kevinmoerman, 20 days ago to Batman Coming soon to #comodo: constrained #Delaunay triangulations. Which I decided needs parameterized #Batman curves too for testing purposes 🦇 #julialang #GeometryProcessing #meshing #ComputationalDesign
Coming soon to #comodo: constrained #Delaunay triangulations. Which I decided needs parameterized #Batman curves too for testing purposes 🦇
#julialang #GeometryProcessing #meshing #ComputationalDesign
kevinmoerman, 16 days ago Getting there. These images show tests of a triangulation algorithm I've developed that uses Delaunay triangulation. It features mostly equilateral triangles except for at the boundaries. #julialang #GeometryProcessing Same as previous image but now the boundary is the Batman logo. This shape features sharp transitions which is good for testing how the algorithm copes with these.
Getting there. These images show tests of a triangulation algorithm I've developed that uses Delaunay triangulation. It features mostly equilateral triangles except for at the boundaries.
#julialang #GeometryProcessing
Same as previous image but now the boundary is the Batman logo. This shape features sharp transitions which is good for testing how the algorithm copes with these.
kevinmoerman, 1 month ago to 3DPrinting This is a fantastic article on rotations and #quaternions by the great Keenan Crane @keenancrane http://thenumb.at/Exponential-Rotations/ My son saw the test model there "Spot the cow", and we just had to #3dprint one and color it in :) Get yours over at Keenan's model repository: https://www.cs.cmu.edu/~kmcrane/Projects/ModelRepository/ #GeometryProcessing A photograph of a 3D printed model of Spot the cow. The model was printed using white filament and then coloured (spots and eyes etc were drawn on) with markers.
This is a fantastic article on rotations and #quaternions by the great Keenan Crane @keenancrane
http://thenumb.at/Exponential-Rotations/
My son saw the test model there "Spot the cow", and we just had to #3dprint one and color it in :)
Get yours over at Keenan's model repository: https://www.cs.cmu.edu/~kmcrane/Projects/ModelRepository/
#GeometryProcessing
A photograph of a 3D printed model of Spot the cow. The model was printed using white filament and then coloured (spots and eyes etc were drawn on) with markers.
kevinmoerman, 1 month ago to opensource So satisfying to finally reach 100% code coverage for testing! Hoping to publish paper on Comodo by the end of the year. If you are into #ComputationalMechanics #Biomechanics #GeometryProcessing #FiniteElementAnalysis help to contribute to Comodo.jl and FEBio.jl and you'll be one of the authors! https://github.com/COMODO-research/Comodo.jl #julialang #opensource #ContinuousIntegration #CodeCov A screenshot of a GitHub README showing GitHub badges which includes a badge for "code coverage" by testing. This code coverage badge, showing 100% coverage, is pulsating in this animation to draw attention to it.
So satisfying to finally reach 100% code coverage for testing!
Hoping to publish paper on Comodo by the end of the year. If you are into #ComputationalMechanics #Biomechanics #GeometryProcessing #FiniteElementAnalysis help to contribute to Comodo.jl and FEBio.jl and you'll be one of the authors!
https://github.com/COMODO-research/Comodo.jl
#julialang #opensource #ContinuousIntegration #CodeCov
A screenshot of a GitHub README showing GitHub badges which includes a badge for "code coverage" by testing. This code coverage badge, showing 100% coverage, is pulsating in this animation to draw attention to it.