ECoG

Electrocorticography or ECoG, is a method of brain-computer interaction, in which a mesh of electrodes is placed like a veil, directly over the outside of the brain itself.

A grid of electrodes 2 millimetres in diameter and spaced 10 mm apart, record brainwave patterns with far more fidelity than those placed on the surface of the scalp.

Below, we offer a selection of links from our resource databases which may match this term.

Accelerometer AGI Artificial General Intelligence B-Rep Biometrics Boundary Representation Brainwave Baseline BREP Computer Vision Diamond Square Algorithm ECoG Eigenface Eigenface Method Electrocorticography Facial MoCap Facial motion capture Feature analysis Fourier transform Gesture Recognition Handwriting Recognition Haptic Immersive Interface Magic Symbol

Micro-ECoG MOST-EEG Multimodal Sequence Multimodal Sequence Navigation Multiple Origin Spatio-Temporal EEG Neural Feedback Neural Oscillation Neurobiofeedback Neurofeedback Neurolinguistics Neuromorphic Engineering Neuroprosthetic NFB Non Linguistic Sound Non-Linguistic Sound Object Recognition OFF Open File Format Partially-invasive BCI Partially-invasive BMI Passive Remote Sensing

Phonetic Search Posture Recognition Repetitive Strain Injury RSI Scene graph Second Person VR Sensor Web Situatedness Smart Appliance Smart Appliances Template matching Theory of Mind ToM Two Handed Input VAD Voice Activity Detection Voice Recognition Weak AI

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Micro-ECoG
ECoG, or electrocorticography is a method of brain-computer interaction, in which a mesh of electrodes is placed like a veil, directly over the outside of the brain itself. MicroEcog, as the name suggests, is an order of magnitude smaller, and much more permanent.

Electrocorticography Grows Up
Electrocorticography or ECoG is a method of neural interface in which an electrode array, quite like a fine mesh, is draped over the upper surface of the brain directly, under the skull. A section of the skull is removed to allow the array to be fed in, then replaced. The result is near-identical to a high fidelity EEG that is under the skull and thus away from its pattern dampening properties.

Large Image Display: The Stepford Wives: Merging Human and AI
This single frame taken from the 2004 film 'The Stepford Wives', shows the neuroprosthetic arrays used in The Stepford Wives, to control the brains of the wives. Obviously the placement here is wrong, to do what they do. Five ECoG ? electrocorticography ? arrays could not perform the functions of mind control demonstrated in the film, because they do not penetrate deeply into it. Thus they are symbolic of the science involved, rather than prescriptive.

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