Stress and Heart Rate Trip Monitoring System and Method
First Claim
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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Citations
22 Claims
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1. A trip stress monitoring method, comprising:
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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)
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9. A non-transitory computer-readable medium having encoded thereon a trip stress monitoring method adapted to:
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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)
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16. A trip stress monitoring device, comprising:
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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)
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Specification