The technical solution relates to control systems, more particularly to systems and methods of generating control commands based on operator's bioelectrical data. One more technical result of the present technical solution is the increase of identification accuracy of the Operator's actions. One more technical result of the present technical solution is the improvement of identification of the Operator's actions due to the elimination of artefacts from the Operator's bioelectrical data.

Provided are methods of enhancing the performance of a subject on a cognitive task by improved self-regulation of internal distraction. The methods include presenting a computer-based cognitive training program to a subject, where performance of the subject on the cognitive task is enhanced by the cognitive training program. Computer readable media and devices useful for practicing the methods of the present disclosure are also provided.

There is provided a method for simulating at least one wet electroencephalogram (EEG) signal from at least one dry EEG signals, comprising: receiving at least one dry EEG signal measured by dry EEG electrode(s) applied to locations on a head of a patient corresponding to at least one of temporal lobe or frontal lobe, computing at least one simulated wet EEG signal by applying a trained statistical model based on at least one dry EEG signal, the at least one simulated wet EEG signal simulating wet EEG signals measured by a wet EEG electrode applied to at least one location corresponding to at least one of: central, parietal lobe, and occipital lobe, and providing the at least one simulated wet EEG signal for adjusting feedback of a neurofeedback treatment applied by a neurofeedback device.

There is provided a method for simulating at least one wet electroencephalogram (EEG) signal from at least one dry EEG signals, comprising: receiving at least one dry EEG signal measured by dry EEG electrode(s) applied to locations on a head of a patient corresponding to at least one of temporal lobe or frontal lobe, computing at least one simulated wet EEG signal by applying a trained statistical model based on at least one dry EEG signal, the at least one simulated wet EEG signal simulating wet EEG signals measured by a wet EEG electrode applied to at least one location corresponding to at least one of: central, parietal lobe, and occipital lobe, and providing the at least one simulated wet EEG signal for adjusting feedback of a neurofeedback treatment applied by a neurofeedback device.

Provided is a method for enhancing cognitive function based on individual cognitive frequency resonance that intentionally and selectively enhances a specific cognitive function by resonating with brain waves through brain stimulation using an electric current of the same frequency or waveform as individual cognitive frequency generated during a cognitive task, and the method includes executing, by a subject, a cognitive task.

A neurostimulation device includes a plurality of electrodes adapted to be electrically connected to a subject to receive multichannel electrical signals from the subject's brain, a multichannel seizure detection unit electrically connected to the plurality of electrical leads to receive the multichannel electrical signals, and a neurostimulation unit in communication with the multichannel seizure detection unit. The plurality of electrodes are at least three electrodes such that the multichannel electrical signals are at least three channels of electrical signals, and the multichannel seizure detection unit detects a presence of a seizure based on multichannel statistics from the multichannel electrical signals including higher order combinations than two-channel combinations.

The system of the present invention includes at least one brain signal capturing device, at least one memory device for storing software instructions, and at least one processor. The processor is in communication with the brain signal capturing device and executes the instructions stored on the memory. The instructions include the steps of analyzing a user's brain signal patterns and searching based on the user's brain signals.

A method of estimating the probability of a seizure in a subject, the method comprising: receiving historical data associated with epileptic events experienced by the subject over a first time period, the historical data comprising physiological data associated with each epileptic event and a time at which each epileptic event occurred; generating a temporal probability model of future epileptic events based on the time of each of the epileptic events, the temporal probability model representing a probability of a future seizure occurrence in each of a plurality of time windows; generating a probabilistic model based on the physiological data associated with each epileptic event; weighting the probabilistic model based on the temporal probability model to generate a weighted probabilistic model of future seizure activity; and outputting an estimate of seizure probability in the subject using the weighted probabilistic model.

A method of estimating the probability of a seizure in a subject, the method comprising: receiving historical data associated with epileptic events experienced by the subject over a first time period, the historical data comprising physiological data associated with each epileptic event and a time at which each epileptic event occurred; generating a temporal probability model of future epileptic events based on the time of each of the epileptic events, the temporal probability model representing a probability of a future seizure occurrence in each of a plurality of time windows; generating a probabilistic model based on the physiological data associated with each epileptic event; weighting the probabilistic model based on the temporal probability model to generate a weighted probabilistic model of future seizure activity; and outputting an estimate of seizure probability in the subject using the weighted probabilistic model.

A method of modulating a brain activity of a mammal is achieved by subjecting the mammal to repetitive transcranial magnetic stimulation (rTMS) with an rTMS apparatus at variable pulse intervals for a time sufficient to modulate said brain activity. Improvement in a physiological condition or a clinical condition is achieved. Conditions to be treated include but are not limited to PTSD, autism spectrum disorder and Alzheimer's disease. Wavelet transform analysis is used to determine the variable pulse intervals employed.