Augmented Hopfield network for mixed-integer programming
Neural Networks, IEEE Transactions(1999)
Abstract
Watta and Hassoun (1996) proposed a coupled gradient neural network for mixed integer programming. In this network continuous neurons were used to represent discrete variables. For the larger temporal problem they attempted many of the solutions found were infeasible. This paper proposes an augmented Hopfield network which is similar to the coupled gradient network proposed by Watta and Hassoun. However, in this network truly discrete neurons are used. It is shown that this network can be applied to mixed integer programming. Results illustrate that feasible solutions are now obtained for the larger temporal problem
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Key words
hopfield network,linear programming,neural networks,mixed integer programming,integer programming,neural network,transfer function,transfer functions
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