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Chernoff-Hoeffding Bounds for Applications with Limited Independence

Authors:

Jeanette P. Schmidt,

Alan Siegel,

Aravind SrinivasanAuthors Info & Claims

SIAM Journal on Discrete Mathematics, Volume 8, Issue 2

Pages 223 - 250

https://doi.org/10.1137/S089548019223872X

Published: 01 May 1995 Publication History

Abstract

Chernoff-Hoeffding (CH) bounds are fundamental tools used in bounding the tail probabilities of the sums of bounded and independent random variables (r.v.'s). We present a simple technique that gives slightly better bounds than these and that more importantly requires only limited independence among the random variables, thereby importing a variety of standard results to the case of limited independence for free. Additional methods are also presented, and the aggregate results are sharp and provide a better understanding of the proof techniques behind these bounds. These results also yield improved bounds for various tail probability distributions and enable improved approximation algorithms for jobshop scheduling. The limited independence result implies that a reduced amount and weaker sources of randomness are sufficient for randomized algorithms whose analyses use the CH bounds, e.g., the analysis of randomized algorithms for random sampling and oblivious packet routing.

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Index Terms

Chernoff-Hoeffding Bounds for Applications with Limited Independence
1. Mathematics of computing
2. Theory of computation
  1. Design and analysis of algorithms
    1. Approximation algorithms analysis
      1. Routing and network design problems
  2. Models of computation
    1. Probabilistic computation

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Published In

cover image SIAM Journal on Discrete Mathematics

SIAM Journal on Discrete Mathematics Volume 8, Issue 2

May 1995

191 pages

ISSN:0895-4801

Editor:
Clyde L. Monma
Bellcore

Issue’s Table of Contents

Publisher

Society for Industrial and Applied Mathematics

United States

Publication History

Published: 01 May 1995

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Asi HFeldman VNelson JNguyen HTalwar KOh ANaumann TGloberson ASaenko KHardt MLevine S(2023)Fast optimal locally private mean estimation via random projectionsProceedings of the 37th International Conference on Neural Information Processing Systems10.5555/3666122.3666838(16271-16282)Online publication date: 10-Dec-2023
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