Scan-conversion of Archimedes ' spiral (a straight line in polar coordinates) is investigated. It is shown that an exact algorithm requires transcendental functions and, thus, cannot have a fast and exact integer implementation. Piecewise polynomial approximations are discussed and a simple algorithm based on piecewise circular approximation is derived. Variations of the algorithms allow to scan convert other types of spirals
A 3π algorithm is obtained in which all the derivatives are confined to a detector array. Distance w...
The conventional implementation of Katsevich’s inversion formula involves the computation of PI segm...
The approximation of a golden logarithmic spiral by quarter circles is well known. Starting from thi...
Scan-conversion of Archimedes' spiral (a straight line in polar coordinates) is investigated. It is ...
Scan-conversion of Archimedes' spiral (a straight line in polar coordinates) is investigated. It is ...
Spirals are surprisingly common in science, nature, physics, astronomy, flora and fauna, and the art...
Spirals are surprisingly common in science, nature, physics, astronomy, flora and fauna, and the art...
<p>Digitized spiral analysis equipment (left) and radius-angle transformations from an ideal spiral ...
The versatility of the family of generalized logarithmic spirals is improved by introducing a degree...
A fast and accurate probe compensated near field-far field transformation technique with spherical s...
This Demonstration uses parametric equations to plot cycloids [x=a(y-sin(t)), y=a(t-cos(t)] and Arch...
An efficient near-field-far-field transformation technique with spherical spiral scanning, which use...
Knowledge about curves, plane geometry, polygons and visual patternsPolygons are drawn so that their...
This spiral (given in polar coordinates r, ) can be seen as a missing member of the set of known sp...
<p>A recent paper on the geometry of f86v (‘Rosette map’) of the Voynich manuscript suggested the co...
A 3π algorithm is obtained in which all the derivatives are confined to a detector array. Distance w...
The conventional implementation of Katsevich’s inversion formula involves the computation of PI segm...
The approximation of a golden logarithmic spiral by quarter circles is well known. Starting from thi...
Scan-conversion of Archimedes' spiral (a straight line in polar coordinates) is investigated. It is ...
Scan-conversion of Archimedes' spiral (a straight line in polar coordinates) is investigated. It is ...
Spirals are surprisingly common in science, nature, physics, astronomy, flora and fauna, and the art...
Spirals are surprisingly common in science, nature, physics, astronomy, flora and fauna, and the art...
<p>Digitized spiral analysis equipment (left) and radius-angle transformations from an ideal spiral ...
The versatility of the family of generalized logarithmic spirals is improved by introducing a degree...
A fast and accurate probe compensated near field-far field transformation technique with spherical s...
This Demonstration uses parametric equations to plot cycloids [x=a(y-sin(t)), y=a(t-cos(t)] and Arch...
An efficient near-field-far-field transformation technique with spherical spiral scanning, which use...
Knowledge about curves, plane geometry, polygons and visual patternsPolygons are drawn so that their...
This spiral (given in polar coordinates r, ) can be seen as a missing member of the set of known sp...
<p>A recent paper on the geometry of f86v (‘Rosette map’) of the Voynich manuscript suggested the co...
A 3π algorithm is obtained in which all the derivatives are confined to a detector array. Distance w...
The conventional implementation of Katsevich’s inversion formula involves the computation of PI segm...
The approximation of a golden logarithmic spiral by quarter circles is well known. Starting from thi...