A One-Layer Recurrent Neural Network for Real-Time Portfolio Optimization With Probability Criterion. Academic Article

abstract

• This paper presents a decision-making model described by a recurrent neural network for dynamic portfolio optimization. The portfolio-optimization problem is first converted into a constrained fractional programming problem. Since the objective function in the programming problem is not convex, the traditional optimization techniques are no longer applicable for solving this problem. Fortunately, the objective function in the fractional programming is pseudoconvex on the feasible region. It leads to a one-layer recurrent neural network modeled by means of a discontinuous dynamic system. To ensure the optimal solutions for portfolio optimization, the convergence of the proposed neural network is analyzed and proved. In fact, the neural network guarantees to get the optimal solutions for portfolio-investment advice if some mild conditions are satisfied. A numerical example with simulation results substantiates the effectiveness and illustrates the characteristics of the proposed neural network.

authors

• Huang, Tingwen

published proceedings

• IEEE Trans Cybern

author list (cited authors)

• Liu, Q., Dang, C., & Huang, T.

citation count

• 62

complete list of authors

• Liu, Qingshan||Dang, Chuangyin||Huang, Tingwen

publication date

• February 2013

publisher

• Institute of Electrical and Electronics Engineers (IEEE)  Publisher

published in

• IEEE TRANSACTIONS ON CYBERNETICS  Journal

keywords

• Computer Simulation
• Decision Making
• Models, Neurological
• Neural Networks, Computer

PubMed Central ID

• 22665511

Digital Object Identifier (DOI)

• 10.1109/TSMCB.2012.2198812

start page

• 14

end page

• 23

volume

• 43

issue

• 1

URL

• http://dx.doi.org/10.1109/tsmcb.2012.2198812