Gaussian estimation under attack uncertainty

2015 IEEE Information Theory Workshop (ITW) Pub Date : 2015-04-01 DOI:10.1109/ITW.2015.7133120

T. Javidi, Y. Kaspi, Himanshu Tyagi

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Abstract

We consider the estimation of a standard Gaussian random variable under an observation attack where an adversary may add a zero mean Gaussian noise with variance in a bounded, closed interval to an otherwise noiseless observation. A straightforward approach would entail either ignoring the attack and simply using an optimal estimator under normal operation or taking the worst-case attack into account and using a minimax estimator that minimizes the cost under the worst-case attack. In contrast, we seek to characterize the optimal tradeoff between the MSE under normal operation and the MSE under the worst-case attack. Equivalently, we seek a minimax estimator for any fixed prior probability of attack. Our main result shows that a unique minimax estimator exists for every fixed probability of attack and is given by the Bayesian estimator for a least-favorable prior on the set of possible variances. Furthermore, the least-favorable prior is unique and has a finite support. While the minimax estimator is linear when the probability of attack is 0 or 1, our numerical results show that the minimax linear estimator is far from optimal for all other probabilities of attack and a simple nonlinear estimator does much better.

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攻击不确定性下的高斯估计

我们考虑在观察攻击下标准高斯随机变量的估计，其中对手可能在有界的封闭区间内添加具有方差的零均值高斯噪声到其他无噪声的观察值。一种直接的方法将需要忽略攻击并在正常操作下简单地使用最优估计器，或者考虑最坏情况攻击并使用最小化最坏情况攻击下成本的最小最大估计器。相反，我们试图描述正常操作下的MSE和最坏情况下的MSE之间的最佳权衡。同样地，我们对任意固定的攻击先验概率寻求极小极大估计量。我们的主要结果表明，对于每一个固定的攻击概率，存在一个唯一的极小极大估计量，并且由可能方差集上的最不利先验的贝叶斯估计量给出。此外，最不利先验是唯一的，具有有限的支持。虽然当攻击概率为0或1时，极大极小估计量是线性的，但我们的数值结果表明，极大极小线性估计量对于所有其他攻击概率都远远不是最优的，而一个简单的非线性估计量做得更好。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2015 IEEE Information Theory Workshop (ITW)

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