This paper proposes and implements biophysical constraints to select a unique solution to the bioelectromagnetic inverse problem. It first shows that the brain's electric fields and potentials are predominantly due to ohmic currents. This serves to reformulate the inverse problem in terms of a restricted source model permitting noninvasive estimations of Local Field Potentials (LFPs) in depth from scalp-recorded data. Uniqueness in the solution is achieved by a physically derived regularization strategy that imposes a spatial structure on the solution based upon the physical laws that describe electromagnetic fields in biological media. The regularization strategy and the source model emulate the properties of brain activity's actual genera...
The goal of this paper is to compare two computational models for the inverse problem of electroence...
Abstract. EEG/MEG devices record external signals which are gener-ated by the neuronal electric acti...
The common way of measuring electrical activities of the human brain due tobody functions is to plac...
This is the final report of a one-year, Laboratory Directed Research and Development (LDRD) project ...
The construction of a tomography of neuronal sources is limited by a lack of information. A possible...
We study the inverse source (primary current) localisation problem using the electrical potential me...
Linear inverse solutions have been applied extensively to solve the bioelectromagnetic inverse probl...
EEG and MEG measurements are non-invasive methods containing valuable information about intracranial...
Weak electrical currents in the brain flow as a consequence of acquisition, processing and transmiss...
AbstractBackgroundAcquiring information about the distribution of electrical sources in the brain fr...
The bioelectromagnetic inverse problem cannot be solved based on EEG/MEG data alone and requires add...
International audienceA fundamental problem in theoretical neurosciences is the inverse problem of s...
OBJECTIVE: Electroencephalography (EEG) is an important tool for studying the temporal dynamics of t...
EEG/MEG devices record external signals which are generated by the neuronal electric activity of the...
abstract: The inverse problem in electroencephalography (EEG) is the determination of form and locat...
The goal of this paper is to compare two computational models for the inverse problem of electroence...
Abstract. EEG/MEG devices record external signals which are gener-ated by the neuronal electric acti...
The common way of measuring electrical activities of the human brain due tobody functions is to plac...
This is the final report of a one-year, Laboratory Directed Research and Development (LDRD) project ...
The construction of a tomography of neuronal sources is limited by a lack of information. A possible...
We study the inverse source (primary current) localisation problem using the electrical potential me...
Linear inverse solutions have been applied extensively to solve the bioelectromagnetic inverse probl...
EEG and MEG measurements are non-invasive methods containing valuable information about intracranial...
Weak electrical currents in the brain flow as a consequence of acquisition, processing and transmiss...
AbstractBackgroundAcquiring information about the distribution of electrical sources in the brain fr...
The bioelectromagnetic inverse problem cannot be solved based on EEG/MEG data alone and requires add...
International audienceA fundamental problem in theoretical neurosciences is the inverse problem of s...
OBJECTIVE: Electroencephalography (EEG) is an important tool for studying the temporal dynamics of t...
EEG/MEG devices record external signals which are generated by the neuronal electric activity of the...
abstract: The inverse problem in electroencephalography (EEG) is the determination of form and locat...
The goal of this paper is to compare two computational models for the inverse problem of electroence...
Abstract. EEG/MEG devices record external signals which are gener-ated by the neuronal electric acti...
The common way of measuring electrical activities of the human brain due tobody functions is to plac...