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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
  • O.K.Vidybida. Maximization of the olfactory receptor neuron selectivity in the sub-threshold regime. Ukr. J. Phys. 68, No. 4, 266 (2023) Abstract
  • A.K.Vidybida. Selectivity Gain in Olfactory Receptor Neuron at Optimal Odor Concentration, in: 2024.IEEE International.Symposium.on.Olfaction.and.Electronic.Nose.(ISOEN). 2024 IEEE International Symposium on Olfaction and Electronic Nose (ISOEN) :1-3 (2024), DOI: 10.1109/ISOEN61239.2024.10556323. Abstract