Simulation-Based Exact Tests with Unidentified Nuisance Parameters Under the Null Hypothesis: the Case of Jumps Tests in Models with Conditional Heteroskedasticity

We use the Monte-Carlo (MC) test technique to find valid p-values when testing for discontinuities in jump-diffusion models. While the distribution of the LR statistic for this test is typically non-standard, we show that the MC p-value is finite sample exact if no other (identified) nuisance parameter is present. Otherwise, we derive nuisance-parameter free bounds and obtain exact bounds p-values. We illustrate our approach on four classes of jump-diffusion models we use to models spot prices of copper, nickel, golds, and crude oil. We find significant jumps in all weekly time series and in a few monthly time series.

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Year of publication:	2000
Authors:	Khalaf, Lynda ; Saphores, Jean-Daniel ; Bilodeau, Jean-François
Institutions:	Groupe de recherche en économie de l'énergie, de l'environnement et des ressources naturelles, Université Laval
Subject:	Monte Carlo Test \| Bounds Test \| Discontinuous Process \| Conditional Heteroscedasticity

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Extent:	application/pdf
Series:	Cahiers de recherche.
Type of publication:	Book / Working Paper
Classification:	C15 - Statistical Simulation Methods; Monte Carlo Methods ; C22 - Time-Series Models ; C52 - Model Evaluation and Testing ; Q3 - Nonrenewable Resources and Conservation
Source:	RePEc - Research Papers in Economics

Persistent link: https://ebvufind01.dmz1.zbw.eu/10005670258