Asset allocation under threshold autoregressive models

Na Song; Tak Kuen Siu; Wa Ki Ching; Howell Tong; Hailiang Yang

doi:10.1002/asmb.897

Asset allocation under threshold autoregressive models

Na Song^*, Tak Kuen Siu, Wa Ki Ching, Howell Tong, Hailiang Yang

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

8 Citations (Scopus)

Abstract

We discuss the asset allocation problem in the important class of parametric non-linear time series models called the threshold autoregressive model in (J. Roy. Statist. Soc. Ser. A 1977; 140:34-35; Patten Recognition and Signal Processing. Sijthoff and Noordhoff: Netherlands, 1978; and J. Roy. Statist. Soc. Ser. B 1980; 42:245-292). We consider two specific forms, one self-exciting (i.e. the SETAR model) and the other smooth (i.e. the STAR) model developed by Chan and Tong (J. Time Ser. Anal. 1986; 7:179-190). The problem of maximizing the expected utility of wealth over a planning horizon is considered using a discrete-time dynamic programming approach. This optimization approach is flexible enough to deal with the optimal asset allocation problem under a general stochastic dynamical system, which includes the SETAR model and the STAR model as particular cases. Numerical studies are conducted to demonstrate the practical implementation of the proposed model. We also investigate the impacts of non-linearity in the SETAR and STAR models on the optimal portfolio strategies.

Original language	English
Pages (from-to)	60-72
Number of pages	13
Journal	Applied Stochastic Models in Business and Industry
Volume	28
Issue number	1
DOIs	https://doi.org/10.1002/asmb.897
Publication status	Published - Jan 2012
Externally published	Yes

Keywords

SETAR model
STAR model
asset allocation
conditional heteroscedasticity
dynamical programming
non-linearity
stochastic dynamical system

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title = "Asset allocation under threshold autoregressive models",

abstract = "We discuss the asset allocation problem in the important class of parametric non-linear time series models called the threshold autoregressive model in (J. Roy. Statist. Soc. Ser. A 1977; 140:34-35; Patten Recognition and Signal Processing. Sijthoff and Noordhoff: Netherlands, 1978; and J. Roy. Statist. Soc. Ser. B 1980; 42:245-292). We consider two specific forms, one self-exciting (i.e. the SETAR model) and the other smooth (i.e. the STAR) model developed by Chan and Tong (J. Time Ser. Anal. 1986; 7:179-190). The problem of maximizing the expected utility of wealth over a planning horizon is considered using a discrete-time dynamic programming approach. This optimization approach is flexible enough to deal with the optimal asset allocation problem under a general stochastic dynamical system, which includes the SETAR model and the STAR model as particular cases. Numerical studies are conducted to demonstrate the practical implementation of the proposed model. We also investigate the impacts of non-linearity in the SETAR and STAR models on the optimal portfolio strategies.",

keywords = "SETAR model, STAR model, asset allocation, conditional heteroscedasticity, dynamical programming, non-linearity, stochastic dynamical system",

author = "Na Song and Siu, {Tak Kuen} and Ching, {Wa Ki} and Howell Tong and Hailiang Yang",

year = "2012",

month = jan,

doi = "10.1002/asmb.897",

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volume = "28",

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AU - Song, Na

AU - Siu, Tak Kuen

AU - Ching, Wa Ki

AU - Tong, Howell

AU - Yang, Hailiang

PY - 2012/1

Y1 - 2012/1

N2 - We discuss the asset allocation problem in the important class of parametric non-linear time series models called the threshold autoregressive model in (J. Roy. Statist. Soc. Ser. A 1977; 140:34-35; Patten Recognition and Signal Processing. Sijthoff and Noordhoff: Netherlands, 1978; and J. Roy. Statist. Soc. Ser. B 1980; 42:245-292). We consider two specific forms, one self-exciting (i.e. the SETAR model) and the other smooth (i.e. the STAR) model developed by Chan and Tong (J. Time Ser. Anal. 1986; 7:179-190). The problem of maximizing the expected utility of wealth over a planning horizon is considered using a discrete-time dynamic programming approach. This optimization approach is flexible enough to deal with the optimal asset allocation problem under a general stochastic dynamical system, which includes the SETAR model and the STAR model as particular cases. Numerical studies are conducted to demonstrate the practical implementation of the proposed model. We also investigate the impacts of non-linearity in the SETAR and STAR models on the optimal portfolio strategies.

AB - We discuss the asset allocation problem in the important class of parametric non-linear time series models called the threshold autoregressive model in (J. Roy. Statist. Soc. Ser. A 1977; 140:34-35; Patten Recognition and Signal Processing. Sijthoff and Noordhoff: Netherlands, 1978; and J. Roy. Statist. Soc. Ser. B 1980; 42:245-292). We consider two specific forms, one self-exciting (i.e. the SETAR model) and the other smooth (i.e. the STAR) model developed by Chan and Tong (J. Time Ser. Anal. 1986; 7:179-190). The problem of maximizing the expected utility of wealth over a planning horizon is considered using a discrete-time dynamic programming approach. This optimization approach is flexible enough to deal with the optimal asset allocation problem under a general stochastic dynamical system, which includes the SETAR model and the STAR model as particular cases. Numerical studies are conducted to demonstrate the practical implementation of the proposed model. We also investigate the impacts of non-linearity in the SETAR and STAR models on the optimal portfolio strategies.

KW - SETAR model

KW - STAR model

KW - asset allocation

KW - conditional heteroscedasticity

KW - dynamical programming

KW - non-linearity

KW - stochastic dynamical system

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JO - Applied Stochastic Models in Business and Industry

JF - Applied Stochastic Models in Business and Industry

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ER -

Asset allocation under threshold autoregressive models

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