Abstract
This report demonstrates the possibility of interpreting rat behavior in situations associated with the choice between “safe” locations in a Y maze using pain reinforcement on the basis of summation rules for complex amplitude probabilities characterizing the prognostic assessment by the rat that it will achieve relative safety. Functionally incomplete actions in rat behavior were analyzed in the experimental situation. When the rat needed to avoid pain reinforcement and both pathways to avoid painful stimulation were equally suitable, interference could appear in the animal's assessment of the suitability of the two paths, this preventing decision-making. When this occurred, there was a delay in the executive action. After rats left one of the “safe” arms, they could move into the other “safe” arm, and vice versa. These transfers were completed in a quasi-periodic fashion, as predicted by a formal description of transfers between coincident (or sufficiently similar) states.
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REFERENCES
N. A. Bernshtein, Essays on the Physiology of Movement and the Physiology of Activity [in Russian], Meditsina, Moscow (1966).
K. V. Vilyunas, Psychological Mechanisms of Biological Motivation [in Russian], Moscow University Press, Moscow (1986).
N. D. Gordeeva and V. P. Zinchenko, The Functional Structure of Activity [in Russian], Moscow University Press, Moscow (1982).
G. E. Grigoryan and A. M. Stol'berg, “The ratio of visual and spatial orientational behavior in white rats after acquisition of a visual differentiation habit,” Zh. Vyssh. Nerv. Deyat., 39,No. 1, 66–71 (1989).
I. Yu. Zabrodin, E. S. Petrov, and N. S. Lazarenko, “Individual-typological features of the behavior of rats in open field conditions,” Zh. Vyssh. Nerv. Deyat., 39,No. 1, 59–65 (1989).
A. Ya. Kaplan and M. Yu. Borodovskii, “Alternative behavior of animals: a model and statistical characteristics,” Biol. Nauki, No. 3, 29–32 (1989).
I. P. Levshina and N. N. Shuikin, “External respiration as a measure of the individual features of the physiology of higher nervous activity in rats,” Zh. Vyssh. Nerv. Deyat., 46,No. 1, 73–77 (1996).
G. Kh. Merzhanova and É. E. Dolbakyan, “Interneuronal frontal-amygdalar interactions in cats trained to select reinforcement quality,” Zh. Vyssh. Nerv. Deyat., 48,No. 3, 410–420 (1998).
A. G. Sveshnikov and A. N. Tikhonov, Complex Variable Functions Theory [in Russian], Nauka, Moscow (1970), pp. 14–55.
P. V. Simonov, The Motivated Brain [in Russian], Nauka, Moscow (1987).
É. Tolmen, “Cognitive maps in rats and humans,” in: Selected Works in Zoopsychology and Comparative Psychology [in Russian], Moscow University Press, Moscow (1997), pp. 172–183.
R. Feinman and A. Hibs, Quantum Mechanics and Trajectory Integrals [Russian translation], Mir, Moscow (1968).
R. Hind, Animal Behavior [Russian translation], Mir, Moscow (1975).
M. Ito, S. Takatsuru, and D. Saeki, “Choice between constant and variable alternatives by rats: effects of different reinforcement amounts and energy budgets,” J. Exptl. Anal. Behav., 73,No. 1, 79–92 (2000).
J. E. Mazur, “Preferences for and against stimuli paired with food,” J. Exptl. Anal. Behav., 72,No. 1, 21–32 (1999).
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Levshina, I.P., Shuikin, N.N. Characteristics of Behavior Associated with Alternative Choice in a Y Maze in Rats and Their Interpretation in Terms of Complex Probability Amplitudes. Neurosci Behav Physiol 34, 37–42 (2004). https://doi.org/10.1023/B:NEAB.0000003244.11366.7e
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DOI: https://doi.org/10.1023/B:NEAB.0000003244.11366.7e