Sequentially testing polynomial model hypotheses using power transforms of regressors
Sequentially testing polynomial model hypotheses using power transforms of regressors
We provide a methodology for testing a polynomial model hypothesis by generalizing the approach and results of Baek, Cho, and Phillips (Journal of Econometrics, 2015, 187, 376–384; BCP), which test for neglected nonlinearity using power transforms of regressors against arbitrary nonlinearity. We use the BCP quasi-likelihood ratio test and deal with the new multifold identification problem that arises under the null of the polynomial model. The approach leads to convenient asymptotic theory for inference, has omnibus power against general nonlinear alternatives, and allows estimation of an unknown polynomial degree in a model by way of sequential testing, a technique that is useful in the application of sieve approximations. Simulations show good performance in the sequential test procedure in both identifying and estimating unknown polynomial order. The approach, which can be used empirically to test for misspecification, is applied to a Mincer (Journal of Political Economy, 1958, 66, 281–302; Schooling, Experience and Earnings, Columbia University Press, 1974) equation using data from Card (in Christofides, Grant, and Swidinsky (Eds.), Aspects of Labour Market Behaviour: Essays in Honour of John Vanderkamp, University of Toronto Press, 1995, 201-222) and Bierens and Ginther (Empirical Economics, 2001, 26, 307–324). The results confirm that the standard Mincer log earnings equation is readily shown to be misspecified. The applications consider different datasets and examine the impact of nonlinear effects of experience and schooling on earnings, allowing for flexibility in the respective polynomial representations.
141-159
Cho, Jin Seo
73c54d86-de50-44c7-8d1f-afbfab67bfc1
Phillips, Peter
f67573a4-fc30-484c-ad74-4bbc797d7243
January 2018
Cho, Jin Seo
73c54d86-de50-44c7-8d1f-afbfab67bfc1
Phillips, Peter
f67573a4-fc30-484c-ad74-4bbc797d7243
Cho, Jin Seo and Phillips, Peter
(2018)
Sequentially testing polynomial model hypotheses using power transforms of regressors.
Journal of Business and Economic Statistics, 33 (1), .
(doi:10.1002/jae.2589).
Abstract
We provide a methodology for testing a polynomial model hypothesis by generalizing the approach and results of Baek, Cho, and Phillips (Journal of Econometrics, 2015, 187, 376–384; BCP), which test for neglected nonlinearity using power transforms of regressors against arbitrary nonlinearity. We use the BCP quasi-likelihood ratio test and deal with the new multifold identification problem that arises under the null of the polynomial model. The approach leads to convenient asymptotic theory for inference, has omnibus power against general nonlinear alternatives, and allows estimation of an unknown polynomial degree in a model by way of sequential testing, a technique that is useful in the application of sieve approximations. Simulations show good performance in the sequential test procedure in both identifying and estimating unknown polynomial order. The approach, which can be used empirically to test for misspecification, is applied to a Mincer (Journal of Political Economy, 1958, 66, 281–302; Schooling, Experience and Earnings, Columbia University Press, 1974) equation using data from Card (in Christofides, Grant, and Swidinsky (Eds.), Aspects of Labour Market Behaviour: Essays in Honour of John Vanderkamp, University of Toronto Press, 1995, 201-222) and Bierens and Ginther (Empirical Economics, 2001, 26, 307–324). The results confirm that the standard Mincer log earnings equation is readily shown to be misspecified. The applications consider different datasets and examine the impact of nonlinear effects of experience and schooling on earnings, allowing for flexibility in the respective polynomial representations.
Text
JSCHO_polynomial_03_20_17
- Accepted Manuscript
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Accepted/In Press date: 31 May 2017
e-pub ahead of print date: 7 August 2017
Published date: January 2018
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Local EPrints ID: 418381
URI: http://eprints.soton.ac.uk/id/eprint/418381
ISSN: 0735-0015
PURE UUID: 47c00986-cda8-424d-bbc9-47d6ecf9c40e
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Date deposited: 05 Mar 2018 17:31
Last modified: 16 Mar 2024 05:36
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Jin Seo Cho
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