Geometric probability

Problems of the following type, and their solution techniques, were first studied in the 18th century, and the general topic became known as geometric probability.

For mathematical development see the concise monograph by Solomon.[1]

Since the late 20th century the topic has split into two topics with different emphases. Integral geometry sprang from the principle that the mathematically natural probability models are those that are invariant under certain transformation groups. This topic emphasises systematic development of formulas for calculating expected values associated with the geometric objects derived from random points, and can in part be viewed as a sophisticated branch of multivariate calculus. Stochastic geometry emphasises the random geometrical objects themselves. For instance: different models for random lines or for random tessellations of the plane; random sets formed by making points of a spatial Poisson process be (say) centers of discs.

See also

References

  1. Herbert Solomon (1978). Geometric Probability. Philadelphia, PA: Society for Industrial and Applied Mathematics.
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