_id,doi,title
14488,10.1007/s11263-023-01899-3,A deeper analysis of volumetric relightiable faces
14628,10.1145/3605389,Procedural metamaterials: A unified procedural graph for metamaterial design
14798,10.1145/3610548.3618226,The effect of display capabilities on the gloss consistency between real and virtual objects
13188,10.1145/3606033,The design space of Kirchhoff rods
13265,10.1145/3575859,As-Continuous-As-Possible extrusion-based fabrication of surface models
13267,10.1038/s41592-023-01936-6,Dense 4D nanoscale reconstruction of living brain tissue
14241,10.1145/3588432.3591542,Stealth shaper: Reflectivity optimization as surface stylization
12897,10.15479/at:ista:12897,Inverse shape design with parametric representations: Kirchhoff Rods and parametric surface models
12972,10.1111/cgf.14770 ,Directionality-aware design of embroidery patterns
12976,10.1109/ICRA48891.2023.10160465,Learning deposition policies for fused multi-material 3D printing
12979,10.1145/3588432.3591546,Gloss-aware color correction for 3D printing
12984,10.1145/3592432,Skin-Screen: A computational fabrication framework for color tattoos
13049,10.1145/3592411,PCBend: Light up your 3D shapes with foldable circuit boards
10922,10.1111/cgf.14490,Worst-case rigidity analysis and optimization for assemblies with mechanical joints
11442,10.1145/3528223.3530144,Closed-loop control of direct ink writing via reinforcement learning
11735,10.1145/3528223.3530071,Computational design of high-level interlocking puzzles
11943,10.1101/2022.03.16.484431,Saturated reconstruction of living brain tissue
11993,10.1111/cgf.14581,State of the art in computational mould design
12135,10.1145/3550469.3555406,Gloss management for consistent reproduction of real and virtual objects
12452,,VoRF: Volumetric Relightable Faces