Computation of Time-Varying {2,3}- and {2,4}-Inverses through Zeroing Neural Networks

Citation:

Li, X., Lin, C. - L., Simos, T. E., Mourtas, S. D., & Katsikis, V. N. (2022). Computation of Time-Varying {2,3}- and {2,4}-Inverses through Zeroing Neural Networks. Mathematics, 10. Copy at http://www.tinyurl.com/2zogfj8z

Abstract:

This paper investigates the problem of computing the time-varying {2,3}- and {2,4}-inverses through the zeroing neural network (ZNN) method, which is presently regarded as a state-of-the-art method for computing the time-varying matrix Moore–Penrose inverse. As a result, two new ZNN models, dubbed ZNN23I and ZNN24I, for the computation of the time-varying {2,3}- and {2,4}-inverses, respectively, are introduced, and the effectiveness of these models is evaluated. Numerical experiments investigate and confirm the efficiency of the proposed ZNN models for computing the time-varying {2,3}- and {2,4}-inverses.

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