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Empirical Economics

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27-09-2016

Applying a microfounded-forecasting approach to predict Brazilian inflation

Authors: Wagner Piazza Gaglianone, João Victor Issler, Silvia Maria Matos

Published in: Empirical Economics | Issue 1/2017

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Abstract

We investigate whether combining forecasts from surveys of expectations is a helpful empirical strategy for forecasting inflation in Brazil. We employ the FGV–IBRE Economic Tendency Survey, which consists of monthly qualitative information from approximately 2000 consumers since 2006, and also the Focus Survey of the Central Bank of Brazil, with daily forecasts since 1999 from roughly 250 professional forecasters. Natural candidates to win a forecast competition in the literature of surveys of expectations are the (consensus) cross-sectional average forecasts (AF). We first show that these forecasts are a bias-ridden version of the conditional expectation of inflation using the no-bias tests proposed in Issler and Lima (J Econom 152(2):153–164, 2009) and Gaglianone and Issler (Microfounded forecasting, 2015). The results reveal interesting data features: Consumers systematically overestimate inflation (by 2.01 p.p., on average), whereas market agents underestimate it (by 0.68 p.p. over the same sample). Next, we employ a pseudo out-of-sample analysis to evaluate different forecasting methods: the AR(1) model, the Granger and Ramanathan (J Forecast 3:197–204, 1984) forecast combination (GR) technique, a Phillips-curve based method, the Capistrán and Timmermann (J Bus Econ Stat 27:428–440, 2009) combination method, the consensus forecast (AF), the bias-corrected average forecast (BCAF), and the extended BCAF. Results reveal that: (i) the MSE of the AR(1) model is higher compared to the GR (and usually lower compared to the AF); and (ii) the extended BCAF is more accurate than the BCAF, which, in turn, dominates the AF. This validates the view that the bias corrections are a useful device for forecasting using surveys. The Phillips-curve based method has a median performance in terms of MSE, and the Capistrán and Timmermann (2009) combination method fares slightly worse.

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Prior to that, Palm and Zellner (1992) also employ a two-way decomposition to discuss forecast combination in a Bayesian and a non-Bayesian setup. But, the main focus of their paper is not on panel-data techniques, but on the usefulness of a Bayesian approach to forecasting.

One could impose additional restrictions across coefficients \(\overline{k^{h} }\) and \(\overline{\beta ^{h}}\) using the term structure of forecasts. Given stationarity of \(y_{t}\): \(y_{t}=\varepsilon _{t}+\psi _{1}\varepsilon _{t-1}+\cdots +\psi _{h-1}\varepsilon _{t-h+1}+\psi _{h}\varepsilon _{t-h}+\cdots ,\) which gives: \(\mathbb {E}_{t-\left( h-1\right) }(y_{t})= \mathbb {E}_{t-h}(y_{t})+\psi _{h-1}\varepsilon _{t-\left( h-1\right) },\) \( h=1,2,\ldots ,H,\) showing that the expectation revision \(\mathbb {E} _{t-\left( h-1\right) }(y_{t})-\mathbb {E}_{t-h}(y_{t})\) is unforecastable using information up to \(t-h\). In a GMM context, this implies additional moment restrictions across horizons if we substitute \(\mathbb {E} _{t-h}(y_{t}) \) by \(\frac{1}{N}\sum \nolimits _{i=1}^{N}\frac{f_{i,t}^{h}- \overline{k^{h}}}{\overline{\beta ^{h}}}\) and \(\mathbb {E}_{t-\left( h-1\right) }(y_{t})\) by \(\frac{1}{N}\sum \nolimits _{i=1}^{N}\frac{ f_{i,t}^{h-1}-\overline{k^{h-1}}}{\overline{\beta ^{h-1}}}\). Notice that, for large enough N, we can approximate reasonably well these conditional expectations using these averages, as proposed in Gaglianone–Issler. They did not consider these additional restrictions into GMM estimation, but that could certainly be exploited in the future.

We thank an anonymous referee for pointing this out to us.

See consumer survey: methodological features (April 2013), available at http://portalibre.fgv.br.

With this criterium, we excluded 349 observations of a total of 164,479.

The Focus survey is widely used in Brazil, and its excellence has been internationally recognized. In 2010, the survey received the Certificate of Innovation Statistics, due to a second place in the II Regional Award for Innovation in Statistics in Latin America and Caribbean, offered by the World Bank.

Since the survey had a small cross-sectional coverage (small N) in its first years, we only considered post-2003 data.

The “iterative” procedure of Hansen et al. (1996) is employed in the GMM estimation, and the initial weight matrix is the identity.

The Hodrick-Prescott (HP) filtered output gap is computed from the log real monthly GDP (IBRE/FGV).

The adopted set of instruments is slightly modified for the lower education groups (cons_educ_1_3) and the market forecasts (focus_day10; focus_day15).

The output gap is based on the seasonally adjusted IBC-BR index of economic activity. The Hodrick–Prescott (HP) filter is employed to generate the output gap in a recursive estimation scheme, that is, we re-construct the entire output gap series for each new observation added to the estimation sample along the out-of-sample exercise (and then re-estimate the Phillips curve to construct new h-step ahead forecasts). This way, we perform a “pseudo” real-time PC-forecast (based on the last available vintage of the IBC-BR).

The h-step ahead forecasts are constructed using an iterated procedure, which is trivial in the case of the AR model. In the case of the PC and h >1, we use the previous PC-forecast (from \(h-1\)), random walk forecasts for the expected and imported inflation rates and the AR(1) forecast for the output gap (autoregressive coefficient of 0.95, based on in-sample estimations).

For example, an asymmetric loss function (e.g., lin-lin) could reflect the forecaster’s different weighting scheme of positive forecast errors vis-à-vis the negative ones. In this setup, a non-trivial forecast bias may arise, for instance, reflecting the asymmetric loss function (instead of lack of rationality). For further details, see Batchelor (2007) which presents several arguments consistent with forecasters having a nonquadratic loss function.

In each test, with disaggregated data (individual OLS regressions), we only considered survey participants with more than 20 available forecasts.

We leave the rationality tests for market forecasters for future research, since the focus here is on leveraging the consumer data for forecasting purposes.

Results in Table 7 reveal that there might be some useful information (for forecasting purposes) embodied in the consumer consensus forecast. Also, in forming the consensuses, one might consider, for instance, taking into account only those rational consumers when forming a “filtered-consensus” forecast, avoiding mixing information from the non-rational forecasters. We leave this for future research.

Regarding income level 1, the % of rational consumers jumps from 30 % (at \(\tau =0.3\)) to 62 % (at \(\tau =0.7\)).

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Title: Applying a microfounded-forecasting approach to predict Brazilian inflation
Authors: Wagner Piazza Gaglianone
João Victor Issler
Silvia Maria Matos
Publication date: 27-09-2016
Publisher: Springer Berlin Heidelberg
Published in: Empirical Economics / Issue 1/2017
Print ISSN: 0377-7332
Electronic ISSN: 1435-8921
DOI: https://doi.org/10.1007/s00181-016-1163-8

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