We introduce a novel framework for estimating vector fields using sparse basis field expansions (S-FLEX). The notion of basis fields, which are an extension of scalar basis functions, arises naturally in our framework from a rotational invariance requirement. We consider a regression setting as well as inverse problems. All variants discussed lead to second-order cone programming formulations. While our framework is generally applicable to any type of vector field, we focus in this paper on applying it to solving the EEG/MEG inverse problem. It is shown that significantly more precise and neurophysiologically more plausible location and shape estimates of cerebral current sources from EEG/MEG measurements become possible with our method whe...
Electroencephalography (EEG) is one of the most important noninvasive neuroimaging tools that provid...
In this thesis, three different approaches are developed for the estimation of focal brain activity ...
Weak electrical currents in the brain flow as a consequence of acquisition, processing and transmiss...
We introduce Focal Vector Field Reconstruction (FVR), a novel technique for the inverse imaging of v...
International audienceThis paper is concerned with variational and Bayesian approaches to neuro-elec...
We propose a novel approach to solving the electro-/magnetoencephalographic (EEG/MEG) inverse proble...
This paper proposes and implements biophysical constraints to select a unique solution to the bioele...
We propose a novel ℓ1ℓ2-norm inverse solver for estimating the sources of EEG/MEG signals. Based on ...
Abstract—MEG/EEG source imaging allows for the non-invasive analysis of brain activity with high tem...
Abstract. EEG/MEG devices record external signals which are gener-ated by the neuronal electric acti...
The inverse problem in electro- and magneto-encephalography (EEG/MEG) aims at reconstructing the und...
Summarization: In this primer, we give a review of the inverse problem for EEG source localization. ...
Linear inverse solutions have been applied extensively to solve the bioelectromagnetic inverse probl...
EEG/MEG devices record external signals which are generated by the neuronal electric activity of the...
Sparse signal recovery and dictionary learning methods have found a vast number of applications incl...
Electroencephalography (EEG) is one of the most important noninvasive neuroimaging tools that provid...
In this thesis, three different approaches are developed for the estimation of focal brain activity ...
Weak electrical currents in the brain flow as a consequence of acquisition, processing and transmiss...
We introduce Focal Vector Field Reconstruction (FVR), a novel technique for the inverse imaging of v...
International audienceThis paper is concerned with variational and Bayesian approaches to neuro-elec...
We propose a novel approach to solving the electro-/magnetoencephalographic (EEG/MEG) inverse proble...
This paper proposes and implements biophysical constraints to select a unique solution to the bioele...
We propose a novel ℓ1ℓ2-norm inverse solver for estimating the sources of EEG/MEG signals. Based on ...
Abstract—MEG/EEG source imaging allows for the non-invasive analysis of brain activity with high tem...
Abstract. EEG/MEG devices record external signals which are gener-ated by the neuronal electric acti...
The inverse problem in electro- and magneto-encephalography (EEG/MEG) aims at reconstructing the und...
Summarization: In this primer, we give a review of the inverse problem for EEG source localization. ...
Linear inverse solutions have been applied extensively to solve the bioelectromagnetic inverse probl...
EEG/MEG devices record external signals which are generated by the neuronal electric activity of the...
Sparse signal recovery and dictionary learning methods have found a vast number of applications incl...
Electroencephalography (EEG) is one of the most important noninvasive neuroimaging tools that provid...
In this thesis, three different approaches are developed for the estimation of focal brain activity ...
Weak electrical currents in the brain flow as a consequence of acquisition, processing and transmiss...