Coupings and Information Transfer in nonlinear chemical Systems - Chemical
Project management at the University of Würzburg:
Novel construction of a chemical computer which can learn dynamical patterns and associate unknown patterns. Basic problems regarding the regulation of nonlinear reactions (phases, coherences) have been solved and applied to the action potentials of in vivo neuronal nets (olfaction in insects) in an analogous fashion.
Neuronal Nets in vivo
from 01.1999 to 12.2001
DFG ,Granting date: 01.01.1999
Schn195/16-2 und Schn195/16-1
- W.Hohmann, M. Kraus,F.W.Schneider.
(1999). Pattern Recognition by electrical Coupling of eight chemical Reactors. Journal of Physical Chemistry A,103,7606-7611, (scientific article)
(2000). The Phases of small Networks of chemical Reactors and Neurons. Biophysical Chemistry,85,199 -208, (scientific article)
- W.Hohmann,N.Schinor,M.Kraus, F.W.Schneider.
(1999). Electrically Coupled chemical Oscillators and their Action Potentials. Journal of Physical Chemistry A, 103, 5742-5748, (scientific article)
(2001). A small Neuronal Net simulates Coherence and Short-Term Memory in an Insect Olfactory System. Physical Chemistry Chemical Physics,3,4060-4071, (scientific article)
- F.Buchholtz, N.Schinor, F.W.Schneider.
(2002). Stochastic Nonlinear Dynamics:How many Ion Channels are in a Single Neuron. Journal of Physical Chemistry B,106,5086-5090, (scientific article)