LMI Conditions for Global Stability of Fractional-Order Neural Networks

Citations Over TimeTop 10% of 2016 papers

Abstract

Fractional-order neural networks play a vital role in modeling the information processing of neuronal interactions. It is still an open and necessary topic for fractional-order neural networks to investigate their global stability. This paper proposes some simplified linear matrix inequality (LMI) stability conditions for fractional-order linear and nonlinear systems. Then, the global stability analysis of fractional-order neural networks employs the results from the obtained LMI conditions. In the LMI form, the obtained results include the existence and uniqueness of equilibrium point and its global stability, which simplify and extend some previous work on the stability analysis of the fractional-order neural networks. Moreover, a generalized projective synchronization method between such neural systems is given, along with its corresponding LMI condition. Finally, two numerical examples are provided to illustrate the effectiveness of the established LMI conditions.

Related Papers

• → Global stability analysis of Cohen–Grossberg neural networks with time varying delays(2005)160 cited
• → New stability conditions for neural networks with constant and variable delays(2005)29 cited
• → Stability analysis of a class of generalized neural networks with delays(2005)8 cited
• StabilityAnalysis of a Class of Hopfield Neural Networks under Thresholds(2009)
• Sufficient and necessary condition for existence and uniqueness of equilibrium point of a class of cellular neural networks with delay(2012)