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A Return Prediction-based Investment with Particle Filtering and Anomaly Detection

Author

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  • Masafumi Nakano

    (Graduate School of Economics, University of Tokyo)

  • Akihiko Takahashi

    (Graduate School of Economics, University of Tokyo)

  • Soichiro Takahashi

    (Graduate School of Economics, University of Tokyo)

Abstract

This paper proposes a new stochastic volatility model with time-varying expected return, which enables us to predict returns based on exponential moving averages of the past returns frequently used in practice. Particularly, exploiting a particle filter in a self-organizing state space framework, we demonstrate that a simple return prediction- based strategy is superior to well-known strategies such as equally-weighted, minimum-variance and risk parity portfolios, which do not depend on return prediction. In addition, we develop three types of anomaly detectors that are easily implemented in the algorithm of the particle filter and apply them to investment decision. As a result, our model robustly outperforms the exponential moving average. Our dataset is monthly total returns of global assets such as stocks, bonds and REITs, and investment performances are evaluated with various statistics such as compound returns, Sharpe ratios, Sortino ratios or drawdowns.

Suggested Citation

  • Masafumi Nakano & Akihiko Takahashi & Soichiro Takahashi, 2016. "A Return Prediction-based Investment with Particle Filtering and Anomaly Detection," CARF F-Series CARF-F-391, Center for Advanced Research in Finance, Faculty of Economics, The University of Tokyo.
    • Handle: RePEc:cfi:fseres:cf391
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    References listed on IDEAS

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