Add to ORKGTopographic maps are commonly constructed from electrical scalp recordings (such as EEGs and ERPs) using several different in-terpolation methods. It is important to determine the accuracy of such maps. Previous assessments of interpolation methods have been based on global error measures and the visual appearance of the topographic maps. However, the relationship of interpolation error to local contributing factors requires a more detailed analysis. In this paper, we use simulations to explore and quantify the relationship of error to global and local factors for different interpolation methods. We find that among the best interpolation methods, adequate elec-trode density is more important than the method used. For shallow sources, we sho...
The location of the international 10-20 system electrode positions and 14 fiducial landmarks are des...
We analyze the effect of electrode mislocation on the electroencephalography (EEG) inverse problem u...
Inaccuracy of EEG electrode coordinates forms an error term in forward model generation and ultimate...
This paper describes a uniform method for calculating the interpolation of scalp EEG potential disti...
The present chapter gives a comprehensive introduction into the display and quantitative characteriz...
The co-registration of transcranial magnetic stimulation and electroencephalography (TMS-EEG) is eme...
Topographic mapping of brain electrical activity has become a powerful tool in neurological diagnosi...
Subject-specific four-layer boundary element method (BEM) electrical forward head models for four pa...
ERP researchers use differences in scalp distributions to infer differences in spatial configuration...
Subject-specific four-layer boundary element method (BEM) electrical forward head models for four pa...
In (A) and (B), the green and gray circles indicate fiducials and electrodes measured for the VRDigi...
The average reference introduces ghost potential fields at the latencies for which the integral of s...
The performance of four methods for interpolation of body surface potential maps (BSPMs) for differe...
Performing an accurate localization of sources of interictal spikes from EEG scalp measurements is o...
Abstract Objective: Surface Laplacian estimation enhances EEG spatial resolution. In this paper, we...
The location of the international 10-20 system electrode positions and 14 fiducial landmarks are des...
We analyze the effect of electrode mislocation on the electroencephalography (EEG) inverse problem u...
Inaccuracy of EEG electrode coordinates forms an error term in forward model generation and ultimate...
This paper describes a uniform method for calculating the interpolation of scalp EEG potential disti...
The present chapter gives a comprehensive introduction into the display and quantitative characteriz...
The co-registration of transcranial magnetic stimulation and electroencephalography (TMS-EEG) is eme...
Topographic mapping of brain electrical activity has become a powerful tool in neurological diagnosi...
Subject-specific four-layer boundary element method (BEM) electrical forward head models for four pa...
ERP researchers use differences in scalp distributions to infer differences in spatial configuration...
Subject-specific four-layer boundary element method (BEM) electrical forward head models for four pa...
In (A) and (B), the green and gray circles indicate fiducials and electrodes measured for the VRDigi...
The average reference introduces ghost potential fields at the latencies for which the integral of s...
The performance of four methods for interpolation of body surface potential maps (BSPMs) for differe...
Performing an accurate localization of sources of interictal spikes from EEG scalp measurements is o...
Abstract Objective: Surface Laplacian estimation enhances EEG spatial resolution. In this paper, we...
The location of the international 10-20 system electrode positions and 14 fiducial landmarks are des...
We analyze the effect of electrode mislocation on the electroencephalography (EEG) inverse problem u...
Inaccuracy of EEG electrode coordinates forms an error term in forward model generation and ultimate...