G. Hiller scite author profile

The influence of time delay in systems of two coupled excitable neurons is studied in the framework of the FitzHugh-Nagumo model. A time delay can occur in the coupling between neurons or in a self-feedback loop. The stochastic synchronization of instantaneously coupled neurons under the influence of white noise can be deliberately controlled by local time-delayed feedback. By appropriate choice of the delay time, synchronization can be either enhanced or suppressed. In delay-coupled neurons, antiphase oscillations can be induced for sufficiently large delay and coupling strength. The additional application of time-delayed self-feedback leads to complex scenarios of synchronized in-phase or antiphase oscillations, bursting patterns or amplitude death.

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Dynamics of Delay-Coupled Excitable Neural Systems

Dahlem

Hiller

Panchuk

et al. 2009

Int. J. Bifurcation Chaos

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Distortion In p-i-n Diode Control Circuits

Caverly

Hiller

1987

IEEE Trans. Microwave Theory Techn.

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The small signal a.c. impedance of gallium arsenide and silicon p-i-n diodes

Caverly

Hiller

1990

Solid-State Electronics

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The frequency-dependent impedance of p-i-n diodes

Caverly

Hiller²

1989

IEEE Trans. Microwave Theory Techn.

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G. Hiller

Time-delayed feedback in neurosystems

Dynamics of Delay-Coupled Excitable Neural Systems

Distortion In p-i-n Diode Control Circuits

The small signal a.c. impedance of gallium arsenide and silicon p-i-n diodes

The frequency-dependent impedance of p-i-n diodes

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