The Gapeev-Shiryaev Conjecture

arXiv - MATH - Statistics Theory Pub Date : 2024-05-02 DOI:arxiv-2405.01685

Philip A. Ernst, Goran Peskir

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Abstract

The Gapeev-Shiryaev conjecture (originating in Gapeev and Shiryaev (2011) and Gapeev and Shiryaev (2013)) can be broadly stated as follows: Monotonicity of the signal-to-noise ratio implies monotonicity of the optimal stopping boundaries. The conjecture was originally formulated both within (i) sequential testing problems for diffusion processes (where one needs to decide which of the two drifts is being indirectly observed) and (ii) quickest detection problems for diffusion processes (where one needs to detect when the initial drift changes to a new drift). In this paper we present proofs of the Gapeev-Shiryaev conjecture both in (i) the sequential testing setting (under Lipschitz/Holder coefficients of the underlying SDEs) and (ii) the quickest detection setting (under analytic coefficients of the underlying SDEs). The method of proof in the sequential testing setting relies upon a stochastic time change and pathwise comparison arguments. Both arguments break down in the quickest detection setting and get replaced by arguments arising from a stochastic maximum principle for hypoelliptic equations (satisfying Hormander's condition) that is of independent interest. Verification of the Gapeev-Shiryaev conjecture establishes the fact that sequential testing and quickest detection problems with monotone signal-to-noise ratios are amenable to known methods of solution.

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加佩耶夫-希尔亚耶夫猜想

Gapeev-Shiryaev 猜想（源于 Gapeev 和 Shiryaev (2011) 以及 Gapeev 和 Shiryaev (2013)）大致可表述如下：信噪比的单调性意味着最优停止边界的单调性。该猜想最初是在以下两个问题中提出的：(i) 扩散过程的顺序检测问题（需要确定两个漂移中哪个正在被间接观测）；(ii) 扩散过程的最快检测问题（需要检测初始漂移何时变为新漂移）。在本文中，我们从以下两个方面提出了加皮耶夫-希尔亚耶夫猜想的证明：(i) 顺序测试环境（在基础 SDE 的利普齐兹/霍尔系数条件下）和 (ii) 最快检测环境（在基础 SDE 的解析系数条件下）。顺序检测环境下的证明方法依赖于随机时间变化和路径比较论证。这两个论证在快速检测设置中都被打破了，取而代之的是由次椭圆方程（满足霍曼德条件）的随机最大原则所产生的论证，而这两个论证都是独立的。加佩夫-希尔亚耶夫猜想的验证确立了这样一个事实，即具有单调信噪比的顺序检验和最快检测问题是可以用已知方法解决的。

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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arXiv - MATH - Statistics Theory

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