- Spherical design
A spherical design, part of
combinatorial design theory inmathematics , is a finite set of points on the "d"-dimensional unithypersphere "Sd" such that the average value of any polynomial "f" of degree "t" or less on the set equals the average value of "f" on the whole sphere (that is, the integral of "f" over "Sd" divided by the area ormeasure of "Sd"). Such a set is often called a spherical "t"-design to indicate the value of "t", which is a fundamental parameter.Spherical designs can be of value in
approximation theory , instatistics forexperimental design (being usable to constructrotatable design s), incombinatorics , and ingeometry . The main problem is to find examples, given "d" and "t", that are not too large. However, such examples may be hard to come by.The concept of a spherical design is due to Delsarte, Goethals, and Seidel (1977). The existence and structure of spherical designs with "d" = 1 (that is, in a circle) was studied in depth by Hong (1982). Shortly thereafter, Seymour and Zaslavsky (1984) proved that such designs exist of all sufficiently large sizes; that is, there is a number "N"("d","t") such that for every "N" ≥ "N"("d","t") there exists a spherical "t"-design of "N" points in dimension "d". However, their proof gave no idea of how big "N"("d","t") is. Good estimates for that were found later on. Besides these "large" sizes, there are many sporadic small spherical designs; many of them are related to finite
group action s on the sphere and are of great interest in themselves.References
* Delsarte, P., Goethals, J.M., and Seidel, J.J. (1977), "Spherical codes and designs." "Geometriae Dedicata" vol. 6, pp. 363-388.
* Hong, Yiming (1982), "On spherical "t"-designs in "R"2." "European Journal of Combinatorics", vol. 3, pp. 255-258.
* Seidel, J.J. (1991), "Geometry and Combinatorics: Selected Works of J.J. Seidel". D.G. Corneil and R. Mathon, eds. Boston: Academic Press. Reprints Delsarte et al. (1977).
* Seymour, P.D., and Zaslavsky, Thomas (1984), "Averaging sets: A generalization of mean values and spherical designs." "Advances in Mathematics", vol. 52, pp. 213-240. Much more general than spheres.
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