KR20190043237A - Apparatus and method of obtaining health information - Google Patents

Abstract

There is provided a health information obtaining apparatus that stores a change pattern of a reaction current value obtained in each of a plurality of measurement times. Wherein the health information obtaining apparatus comprises: a sensor section for applying a voltage to the subject in each of a plurality of measurement times and obtaining a plurality of reaction current values corresponding to the applied voltage; A database for storing a change pattern of the reaction current value with respect to the subject for a predetermined period of time using the change pattern and a change amount of a reaction current value according to the measurement time of the subject using the change pattern, And the like.

Description

[0001] APPARATUS AND METHOD OF OBTAINING HEALTH INFORMATION [0002]

The following embodiments relate to an apparatus and method for acquiring health information. More particularly, the present invention relates to an apparatus and method for acquiring health information using an Electro Interstitial Scan (EIS).

The electric trunk method is based on the principle that the degree of moisture and ion discharge through the sweat glands of the skin existing in the electrode measurement region is proportional to the electrochemical skin contact (ESC). In the conventional case, diabetes and the like were diagnosed by a single measurement. However, the conventional method has a data interpretation error which occurs because the physiological change during the day is not known accurately. In addition, not only the amount of change according to the measurement time but also the function change of the sweat glands due to the activity of the individual, the eating habit, lifestyle, and medication for the management of the pathology could not be grasped.

Thus, there has been a limit to the accuracy of diagnosis in the case of the conventional system. Therefore, it is necessary to develop a new diagnostic index that is less influenced by moisture and ion emission through sweat glands by taking precautions such as medication, exercise for health maintenance and lifestyle of diabetic patients.

Korean Patent Laid-Open No. 10-2016-0108531 discloses a sensor that can be inserted into a subject's body and a method for such a sensor. Specifically, the insertable sensor is configured such that a pair of injection electrodes are configured to inject current into body tissue and a pair of sensing electrodes sense a voltage caused by a current flowing between the pair of injection electrodes and through the body tissue .

According to one aspect, there is provided a health information obtaining apparatus that stores a change pattern of a reaction current value obtained in each of a plurality of measurement times. Wherein the health information obtaining apparatus comprises: a sensor section for applying a voltage to the subject in each of a plurality of measurement times and obtaining a plurality of reaction current values corresponding to the applied voltage; A database for storing a change pattern of the reaction current value with respect to the subject for a predetermined period of time using the change pattern and a change amount of a reaction current value according to the measurement time of the subject using the change pattern, And the like.

According to an embodiment, the database may generate the change pattern by matching the plurality of measurement times within the predetermined time period with the plurality of reaction current values.

According to another embodiment of the present invention, the database may include a change pattern for each of a plurality of subjects by matching an identification value for the subject with the plurality of measurement times within the predetermined time period and the plurality of reaction current values, Can be generated.

According to yet another embodiment, the database may generate a daytime variation pattern as the variation pattern by matching the unique time values to which the plurality of measurement times belong in a day with the plurality of reaction current values.

According to another embodiment, the calculation unit may identify the change amount corresponding to the measurement time of the subject in the change pattern, remove the change amount from the reaction current value corresponding to the measurement time, Can be generated. Also, the calculation unit may generate the human health information by comparing the corrected reaction current value with a normal threshold value.

According to another aspect, there is provided a computer-readable recording medium containing a program for generating human health information on a subject. Wherein the program is a command set for applying a voltage to a subject in each of a plurality of measurement times to acquire a plurality of reaction current values corresponding to the applied voltage, A command set for storing a change pattern of the reaction current value for the subject during a period and a command for generating human health information by correcting a variation amount of a reaction current value according to a measurement time of the subject using the change pattern / RTI >

According to another aspect, there is provided an apparatus for acquiring health information through a difference value of a reaction current value corresponding to a plurality of predefined events. The health information obtaining apparatus includes a sensor unit for applying a voltage to a subject and obtaining a reaction current value corresponding to the applied voltage, a sensor unit for obtaining a reaction current value at a first point of time and a second point of time for each of a plurality of predefined events A calculation unit for calculating a difference value, and a database for storing the difference value for each of the plurality of events by matching with the subject.

According to an embodiment, the calculation unit may calculate the first current of the plurality of events before the first event occurs, and the current value of the second current at a second time after the first event occurs And the database may store a change amount for the first event to the subject and store the change amount.

According to another embodiment, the calculation unit may identify an event corresponding to the reaction current value, and obtain human health information using the change amount of the reaction current value. The calculation unit may obtain the human health information using the reaction current value and the change amount of the reaction current value as independent calculation variables.

According to yet another embodiment, the predetermined event may indicate at least one of food, sound, sleep, and medication of the subject.

According to another embodiment, the calculation unit may calculate the difference value by subtracting the second reaction current value obtained before the first event from the first reaction current value obtained after the first event.

According to yet another embodiment, there is provided a computer-readable recording medium containing a program for generating human health information about a subject. The program includes a set of instructions for obtaining a reaction current value corresponding to the applied voltage by applying a voltage to the object to be examined, a difference value of the reaction current values at a first point and a second point of time for each of a plurality of predefined events And a set of instructions for matching and storing the difference value for each of the plurality of events with the subject.

1 is a block diagram showing a health information obtaining apparatus according to an embodiment.
2 is an exemplary diagram showing a change pattern of a reaction current value according to an embodiment.
3 is a flow diagram illustrating a method for generating health information in accordance with one embodiment.
4A and 4B are exemplary diagrams showing the reaction conductance changing in response to a specific event.
5 is a flow diagram illustrating a method for generating health information in accordance with another embodiment.

Specific structural or functional descriptions of embodiments are set forth for illustration purposes only and may be embodied with various changes and modifications. Accordingly, the embodiments are not intended to be limited to the particular forms disclosed, and the scope of the present disclosure includes changes, equivalents, or alternatives included in the technical idea.

The terms first or second, etc. may be used to describe various elements, but such terms should be interpreted solely for the purpose of distinguishing one element from another. For example, the first component may be referred to as a second component, and similarly, the second component may also be referred to as a first component.

It is to be understood that when an element is referred to as being "connected" to another element, it may be directly connected or connected to the other element, although other elements may be present in between.

The singular expressions include plural expressions unless the context clearly dictates otherwise. In this specification, the terms " comprises ", or " having ", and the like, are used to specify one or more of the features, numbers, steps, operations, elements, But do not preclude the presence or addition of steps, operations, elements, parts, or combinations thereof.

Unless otherwise defined, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art. Terms such as those defined in commonly used dictionaries are to be interpreted as having a meaning consistent with the meaning of the context in the relevant art and, unless explicitly defined herein, are to be interpreted as ideal or overly formal Do not.

Hereinafter, embodiments will be described in detail with reference to the accompanying drawings. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS In the following description of the present invention with reference to the accompanying drawings, the same components are denoted by the same reference numerals regardless of the reference numerals, and a duplicate description thereof will be omitted.

1 is a block diagram showing a health information obtaining apparatus according to an embodiment. Referring to FIG. 1, a health information obtaining apparatus 100 is shown. The health information obtaining apparatus 100 may include a sensor unit 110, a database 120, and a calculator 130. The sensor unit 110 may include a plurality of electrodes. More specifically, the sensor unit 110 may include a first electrode for applying a predetermined voltage to the body of the subject. In addition, the sensor unit 110 may include a second electrode for measuring a value of a reaction current flowing through the body of the subject according to the applied voltage.

The sensor unit 100 may apply a voltage to the subject in each of a plurality of measurement times and obtain a plurality of reaction current values corresponding to the applied voltage. For example, the sensor unit 100 acquires a first reaction current value corresponding to the first measurement time and a second reaction current value corresponding to the second measurement time. In this manner, the sensor unit 100 can obtain a plurality of reaction current values including the first reaction current value and the Nth reaction current value (N is an integer equal to or greater than 2).

The database 120 may store a change pattern of the reaction current value for the subject for a predetermined time period using a plurality of measurement times and a plurality of reaction current values. Specifically, the database 120 may generate the change pattern by matching a plurality of measurement times and a plurality of reaction current values within the predetermined time period. For example, the database 120 may store a change pattern of the reaction current value for the subject for a day. In this manner, the database 120 may store a pattern of change in the response current value for the subject for one month or one year. The predetermined cycle of the above-described change pattern is only an exemplary description for facilitating understanding, and should not be construed as limiting or limiting other embodiments. The pattern of change of the reaction current value with respect to the test object stored in the database 120 will be described in more detail through the following drawings.

The calculation unit 130 may be implemented by a processor included in the health information obtaining apparatus 100 although not shown in FIG. In addition, the calculation unit 130 may be implemented at least temporarily by the processor. The calculation unit 130 can generate the human health information by correcting the amount of change in the reaction current value according to the measurement time of the subject using the change pattern. Specifically, the calculation unit 130 confirms the change amount corresponding to the measurement time of the subject in the change pattern, removes the change amount from the reaction current value corresponding to the measurement time, and generates the corrected reaction current value . Illustratively, there may be cases where the subject measured the reaction current value at 7 pm. In this case, the calculation unit 130 confirms the amount of change corresponding to 7 pm in the daytime-changing pattern, and corrects the amount of change in response current value corresponding to 7 pm to generate a more accurate reaction current value .

According to another embodiment, the calculation unit 130 may calculate the difference value of the reaction current values at the first and second time points for each of a plurality of predefined events. The database 120 may store the difference value for each of the plurality of events to match the subject. Illustratively, the predetermined event may indicate at least one of food, sound, sleep, and medication of the subject. The foregoing description of the predefined event is merely an exemplary description for the purpose of helping to understand the invention and should not be construed as limiting or limiting other embodiments. The predetermined event may represent various events related to the lifestyle of the subject.

The calculation unit 130 may calculate a difference value of the reaction current value at the first point of time among the plurality of events before the first event occurs and at the second point of time after the first event occurs, Can be calculated by the amount of change. In this case, the database 120 may store a change amount for the first event to match the subject.

2 is an exemplary diagram showing a change pattern of a reaction current value according to an embodiment. Referring to FIG. 2, a change pattern of the reaction current value with respect to the subject stored in the health information obtaining apparatus is shown. The X-axis of the graph showing the change pattern represents the intrinsic time value (hour), and the Y-axis can represent the voltage (V).

The database of the health information obtaining apparatus can store a plurality of reaction current values corresponding to each of the plurality of measurement times. Specifically, the database stores the first reaction current value 211 corresponding to 7:00 am, the second reaction current value 212 corresponding to 10:00 am, the third reaction current value 213 corresponding to 1:00 pm, A fourth reaction current value 214 corresponding to 4:00 pm, a fifth reaction current value 215 corresponding to 7:00 pm, a sixth reaction current value 216 corresponding to 10:00 pm, And the seventh reaction current value 217 corresponding to the time. In the present embodiment, a case in which a daily variation pattern is implemented using the reaction current values obtained at seven measurement times will be described. However, in the process of implementing a daily variation pattern for understanding, five reaction current values, Various variations such as the current value will be possible.

Each of the reaction current values 211, 212, 213, 214, 215, 216, and 217 may be obtained at different points in time. In this case, the health information obtaining apparatus can extract the intrinsic time value corresponding to each time point and match it with the reaction current value. By way of example, the sensor unit of the health information obtaining apparatus can extract the unique time value, which is 7:00 pm on the reaction current value measured at 7:00 pm on October 7. In addition, the sensor unit can extract the unique time value, which is 4:00 pm, from the measured reaction current value at 4:00 pm on Oct. 9. The unique time value represents a time parameter determined according to the time period of the change pattern stored in the database. For example, if the daily change pattern is stored in the database, the unique time value may be implemented as time. In this case, the database may generate a daily variation pattern as the variation pattern by matching the plurality of reaction current values with the intrinsic time value to which each of the plurality of measurement times belongs in one day. In another embodiment, the unique time value may be implemented as a date when a monthly change pattern is stored in the database.

The database of the health information obtaining apparatus can generate and store a change pattern 220 relating to the subject using the respective reaction current values 211, 212, 213, 214, 215, 216, and 217. Illustratively, the database may generate a variation pattern 220 by applying a predetermined interpolation method to each of the reaction current values 211, 212, 213, 214, 215, 216, and 217. A process of implementing a certain pattern by applying interpolation to independent data is common knowledge to a technical field, so that a duplicate explanation will be omitted.

The health information obtaining device may calculate the average value 230 for a specified time period using the change pattern 220. [ Also, the health information obtaining apparatus can confirm the change amount of the reaction current value corresponding to the specific measurement time through comparison with the average value 230. [ Specifically, for the reaction current value measured at 7:00 am, the first variation amount 241 is calculated, and the measured reaction current value can be corrected. Similarly, for the reaction current value measured at 4:00 pm, the second variation amount 242 is calculated, and the measured reaction current value can be corrected. The calculation unit in the health information obtaining apparatus can generate the human health information by comparing the corrected reaction current value with each of the normal threshold values. The normal threshold represents a range corresponding to a normal state determined in consideration of the age and gender of the subject.

In this embodiment, a change pattern 220 regarding one subject is shown, but this should not be construed as limiting or limiting other embodiments. For example, the database of the health information obtaining apparatus can store a change pattern for each of a plurality of subjects. More specifically, the database may generate a variation pattern for each of a plurality of subjects by matching identification values of the subject, the plurality of measurement times within the predetermined time period, and the plurality of reaction current values have.

3 is a flow diagram illustrating a method for generating health information in accordance with one embodiment. A method (300) for generating health information includes: obtaining (310) a plurality of reaction current values corresponding to the applied voltage by applying a voltage to a subject at each of a plurality of measurement times, Storing a change pattern of the reaction current value with respect to the subject for a predetermined time period using a reaction current value of the subject; And generating 330 human health information by correcting the amount of change. The method 300 of generating health information of this embodiment can be performed by the health information obtaining apparatus.

In step 310, the health information obtaining apparatus can apply a voltage to the subject in each of a plurality of measurement times. Further, the health information obtaining apparatus may obtain a plurality of reaction current values corresponding to the applied voltage. Further, the health information obtaining apparatus can extract a unique time value corresponding to each of a plurality of measurement times.

In step 320, the health information obtaining apparatus may store a change pattern of the reaction current value for the subject for a predetermined period of time using a plurality of measurement times and a plurality of reaction current values. The health information acquiring device can match the extracted intrinsic time value with a plurality of reaction current values. For example, when the stored change pattern is a daytime change pattern, the health information obtaining device may generate and store a daytime change pattern by matching a unique time value (0 to 24 hours) and a plurality of reaction current values .

In step 330, the health information obtaining apparatus may use the change pattern to correct the amount of change in the response current value according to the measurement time of the subject, and generate the human health information. For example, if there is an increase in the reaction current value of 10% at 10 am of the day, the health information obtaining apparatus can calculate the reaction current value corrected by 10% of the change amount. Accordingly, the health information obtaining apparatus can confirm the health state of the subject by using the corrected reaction current value more accurately.

4A and 4B are exemplary diagrams showing the reaction conductance changing in response to a specific event. Referring to Figures 4A and 4B, a graph of response conductance measurement for each of the diabetic and the normal person is shown. The X-axis of the graphs represents the measurement index corresponding to the measurement time point, and the Y-axis represents the response conductance (μS) measured from the user.

The first graph 410 and the second graph 420 depicted in FIG. 4A represent the response conductance measured from a diabetic patient. More specifically, the first graph 410 represents the measured reactance conductance before the occurrence of the predetermined specific event, and the second graph 410 represents the measured reactance conductance after the occurrence of the specific event. In the present embodiment, the response conductance was measured using the diabetic patient's diet as an event. However, it is obvious to a person skilled in the art that the idea of the invention can be applied to various events such as sleeping, exercise, medication, will be. In addition, the various events may include any stimulus that causes an electrophysiological change of the user's body. For example, the various events may include events such as cold or heat sensed by a user, stimulation from a cold or hot object, yoga, and meditation.

Also, the health information obtaining apparatus can calculate a change amount of the reaction current value before and after the event having the same measurement index for each user. More specifically, the calculation unit of the health information obtaining apparatus can calculate the change amount of the reaction current value as shown in Equation (1) below.

ESC ₀ represents the measured reaction current value before the occurrence of the specific event, ESC _a represents the measured reaction current value after the occurrence of the specific event, and? ESC represents the variation of the reactive current value before and after the event.

The third graph 430 and the fourth graph 440 depicted in FIG. 4B represent the reactance conductance measured from a normal person. More specifically, the third graph 430 represents the response conductance measured before the occurrence of a particular event, and the fourth graph 440 represents the response conductance measured after the occurrence of the particular event.

As shown in FIGS. 4A and 4B, the amount of change in the reactance conductance before and after a specific event may be different for diabetic patients and normal subjects, respectively. As shown in FIGS. 4A and 4B, it is confirmed that the difference in the amount of change is not greater than that in the normal person in the case of diabetic patients. Therefore, the health information obtaining apparatus of the present embodiment not only measures the reaction current value itself, but also the elasticity of the water discharge function of the sweat glands according to the physiological change using the change amount of the reaction current value before or after the event or the change amount of the reaction conductance. It is possible to expect the effect to be utilized in the above.

5 is a flow diagram illustrating a method for generating health information in accordance with another embodiment. Referring to FIG. 5, a method 500 for generating health information includes: obtaining 510 a reaction current value corresponding to the applied voltage by applying a voltage to the examinee; Calculating (520) a difference value of the reaction current values at the first and second time points, and storing (530) matching and storing the difference values for each of the plurality of events with the subject have.

In step 510, the health information obtaining apparatus can apply a voltage to the subject. Specifically, the health information obtaining apparatus can apply a voltage to the subject at least twice before and after each specific event. Further, the health information obtaining apparatus may obtain a reaction current value corresponding to the applied voltage.

In step 520, the health information obtaining apparatus may calculate a difference value of the reaction current values at the first and second time points for each of a plurality of predefined events. Specifically, the calculation unit of the health information obtaining apparatus may calculate the difference value of the reaction current value at the first point of time before the first event of the plurality of events occurs and at the second point of time after the first event occurs, 1 < / RTI > event. For example, the health information obtaining apparatus can calculate a change amount before and after each event such as a change amount of a reaction current value before and after a meal, a change amount of a reaction current value before and after a water surface, and a change amount of a reaction current value before and after a meal. Specifically, the calculation unit may calculate the difference value by subtracting the second reaction current value obtained before the first event from the first reaction current value obtained after the first event.

In another embodiment, the first and second viewpoints may represent different viewpoints on the basis of the time when a specific event occurs. For example, the health information obtaining apparatus may obtain the health information by calculating a change amount of the reaction current value at each of the first and second time points, which are 30 minutes after the meal and 1 hour after the meal.

In step 530, the health information obtaining apparatus may store the difference value for each of the plurality of events by matching the body to the subject. Also, the health information obtaining apparatus may obtain the human health information using the reaction current value and the change amount of the reaction current value as independent calculation variables.

The embodiments described above may be implemented in hardware components, software components, and / or a combination of hardware components and software components. For example, the devices, methods, and components described in the embodiments may be implemented within a computer system, such as, for example, a processor, a controller, an arithmetic logic unit (ALU), a digital signal processor, such as an array, a programmable logic unit (PLU), a microprocessor, or any other device capable of executing and responding to instructions. The processing device may execute an operating system (OS) and one or more software applications running on the operating system. The processing device may also access, store, manipulate, process, and generate data in response to execution of the software. For ease of understanding, the processing apparatus may be described as being used singly, but those skilled in the art will recognize that the processing apparatus may have a plurality of processing elements and / As shown in FIG. For example, the processing unit may comprise a plurality of processors or one processor and one controller. Other processing configurations are also possible, such as a parallel processor.

The software may include a computer program, code, instructions, or a combination of one or more of the foregoing, and may be configured to configure the processing device to operate as desired or to process it collectively or collectively Device can be commanded. The software and / or data may be in the form of any type of machine, component, physical device, virtual equipment, computer storage media, or device , Or may be permanently or temporarily embodied in a transmitted signal wave. The software may be distributed over a networked computer system and stored or executed in a distributed manner. The software and data may be stored on one or more computer readable recording media.

The method according to an embodiment may be implemented in the form of a program command that can be executed through various computer means and recorded in a computer-readable medium. The computer readable medium may include program instructions, data files, data structures, and the like, alone or in combination. Program instructions to be recorded on a computer-readable medium may be those specially designed and constructed for an embodiment or may be available to those skilled in the art of computer software. Examples of computer-readable media include magnetic media such as hard disks, floppy disks and magnetic tape; optical media such as CD-ROMs and DVDs; magnetic media such as floppy disks; Magneto-optical media, and hardware devices specifically configured to store and execute program instructions such as ROM, RAM, flash memory, and the like. Examples of program instructions include machine language code such as those produced by a compiler, as well as high-level language code that can be executed by a computer using an interpreter or the like. The hardware devices described above may be configured to operate as one or more software modules to perform the operations of the embodiments, and vice versa.

Although the embodiments have been described with reference to the drawings, various technical modifications and variations may be applied to those skilled in the art. For example, it is to be understood that the techniques described may be performed in a different order than the described methods, and / or that components of the described systems, structures, devices, circuits, Lt; / RTI > or equivalents, even if it is replaced or replaced.

Claims (14)

A sensor unit for applying a voltage to the subject in each of a plurality of measurement times and acquiring a plurality of reaction current values corresponding to the applied voltage;
A database storing a change pattern of the reaction current value for the subject for a predetermined time period using the plurality of measurement times and the plurality of reaction current values; And
A calculation unit for generating human body health information by correcting a variation amount of the reaction current value according to the measurement time of the subject using the change pattern,
And a health information acquisition device.
The method according to claim 1,
Wherein the database generates the change pattern by matching the plurality of measurement times within the predetermined time period with the plurality of reaction current values.
3. The method of claim 2,
Wherein the database comprises a health information obtaining device for generating a change pattern for each of a plurality of subjects by matching an identification value for the subject with the plurality of measurement times within the predetermined time period and the plurality of reaction current values, .
The method of claim 3,
Wherein the database matches the intrinsic time value to which each of the plurality of measurement times belongs with the plurality of reaction current values to generate a daily variation pattern as the variation pattern.
The method according to claim 1,
Wherein the calculation unit confirms a change amount corresponding to the measurement time of the subject within the change pattern and removes the change amount from the reaction current value corresponding to the measurement time to generate a corrected reaction current value.
6. The method of claim 5,
Wherein the calculation unit compares the corrected reaction current value with a normal threshold to generate the human health information.
A computer-readable recording medium containing a program for generating human health information on a subject, the program comprising:
A command set for applying a voltage to a subject in each of a plurality of measurement times to acquire a plurality of reaction current values corresponding to the applied voltage;
A command set storing a change pattern of the reaction current value for the subject for a predetermined time period using the plurality of measurement times and the plurality of reaction current values; And
A command set for generating human health information by correcting a change amount of a reaction current value according to a measurement time of the subject using the change pattern;
Readable recording medium.
A sensor unit for applying a voltage to the subject and obtaining a reaction current value corresponding to the applied voltage;
A calculation unit for calculating a difference value of the reaction current values at a first time point and a second time point for each of a plurality of predefined events; And
A database for matching and storing the difference value for each of the plurality of events to the subject
And a health information acquisition device.
9. The method of claim 8,
Wherein the calculation unit calculates the difference between the first point of time before the first event of the plurality of events occurs and the reaction current value of the second point of time after the occurrence of the first event, Calculating,
And the database stores the change amount for the first event to the subject.
10. The method of claim 9,
Wherein the calculation unit identifies an event corresponding to the reaction current value and acquires human health information using the change amount of the reaction current value.
11. The method of claim 10,
Wherein the calculation unit obtains the human health information using the reaction current value and the change amount of the reaction current value as independent calculation variables.
11. The method of claim 10,
Wherein the predetermined event indicates at least one of food, sound, sleep, and medication of the subject.
11. The method of claim 10,
Wherein the calculation unit calculates the difference value by subtracting a second reaction current value obtained before the first event from a first reaction current value obtained after the first event.
A computer-readable recording medium containing a program for generating human health information on a subject, the program comprising:
A command set for applying a voltage to the subject to obtain a reaction current value corresponding to the applied voltage;
A set of instructions for calculating a difference value of the reaction current values at a first point of time and a second point of time for each of a plurality of predefined events; And
And storing the difference value for each of the plurality of events in association with the subject,
Readable recording medium.

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