Title :
The hysteretic Hopfield neural network
Author :
Bharitkar, Sunil ; Mendel, Jerry M.
Author_Institution :
Signal & Image Process. Inst., Univ. of Southern California, Los Angeles, CA, USA
fDate :
7/1/2000 12:00:00 AM
Abstract :
A new neuron activation function based on a property found in physical systems-hysteresis-is proposed. We incorporate this neuron activation in a fully connected dynamical system to form the hysteretic Hopfield neural network (HHNN). We then present an analog implementation of this architecture and its associated dynamical equation and energy function. We proceed to prove Lyapunov stability for this new model, and then solve a combinatorial optimization problem (i.e., the N-queen problem) using this network. We demonstrate the advantages of hysteresis by showing increased frequency of convergence to a solution, when the parameters associated with the activation function are varied
Keywords :
Hopfield neural nets; Lyapunov methods; convergence; hysteresis; stability; transfer functions; HHNN; Lyapunov stability; N-queen problem; activation function; combinatorial optimization problem; dynamical equation; energy function; fully connected dynamical system; hysteretic Hopfield neural network; neuron activation function; Animal structures; Biological neural networks; Circuits; Equations; Frequency; Hopfield neural networks; Hysteresis; Immune system; Lyapunov method; Neurons;
Journal_Title :
Neural Networks, IEEE Transactions on
