Computer interfaces including physiologically guided avatars
First Claim
Patent Images
1. A computer-implemented method for displaying a user interface (“
- UI”
), comprising;
providing a wearable monitoring system configured to collect respiration monitoring data;
receiving the respiration monitoring data reflecting moment by moment activities of one or more physiological systems of a monitored subject during one or more time intervals with said monitoring system;
displaying a computer UI comprising one avatar representing said monitored subject'"'"'s upper torso, said avatar having a plurality of integrated moment by moment visual images representing a plurality of said monitoring physiological systems;
wherein said moment by moment visual images of said physiological systems are controlled by said received respiration monitoring data so as to stimulate moment by moment function of said monitoring physiological systems; and
wherein at least one of said monitored physiological systems comprises said monitored subject'"'"'s respiratory system, and wherein said plurality of integrated moment by moment visual images includes a first plurality of moment by moment images that represent at least one lung of said monitored subject and a second plurality of moment by moment images that represent said monitored subject'"'"'s chest, said first and second plurality of moment by moment images being controlled by the respiration monitoring data, whereby at least a portion of said first and second plurality of moment by moment images expand and contract with a concurrently measured respiration rate and with an amplitude proportional to concurrently measured respiratory volumes, whereby respiratory system dysfunction can be detected.
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Abstract
This invention provides user interfaces that more intuitively display physiological data obtained from physiological monitoring of one or more subjects. Specifically, the user interfaces of this invention create and display one or more avatars having behaviors guided by physiological monitoring data. The monitoring data is preferably obtained when the subject is performing normal tasks without substantial restraint. This invention provides a range of implementations that accommodate user having varying processing and graphics capabilities, e.g., from handheld electronic devices to ordinary PC-type computers and to systems with enhanced graphics capabilities.
423 Citations
11 Claims
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1. A computer-implemented method for displaying a user interface (“
- UI”
), comprising;providing a wearable monitoring system configured to collect respiration monitoring data; receiving the respiration monitoring data reflecting moment by moment activities of one or more physiological systems of a monitored subject during one or more time intervals with said monitoring system; displaying a computer UI comprising one avatar representing said monitored subject'"'"'s upper torso, said avatar having a plurality of integrated moment by moment visual images representing a plurality of said monitoring physiological systems; wherein said moment by moment visual images of said physiological systems are controlled by said received respiration monitoring data so as to stimulate moment by moment function of said monitoring physiological systems; and wherein at least one of said monitored physiological systems comprises said monitored subject'"'"'s respiratory system, and wherein said plurality of integrated moment by moment visual images includes a first plurality of moment by moment images that represent at least one lung of said monitored subject and a second plurality of moment by moment images that represent said monitored subject'"'"'s chest, said first and second plurality of moment by moment images being controlled by the respiration monitoring data, whereby at least a portion of said first and second plurality of moment by moment images expand and contract with a concurrently measured respiration rate and with an amplitude proportional to concurrently measured respiratory volumes, whereby respiratory system dysfunction can be detected. - View Dependent Claims (2, 3)
- UI”
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4. A computer-implemented method for displaying a user interface (“
- UI”
), comprising;providing a wearable monitoring system configured to collect cardiac monitoring data; receiving the cardiac monitoring data reflecting moment by moment activities of one or more physiological systems of a monitored subject during one or more time intervals with said monitoring system, said monitored subject having an upper and lower torso; displaying a computer UI comprising one avatar representing said monitored subject'"'"'s upper torso, said avatar having a plurality of integrated moment by moment visual images reflecting a plurality of said monitored physiological systems; wherein said integrated moment by moment visual images of said physiological systems are controlled by said received cardiac monitoring data so as to simulate moment by moment function of said monitored physiological systems; and wherein at least one of said monitored physiological systems comprises said monitored subject'"'"'s cardiac system, and wherein said moment by moment visual images of said cardiac system simulate function of said monitored subject'"'"'s heart, whereby at least a portion of said cardiac system visual images expand and contract, with an amplitude substantially proportional to concurrently measured stroke volumes, and whereby said cardiac system images simulate a cardiac dysfunction in response to cardiac monitoring data representing said dysfunction. - View Dependent Claims (5, 6)
- UI”
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7. A computer-implemented method for displaying a user interface (“
- UI”
), comprising;providing a wearable monitoring system configured to collect respiration monitoring data; providing a processor having memory means; receiving the respiration monitoring data reflecting moment by moment activities of one or more physiological systems of a monitored subject during one or more time intervals with said monitoring system; retrieving descriptions in a graphic description language of visual images of at least one avatar from said processor memory means, said avatar descriptions comprising at least one animation sequence, said avatar visual images including a plurality of integrated moment by moment visual images reflecting a plurality of said monitored physiological systems, said avatar descriptions comprising at least one animation sequence, said avatar visual images including a plurality of integrated moment by moment visual images reflecting a plurality of said monitored physiological systems, said avatar descriptions further comprising instructions for controlling said avatar images to simulate function of said monitored physiological systems; generating a plurality of computer UI images in dependence on said received monitoring data and on said retrieved descriptions with said processor, said UI images comprising at least one avatar representing said monitored subject'"'"'s torso, said avatar including said plurality of integrated moment by moment visual images reflecting a plurality of said monitored physiological systems; and displaying said generated avatar, wherein said moment by moment visual images include a first plurality of moment by moment visual images that represent said monitored subject'"'"'s respiratory system, and a second plurality of moment by moment visual images that represent said monitored subject'"'"'s cardiac system, whereby at least a portion of said visual images expand and contract, with an amplitude substantially proportional to concurrently measured cardiac stroke volumes and respiratory volumes, whereby interrelated dysfunctions associated with said monitored subject'"'"'s respiratory and cardiac systems can be detected. - View Dependent Claims (8, 9, 10, 11)
- UI”
Specification