论文信息 - Non-locality in biological systems results from hierarchy

Non-locality in biological systems results from hierarchy

The concept of non-locality is deduced from a new concept for biological systems, the “functional interaction”. It is shown that a biological system, which is expressed in terms of functional interactions, can be constructed as a hierarchical system, the dynamics of which are represented by a non-local field at each level of organization. The two following constraints: continuous representation of state variables and hierarchy of the system, result in non-locality, i.e., a space property according to which the system depends on mechanisms that are located elsewhere in the space. Concepts and theory are illustrated in the case of the nervous system, where two levels of organization are considered, the level of neurons and the level of synapses. Non-local versus local field operators are discussed, and an interpretation of the field equation terms is proposed. A general formulation of non-local operators for hierarchical systems is given.

G. Chauvet | Gilbert A. Chauvet

[1] R. L. Beurle. Properties of a mass of cells capable of regenerating pulses , 1956, Philosophical Transactions of the Royal Society of London. Series B, Biological Sciences.

[2] J. Griffith. A field theory of neural nets: I. Derivation of field equations. , 1963, The Bulletin of mathematical biophysics.

[3] Michael Conrad,et al. Statistical and hierarchical aspects of biological organization , 1970 .

[4] J. Cowan,et al. Excitatory and inhibitory interactions in localized populations of model neurons. , 1972, Biophysical journal.

[5] Burkhart Fischer,et al. A neuron field theory: Mathemalical approaches to the problem of large numbers of interacting nerve cells , 1973 .

[6] D. H. Paul. The physiology of nerve cells , 1975 .

[7] J. Cowan,et al. Temporal oscillations in neuronal nets , 1979, Journal of mathematical biology.

[8] A. Ōkubo,et al. Di?usion and ecological problems: mathematical models , 1980 .

[9] J J Hopfield,et al. Neural networks and physical systems with emergent collective computational abilities. , 1982, Proceedings of the National Academy of Sciences of the United States of America.