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    Asset Allocation Model for a Robo-Advisor Using the Financial Market Instability Index and Genetic Algorithms

    New search for: Wonbin Ahn
    New search for: Hee Soo Lee
    New search for: Hosun Ryou
    New search for: Kyong Joo Oh

    There has been a growing demand for portfolio management using robo-advisors, and hence, research on the automation of portfolio composition has been increasing. In this study, we propose a model that automates the portfolio structure by using the instability index of the financial time series and genetic algorithms (GAs). We use the instability index to filter the investment assets and optimize the threshold value used as a filtering criterion by applying a GA. For an empirical analysis, we use stocks, bonds, commodities exchange traded funds (ETFs), and exchange rate. We compare the performance of our model with that of risk parity and mean-variance models and find our model has better performance. Several additional experiments with our model using various internal parameters are conducted, and the proposed model with a one-month test period after one year of learning is found to provide the highest Sharpe ratio.

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    Asset Allocation Model for a Robo-Advisor Using the Financial Market Instability Index and Genetic Algorithms

    New search for: Wonbin Ahn
    New search for: Hee Soo Lee
    New search for: Hosun Ryou
    New search for: Kyong Joo Oh

    There has been a growing demand for portfolio management using robo-advisors, and hence, research on the automation of portfolio composition has been increasing. In this study, we propose a model that automates the portfolio structure by using the instability index of the financial time series and genetic algorithms (GAs). We use the instability index to filter the investment assets and optimize the threshold value used as a filtering criterion by applying a GA. For an empirical analysis, we use stocks, bonds, commodities exchange traded funds (ETFs), and exchange rate. We compare the performance of our model with that of risk parity and mean-variance models and find our model has better performance. Several additional experiments with our model using various internal parameters are conducted, and the proposed model with a one-month test period after one year of learning is found to provide the highest Sharpe ratio.

    Access

    Download

    Asset Allocation Model for a Robo-Advisor Using the Financial Market Instability Index and Genetic Algorithms

    New search for: Wonbin Ahn
    New search for: Hee Soo Lee
    New search for: Hosun Ryou
    New search for: Kyong Joo Oh

    There has been a growing demand for portfolio management using robo-advisors, and hence, research on the automation of portfolio composition has been increasing. In this study, we propose a model that automates the portfolio structure by using the instability index of the financial time series and genetic algorithms (GAs). We use the instability index to filter the investment assets and optimize the threshold value used as a filtering criterion by applying a GA. For an empirical analysis, we use stocks, bonds, commodities exchange traded funds (ETFs), and exchange rate. We compare the performance of our model with that of risk parity and mean-variance models and find our model has better performance. Several additional experiments with our model using various internal parameters are conducted, and the proposed model with a one-month test period after one year of learning is found to provide the highest Sharpe ratio.

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    Title:

    Asset Allocation Model for a Robo-Advisor Using the Financial Market Instability Index and Genetic Algorithms

    Contributors:

    Wonbin Ahn (author) / Hee Soo Lee (author) / Hosun Ryou (author) / Kyong Joo Oh (author)

    Published in:

    Sustainability, Vol 12, Iss 3, p 849 (2020)

    Publication date:

    2020

    ISSN:

    2071-1050

    DOI:

    https://doi.org/10.3390/su12030849

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    Unknown

    Keywords:

    financial market instability index , genetic algorithm , asset allocation , exchange traded funds , Environmental effects of industries and plants , TD194-195 , Renewable energy sources , TJ807-830 , Environmental sciences , GE1-350

    Metadata by DOAJ is licensed under ​CC BY-SA 1.0

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