Congratulations to Melike on this achievement!
]]>Congratulations, Thibault! 🎉
]]>We propose a computational design approach for covering a surface with individually addressable RGB LEDs, effectively forming a low-resolution surface screen. To achieve a low-cost and scalable approach, we propose creating designs from flat PCB panels bent in-place along the surface of a 3D printed core. We demonstrate our technique on a range of physical models and virtual examples, creating intricate surface light patterns from hundreds of LEDs.
See the project page for more details.
]]>We propose to create 3D-printed flat surfaces with controlled, spatially varying, anisotropic appearances similar to brushed metal using standard fused filament fabrication printers. We achieved high-quality visual results using a novel, robust, efficient, oriented cycle generator. We empirically show that the deposition and roughness anisotropy directions are the same.
See the project page for more details.
]]>All the details can be found at:
https://doi.org/10.1016/j.mechmat.2023.104668
An open-source implementation is also available at:
https://github.com/mmc-group/inverse-designed-growth-based-metamaterials
https://github.com/mfx-inria/phasornoise
MFX will present five papers at Eurographics this year:
The open-source code can be found at https://github.com/sylefeb/raster2mesh/
The slides of the presentation are available at the following link.
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