US2019357833A1PendingUtilityA1

Multi-Symptom Toolkit for Evaluating Readiness

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Assignee: ANTHROTRONIX INCPriority: May 14, 2015Filed: Aug 13, 2019Published: Nov 28, 2019
Est. expiryMay 14, 2035(~8.8 yrs left)· nominal 20-yr term from priority
A61B 5/024A61B 5/02055A61B 2562/0219A61B 5/08A61B 5/01A61B 5/7264A61B 5/02405A61B 5/1118A61B 5/053A61B 5/0022A61B 5/165A61B 5/0533A61B 5/4806A61B 5/16A61B 5/7275
53
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Claims

Abstract

Embodiments of the invention relate to correlation of physiological data from two or more sources in real-time. As data is gathered from one or more remote physiological sensors, evaluation of associated physiological data takes place in real-time. The sensor data is correlated with other forms of data including objective physiological data, subjective physiological data, cognitive data, and/or quantitative input for multi-variate data analytics to assess and correlate the data. Alerts are generated, applications are activated, and windows are created to support the correlation and associated communication.

Claims

exact text as granted — not AI-modified
We claim: 
     
         1 . A system comprising:
 a data source in communication with a computing platform across a communication channel, the data source including two or more sensors and generated sensor data;   the computing platform including a processor in communication with memory, the platform to receive the generated sensor data sent across a first channel and to dynamically assess sensor performance;   the assessment further comprising:
 activation of a state classification application to cause the sensor data to display on the computing platform and to enable connection to the data source; 
 the state classification application to generate first state data from the sensor data, wherein the first state data characterizes the sensor data; and 
 the first state data to activate a cognitive assessment module in a secondary window, and cognitive assessment module to evaluate a cognitive state and generate cognitive state data from the evaluated cognitive state. 
   
     
     
         2 . The system of  claim 1 , further comprising the assessment to select an initial cognitive test from the cognitive assessment module based on a profile of the characterized first state data. 
     
     
         3 . The system of  claim 1 , further comprising the assessment to correlate the cognitive state data with the characterized first state data and generate a combined feedback that specifies a combined state. 
     
     
         4 . The system of  claim 1 , further comprising the assessment to receive quantitative input at the computing platform, wherein the input quantifies data selected from the group consisting of: sleep, nutrition, activity, and combinations thereof. 
     
     
         5 . The system of  claim 4 , further comprising the processor to correlate the quantitative input with the cognitive state data and generate a combined feedback that specifies a combined state. 
     
     
         6 . The system of  claim 4 , further comprising the processor to correlate the quantitative input with the cognitive state data and the first state data and generate a combined feedback that specifies a combined state. 
     
     
         7 . The system of  claim 1 , further comprising the assessment to receive subjective input at the remote computer, wherein the input quantifies data selected from the group consisting of: fatigue, stress, mood, and combinations thereof. 
     
     
         8 . The system of  claim 7 , further comprising the processor to correlate the quantified subjective input with the cognitive state data and generate a combined feedback that specifies a combined state. 
     
     
         9 . The system of  claim 1 , further comprising the correlation to generate a profile based on a defined typical data range and to dynamically modify the profile based on the data selected from the group consisting of: first state data and the cognitive state data. 
     
     
         10 . The system of  claim 1 , further comprising a location positioning device embedded in the data source, and processor to characterize the location data received from the location positioning device with the sensor data. 
     
     
         11 . The system of  claim 1 , further comprising the assessment to correlate the characterized first state data and quantitative input at the remote computer, wherein the input quantifies data selected from the group consisting of: sleep, nutrition, activity, and combinations thereof, and to generate a combined feedback that specifies a combined state, and join the combined state with the cognitive state data from the evaluated cognitive state. 
     
     
         12 . The system of  claim 1 , wherein the sensor is selected from the group consisting of a physiological sensor and a physical activity sensor, and combinations thereof, and wherein the physiological sensor measures physiological state data and the physical activity sensor measures physical activity, and
 further comprising the assessment to correlate the characterized first state data and quantitative input and subjective input at the remote computer, wherein the input quantifies data selected from the group consisting of: fatigue, stress, mood, sleep, nutrition, activity, and combinations thereof, and generating a combined feedback that specifies a combined state, and join the combined state with the cognitive state data from the evaluated cognitive state.   
     
     
         13 . A computer implemented method for dynamically distributing performance data over a network to a remote subscriber computer, the method comprising:
 providing an assessment application to a subscriber for installation on the remote subscriber computer;   receiving sensor data at the remote computer sent across a first channel from a data source, the remote computer comprising a microprocessor and a memory that stores preferences for information format, destination address, and specified data values, wherein the microprocessor:
 activates a state classification application to cause the sensor data to display on the remote computer and to enable connection to the data source when the device is connected to the remote computer; 
 the state classification application generates first state data from the sensor data, wherein the first state data characterizes the sensor data; and 
 the first state data activates a cognitive assessment module in a secondary window, and cognitive assessment module evaluates a cognitive state and generates cognitive state data from the evaluated cognitive state. 
   
     
     
         14 . The method of  claim 13  further comprising selecting an initial cognitive test from the cognitive assessment module based on a profile of the characterized first state data. 
     
     
         15 . The method of  claim 13 , further comprising correlating the cognitive state data with the characterized first state data and generating a combined feedback that specifies a combined state. 
     
     
         16 . The method of  claim 15 , further comprising transmitting the combined feedback over the first communication channel to the data source. 
     
     
         17 . The method of  claim 13 , wherein the sensor is a physiological sensor, and the first state data is physiological state data. 
     
     
         18 . The method of  claim 13 , wherein sensor measures physical activity, and the sensor is selected from the group consisting of: IMU, accelerometer, and gyroscope. 
     
     
         19 . The method of  claim 13 , further comprising receiving quantitative input at the remote computer, wherein the input quantifies data selected from the group consisting of: sleep, nutrition, activity, and combinations thereof. 
     
     
         20 . The method of  claim 19 , further comprising the microprocessor correlating the quantitative input with the cognitive state data and generating a combined feedback that specifies a combined state.

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