Commercially available full-color 3D printing allows for detailed control of material deposition in a volume, but an exact reproduction of a target surface appearance is hampered by the strong subsurface scattering that causes nontrivial volumetric cross-talk at the print surface. Previous work showed how an iterative optimization scheme based on accumulating absorptive materials at the surface can be used to find a volumetric distribution of print materials that closely approximates a given target appearance. In this work, we first revisit the assumption that pushing the absorptive materials to the surface results in minimal volumetric cross-talk. We design a full-fledged optimization on a small domain for this task and confirm this previ...
Although real-world surfaces can exhibit significant variation in materials --- glossy, diffuse, met...
Our system automatically generates a layered material volume for approximating a custom BSSRDF. (a)T...
Functional microdevices such as micro-robotics, tissue engineering scaffolds, and lab-on-a-chip are ...
Commercially available full-color 3D printing allows for detailed control of material deposition in ...
Commercially available full-color 3D printing allows for detailed control of material deposition in ...
Color texture reproduction in 3D printing commonly ignores volumetric light transport (cross-talk) b...
Color texture reproduction in 3D printing commonly ignores volumetric light transport (cross-talk) b...
Color texture reproduction in 3D printing commonly ignores volumetric light transport (cross-talk) b...
With the wider availability of full-color 3D printers, color-accurate 3D-print preparation has recei...
3D printing has revolutionized the manufacturing of volumetric components and structures in many are...
3D printing has revolutionized the manufacturing of volumetric components and structures for use in ...
Our system automatically generates a layered material volume for approximating a custom BSSRDF. (a)T...
We present an efficient and scalable pipeline for fabricating full-colored objects with spatially-va...
We present an efficient and scalable pipeline for fabricating full-colored objects with spatially-va...
We present an efficient and scalable pipeline for fabricating full-colored objects with spatially-va...
Although real-world surfaces can exhibit significant variation in materials --- glossy, diffuse, met...
Our system automatically generates a layered material volume for approximating a custom BSSRDF. (a)T...
Functional microdevices such as micro-robotics, tissue engineering scaffolds, and lab-on-a-chip are ...
Commercially available full-color 3D printing allows for detailed control of material deposition in ...
Commercially available full-color 3D printing allows for detailed control of material deposition in ...
Color texture reproduction in 3D printing commonly ignores volumetric light transport (cross-talk) b...
Color texture reproduction in 3D printing commonly ignores volumetric light transport (cross-talk) b...
Color texture reproduction in 3D printing commonly ignores volumetric light transport (cross-talk) b...
With the wider availability of full-color 3D printers, color-accurate 3D-print preparation has recei...
3D printing has revolutionized the manufacturing of volumetric components and structures in many are...
3D printing has revolutionized the manufacturing of volumetric components and structures for use in ...
Our system automatically generates a layered material volume for approximating a custom BSSRDF. (a)T...
We present an efficient and scalable pipeline for fabricating full-colored objects with spatially-va...
We present an efficient and scalable pipeline for fabricating full-colored objects with spatially-va...
We present an efficient and scalable pipeline for fabricating full-colored objects with spatially-va...
Although real-world surfaces can exhibit significant variation in materials --- glossy, diffuse, met...
Our system automatically generates a layered material volume for approximating a custom BSSRDF. (a)T...
Functional microdevices such as micro-robotics, tissue engineering scaffolds, and lab-on-a-chip are ...