JPWO2019168473A5 - - Google Patents

Claims (20)

A measurement device for user stress assessment
A sensor module with a Photoprestimography (PPG) sensor for measuring from said user several physiological data sets, each measured during a separate time period, and
A database for storing the physiological data and
A display module with a set of graphical user interface (GUI) parts for displaying visual information from stress assessments based on the physiological data.
It has a processor and
The processor
To determine stress parameters from each physiological dataset for comparison with given stress criteria,
In a time space having multiple consecutive and distinct time periods, each of which is a plurality of stress parameters for one hour period of the time period and for the current time period at the end of the time space. Identify multiple stress parameters, including the first stress parameter,
When each of the first stress parameter and at least one earlier stress parameter indicates the stress state of the user with respect to the predetermined stress criterion based on the plurality of stress parameters including the first stress parameter. When it is determined that a given stress condition is met, a stress alert is generated, and each of the at least one earlier stress parameter is for each earlier time period prior to the current time period. And
In order to display the visual information corresponding to the stress alert and assisting the user in alleviating the stress state in at least one of the GUI portions, the stress alert is described. Configured to communicate with the display module,
The stress condition is a device relating to the user's stress pattern formed by the plurality of stress parameters in the time space. The at least one earlier stress parameter comprises a second stress parameter for a second time period preceding the current time period.
The device according to claim 1, wherein the stress condition is satisfied when each of the first and second stress parameters indicates a stress state of the user with respect to the predetermined stress criterion. The at least one earlier stress parameter includes the earliest stress parameter for the earliest time period of the beginning of the time space.
In the stress condition, each of the first and earliest stress parameters indicates the stress state of the user, and none of the remaining stress parameters of the earlier stress parameters indicates the normal state of the user. The device according to claim 1, wherein the device is satisfied. The at least one earlier stress parameter further comprises a third stress parameter for a third time period preceding the second time period.
The device according to claim 2, wherein the stress condition is satisfied when each of the first, second, and third stress parameters indicates a stress state of the user with respect to the predetermined stress criterion. Any of claims 1 to 4, wherein the stress parameters for all time periods prior to the current time period are ignored with respect to the stress conditions if the first stress parameter indicates the normal state of the user. The device described in one item. Claims 1-5 are further configured such that the processor communicates the physiological data set to an electronic device and / or a remote server for processing by the electronic device and / or the remote server, respectively. The device according to any one of the above. A computerized method for user stress assessment,
Performed by the measuring device,
Several physiologic data sets measured from said user, each physiologic data set being measured during a separate time period from the database of the measuring device. Steps to take out and
Steps to determine stress parameters from each physiological dataset to compare with a given stress criterion,
In a time space having multiple consecutive and distinct time periods, each of which is a plurality of stress parameters for one hour period of the time period and for the current time period at the end of the time space. A step to identify multiple stress parameters, including the first stress parameter,
When each of the first stress parameter and at least one earlier stress parameter indicates the stress state of the user with respect to the predetermined stress criterion based on the plurality of stress parameters including the first stress parameter. In the step of generating a stress alert when it is determined that a given stress condition is met, each of the at least one earlier stress parameter is more than each of the previous time periods. Steps that are about early time periods and
The visual information corresponding to the stress alert, including the step of displaying the visual information that assists the user in alleviating the stress condition, in at least one graphical user interface (GUI) portion.
The stress condition relates to a method relating to the user's stress pattern formed by the plurality of stress parameters in the time space. The at least one earlier stress parameter comprises a second stress parameter for a second time period preceding the current time period.
The method of claim 7 , wherein the stress condition is satisfied when each of the first and second stress parameters indicates a stress state of the user with respect to the predetermined stress criterion. The at least one earlier stress parameter includes the earliest stress parameter for the earliest time period of the beginning of the time space.
In the stress condition, each of the first and earliest stress parameters indicates the stress state of the user, and none of the remaining stress parameters of the earlier stress parameters indicates the normal state of the user. The method of claim 7 , wherein the method is satisfied. The at least one earlier stress parameter further comprises a third stress parameter for a third time period preceding the second time period.
The method of claim 8 , wherein the stress condition is satisfied when each of the first, second, and third stress parameters indicates a stress state of the user with respect to the predetermined stress criterion. Any of claims 7-10 , wherein the stress parameters for all time periods prior to the current time period are ignored with respect to the stress conditions if the first stress parameter indicates the normal state of the user. The method described in item 1. Any one of claims 7-11 , further comprising the step of communicating the physiological dataset to an electronic device and / or a remote server for processing by the electronic device and / or the remote server, respectively. The method described in. A computerized method for user stress assessment,
Performed by an electronic device,
A measurement data set containing several physiological data sets measured from the user, each physiological data set being measured from a measurement device during a separate time period. Steps to receive and
The step of storing the measurement data set in the database of the electronic device, and
Steps to determine stress parameters from each physiological dataset to compare with a given stress criterion,
In a time space having multiple consecutive and distinct time periods, each of which is a plurality of stress parameters for one hour period of the time period and for the current time period at the end of the time space. A step to identify multiple stress parameters, including the first stress parameter,
When each of the first stress parameter and at least one earlier stress parameter indicates the stress state of the user with respect to the predetermined stress criterion based on the plurality of stress parameters including the first stress parameter. In the step of generating a stress alert when it is determined that a given stress condition is met, each of the at least one earlier stress parameter is more than each of the previous time periods. Steps that are about early time periods and
The visual information corresponding to the stress alert, including the step of displaying the visual information that assists the user in alleviating the stress condition, in at least one graphical user interface (GUI) portion.
The stress condition relates to a method relating to the user's stress pattern formed by the plurality of stress parameters in the time space. The at least one earlier stress parameter comprises a second stress parameter for a second time period preceding the current time period.
13. The method of claim 13 , wherein the stress condition is satisfied when each of the first and second stress parameters indicates a stress state of the user with respect to the predetermined stress criterion. The at least one earlier stress parameter includes the earliest stress parameter for the earliest time period of the beginning of the time space.
In the stress condition, each of the first and earliest stress parameters indicates the stress state of the user, and none of the remaining stress parameters of the earlier stress parameters indicates the normal state of the user. The method of claim 13 , wherein the method is satisfied. The at least one earlier stress parameter further comprises a third stress parameter for a third time period preceding the second time period.
15. The method of claim 14 , wherein the stress condition is satisfied when each of the first, second, and third stress parameters indicates a stress state of the user with respect to the predetermined stress criterion. 13 . The method described in item 1. The method of any one of claims 13-17 , further comprising communicating the stress alert with the measuring device in order to display the corresponding visual information on the measuring device. The method of any one of claims 13-18 , further comprising communicating the measurement data set to a remote server for processing by the remote server. It further comprises the step of receiving recommended content from the remote server to relieve the user's chronic stress condition.
19. The method of claim 19 , wherein the generation of the recommended content and the determination of the chronic stress condition are performed by the remote server based on the measurement data set for the reference data set and the user's history measurement data set.