Poster presentation: We present a non-parametric and computationally-efficient method named NeuroXidence (see http://www.NeuroXidence.com ) that detects coordinated firing within a group of two or more neurons and tests whether the observed level of coordinated firing is significantly different from that expected by chance. NeuroXidence [1] considers the full auto-structure of the data, including the changes in the rate responses and the history dependencies in the spiking activity. We demonstrate that NeuroXidence can identify epochs with significant spike synchronisation even if these coincide with strong and fast rate modulations. We also show, that the method accounts for trial-by-trial variability in the rate responses and their latenc...
Poster presentation: The analysis of neuronal processes distributed across multiple cortical areas a...
Understanding how the brain processes information is a major goal in neuroscience. A crucial step to...
Understanding how the brain processes information is a major goal in neuroscience. A crucial step to...
Poster presentation: We present a non-parametric and computationally-efficient method named NeuroXid...
Poster presentation: Background To test the importance of synchronous neuronal firing for informatio...
Synchronous neuronal firing has been proposed as a potential neuronal code. To determine whether syn...
Background Synchronous neuronal firing has been discussed as a potential neuronal code. For testing ...
One of the key findings supporting the assembly hypothesis was found in recordings from the primary ...
I present a theoretical effort to develop tools and statistical analysis of neural responses to repe...
International audienceThis paper describes and compares two classical methods for the detection of n...
Pairs of active neurons frequently fire action potentials or “spikes” nearly synchronously (i.e., wi...
We present a non-parametric and computationally efficient method that detects spatiotemporal firing ...
Poster presentation: Coordinated neuronal activity across many neurons, i.e. synchronous or spatiote...
The mechanisms by which the brain represents, processes and transmits information interms of spiking...
Neurons in sensory systems convey information about physical stimuli in their spike trains. In vitro...
Poster presentation: The analysis of neuronal processes distributed across multiple cortical areas a...
Understanding how the brain processes information is a major goal in neuroscience. A crucial step to...
Understanding how the brain processes information is a major goal in neuroscience. A crucial step to...
Poster presentation: We present a non-parametric and computationally-efficient method named NeuroXid...
Poster presentation: Background To test the importance of synchronous neuronal firing for informatio...
Synchronous neuronal firing has been proposed as a potential neuronal code. To determine whether syn...
Background Synchronous neuronal firing has been discussed as a potential neuronal code. For testing ...
One of the key findings supporting the assembly hypothesis was found in recordings from the primary ...
I present a theoretical effort to develop tools and statistical analysis of neural responses to repe...
International audienceThis paper describes and compares two classical methods for the detection of n...
Pairs of active neurons frequently fire action potentials or “spikes” nearly synchronously (i.e., wi...
We present a non-parametric and computationally efficient method that detects spatiotemporal firing ...
Poster presentation: Coordinated neuronal activity across many neurons, i.e. synchronous or spatiote...
The mechanisms by which the brain represents, processes and transmits information interms of spiking...
Neurons in sensory systems convey information about physical stimuli in their spike trains. In vitro...
Poster presentation: The analysis of neuronal processes distributed across multiple cortical areas a...
Understanding how the brain processes information is a major goal in neuroscience. A crucial step to...
Understanding how the brain processes information is a major goal in neuroscience. A crucial step to...