Color-based neurofeedback
First Claim
1. A neurofeedback system, comprising:
- an amplifier that receives EEG signals from a plurality of electrodes adapted to receive EEG signals from a person, said EEG signals being in a single frequency band ranging from 0 Hz to at least about 35 Hz;
a color processor coupled to said amplifier; and
a display unit coupled to said color processor;
wherein said color processor dynamically converts the EEG signals from each of said electrodes to individually selectable colors based on a characteristic of the EEG signals and shows said colors on said display unit to a person being monitored;
wherein said individually selectable colors represent all frequencies in the single frequency band.
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Abstract
A neurofeedback technique uses color as its feedback cue. A preferred embodiment of the invention includes an amplifier that receives EEG signals from electrodes (e.g., adhesive electrodes, SQUID sensors, etc.) on or adjacent the person'"'"'s scalp, a low or band pass filter, a color processor and a display. The color processor converts an aspect of one or more channels of the person'"'"'s EEG signal(s) to a color and shows that color to the person on the display. The aspect of the EEG that is converted to color can be the frequency or the amplitude of the person'"'"'s EEG signal(s). If EEG amplitude is used in the conversion process, the instantaneous, average or peak amplitude can be used. This process is dynamic, meaning that the system repeatedly converts the EEG signal to color. Conventional adhesive electrodes or non-adhesive sensors can be used to detect the person'"'"'s brain activity.
103 Citations
38 Claims
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1. A neurofeedback system, comprising:
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an amplifier that receives EEG signals from a plurality of electrodes adapted to receive EEG signals from a person, said EEG signals being in a single frequency band ranging from 0 Hz to at least about 35 Hz;
a color processor coupled to said amplifier; and
a display unit coupled to said color processor;
wherein said color processor dynamically converts the EEG signals from each of said electrodes to individually selectable colors based on a characteristic of the EEG signals and shows said colors on said display unit to a person being monitored;
wherein said individually selectable colors represent all frequencies in the single frequency band. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15)
wherein a predetermined color is provided on one of said displays and the other display is provided with a color that is determined by said color processor based on the person'"'"'s EEG.
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6. The system of claim 1 wherein said characteristic comprises frequency of the EEG signals.
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7. The system of claim 6 wherein, for the EEG signals for each electrode, said color processor compares the frequency of the person'"'"'s EEG signals to a plurality of frequencies, each frequency having an associated color, and selects the color associated with the frequency to which the EEG frequency most closely matches.
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8. The system of claim 6 wherein, for the EEG signals for each electrode, said color processor compares the frequency of the person'"'"'s EEG signals to a plurality of frequency ranges, each range having an associated color, and selects the color associated with the frequency range to which the EEG frequency most closely matches.
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9. The system of claim 1 wherein said characteristic comprises amplitude of the person'"'"'s EEG signals.
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10. The system of claim 9 wherein, for the EEG signals for each electrode, including a plurality of instantaneous amplitude values, each value having an associated color value, and wherein said color processor determines the instantaneous amplitude of the EEG signals and selects the color value most closely matching the EEG instantaneous amplitude.
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11. The system of claim 9 wherein, for the EEG signals for each electrode, including a plurality of average amplitude values, each value having an associated color value, and wherein said color processor determines the average amplitude of the EEG signals and selects the color value most closely matching the EEG average amplitude.
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12. The system of claim 9 wherein, for the EEG signals for each electrode, including a plurality of peak amplitude values, each value having an associated color value, and wherein said color processor determines the peak amplitude of the EEG signals and selects the color value most closely matching the EEG peak amplitude.
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13. The system of claim 1 further including non-adhesive sensors which detect the person'"'"'s EEG signals and provide the EEG signals to the amplifier.
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14. The system of claim 13 wherein the sensors comprise SQUID sensors.
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15. The system of claim 1 further comprising a speaker coupled to the color processor for providing audio feedback to the person.
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16. A neurofeedback system, comprising:
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an amplifier that receives EEG signals from a person;
a color processor coupled to said amplifier; and
a display unit coupled to said color processor;
wherein said color processor dynamically converts an EEG signal from said amplifier to a color and shows the color on said display unit to a person being monitored; and
wherein the display is located in a separate room from the person and is viewable by the person via a series of mirrors. - View Dependent Claims (17, 18, 38)
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19. A method of providing neurofeedback, comprising:
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receiving EEG signals from a plurality of electrodes adapted to receive EEG signals from a person, said EEG signals being in a single frequency band ranging from 0 Hz to at least about 35 Hz;
amplifying the EEG signals;
dynamically converting the EEG signals from each electrode to an individually selectable color value based on a characteristic of each electrode'"'"'s EEG signals;
for each electrode, selecting a single color to be shown on a display as a result of the individually selectable color value, said single color representing all frequencies in the single frequency band; and
for each electrode, displaying said single color to the person. - View Dependent Claims (20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31)
showing a predetermined color on one of said displays and providing the other display with a color for each electrode that is determined based on the person'"'"'s EEG.
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24. The method of claim 19 wherein dynamically converting the EEG signals from each electrode to an individually selectable color value based on a characteristic of the EEG signals comprises converting the frequency of each electrode'"'"'s EEG signals to a color value.
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25. The method of claim 24 wherein dynamically converting the EEG signals from said electrode to a color value based on a characteristic of the EEG signals comprises comparing the frequency of the EEG signals to a plurality of frequencies, each of said plurality of frequencies having an associated color, and wherein selecting a single color to be shown on a display as a result of the color value comprises selecting the color associated with the frequency to which the EEG frequency most closely matches.
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26. The method of claim 24 wherein dynamically converting the EEG signals from said electrode to a color value based on a characteristic of the EEG signals comprises comparing the frequency of the EEG signals to a plurality of ranges of frequencies, each of said plurality of frequencies having an associated color, and wherein selecting a single color to be shown on a display as a result of the color value comprises selecting the color associated with the range to which the EEG'"'"'s frequency matches.
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27. The method of claim 19 wherein dynamically converting the EEG signals from said electrode to a color value based on a characteristic of the EEG signals comprises converting the amplitude of the EEG signals to a color value.
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28. The method of claim 27 wherein dynamically converting the EEG signals from each electrode to an individually selectable color value based on a characteristic of the EEG signals comprises converting the instantaneous amplitude of each electrode'"'"'s EEG signals to a color value.
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29. The method of claim 27 wherein dynamically converting the EEG signals from each electrode to an individually selectable color value based on a characteristic of the EEG signals comprises converting the average amplitude of each electrode'"'"'s EEG signals to a color value.
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30. The method of claim 27 wherein dynamically converting the EEG signals from each electrode to an individually selectable color value based on a characteristic of the EEG signals comprises converting the peak amplitude of each electrode'"'"'s EEG signals to a color value.
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31. The method of claim 19 further comprising providing audio feedback signals to the person.
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32. A neurofeedback system, comprising:
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a plurality of electrodes for detecting the electrical activity associated with a person'"'"'s brain and generating electrical signals indicative of said electrical activity, said electrical signals being in a single frequency band ranging from 0 Hz to at least about 35 Hz;
an amplifier that receives the electrical signals from said electrodes;
a display on which colors are provided to the person to provide neurofeedback information to the person;
means for dynamically converting an aspect of the person'"'"'s electrical signals from each electrode to an individually selectable color to be shown on said display, said selectable color representing all frequencies in the single frequency band. - View Dependent Claims (33, 34, 35, 36, 37)
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Specification