Real-time biological-chemical-physical sensitivity and irritation onset neuro sensory (BIOCAPSIONS) biofeedback monitor
First Claim
1. A method using a computer processor to measure internal environment of the body by analyzing neuronal-based electrical signals. A device for preventing over-exposure to biological, chemical and physical hazards. More specifically, the device and processor performs analog feature node expression, pattern constant processing and stimulus-equivalence reconciliation.
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Abstract
An artificially intelligent dual real-time monitoring and measurement device that includes stimulating, recording, transdermal pharmacological delivery electrodes, a differential amplifier, A/D converter, digital filtering, digital signal processor and software for measurement, display and storage of analog data in a personal digital computer monitoring device; the portable biofeedback monitor, can accurately monitor the onset of chemical and/or physical irritation and has visual, audible and vibratory alerts, windows compatible menu driven software, 25 biofeedback displays including bar graphs, power spectra analysis, wave form display and multi-color strobe lights. The most novel attribute of the RT/BIOCAPSIONS biofeedback monitor is that it can be used as a tool to counter terrorism. My invention represents a positive solution to alleviate panic over the threat of biological-chemical-physical terrorism while at the same time offering a mass early medical surveillance & intervention strategy to address the urgent national need for biochemical counter-terrorism strategies. This invention performs determinations and displays expressions of Human BIOCAPSIONS receptive fields and biosensors, analog feature node expression, pattern constant processing, pattern-directed retrieval, connectivity, matching, recognition, variability, classification, pattern-directed modulation, pattern-directed interfacing, stimulus-equivalence reconciliation, bio-feature detection and association and any and all embodiments within the scope of the invention.
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Citations
17 Claims
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1. A method using a computer processor to measure internal environment of the body by analyzing neuronal-based electrical signals. A device for preventing over-exposure to biological, chemical and physical hazards. More specifically, the device and processor performs analog feature node expression, pattern constant processing and stimulus-equivalence reconciliation.
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2. The device records, analyzes and displays data representative of the human neuro-sensory activities of thermo, chemo, mechano, photo and gravi receptor potentials.
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3.he. The computer processor makes approximations of biosensor receptive fields, connectivity, matching, recognition, variability, and neurodynamics classification.
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4. Additionally, other neurodynamics data are analogically bio-featured, detected and associated with predetermined thresholds.
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5.he. The artificial intelligence scope of device records and approximates specificity, intensity, gradation, adaptation, amplification, and transduction plasticity, convergence, divergence, and circuits and pathways.
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6. The computer processor performs pattern-directed modulation, pattern-directed retrieval, and pattern-directed interfacing.
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7. The computer processor makes approximations of electrotonic potentials, impulse discharge coding, periods and frequency, and signaling and propagation in response to variable intensity biological, physical, and chemical stimulation.
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8. The device and apparatus is a dual analog monitoring and digital measurement device where the embodiment includes a stimulating, two recording and transdermal pharmacological delivery electrodes. Other embodiments include a differential amplifier, A/D converter, digital filtering;
- digital signal processor, software, and any and all embodiments within the scope of the invention.
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9. In military and industrial hygiene support, this low-powered, miniaturized and field portable measurement device can be used to timely capture and distribute clinical information using network technology by utilizing the device'"'"'s diagnostic capability, continuous data acquisition, non-invasive sensing of vital signs and body chemistry, immediacy of analysis prior to injury or illness, ability to transmit this information to a distance monitoring facility to support decisions to plan and manage overall responses.
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10. measurement device for transdermal delivery of protective agents for advanced military personnel protection and chronopharmacological intervention and modulation.
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11. The measurement device detects nerve impulse propagation and make a determination of industrial hygiene time weighted averages and threshold limit values.
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12. The measurement device detects nerve impulse propagation and make a determination of sensitivity, irritation and injury onset for allergens, asthmatics, biological, chemical and physical sensitizers.
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13. The measurement device detects nerve impulse propagation and make a determination of sunburn, ionizing radiation, and nonionizing injury onset.
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14. The measurement device detects nerve impulse propagation and make a determination of human neurogenic inflammation onset.
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15. The measurement device'"'"'s second recording electrode give the device the capability to measure multi-modal physiological parameters:
- such as EMG, EEG, temperature, heart rate, blood volume pulse, skin conductance, skin perspiration, EKG, and respiration;
integrate said auxiliary physiological measurements into CAPSIONS impulse pattern recognition; and
display said physiological measurements on the device'"'"'s real-time display screen.
- such as EMG, EEG, temperature, heart rate, blood volume pulse, skin conductance, skin perspiration, EKG, and respiration;
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16. The measurement device'"'"'s fourth recording electrode give the device the capability detect and measure noradrenic and serotonogenic specific impulse propagation;
- integrate said auxiliary physiological measurements into BIOCAPSIONS impulse pattern recognition;
perform chronopharmacological modulation; and
display said physiological modulated measurements on the device'"'"'s real-time display screen.
- integrate said auxiliary physiological measurements into BIOCAPSIONS impulse pattern recognition;
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17. The measurement device can be used as a neuronal-based user-machine calibration standard for similar devices;
- by creating a base-line reference correlating to chemical and physical stimulation challenge;
store said calibration data in the device'"'"'s memory; and
display said calibration on the device'"'"'s display screen.
- by creating a base-line reference correlating to chemical and physical stimulation challenge;
Specification