In this work, a new advanced active set limited memory BFGS (Broyden-Fletcher-Goldfarb-Shanno) algorithm is proposed for efficiently training weight-constrained neural networks, called AA-L-BFGS. The proposed algorithm possesses the significant property of approximating the curvature of the error function with high-order accuracy by utilizing the theoretically advanced secant condition proposed by Livieris and Pintelas (Appl Math Comput 221:491-502, 2013). Moreover, the global convergence of the proposed algorithm is established provided that the line search satisfies the modified Armijo condition. The presented numerical experiments illustrate the efficiency of the proposed AA-L-BFGS, providing empirical evidence that it significantly accelerates the convergence of the training process.
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