Poster presentation: Coordinated neuronal activity across many neurons, i.e. synchronous or spatiotemporal pattern, had been believed to be a major component of neuronal activity. However, the discussion if coordinated activity really exists remained heated and controversial. A major uncertainty was that many analysis approaches either ignored the auto-structure of the spiking activity, assumed a very simplified model (poissonian firing), or changed the auto-structure by spike jittering. We studied whether a statistical inference that tests whether coordinated activity is occurring beyond chance can be made false if one ignores or changes the real auto-structure of recorded data. To this end, we investigated the distribution of coincident s...
Sensory and cognitive processing relies on the concerted activity of large populations of neurons. T...
In some parts of the nervous system, especially in the periphery, spike timing in response to a stim...
The mechanisms by which the brain represents, processes and transmits information interms of spiking...
Poster presentation: Coordinated neuronal activity across many neurons, i.e. synchronous or spatiote...
The discussion whether temporally coordinated spiking activity really exists and whether it is relev...
Detecting the existence of temporally coordinated spiking activity, and its role in information proc...
Pairs of active neurons frequently fire action potentials or “spikes” nearly synchronously (i.e., wi...
To assess the potential existence of spike synchrony as an indicator of assembly activity, we develo...
Neuronal synchronization is ubiquitous in the nervous system, yet its functional role for informatio...
Pairs of active neurons frequently fire action potentials or "spikes" nearly synchronously (i.e., wi...
Cortical neurons are typically driven by several thousand synapses. The precise spatiotemporal patte...
The statistical analysis of two simultaneously observed trains of neuronal spikes is described, usin...
Background Synchronous neuronal firing has been discussed as a potential neuronal code. For testing ...
International audienceThis paper describes and compares two classical methods for the detection of n...
Poster presentation: We present a non-parametric and computationally-efficient method named NeuroXid...
Sensory and cognitive processing relies on the concerted activity of large populations of neurons. T...
In some parts of the nervous system, especially in the periphery, spike timing in response to a stim...
The mechanisms by which the brain represents, processes and transmits information interms of spiking...
Poster presentation: Coordinated neuronal activity across many neurons, i.e. synchronous or spatiote...
The discussion whether temporally coordinated spiking activity really exists and whether it is relev...
Detecting the existence of temporally coordinated spiking activity, and its role in information proc...
Pairs of active neurons frequently fire action potentials or “spikes” nearly synchronously (i.e., wi...
To assess the potential existence of spike synchrony as an indicator of assembly activity, we develo...
Neuronal synchronization is ubiquitous in the nervous system, yet its functional role for informatio...
Pairs of active neurons frequently fire action potentials or "spikes" nearly synchronously (i.e., wi...
Cortical neurons are typically driven by several thousand synapses. The precise spatiotemporal patte...
The statistical analysis of two simultaneously observed trains of neuronal spikes is described, usin...
Background Synchronous neuronal firing has been discussed as a potential neuronal code. For testing ...
International audienceThis paper describes and compares two classical methods for the detection of n...
Poster presentation: We present a non-parametric and computationally-efficient method named NeuroXid...
Sensory and cognitive processing relies on the concerted activity of large populations of neurons. T...
In some parts of the nervous system, especially in the periphery, spike timing in response to a stim...
The mechanisms by which the brain represents, processes and transmits information interms of spiking...