中文

Unbiased Matrix Rounding

数据结构与算法 2007-05-23 v2 离散数学

摘要

We show several ways to round a real matrix to an integer one such that the rounding errors in all rows and columns as well as the whole matrix are less than one. This is a classical problem with applications in many fields, in particular, statistics. We improve earlier solutions of different authors in two ways. For rounding matrices of size m×nm \times n, we reduce the runtime from O((mn)2Second,ourroundingsalsohavearoundingerroroflessthanoneinallinitialintervalsofrowsandcolumns.Consequently,arbitraryintervalshaveanerrorofatmosttwo.Thisisparticularlyusefulinthestatisticsapplicationofcontrolledrounding.Thesameresultcanbeobtainedvia(dependent)randomizedrounding.Thishastheadditionaladvantagethattheroundingisunbiased,thatis,forallentriesO((m n)^2 Second, our roundings also have a rounding error of less than one in all initial intervals of rows and columns. Consequently, arbitrary intervals have an error of at most two. This is particularly useful in the statistics application of controlled rounding. The same result can be obtained via (dependent) randomized rounding. This has the additional advantage that the rounding is unbiased, that is, for all entries y_{ij}ofourrounding,wehave of our rounding, we have E(y_{ij}) = x_{ij},where, where x_{ij}$ is the corresponding entry of the input matrix.

关键词

引用

@article{arxiv.cs/0604068,
  title  = {Unbiased Matrix Rounding},
  author = {Benjamin Doerr and Tobias Friedrich and Christian Klein and Ralf Osbild},
  journal= {arXiv preprint arXiv:cs/0604068},
  year   = {2007}
}

备注

10th Scandinavian Workshop on Algorithm Theory (SWAT), 2006, to appear