Stress and Heart Rate Trip Monitoring System and Method

US 20170105667A1
Filed: 10/15/2015
Published: 04/20/2017
Est. Priority Date: 10/15/2015
Status: Abandoned Application

First Claim

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1. A trip stress monitoring method, comprising:

determining a trip start point;

receiving a geo-location data point;

receiving a physiological measurement of a user and associating the physiological measurement to the received geo-location data point;

storing the received geo-location data point and associated physiological measurement;

continuing receiving geo-location data points and associated physiological measurements;

determining a trip end point;

displaying a map superimposed with the stored geo-location data points graphically forming a travel route;

displaying a graphical representation of stored physiological measurements having a plurality of segments each representing an average physiological measurement value; and

correlating each segment in the graphical representation to points in the travel route shown on the map.

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Abstract

A trip stress monitoring method and device comprise receiving a geo-location data point, receiving a physiological measurement of a user and associating the physiological measurement to the received geo-location data point, storing the received geo-location data point and associated physiological measurement, continuing receiving geo-location data points and associated physiological measurements, displaying a map superimposed with the stored geo-location data points graphically forming a travel route, displaying a graphical representation of stored physiological measurements having a plurality of segments each representing an average physiological measurement value, and correlating each segment in the graphical representation to points in the travel route shown on the map.

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22 Claims

1. A trip stress monitoring method, comprising:
- determining a trip start point;
  
  receiving a geo-location data point;
  
  receiving a physiological measurement of a user and associating the physiological measurement to the received geo-location data point;
  
  storing the received geo-location data point and associated physiological measurement;
  
  continuing receiving geo-location data points and associated physiological measurements;
  
  determining a trip end point;
  
  displaying a map superimposed with the stored geo-location data points graphically forming a travel route;
  
  displaying a graphical representation of stored physiological measurements having a plurality of segments each representing an average physiological measurement value; and
  
  correlating each segment in the graphical representation to points in the travel route shown on the map.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
- - 2. The trip stress monitoring method of claim 1, wherein receiving a physiological measurement comprises receiving at least one of a heart rate, breathing rate, body temperature, blood pressure, perspiration, and facial image.
  - 3. The trip stress monitoring method of claim 1, wherein displaying a graphical representation of stored physiological measurements comprises displaying a pie chart having a plurality of segments.
  - 4. The trip stress monitoring method of claim 1, wherein correlating each segment in the graphical representation comprises:
    - receiving a user selection of a segment in the graphical representation; and
      
      graphically indicating a point on the travel route a geo-location data point associated with the selected segment.
  - 5. The trip stress monitoring method of claim 1, further comprising displaying a summary of past travel routes.
  - 6. The trip stress monitoring method of claim 1, further comprising displaying geo-location data points and physiological measurements of a past travel route.
  - 7. The trip stress monitoring method of claim 1, further comprising:
    - maintaining a set of baseline physiological measurements for the user;
      
      receiving a set of current physiological measurements of the user;
      
      comparing the set of current physiological measurements with the set of baseline physiological measurements; and
      
      deploying an intervention in response to at least one of the current physiological measurements exceeding a preset threshold.
  - 8. The trip stress monitoring method of claim 1, wherein deploying an intervention comprises deploying at least one of audio intervention, visual intervention, changing temperature setting, and changing driver'"'"'s seat setting.

9. A non-transitory computer-readable medium having encoded thereon a trip stress monitoring method adapted to:
- receive a start trip user input;
  
  receive a geo-location data point;
  
  receive a physiological measurement of a user and associating the physiological measurement to the received geo-location data point;
  
  store the received geo-location data point and associated physiological measurement;
  
  continue receiving geo-location data points and associated physiological measurements;
  
  receive an end trip user input;
  
  display a map superimposed with the stored geo-location data points graphically forming a travel route;
  
  display a graphical representation of stored physiological measurements having a plurality of segments each representing an average physiological measurement value; and
  
  correlate each segment in the graphical representation to points in the travel route shown on the map.
- View Dependent Claims (10, 11, 12, 13, 14, 15)
- - 10. The non-transitory computer-readable medium of claim 9, wherein the method is adapted to receive at least one of a heart rate, body temperature, blood pressure, perspiration, and facial image.
  - 11. The non-transitory computer-readable medium of claim 9, wherein the method is adapted to display a pie chart having a plurality of segments.
  - 12. The non-transitory computer-readable medium of claim 9, wherein the method is further adapted to:
    - receive a user selection of a segment in the graphical representation; and
      
      graphically indicate a point on the travel route a geo-location data point associated with the selected segment.
  - 13. The non-transitory computer-readable medium of claim 9, wherein the method is further adapted to display a summary of past travel routes.
  - 14. The non-transitory computer-readable medium of claim 9, wherein the method is further adapted to display geo-location data points and physiological measurements of a past travel route.
  - 15. The non-transitory computer-readable medium of claim 9, wherein the method further comprises:
    - maintaining a set of baseline physiological measurements for the user;
      
      receiving a set of current physiological measurements of the user;
      
      comparing the set of current physiological measurements with the set of baseline physiological measurements; and
      
      deploying an intervention in response to at least one of the current physiological measurements exceeding a preset threshold.

16. A trip stress monitoring device, comprising:
- a user interface adapted to receive a start trip user input;
  
  a GPS receiver adapted to receive a geo-location data point;
  
  a wireless communication component adapted to receive a physiological measurement of a user;
  
  a microprocessor adapted to receive the geo-location data point and the physiological measurement and associate the physiological measurement to the received geo-location data point;
  
  a memory storing the received geo-location data point and associated physiological measurement;
  
  the user interface adapted to receive an end trip user input;
  
  a display screen adapted to display a map superimposed with the stored geo-location data points graphically forming a travel route;
  
  the display screen adapted to display a graphical representation of stored physiological measurements having a plurality of segments each representing an average physiological measurement value; and
  
  the display screen adapted to display a correlation between each segment in the graphical representation to points in the travel route shown on the map.
- View Dependent Claims (17, 18, 19, 20, 21, 22)
- - 17. The trip stress monitoring device of claim 16, wherein the wireless communication component is adapted to receive at least one of a heart rate, body temperature, blood pressure, perspiration, and facial image.
  - 18. The trip stress monitoring device of claim 16, wherein the display is adapted to display a pie chart having a plurality of segments.
  - 19. The trip stress monitoring device of claim 16, further comprising:
    - the user interface adapted to receive a user selection of a segment in the graphical representation; and
      
      the display screen adapted to visually indicate a point on the travel route a geo-location data point associated with the selected segment.
  - 20. The trip stress monitoring device of claim 16, wherein the display screen is adapted to display a summary of past travel routes.
  - 21. The trip stress monitoring device of claim 16, wherein the display screen is adapted to display geo-location data points and physiological measurements of a past travel route.
  - 22. The trip stress monitoring device of claim 16, wherein the memory is adapted to maintain a set of baseline physiological measurements for the user, and the microprocessor is adapted to receive a set of current physiological measurements of the user, compare the set of current physiological measurements with the set of baseline physiological measurements, and deploy a user-selected intervention in response to at least one of the current physiological measurements exceeding a preset threshold.

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Current Assignee
Ida Wahlquist, Josh Wei, Parin Patel
Original Assignee
Parin Patel
Inventors
WEI, Josh, PATEL, Parin, WAHLQUIST, Ida

Application Number

US14/884,665
Publication Number

US 20170105667A1
Time in Patent Office

Days
Field of Search
US Class Current
CPC Class Codes

A61B 5/1112   Global tracking of patients...

A61B 5/18   for vehicle drivers or mach...

A61B 5/4884   inducing physiological or p...

G16H 40/67   for remote operation

Stress and Heart Rate Trip Monitoring System and Method

First Claim

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Stress and Heart Rate Trip Monitoring System and Method

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Abstract

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