Extreme Value Theory and Auction Models

The objective of this article is to develop a parametric approach to estimating auctions with incomplete data using Extreme Value Theory (EVT). The methodology is mainly theoretical: we first review that, when only transaction prices can be observed, the distribution of private valuations is irregularly identified. The sample bias produced by nonparametric estimators will affect all functionals of practical interest. We provide simulations for a best-case scenario and a worst-case scenario. Our results show that, compared to nonparametric approaches, the approximation of such functionals developed using EVT produces more accurate results, is easy to compute, and does not require strong assumptions about the unobserved distribution of bidders' valuations. It is recommended that financial operators working with auctions use this parametric approach when facing incomplete datasets. Given the difficult nature of the analysis, this work does not provide large sample properties for the proposed estimators and recommends the use of bootstrapping. This article contributes originally to the literature of structural estimation of auction models providing a useful and robust parametric approximation.

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Analysing extreme value theory efficiency in probabilistic wcet estimation with block maxima

Panorama brasileiro de tungstênio (w) entre os anos de 2008 e 2014 ◽

10.32749/nucleodoconhecimento.com.br/electrical-engineering/block-maxima ◽

2021 ◽

pp. 131-154

Author(s):

Guilherme Isaias Debom Machado ◽

Fabian Luis Vargas ◽

Celso Maciel da Costa

Keyword(s):

Extreme Value Theory ◽

Execution Time ◽

Value Theory ◽

Extreme Value ◽

System Delay ◽

Worst Case ◽

Worst Case Execution Time ◽

Real Behavior ◽

Block Maxima ◽

Time Systems

The execution time is a requirement as much important as the computed result when designing real-time systems for critical applications. It is imperative to know the possible execution times, especially when some system delay may incur in equipment damages or even in crew injuries. With that in mind, the current work analyzes different techniques to define the Probabilistic Worst Case Execution Time (pWCET) using the Extreme Value Theory (EVT). Since probabilistic methodologies have been widely explored, this study aims to assure how accurate the pWCET estimations are when applying EVT knowledge. This analysis aims to compare system pWCET estimations to this real behavior, predicting the upper bound execution limits of two algorithms on MIPS processor. Further, this work regards the Block Maxima technique, which select the highest measured values to define a probabilistic distribution that represents the analyzed system. Based on the outcomes the Block Maxima technique points some limitations as requiring a large number of samples to get a reliable analysis. The obtained results have shown that EVT is a useful and trustworthy technique to define pWCET estimations.

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Application of Extreme Value Theory to Statistical Analyses of Worst Case SRAM Data Retention Voltage

2019 Silicon Nanoelectronics Workshop (SNW) ◽

10.23919/snw.2019.8782900 ◽

2019 ◽

Cited By ~ 1

Author(s):

Tomoko Mizutani ◽

Kiyoshi Takeuchi ◽

Takuya Saraya ◽

Masaharu Kobayashi ◽

Toshiro Hiramoto

Keyword(s):

Extreme Value Theory ◽

Value Theory ◽

Extreme Value ◽

Statistical Analyses ◽

Data Retention ◽

Worst Case

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EVT-based estimation of risk capital and convergence of high quantiles

Advances in Applied Probability ◽

10.1017/s0001867800002755 ◽

2008 ◽

Vol 40 (03) ◽

pp. 696-715 ◽

Cited By ~ 1

Author(s):

Matthias Degen ◽

Paul Embrechts

Keyword(s):

Extreme Value Theory ◽

Value Theory ◽

Extreme Value ◽

Second Order ◽

Parametric Models ◽

Tail Behavior ◽

Parametric Approach ◽

Risk Capital ◽

High Quantiles ◽

Estimation Of Risk

We discuss some issues regarding the accuracy of a quantile-based estimation of risk capital. In this context, extreme value theory (EVT) emerges naturally. The paper sheds some further light on the ongoing discussion concerning the use of a semi-parametric approach like EVT and the use of specific parametric models such as the g-and-h. In particular, we discusses problems and pitfalls evolving from such parametric models when using EVT and highlight the importance of the underlying second-order tail behavior.

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