International audienceThe quantitative analysis of non-invasive electrophysiology signals from electroencephalography (EEG) and magnetoencephalography (MEG) boils down to the identification of temporal patterns such as evoked responses, transient bursts of neural oscillations but also blinks or heartbeats for data cleaning. Several works have shown that these patterns can be extracted efficiently in an unsupervised way, e.g., using Convolutional Dictionary Learning. This leads to an event-based description of the data. Given these events, a natural question is to estimate how their occurrences are modulated by certain cognitive tasks and experimental manipulations. To address it, we propose a point process approach. While point processes ha...
International audienceNeuronally plausible, generative or forward models are essential for understan...
Every process of our life can be divided into steps or, in other words, stages that describe this pr...
The human brain is constantly processing and integrating information in order to make decisions and ...
The quantitative analysis of non-invasive electrophysiology signals from electroencephalography (EEG...
A common interest of scientists in many fields is to understand the relationship between the dynamic...
Point process modeling has the potential to capture the specificity of neural firing where the infor...
Understanding the factors shaping neuronal spiking is a central problem in neuroscience. Neurons may...
A constrained point-process filtering mechanism for prediction of electromyogram (EMG) signals from ...
Neuroimaging studies typically compare experimental conditions using average brain responses, thereb...
Understanding how ensembles of neurons represent and transmit information in the patterns of their j...
Abstract. In most neural systems, neurons communicate via sequences of action potentials. Contempora...
Understanding how ensembles of neurons represent and transmit information in the patterns of their j...
In this thesis, inspired by the development of the Brain-computer-interface (BCI) technology, we pre...
Identifying patterns of recurrent events is central to human perception, cognition and behavior. By ...
This article provides a new, more comprehensive view of event-related brain dynamics founded on an i...
International audienceNeuronally plausible, generative or forward models are essential for understan...
Every process of our life can be divided into steps or, in other words, stages that describe this pr...
The human brain is constantly processing and integrating information in order to make decisions and ...
The quantitative analysis of non-invasive electrophysiology signals from electroencephalography (EEG...
A common interest of scientists in many fields is to understand the relationship between the dynamic...
Point process modeling has the potential to capture the specificity of neural firing where the infor...
Understanding the factors shaping neuronal spiking is a central problem in neuroscience. Neurons may...
A constrained point-process filtering mechanism for prediction of electromyogram (EMG) signals from ...
Neuroimaging studies typically compare experimental conditions using average brain responses, thereb...
Understanding how ensembles of neurons represent and transmit information in the patterns of their j...
Abstract. In most neural systems, neurons communicate via sequences of action potentials. Contempora...
Understanding how ensembles of neurons represent and transmit information in the patterns of their j...
In this thesis, inspired by the development of the Brain-computer-interface (BCI) technology, we pre...
Identifying patterns of recurrent events is central to human perception, cognition and behavior. By ...
This article provides a new, more comprehensive view of event-related brain dynamics founded on an i...
International audienceNeuronally plausible, generative or forward models are essential for understan...
Every process of our life can be divided into steps or, in other words, stages that describe this pr...
The human brain is constantly processing and integrating information in order to make decisions and ...