer model (+ rotation + scaling)
15
Input Wang tiling
Content exchange Single layer (+ rotation + scaling)
Offline (KNL*15) Our bilayer model (+ rotation + scaling)
16
Input Wang tiling
Content exchange Single layer (+ scaling)
Offline (KNL*15) Our bilayer model (+ scaling)
17
Input Wang tiling
Content exchange Single layer (+ scaling)
Offline (KNL*15) Our bilayer model (+ scaling)
18
Input Wang tiling
Content exchange Single layer (+ scaling)
Offline (KNL*15) Our bilayer model (+ scaling)
19
Input Wang tiling
Content exchange Single layer (+ rotation + scaling + turbulence)
Offline (KNL*15) Our bilayer model (+ rotation + scaling + tur- bulence)
20
Input Wang tiling
Content exchange Single layer (+ rotation + scaling + turbulence)
Offline (KNL*15) Our bilayer model (+ rotation + scaling + tur- bulence)
21
Input Wang tiling
Content exchange Single layer (+ rotation + scaling + turbulence)
Offline (KNL*15) Our bilayer model (+ rotation + scaling + tur- bulence)
22
Input Wang tiling
Content exchange Single layer (+ rotation + scaling + turbulence)
Offline (KNL*15) Our bilayer model (+ rotation + scaling + tur- bulence)
23
Input Wang tiling
Content exchange Single layer (+ rotation + scaling + turbulence)
Offline (KNL*15) Our bilayer model (+ rotation + scaling + tur- bulence)