| Uniqueness Of Weights For Neural Networks (1993) | |||||||||||||||||
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| Introduction In most applications dealing with learning and pattern recognition, neural nets are employed as models whose parameters, or "weights," must be fit to training data. Gradient descent and other algorithms are used in order to minimize an error functional, which penalizes mismatches between the desired outputs and those that a candidate net ---with a fixed architecture and varying weights--- produces. There are many numerical issues that arise naturally when using such a design approach, in particular: (i) the possibility of local minima which are not globally optimal, and (ii) the possibility of multiple global minimizers. The first question was dealt with by many different authors ---see for instance [5, 13, 14]--- and will not reviewed here. Regarding point (ii), observe that there are obvious transformations that leave the behavior of a network invariant, such as interchanges of all incoming and outgoing weights between two neurons, that is the relabeling of neu | |||||||||||||||||
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