Abstract
Creating concave hull for IFS fractals using DNA-based computing
Highlights
IntroductionFractal geometry [1,2,3] can be used to create CAD models of complex shapes observed in the living organisms (cell, tissue, lung, blood vassals, brain structure, and alike) and in the natural world (tree, leaf, flower, landscape, coastline, cloud)
Fractal geometry [1,2,3] can be used to create CAD models of complex shapes observed in the living organisms and in the natural world
If one considers making a physical model of a fractal-geometry-generated CAD model, it is important to perform some topological transformations for making the CAD model meaningful to the manufacturing devices
Summary
Fractal geometry [1,2,3] can be used to create CAD models of complex shapes observed in the living organisms (cell, tissue, lung, blood vassals, brain structure, and alike) and in the natural world (tree, leaf, flower, landscape, coastline, cloud). Outer and inner boundary fences can be created following the closed loops
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