Title :
Linear Hopfield networks and constrained optimization
Author :
Lendaris, G.G. ; Mathia, K. ; Saeks, R.
Author_Institution :
Portland State Univ., OR, USA
fDate :
2/1/1999 12:00:00 AM
Abstract :
It is shown that a Hopfield neural network (with linear transfer functions) augmented by an additional feedforward layer can be used to compute the Moore-Penrose generalized inverse of a matrix. The resultant augmented linear Hopfield network can be used to solve an arbitrary set of linear equations or, alternatively, to solve a constrained least squares optimization problem. Applications in signal processing and robotics are considered. In the former case the augmented linear Hopfield network is used to estimate the “structured noise” component of a signal and adjust the parameters of an appropriate filter on-line, whereas in the latter case it is used to implement an on-line solution to the inverse kinematics problem
Keywords :
Hopfield neural nets; optimisation; robot kinematics; signal processing; Moore-Penrose generalized inverse; additional feedforward layer; augmented linear Hopfield network; constrained least squares optimization problem; constrained optimization; inverse kinematics problem; linear transfer functions; signal processing; Computer networks; Constraint optimization; Equations; Hopfield neural networks; Kinematics; Least squares methods; Nonlinear filters; Robots; Signal processing; Transfer functions;
Journal_Title :
Systems, Man, and Cybernetics, Part B: Cybernetics, IEEE Transactions on
DOI :
10.1109/3477.740171
