Simple Monetary Policy Rules Under Model Uncertainty [electronic resource] / Ann-Charlotte Eliasson.
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TextSeries: IMF Working Papers; Working Paper ; No. 99/75Publication details: Washington, D.C. : International Monetary Fund, 1999Description: 1 online resource (60 p.)ISBN: 1451849710 :ISSN: 1018-5941Subject(s): Inflation Rate | Inflation | Macroeconomic Models | Monetary Policy Rules | Nairu Uncertainty | Real Interest Rate | New Zealand | United StatesAdditional physical formats: Print Version:: Simple Monetary Policy Rules Under Model UncertaintyOnline resources: IMF e-Library | IMF Book Store Abstract: Using stochastic simulations and stability analysis, the paper compares how different monetary rules perform in a moderately nonlinear model with a time-varying nonaccelerating-inflation-rate-of-unemployment (NAIRU). Rules that perform well in linear models but implicitly embody backward-looking measures of real interest rates (such as conventional Taylor rules) or substantial interest rate smoothing perform very poorly in models with moderate nonlinearities, particularly when policymakers tend to make serially correlated errors in estimating the NAIRU. This challenges the practice of evaluating rules within linear models, in which the consequences of responding myopically to significant overheating are extremely unrealistic.
Using stochastic simulations and stability analysis, the paper compares how different monetary rules perform in a moderately nonlinear model with a time-varying nonaccelerating-inflation-rate-of-unemployment (NAIRU). Rules that perform well in linear models but implicitly embody backward-looking measures of real interest rates (such as conventional Taylor rules) or substantial interest rate smoothing perform very poorly in models with moderate nonlinearities, particularly when policymakers tend to make serially correlated errors in estimating the NAIRU. This challenges the practice of evaluating rules within linear models, in which the consequences of responding myopically to significant overheating are extremely unrealistic.
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