Change detection and the causal impact of the yield curve
Change detection and the causal impact of the yield curve
Causal relationships in econometrics are typically based on the concept of predictability and are established by testing Granger causality. Such relationships are susceptible to change, especially during times of financial turbulence, making the real-time detection of instability an important practical issue. This paper develops a test for detecting changes in causal relationships based on a recursive evolving window, which is analogous to a procedure used in recent work on financial bubble detection. The limiting distribution of the test takes a simple form under the null hypothesis and is easy to implement in conditions of homoskedasticity and conditional heteroskedasticity of an unknown form. Bootstrap methods are used to control family-wise size in implementation. Simulation experiments compare the efficacy of the proposed test with two other commonly used tests, the forward recursive and the rolling window tests. The results indicate that the recursive evolving approach offers the best finite sample performance, followed by the rolling window algorithm. The testing strategies are illustrated in an empirical application that explores the causal relationship between the slope of the yield curve and real economic activity in the United States over the period 1980–2015.
Phillips, Peter Charles B
f67573a4-fc30-484c-ad74-4bbc797d7243
Shi, Shuping
191832ad-53d3-478d-b31a-efd488bbcccf
Hurn, Stan
90637a58-2752-4355-bcb5-70b5de115c12
Phillips, Peter Charles B
f67573a4-fc30-484c-ad74-4bbc797d7243
Shi, Shuping
191832ad-53d3-478d-b31a-efd488bbcccf
Hurn, Stan
90637a58-2752-4355-bcb5-70b5de115c12
Phillips, Peter Charles B, Shi, Shuping and Hurn, Stan
(2018)
Change detection and the causal impact of the yield curve.
Journal of Time Series Analysis.
(doi:10.1111/jtsa.12427).
Abstract
Causal relationships in econometrics are typically based on the concept of predictability and are established by testing Granger causality. Such relationships are susceptible to change, especially during times of financial turbulence, making the real-time detection of instability an important practical issue. This paper develops a test for detecting changes in causal relationships based on a recursive evolving window, which is analogous to a procedure used in recent work on financial bubble detection. The limiting distribution of the test takes a simple form under the null hypothesis and is easy to implement in conditions of homoskedasticity and conditional heteroskedasticity of an unknown form. Bootstrap methods are used to control family-wise size in implementation. Simulation experiments compare the efficacy of the proposed test with two other commonly used tests, the forward recursive and the rolling window tests. The results indicate that the recursive evolving approach offers the best finite sample performance, followed by the rolling window algorithm. The testing strategies are illustrated in an empirical application that explores the causal relationship between the slope of the yield curve and real economic activity in the United States over the period 1980–2015.
Text
CausalityDetection_C
- Accepted Manuscript
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Accepted/In Press date: 4 August 2018
e-pub ahead of print date: 9 September 2018
Identifiers
Local EPrints ID: 423026
URI: http://eprints.soton.ac.uk/id/eprint/423026
ISSN: 0143-9782
PURE UUID: d35809ae-187c-42b0-8a33-d417f449fdbe
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Date deposited: 10 Aug 2018 16:30
Last modified: 16 Mar 2024 06:58
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Author:
Shuping Shi
Author:
Stan Hurn
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