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Nonlinear trading models through Sharpe Ratio maximization.

作者信息

Choey M, Weigend A S

机构信息

Advanced Technology Group, Siemens Nixdorf Information Systems, Inc., Burlington, MA 01803, USA.

出版信息

Int J Neural Syst. 1997 Aug;8(4):417-31. doi: 10.1142/s0129065797000410.

DOI:10.1142/s0129065797000410

Abstract

While many trading strategies are based on price prediction, traders in financial markets are typically interested in optimizing risk-adjusted performance such as the Sharpe Ratio, rather than the price predictions themselves. This paper introduces an approach which generates a nonlinear strategy that explicitly maximizes the Sharpe Ratio. It is expressed as a neural network model whose output is the position size between a risky and a risk-free asset. The iterative parameter update rules are derived and compared to alternative approaches. The resulting trading strategy is evaluated and analyzed on both computer-generated data and real world data (DAX, the daily German equity index). Trading based on Sharpe Ratio maximization compares favorably to both profit optimization and probability matching (through cross-entropy optimization). The results show that the goal of optimizing out-of-sample risk-adjusted profit can indeed be achieved with this nonlinear approach.

摘要

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