Neurons With Paraboloid Decision Boundaries for Improved Neural Network Classification Performance.

Abstract

In mathematical terms, an artificial neuron computes the inner product of a d -dimensional input vector x with its weight vector w , compares it with a bias value w0 and fires based on the result of this comparison. Therefore, its decision boundary is given by the equation wTx+w0=0 . In this paper, we propose replacing the linear hyperplane decision boundary of a neuron with a curved, paraboloid decision boundary. Thus, the decision boundary of the proposed paraboloid neuron is given by the equation (hTx+h0)2-||x-p||22=0 , where h and h0 denote the parameters of the directrix and p denotes the coordinates of the focus. Such paraboloid neural networks are proven to have superior recognition accuracy in a number of applications.