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Randomness in Neural Networks: An Overview

Randomness in Neural Networks: An Overview by

Simone Scardapane,

Dianhui Wang
Neural networks, as powerful tools for data mining and knowledge engineering, can learn from data to build feature-based classifiers and nonlinear predictive models. Training neural networks involves the optimization of non-convex objective functions, and usually the learning process is costly and infeasible for applications associated with data streams. A possible, albeit counter-intuitive alternative is to randomly assign a subset of the networks’ weights, so that the resulting optimization task can be formulated as a linear least-squares problem. This methodology can be applied to both feedforward and recurrent networks, and similar techniques can be used to approximate kernel functions. Many experimental results indicate that such randomized models can reach sound performance compared to fully adaptable ones, with a number of favourable benefits, including (i) simplicity of implementation, (ii) faster learning with less intervention from human beings, and (iii) possibility of leveraging over all linear regression and classification algorithms (e.g.,`1 norm minimization for obtaining sparse formulations). All these points make them attractive and valuable to the data mining community, particularly for handling large scale data mining in real-time. However, the literature in the field is extremely vast and fragmented, with many results being reintroduced multiple times under different names. This overview aims at providing a self-contained, uniform introduction to the different ways in which randomization can be applied to the design of neural networks and kernel functions. A clear exposition of the basic framework underlying all these approaches helps to clarify innovative lines of research, open problems and, most importantly, foster the exchanges of well-known results throughout different communities.** **

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