| 摘要 |
The present invention provides a computer-implemented method, including: a. obtaining, in real-time, by a specifically programmed processor, electrical signal data representative of brain activity of a particular individual; b. processing, in real-time the electrical signal data representative of brain activity of a particular individual based upon a pre-determined predictor associated with a particular brain state, selected from a library of predictors containing a plurality of pre-determined predictors, wherein each individual pre-determined predictor is associated with a unique brain state, wherein the pre-determined predictor associated with a particular brain state includes: a pre-determined mother wavelet, 11 a pre-determined representative set of wavelet packet atoms, created from the pre-determined mother wavelet, in a pre-determined ordering of wavelet packet atoms, and IV a pre-determined set of normalization factors, wherein the processing includes: 1. causing, by the specifically programmed processor, the electrical signal data to be deconstructed into a plurality of pre-determined deconstructed wavelet packet atoms, utilizing the pre-determined representative set of wavelet packet atoms, wherein time windows of the electrical signal data are projected onto the pre-determined representative set of wavelet packet atoms wherein the projection is via convolution or inner product, and wherein each pre-determined representative wavelet packet atom corresponds to a particular pre-determined brain activity feature from a library of a plurality of pre-determined brain activity features; storing the plurality of pre-determined deconstructed wavelet packet atoms in at least one computer data object; causing, by the specifically programmed processor, the stored plurality of pre-determined deconstructed wavelet packet atoms to be re-ordered within the computer data object, based on utilizing a pre¬ determined order; obtaining a statistical measure of the activity of each of the re¬ ordered plurality of pre-determined deconstructed wavelet packet atoms; and normalizing the re-ordered plurality of pre-determined wavelet packet atoms, based on utilizing a pre-determined normalization factor; and c. outputting, a visual indication of at least one personalized mental state of the particular individual, at least one personalized neurological condition of the particular individual, or both, based on the processing, wherein the individual pre-determined predictor associated with a particular brain state from within the plurality of pre-determined predictors is generated by the steps including: i. obtaining the pre-determined representative set of wavelet packet atoms by: a. obtaining from a plurality of individuals, by the specifically programmed processor, at least one plurality of electrical signal data representative of a brain activity of a particular brain state; b. selecting a mother wavelet from a plurality of mother wavelets, wherein mother wavelet is selected from an wavelet family selected from the group consisting of: Haar, Coiflet Daubehies, and Mayer wavelet families; c. causing, by the specifically programmed processor, the at least one plurality electrical signal data to be deconstructed into a plurality of wavelet packet atoms, using the selected mother wavelet; d. storing the plurality of wavelet packet atoms in at least one computer data object; e. determining, an optimal set of wavelet packet atoms using the pre-determined mother wavelet, and storing the optimal set of wavelet packet atoms in at least one computer data object, wherein the determining is via utilizing analysis Best Basis algorithm; and f. applying, by the specifically programmed processor, wavelet denoising to the number of wavelet packet atoms in the optimal set; ii. obtaining the pre-determined ordering of wavelet packet atoms by: a. projecting, by the specifically programmed processor, the at least one plurality of electrical signal data representative of a brain activity for each 4 second window of the data onto the pre-determined representative set of wavelet packet atoms; b. storing the projections in at least one computer data object; c. determining, by the specifically programmed processor, the wire length for every data point in the projection by determining the mean absolute distance of the statistical measure of the projections of different channels from their adjacent channels; d. storing the wire length data in at least one computer data object; and e. re-ordering the stored projections, by the specifically programmed computer to minimize a statistical value of the wire length value across each time window, and across all individuals within the plurality of individuals, and across the projections; and iii. obtaining the pre-determined set of normalization factors by: a. determining, by the specifically programmed computer, the mean and standard deviation of the values of the stored projections. |
