A wearable device that detects health based on iris information
A wearable device and information detection technology, applied in informatics, medical informatics, medical automated diagnosis, etc., can solve the problems of failing to detect organ lesions, failing to reflect the health status of the body, and achieve the effect of accurate detection
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Embodiment 1
[0021] The wearable device 101 that detects health based on iris information is a head-mounted device, and its overall structural block diagram is as follows figure 1 As shown, its appearance is similar to glasses, including an iris collection device 102, a processor 103 and a communication connection device 104. The iris collection device 102 is used to take eyeball images and divide the iris area from the eyeball picture, and record the information in the area; the processor 103 Extract the iris information reflecting the corresponding characteristics as required, and further calculate, analyze and preliminarily process the information. The information is sent to the cloud server for processing and compared with the historical iris information stored in the cloud. The comparison and analysis results are returned to the available The wearable device 101, the processor 103 processes the result, transmits and displays it on the terminal in an appropriate manner; the processor 10...
Embodiment 2
[0026] figure 2 show figure 1 The functional structure of the processor 103. Processor 103 includes memory 203, iris location module 201, autonomic nerve ring extraction module 202, mapping module 204, iris location module 201 connects autonomic nerve ring extraction module 202, mapping module 204 is respectively connected with described memory 203, described iris location module 201 is connected with autonomic nerve ring extraction module 202, wherein,
[0027] The memory 203 is used to store the iris health standard hologram;
[0028] The iris positioning module 201 is used to locate the inner and outer boundaries of the iris;
[0029] The autonomic neural ring extraction module 202 is used to automatically extract the autonomic neural ring of the iris, and the autonomic neural ring extraction module 202 adopts a Gabor filter as the direction filter of the iris image;
[0030] The mapping module 204 is used to map specific organs of the human body to corresponding iris ...
Embodiment 3
[0034] Typical application scenarios of wearable devices that detect health based on iris information, such as image 3 shown.
[0035] The wearable device 101 is connected to the cloud server 301 through Wifi, and the cloud server 301 saves and processes the iris image, compares and analyzes it with the historical iris image, detects the area where the human body organ index changes accordingly, and gives an iris-based image based on the above changes. Health status analysis report, the cloud server 301 regularly pushes the wearer's iris-based health status analysis report to the wearer's own mobile terminal 302 and the mobile terminal 303 of his relatives or medical staff. Each mobile terminal can be set to remind as needed, that is, when the wearer's health has problems, the software on the mobile terminal will send out a health alarm.
[0036] Another implementation of this embodiment is: when the wearer himself uses it, he connects the wearable device 101 through the USB...
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