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2. Conformal symmetry - Wikipedia

   en.wikipedia.org/wiki/Conformal_symmetry

   Conformal symmetry encompasses special conformal transformations and dilations. In three spatial plus one time dimensions, conformal symmetry has 15 degrees of freedom: ten for the Poincaré group, four for special conformal transformations, and one for a dilation.

3. Homothety - Wikipedia

   en.wikipedia.org/wiki/Homothety

   Together with the translations, all homotheties of an affine (or Euclidean) space form a group, the group of dilations or homothety-translations. These are precisely the affine transformations with the property that the image of every line g is a line parallel to g .

4. Conformal linear transformation - Wikipedia

   en.wikipedia.org/.../Conformal_linear_transformation

   Every origin-fixing reflection or dilation is a conformal linear transformation, as is any composition of these basic transformations, including rotations and improper rotations and most generally similarity transformations. However, shear transformations and non-uniform scaling are not.

5. Dilation (metric space) - Wikipedia

   en.wikipedia.org/wiki/Dilation_(metric_space)

   In Euclidean space, such a dilation is a similarity of the space. [2] Dilations change the size but not the shape of an object or figure. Every dilation of a Euclidean space that is not a congruence has a unique fixed point [3] that is called the center of dilation. [4] Some congruences have fixed points and others do not. [5]

6. Scale invariance - Wikipedia

   en.wikipedia.org/wiki/Scale_invariance

   The technical term for this transformation is a dilatation (also known as dilation). Dilatations can form part of a larger conformal symmetry . In mathematics, scale invariance usually refers to an invariance of individual functions or curves .

7. Rigid transformation - Wikipedia

   en.wikipedia.org/wiki/Rigid_transformation

   The rigid transformations include rotations, translations, reflections, or any sequence of these. Reflections are sometimes excluded from the definition of a rigid transformation by requiring that the transformation also preserve the handedness of objects in the Euclidean space. (A reflection would not preserve handedness; for instance, it ...