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Semiparametrically Point-Optimal Hybrid Rank Tests for Unit Roots

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arxiv 1806.09304 v1 pith:OVAR532D submitted 2018-06-25 econ.EM

Semiparametrically Point-Optimal Hybrid Rank Tests for Unit Roots

classification econ.EM
keywords testsdensityreferencetestunitasymptoticchernoff-savageinnovation
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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We propose a new class of unit root tests that exploits invariance properties in the Locally Asymptotically Brownian Functional limit experiment associated to the unit root model. The invariance structures naturally suggest tests that are based on the ranks of the increments of the observations, their average, and an assumed reference density for the innovations. The tests are semiparametric in the sense that they are valid, i.e., have the correct (asymptotic) size, irrespective of the true innovation density. For a correctly specified reference density, our test is point-optimal and nearly efficient. For arbitrary reference densities, we establish a Chernoff-Savage type result, i.e., our test performs as well as commonly used tests under Gaussian innovations but has improved power under other, e.g., fat-tailed or skewed, innovation distributions. To avoid nonparametric estimation, we propose a simplified version of our test that exhibits the same asymptotic properties, except for the Chernoff-Savage result that we are only able to demonstrate by means of simulations.

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