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A.K.Vidybida, A.A.Serikov. Electrophoresis by alternating fields in a non-newtonian fluid. Physics Letters A, v.108(3), 1985, 170-172 Abstract
A.K.Vidybida. Modification of the Potential Function of a Mechanical System Caused by Periodic Action. Acta Mechanica, v.67, 1987, 183-190 Abstract
А.К.Видыбида. Вызванная периодическим воздействием модификация потенциальной функции механической системы. ДАН СССР, т.292(6),1987, 1341-1345 Abstract
A.K.Vidybida. Periodic electric field as a biopolymer conformation switch: a possible mechanism. Eur. Biophysics J. v.16(6), 1989, 357-361 Abstract
A.K.Vidybida. Selectivity and sensitivity improvement in cooperative system with a threshold in the presence of noise. J.theor.Biol., v.152, 1991, 159-164 Abstract
A.K.Vidybida. Estimation of possible selectivity and sensitivity of a cooperative system to low-intensive microwave radiation. (Talk made on the "Electromagnetic Hypersensitivity, 2nd Copenhagen Conference", Copenhagen, 1995) PDF
A.K.Vidybida. Estimation of possible selectivity and sensitivity of a cooperative system to low-intensive microwave radiation. Physica A, v.221(1-3), 1995, p.30-40 Abstract
A.K.Vidybida. Information Processing in a Pyramidal-Type Neuron. Report to BioNet'96, GFaI, Berlin, 1996. Abstract, text
A.K.Vidybida. Neuron as Time Coherence Discriminator. Biological Cybernetics, v.74(6), 1996, p.539-544 Abstract
A.K.Vidybida. Inhibition as Binding Controller at the single neuron level. BioSystems, v.48, 1998, 263--267 Abstract
A.K.Vidybida. Cooperative mechanism for improving discriminating ability in chemoreceptor neuron. Biological Cybernetics, Vol. 81(5/6), 1999, 469-473 Abstract
A.K.Vidybida, V. Erkızan, O. Altungöz, G.Çelebi. Testing of nonlinear electrofrictiophoresis in agarose gel. Bioelectrochemistry 52 (2000) 91-101 Abstract
A.K.Vidybida. Information processing at single neuron level. Poster presented at NATO ASI in Nida (Lithuania), July 2000 Abstract
A.K.Vidybida. Selectivity of Chemoreceptor Neuron. BioSystems, v.58(1-3), 2000, 125--132 Abstract
A.K.Vidybida. Computer simulation of inhibition-dependent binding in a neural network. BioSystems, 71, 2003, 205--212 Abstract
A.K.Vidybida, A.L.Kukla, O.S.Pavliuchenko, Yu.M.Shirshov. Threshold Chemical Sensor. ( Patent, 2003)
A.K.Vidybida. Adsorption-desorption noise can be used for improving selectivity. Sensors and Actuators A, v.107, 2003, 233--237 Abstract
A.K.Vidybida. Stochastic Models. ( Book, 2006)
A.K.Vidybida. Output stream of a binding neuron. Ukr Math J, Springer US, vol. 59, no. 12, pp. 1819-1839 (2008) Abstract
A.K.Vidybida. Output stream of binding neuron with instantaneous feedback. Eur. Phys. J. B 65, 577-584 (2008) Abstract
A.K.Vidybida. Output stream of binding neuron with delayed feedback. In: 14th International Congress of Cybernetics and Systems of WOSC, Wroclaw, September 9-12, 2008, Proceedings, p. 292-302 Abstract
PCA, Principal Components Analysis, 4-pages explanation Abstract
A.K.Vidybida and K.G. Kravchuk. Output stream of binding neuron with delayed feedback. Eur. Phys. J. B 72, 279-287 (2009) Abstract
A.K.Vidybida. Testing of information condensation in a model reverberating spiking neural network. International Journal of Neural Systems, Vol. 21, No. 3 (2011) 187-198 Abstract
A.K.Vidybida, K.G.Kravchuk. Delayed feedback makes neuronal firing statistics non-Markovian. Ukr. Math. J., 64(12), 2012, 1587-1609 Abstract
Vidybida A.K. Binding neuron. In: Mehdi Khosrow-Pour (ed). Encyclopedia of information science and technology, Third Edition, IGI Global, Hershey PA, 2014, pp. 1123--1134 Abstract
A.K.Vidybida. Activity of Excitatory Neuron with Delayed Feedback Stimulated with Poisson Stream is Non-Markov. J. Stat. Phys., 160(6), 2015, 1507-1518. Abstract
A.K.Vidybida. Output stream of leaky integrate-and-fire neuron without diffusion approximation. J. Stat. Phys., 166(2), 2017, 267-281. Abstract
A.Vidybida, O.Shchur. Information reduction in a reverberatory neuronal network through convergence to complex oscillatory firing patterns. BioSystems, 161, 2017, 24-30. Abstract
A.K.Vidybida. Possible Stochastic Mechanism for Improving the Selectivity of Olfactory Projection Neurons, Neurophysiology, Vol. 51, No. 3, 2019, pp 152–159 Abstract
A.K.Vidybida. Selectivity Gain in Olfactory Projection Neurons at Low Odor Concentrations. Abstract
A.K.Vidybida. Calculating Permutation Entropy without Permutations, Complexity, Volume 2020, Article ID 7163254 (2020) Abstract
A.K.Vidybida. Harnessing thermal fluctuations for selectivity gain, 2022 IEEE International Symposium on Olfaction and Electronic Nose (ISOEN), 2022, pp. 1-3, doi: 10.1109/ISOEN54820.2022.9789678. Abstract
A.Vidybida, O.Shchur. From chaos to clock in recurrent neural net. Case study. BioSystems 220 (2022) 104739. Abstract