Smooth group L1/2 regularization for input layer of feedforward neural networks

Abstract

Abstract A smooth group regularization method is proposed to identify and remove the redundant input nodes of feedforward neural networks, or equivalently the redundant dimensions of the input data of a given data set. This is achieved by introducing a smooth group L1/2 regularizer with respect to the input nodes into the error function to drive some weight vectors of the input nodes to zero. The main advantage of the method is that it can remove not only the redundant nodes, but also some redundant weights of the surviving nodes. As a comparison, the L1 regularization (Lasso) is mainly designed for removing the redundant weights, and it is not very good at removing the redundant nodes. And the group Lasso can remove the redundant nodes, but not any weight of the surviving nodes. Another advantage of the proposed method is that it uses a smooth function to replace the non-smooth absolute value function in the common L1/2 regularizer, and thus it reduces the oscillation caused by the non-smoothness and enables us to prove the convergence properties of the proposed training algorithm. Numerical simulations are performed to illustrate the efficiency of the algorithm.