Sphere sampling method¶

Within the context of the First and Second Order of the Reliability Method, the Strong Maximum Test helps to check whether the design point computed is:

the true design point, which means a global maximum point,
a strong design point, which means that there is no other local maximum verifying the event and associated to a value near the global maximum.

The Strong Maximum Test samples a sphere in the standard space. the gaussian random sampling technique used is described hereafter.

sampling of points in $\Rset^N$ according to a radial distribution: we generate $N$ independent standard normal samples,
projection of the points onto $\cS^{*}$ : we map the points different from the origin using the transformation $M\longmapsto m$ such as $\displaystyle\mathbf{Om}=R\frac{\mathbf{OM}}{\|\mathbf{OM}\|}$ where $R$ is the radius of the sphere of interest. This transformation does not depend on the angular coordinates. Thus, the generated points follow a uniform distribution on $\cS^{*}$ .

(Source code, png, hires.png, pdf)

API:

See StrongMaximumTest
See FORM

References:

Luban, Marshall, Staunton, 1988, “An efficient method for generating a uniform distribution of points within a hypersphere,” Computer in Physics, 2(6), 55.

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Sphere sampling method¶