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Details

Autor(en) / Beteiligte
Titel
Hierarchical-block conditioning approximations for high-dimensional multivariate normal probabilities
Ist Teil von
  • Statistics and computing, 2019-05, Vol.29 (3), p.585-598
Ort / Verlag
New York: Springer US
Erscheinungsjahr
2019
Quelle
SpringerLink
Beschreibungen/Notizen
  • This paper presents a new method to estimate large-scale multivariate normal probabilities. The approach combines a hierarchical representation with processing of the covariance matrix that decomposes the n -dimensional problem into a sequence of smaller m -dimensional ones. It also includes a d -dimensional conditioning method that further decomposes the m -dimensional problems into smaller d -dimensional problems. The resulting two-level hierarchical-block conditioning method requires Monte Carlo simulations to be performed only in d dimensions, with d ≪ n , and allows the complexity of the algorithm’s major cost to be O ( n log n ) . The run-time cost of the method depends on two parameters, m and d , where m represents the diagonal block size and controls the sizes of the blocks of the covariance matrix that are replaced by low-rank approximations, and d allows a trade-off of accuracy for expensive computations in the evaluation of the probabilities of m -dimensional blocks. We also introduce an inexpensive block reordering strategy to provide improved accuracy in the overall probability computation. The downside of this method, as with other such conditioning approximations, is the absence of an internal estimate of its error to use in tuning the approximation. Numerical simulations on problems from 2D spatial statistics with dimensions up to 16,384 indicate that the algorithm achieves a 1 % error level and improves the run time over a one-level hierarchical Quasi-Monte Carlo method by a factor between 10 and 15.

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