Detecting business cycles for Hungarian leading and coincident indicators with a Markov switching dynamic model to improve sustainability in economic growth

Q1 Decision Sciences

Decision Making Applications in Management and Engineering Pub Date : 2023-04-15 DOI:10.31181/dmame060120032023m

Albert Molnár, Laszlo Vasa, Ágnes Csiszárik-Kocsir

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引用次数: 1

Abstract

This paper applies the hidden Markov switching dynamic regression (MSDR) model to estimate transition probabilities of the Hungarian GDP between recessionary and expansionary periods. The transition probabilities are then compared to the OECD Hungarian binary business cycle indicator to assess the predictive power of the model. The paper proposes a linear model with a mean and a homoscedastic component. The level of symmetricity between the GDP and business cycles is explained by the panel data variables (Unemployment rate, IPI index, Inflation, BUX year-on-year change, and 10-3 Year sovereign bond yield spreads). It is assumed in this paper that by extending the model to encompass an exogenous variable listed in the panel data, essentially making the model bivariate, the maximum likelihood function would capture the business cycle more accurately. The results show that by plugging the unemployment rate as the exogenous variable in the regression, our model’s accuracy is 70%.

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用马尔可夫切换动态模型检测匈牙利领先和重合指标的商业周期，以提高经济增长的可持续性

本文应用隐马尔可夫切换动态回归（MSDR）模型来估计匈牙利GDP在衰退期和扩张期之间的转移概率。然后将转换概率与经合组织匈牙利二元商业周期指标进行比较，以评估该模型的预测能力。本文提出了一个具有均值和同方差分量的线性模型。GDP和商业周期之间的对称性水平由面板数据变量（失业率、IPI指数、通货膨胀、BUX同比变化和10-3年主权债券收益率差）来解释。本文假设，通过扩展模型以包含面板数据中列出的外生变量，本质上使模型成为双变量，最大似然函数将更准确地捕捉商业周期。结果表明，通过在回归中插入失业率作为外生变量，我们的模型的准确率为70%。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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