Patent Document ID: 9706939
Application ID: 12266755
Patent Status: 1

Claim One:
1. An integrated biofeedback system for normalization and optimization training of a trainee using whole-brain electroencephalographic neurofeedback, said integrated biofeedback system comprising: an apparatus for simultaneously monitoring from a full range of variable Z-scores from at least four separate sites of the scalp of the trainee, said apparatus comprising an electroencephalograph and at least four signal transducers operatively connected to said electroencephalograph, each transducer of said at least four transducers having a sensor operatively connected to each of said respective signal transducers, said respective sensors being operatively occupied on a separate one of four separate, sites on the trainee's scalp to monitor and transmit time-variable, microvolt surface neuronal potentials along a set of at least four channels for at least four respective separate sites to said at least four respective transducers, said respective at least four transducers generating live digitized physiological information signals corresponding to the respective neuronal potentials transmitted by said respective sensors; a reference database/classifier module for converting physiologically derived variables into Z-scores embodying a range of training target stages, said reference database/classifier module employing reference criteria by means of statistical procedures that provide means and standard deviations derived from reference data, wherein said reference criteria are embodied in said reference database/classifier module by means of statistical procedures that yield Z-scores in conjunction with a reference database; a processor operatively connected to both said electroencephalograph and to said reference database/classifier module for using multivariate proportional algorithms and said Z-scores embodying training target states, and generating simultaneous real-time continuous live Z-scores corresponding to said digitized, live physiological information signals, wherein said processor uses multivariate proportional algorithms to compute in real-time, continuous output values in the form of multivariate proportional variables representing a percentage measure of proportionality of the live Z-scores which are within a pre-determined range; a targeting subsystem operatively connected to said processor for receiving the simultaneous real-time continuous live Z-scores from said processor; a rule generator and applicator component operationally connected to said processor and to said targeting subsystem for receiving simultaneous real-time continuous live Z-scores from said processor, and for cooperating with said targeting subsystem to control a feedback process to the trainee; an operator interface including a composite display, wherein a first set of markings on said composite display shows said multivariate proportional variables, a second set of markings on said composite display shows a feedback percentage threshold, and a third set of markings on said composite display shows the cumulative percent time above said threshold, wherein said composite display shows size of the target in standard deviation, and wherein said composite display indicates the times when the multivariate proportional parameter is above a threshold; and a multiple scenario projector for providing multiple conditions to said targeting subsystem, said targeting subsystem providing target results for more than one scenario; said targeting subsystem determining from said simultaneous real-time continuous live Z-scores from said processor and from said Z-scores defining particular target results of Z-scores from said multiple scenario projector, how well targeting variables conform to established criteria according to the reference database/classifier module; a rule generator and application module to determine whether individual real-time live Z-scores received from said targeting subsystem meet a criterion threshold and generating rule generator and application module signals indicating whether said real-time live Z-scores meet the criterion threshold; a trainee feedback generator operatively connected to said rule generator and application module for generating instantaneous, real-time neurological feedback signals in response to said rule generator and application module signals, said instantaneous, real-time neurological feedback signals being presented to the trainee in a form understandable by the trainee; and a feedback module operatively connected to said trainee feedback generator for generating instantaneous feedback signals understandable by the trainee in response to receiving instantaneous, real-time neurological feedback signals from said trainee feedback generator for providing real-time feedback to the trainee; wherein said feedback module includes a display device.