Isochronic tone augmented biofeedback system
First Claim
1. A method for training a person to augment desirable personal electroencephalographic (EEG) activity, said method comprising the steps of:
- (a) securing EEG leads to the person;
(b) receiving an EEG signal from the person;
(c) transmitting the resultant EEG signal to a filter;
(d) filtering the EEG signal;
(e) monitoring a predetermined EEG frequency band or subband;
(f) determining the EEG frequency value of a preselected aspect of said EEG signal;
(g) using a signal generator to generate an isochronic signal in a form perceptible by the person, in which the frequency of the signal is set at the value of said EEG frequency value; and
(h) delivering said isochronic signal to said person with minimal delay between receiving the EEG signal and delivery of the isochronic signal.
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Abstract
A biofeedback system that utilizes isochronic tone technology to augment EEG feedback by providing to a subject isochronic tones at the frequency of a targeted aspect of a subject'"'"'s brain waves, such as the brain'"'"'s naturally occurring peak energy in the particular EEG band or bands subject to the biofeedback. Isochronic tones are regular beats of a single tone that are formed by separate pulses of sound and silence. In addition, feedback can be provided to the subject in the form of pulsed light and pulsed tactile impulses that are delivered in the form of alternating presence and absence of light or tactile pressure.
16 Citations
20 Claims
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1. A method for training a person to augment desirable personal electroencephalographic (EEG) activity, said method comprising the steps of:
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(a) securing EEG leads to the person; (b) receiving an EEG signal from the person; (c) transmitting the resultant EEG signal to a filter; (d) filtering the EEG signal; (e) monitoring a predetermined EEG frequency band or subband; (f) determining the EEG frequency value of a preselected aspect of said EEG signal; (g) using a signal generator to generate an isochronic signal in a form perceptible by the person, in which the frequency of the signal is set at the value of said EEG frequency value; and (h) delivering said isochronic signal to said person with minimal delay between receiving the EEG signal and delivery of the isochronic signal. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
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13. An apparatus for training a person to develop useful degrees of voluntary control of personal electroencephalographic (EEG) activity, said apparatus comprising:
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(a) a plurality of EEG sensors, said sensors being for placement at a plurality of cortical sites on a head of said person; (b) amplifiers coupled to said EEG sensors to amplify a plurality of channel signals in a plurality of channels; (c) a plurality of bandpass filters coupled to said amplifiers having a passband characteristic of a predefined frequency spectra having an abrupt cutoff at a low-frequency skirt, an abrupt cutoff at a high-frequency skirt and near instantaneous propagation for processing in accordance within time constraints limited by natural neurological reactivity to obtain a resultant signal for each said channel; (d) a computing device to perform the operation of determining an EEG frequency value based on a preselected aspect of one or more of the resultant signals; (e) a signal generator receiving input from said computing device and generating an isochronic tone at the EEG frequency value, said signal generator having the capability of generating said isochronic tone such that the sound portion has a shorter duration than the silent portion; and (f) a means of delivering said isochronic signal to said person. - View Dependent Claims (14, 15, 16, 17, 18, 19)
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20. A method for training a person to augment naturally-occurring personal electroencephalographic (EEG) activity, said method comprising the steps of:
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(a) securing EEG leads to a plurality of cortical sites on the person; (b) receiving EEG signals from the EEG leads; (c) filtering the EEG signals; (d) monitoring one or more predetermined EEG frequency bands or subbands for each EEG signal; (e) determining the EEG frequency value of a preselected aspect of each of the EEG signals; (f) generating a plurality of isochronic signals, each of which is associated with the signal from one of the EEG leads; and (g) delivering each of the isochronic signals in audio form by a speaker disposed adjacent to the cortical site from which the EEG signal associated with the isochronic signal is derived.
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Specification