RADIOELECTRONIC AND COMPUTER SYSTEMS

The method of checking the adequacy of the stochastic models of noise sources in binary discrete communication channels is suggested. The technique is based on a comparison of the theoretical probability characteristics of a discrete channel and corresponding statistical estimates of these characteristics. Bit error probability, average error-free interval length and probability of receiving a block of a certain length with errors and errors with fixed multiplicity were chosen as main indexes of estimated characteristics. The calculations for the four-dimensional model were performed. The ratios of theoretical and statistical estimates of the discrete channel parameters were determined.

discrete binary channel, error sources, error sources condition, probabilistic characteristics, error vector, error bit probability.

Purtov, L. P., Zamrii, A. S., Zakharov, A. I., Okhorzin V. M. Elementy teorii peredachi diskretnoi informatsii [Elements of the theory of discrete information transmission]. Moscow, Communication Publ., 1972. 232 p.

Blokh, E. L., Popov, O. V., Turin V. Ya. Modeli istochnika oshibok v kanalakh peredachi tsifrovoi informatsii [Models of sources of error in the transmission channels of digital information]. Moscow, Communication Publ., 1971. 312 p.

Wang, H., Moayeri, N. Finite-state Markov channel-a useful model for radio communication channels. IEEE Transactions on Vehicular Technology, 1995. vol. 44, no. 1, pp. 163-171.

Soury, H., Yilmaz, F., Mohamed-Slim, F. Average Bit Error Probability of Binary Coherent Signaling over Generalized Fading Channels Subject to Additive Generalized Gaussian Noise. IEEE Communications Letters, 2012. vol. 16, no. 6, pp. 785-788.

Logvinenko, N. F., Efimovskaya, V. V. Mnogomernaya model' istochnikov oshibok v diskretnykh kanalakh radiosvyazi. [A multidimensional model of error sources in discrete radio channels]. Informatsionnye tekhnologii: nauka, tekhnika, tekhnologiya, obrazovanie, zdorov'e – Proc. of Khar'kov'sGPU "Information technology: science, technique, technology, education, health", 1999, vol. 7, no. 3, pp. 295-298.

Lohvynenko, M. F., Pid"yachyy, H. Yu., Svitlychnyy, V. A. Modelyuvannya diyi dzherel zavad v dyskretnykh binarnykh kanalakh zv"yazku [Modeling the action of sources of interference in discrete binary communication channels] Systemy obrobky informatsiyi – Proc. of Khar'kov's UPS "Systems of information processing, 2008, vol. 7 (74), pp. 74-77.

Logvinenko, N. F. Mnogomernye modeli istochnika oshibok v statsionarnom diskretnom binarnom kanale [Multivariate models of sources of error in the stationary binary channels] Vіsnik nats. tekhn. un-tu «KhPІ». – Proc. ofNTU"KhPІ" "Bulletin of the National Technical University. Special edition "Technique and electro physics of high tensions", 2008, no. 44, pp. 99-105.

Sasaki, A., Ishihara, T., Shibata, N., Kawano, R., Morimura, H., Shinagawa, M. Signal-to-Noise Ratio Analysis of a Noisy-Channel Model for a Capacitively Coupled Personal Area Network. IEEE Transactions on Antennas and Propagation, 2013, vol. 61, no. 1, pp. 390-402.

Nurmatov, A. T., Selikhov, Yu. R. Informatsionnaya kharakteristika diskretnogo kanala svyazi s istochnikom oshibok [Information characteristics of discrete communication channel with the source of errors]. Tekhnicheskie nauki - ot teorii k praktike - Engineering - From Theory to Practice, 2016, no. 58(1), pp. 75-80.

Logvinenko, N. F. Planirovanie eksperimenta po izmereniyam kachestva diskretnikh kanalov i obrabotke ikh rezul'tatov [Experimental Design for discrete channels measurement as and process their results]. Sistemi obrobki іnformatsії – Proc. of Khar'- kov's UPS "Systems of information processing”, 2008, vol. 2(69),pp. 77- 79.

Lohvynenko, M. F. Metodyka vyznachennya staniv binarnykh dyskretnykh kanaliv elektrozv"yazku [Method of determining the state of binary discrete channels] Sistemi obrobki informatsiyi – Proc. of Khar'- kov's UPS "Systems of information processing”, 2010, vol. 1(82), pp. 81- 84.

Venttsel, E. S. Teoriya veroyatnostey [Probability theory]. Moscow, Nauka Publ., 1969. 576 p.