DetailsDachshund-Voronoi style _Designed by TomyT ( http://www.thingiverse.com/thing:633525 ) _***Dachshund, ( German: “badger dog”) dog breed of hound and terrier ancestry developed in Germany to pursue badgers into their burrows. The dachshund is a long-bodied, characteristically lively dog with a deep chest, short legs, tapering muzzle, and long ears. Usually reddish brown or black-and-tan, it is bred in two sizes—standard and miniature—and in three coat types—smooth, longhaired, and wirehaired. The standard dachshund stands about 7 to 10 inches (18 to 25 cm) and weighs 16 to 32 pounds (7 to 14.5 kg); the miniature is shorter and weighs no more than 11 pounds (5 kg). _Nicknamed the "wiener dog," this smallest of the hounds is short on leg but long on personality.Dachshunds are scent hound dog breeds who were bred to hunt badgers and other tunneling animals, rabbits, and foxes. Packs of Dachshunds were even used to trail wild boar. Today their versatility makes them excellent family companions, show dogs, and small-game hunters. _***In mathematics, a Voronoi diagram is a partitioning of a plane into regions based on 'closeness' to points in a specific subset of the plane. That set of points (called seeds, sites, or generators) is specified beforehand, and for each seed there is a corresponding region consisting of all points closer to that seed than to any other. These regions are called Voronoi cells. The Voronoi diagram of a set of points is dual to its Delaunay triangulation.It is named after Georgy Voronoy, and is also called a Voronoi tessellation, a Voronoi decomposition, a Voronoi partition, or a Dirichlet tessellation (after Peter Gustav Lejeune Dirichlet). Voronoi diagrams have practical and theoretical applications to a large number of fields, mainly in science and technology but even including visual art. _Voronoi diagrams are also related to other geometric structures such as the medial axis (which has found applications in image segmentation, optical character recognition, and other computational applications), straight skeleton, and zone diagrams. Besides points, such diagrams use lines and polygons as seeds. By augmenting the diagram with line segments that connect to nearest points on the seeds, a planar subdivision of the environment is obtained.This structure can be used as a navigation mesh for path-finding through large spaces. The navigation mesh has been generalized to support 3D multi-layered environments, such as an airport or a multi-storey building. _ Voronoi diagrams find widespread applications in areas such as computer graphics, epidemiology, geophysics, and meteorology.
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SKU 10001031 Length [mm] 130 Width [mm] 53.2 Height [mm] 89.49 Volume [cm³] 21.18 Area [cm²] 251.61