Title of article
Efficient computation paths for the systematic analysis of sensitivities Original Research Article
Author/Authors
Paolo Greppi، نويسنده , , Elisabetta Arato، نويسنده ,
Issue Information
ماهنامه با شماره پیاپی سال 2013
Pages
7
From page
79
To page
85
Abstract
A systematic sensitivity analysis requires computing the model on all points of a multi-dimensional grid covering the domain of interest, defined by the ranges of variability of the inputs.
The issues to efficiently perform such analyses on algebraic models are handling solution failures within and close to the feasible region and minimizing the total iteration count. Scanning the domain in the obvious order is sub-optimal in terms of total iterations and is likely to cause many solution failures.
The problem of choosing a better order can be translated geometrically into finding Hamiltonian paths on certain grid graphs.
This work proposes two paths, one based on a mixed-radix Gray code and the other, a quasi-spiral path, produced by a novel heuristic algorithm. Some simple, easy-to-visualize examples are presented, followed by performance results for the quasi-spiral algorithm and the practical application of the different paths in a process simulation tool.
Keywords
Process simulation , sampling , Sensitivity analysis , convergence , Computation paths , Multi-dimensional grids
Journal title
Computer Physics Communications
Serial Year
2013
Journal title
Computer Physics Communications
Record number
1136428
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