Asset Return Predictability and Bayesian Model Averaging

Financial Economics & Accounting (FEA) Conferences (Kelley School of Business) Pub Date : 2003-09-01 DOI:10.2139/ssrn.488185

Dragon Yongjun Tang

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引用次数: 11

Abstract

This paper studies model uncertainty associated with predictive regressions in asset return predictability research. We comprehensively investigate the performance of Bayesian model averaging (BMA), first introduced to the literature by Avramov (2002) and Cremers (2002), when applied to linear predictive regressions using simulation approaches. We find that, in simple settings, BMA performs fairly satisfactorily even when the true model is not in the model set. It can always identify the powerful predictors and constantly outperform other variable selection methods. The results are robust with respect to non-linearity and prior selections. We confirm that BMA attains best performance when model uncerainty is large, which indicates that it is easier to capture short-run predictability using BMA. However, when we add more structure to the data generating process (DGP), BMA performs less well both insample and out-of-sample. BMA mistakens noise variables for true predictors. This is especially the case when there is a lot of noise in the model set. For out-of-sample prediction, BMA overall model shows little advantage over a no-predictability model, and it tends to under predict. A possible cause could be the complex structure we imposed on the DGP.

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资产收益可预测性和贝叶斯平均模型

本文研究了资产收益可预测性研究中与预测回归相关的模型不确定性。我们全面研究了贝叶斯模型平均(BMA)的性能，该方法首先由Avramov(2002)和Cremers(2002)引入文献，当使用模拟方法应用于线性预测回归时。我们发现，在简单的设置中，即使真实模型不在模型集中，BMA的表现也相当令人满意。它总能识别出强大的预测因子，并不断优于其他变量选择方法。结果对非线性和先验选择具有鲁棒性。我们证实，当模型不确定性较大时，BMA达到最佳性能，这表明使用BMA更容易捕获短期可预测性。然而，当我们在数据生成过程(DGP)中添加更多的结构时，BMA在样本和样本外的表现都不太好。BMA将噪声变量误认为是真正的预测因子。当模型集中有很多噪声时尤其如此。对于样本外预测，BMA整体模型相对于不可预测模型的优势不大，且倾向于预测不足。一个可能的原因是我们强加给DGP的复杂结构。

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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Financial Economics & Accounting (FEA) Conferences (Kelley School of Business)

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