MULTI-CRITERIA VERIFICATION OF THE HYPOTHESIS OF NORMALITY AND UNIFORMITY OF SMALL SAMPLES USING TERNARY AND BINARY ARTIFICIAL NEURONS

Autor: A.I. Ivanov, A.P. Yunin, A.P. Ivanov, E.N. Kupriyanov, S.A. Polkovnikova
Jazyk: English<br />Russian
Rok vydání: 2022
Předmět:
Zdroj: Надежность и качество сложных систем, Iss 3 (2022)
Druh dokumentu: article
ISSN: 2307-4205
DOI: 10.21685/2307-4205-2022-3-9
Popis: The problem of joint use of three criteria for testing the hypothesis of uniformity and normality is considered: Frotsini (1978), Ali – Chergo – Revis (1992) and a differential version of the Frotsini test (2016). Materials and methods. It is proposed to match each of the studied criteria with an equivalent artificial neuron. Then a neural network of three binary neurons gives a three-bit output code. A network of ternary neurons will produce a six-bit output code. Redundant output codes of neural networks can be convolved with error correction. Results. It is shown that binary artificial neurons make it possible to distinguish between small samples of 16 experiments with a normal or uniform distribution with the same probabilities of errors of the first and second kind – 0,031. Ternary neurons give the same probabilities of errors of the first and second kind at the level of – 0,2303. Due to the independence of the data (Hamming distance spectra do not overlap), it is possible to reduce the error probability to a value of – 0,007. Conclusions. Known code structures with redundancy, capable of detecting and correcting errors, were created mainly for binary codes. Ternary code constructions are poorly studied. It is necessary not only to develop a branch of ternary self-correcting codes, but also a code superstructure that combines binary and ternary neural network self-correcting structures.
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