KR101397997B1 - Safety system using health care u-helmet - Google Patents

Abstract

In a safety system using a healthcare U-helmet including a U-helmet, a mobile communication terminal and a service providing server, the U-helmet senses the user's body information and acceleration information and transmits the information to the mobile communication terminal , The mobile communication terminal detects the position information of the user, (b) converts the body information into body information of a predetermined period, (c) converts the acceleration information into acceleration change information of a certain period of time The service providing server compares (a) the body information of the predetermined period with the pre-stored region range, (b) compares the acceleration change information of the predetermined period with the pre-stored acceleration change pattern, and And transmits the result to the mobile communication terminal. [0002] The present invention relates to a safety system using a healthcare U-helmet.

Description

[0001] SAFETY SYSTEM USING HEALTH CARE U-HELMET [0002]

In a safety system using a healthcare U-helmet including a U-helmet, a mobile communication terminal and a service providing server, the U-helmet senses the user's body information and acceleration information and transmits the information to the mobile communication terminal , The mobile communication terminal detects the position information of the user, (b) converts the body information into body information of a predetermined period, (c) converts the acceleration information into acceleration change information of a certain period of time The service providing server compares (a) the body information of the predetermined period with the pre-stored region range, (b) compares the acceleration change information of the predetermined period with the pre-stored acceleration change pattern, and And transmits the result to the mobile communication terminal. [0002] The present invention relates to a safety system using a healthcare U-helmet.

In general, modern people can maintain a healthy life through appropriate exercise. Leisure activities such as hiking and climbing are becoming a part of important life. Most leisure activities require one or more leisure tools to protect the body. In particular, helmets cover the head of a person to ensure safety from blows by external forces.

On the other hand, recently, the mobile phone supports various supplementary services in addition to the basic call function. For example, navigation using GPS signals, body rhythms, emergency signals, and the like.

As one of such additional services, 'a method and apparatus for transmitting a structure request message using a wristwatch-type mobile phone' of Patent No. 10-0431979 discloses a wristwatch-type mobile phone that can be worn on a wrist, A plurality of reference values and check periods corresponding to a user's request reflecting the physical condition of the wearer, etc. are set and the body change using them is checked, The structure request message including the information can be delivered at the most appropriate time so that the structure of the emergency situation and preventive measures can be made.

A structure request message delivery method using a wristwatch-type mobile phone according to the related art includes a body temperature sensor for measuring a body temperature of a wearer, a wristwatch-type mobile phone having a blood pressure sensor for measuring a blood pressure and a pulse of a wearer, The body temperature, the blood pressure, and the pulse of the wristwatch-type mobile phone wearer in a check mode using the button portion of the wristwatch-type mobile phone, and measuring the measured body temperature, blood pressure, and pulse on the display portion of the wristwatch-type mobile phone Setting a reference value according to a user's request using the measured body temperature, blood pressure, and pulse in a reference value and a cycle setting mode, respectively, setting blood pressure and pulse check periods and storing them in a memory, The body temperature of the wearer is always checked with the sensing unit, Checking the blood pressure and pulse of the wearer with the set check period with the blood pressure detecting unit and displaying the checked blood pressure and pulse on the display unit of the wristwatch-type mobile phone, displaying the checked blood pressure and pulse with the set correspondence Checking the blood pressure and the pulse again by reducing the check period of the blood pressure and the pulse to 1/2 cycle in the predetermined period as compared with the reference value and departing from the first limit from the reference value, Checking the blood pressure and the pulse again by decreasing the check period of the blood pressure and the pulse to 1/3 period in the preset check period as the reference value exceeds the second limit which is wider than the first limit, Comparing the re-checked blood pressure and pulse with the set corresponding reference value and comparing the reference value with the second limit The wristwatch-type mobile phone makes a call to a predetermined designated mobile station according to at least one of the out-of-range limit corresponding to the risk level and the checked body temperature that deviates from the risk level limit at the preset body temperature reference value, To the mobile communication network through the mobile communication network.

According to the structure request message delivery method using the wristwatch-type mobile phone according to the related art, a set corresponding reference value for comparing the body condition of the wearer with the measured value is fixed, so that the body change according to the type of leisure or exercise is appropriately There is a limit in that an erroneous emergency signal can be sent out.

In addition, since it detects only a simple change of body, it can not immediately notify the surrounding people of various kinds of risks that may arise in the case of leisure activity such as impact, fall, fall, and seizure by external force.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a safety system using a healthcare U-helmet capable of appropriately responding to a change in body according to a type of leisure activity.

It is also an object of the present invention to provide a safety system using a healthcare U-helmet, which enables the coworkers to take prompt action when one of the people who enjoy leisure or exercise together is at risk.

In a safety system using a healthcare U-helmet including a U-helmet, a mobile communication terminal and a service providing server, the U-helmet senses the user's body information and acceleration information and transmits the information to the mobile communication terminal , The mobile communication terminal detects the position information of the user, (b) converts the body information into body information of a predetermined period, (c) converts the acceleration information into acceleration change information of a certain period of time The service providing server compares (a) the body information of the predetermined period with the pre-stored region range, (b) compares the acceleration change information of the predetermined period with the pre-stored acceleration change pattern, and And transmits the result to the mobile communication terminal. The present invention provides a safety system using the healthcare U-helmet.

According to the safety system using the healthcare U-helmet according to the present invention, the health state of the wearer such as the blood pressure, pulse and body temperature is continuously detected and the user has a remarkable effect of directly managing the health.

The safety system using the healthcare U-helmet according to the present invention has a remarkable effect of being able to detect an emergency such as a fall, a fall, and a seizure by using the acceleration information by the acceleration sensor and to quickly rescue it.

The safety system using the healthcare U-helmet according to the present invention has a remarkable effect of promptly informing other people who enjoy leisure activities together when the user is in a dangerous state such as a fall, thereby enabling emergency structure.

The safety system using the healthcare U-helmet according to the present invention can determine the range of the area according to the leisure type, the physical condition or the health condition and can provide different risk information according to the exercise amount required in various leisure activities And has a remarkable effect.

FIG. 1 shows a schematic configuration of a safety system using a healthcare U-helmet according to an embodiment of the present invention.
2 illustrates an example of an information processing flow in a system according to an embodiment of the present invention.
3 is a flowchart illustrating an example of determining a dangerous situation in a system according to an embodiment of the present invention.
FIG. 4 illustrates an example of comparing and comparing body information and acceleration change information with each area range and acceleration change pattern in the system according to an embodiment of the present invention.
5 schematically illustrates an example of setting a blood pressure range in a system according to an embodiment of the present invention.
6 is a block diagram illustrating an example of setting an area range in a system according to an embodiment of the present invention.

The terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms and the inventor may properly define the concept of the term in order to best describe its invention It should be construed as meaning and concept consistent with the technical idea of the present invention.

Therefore, the embodiments described in the present specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention and are not intended to represent all of the technical ideas of the present invention. Therefore, various equivalents It should be understood that water and variations may be present.

Before describing the present invention with reference to the accompanying drawings, it should be noted that the present invention is not described or specifically described with respect to a known configuration that can be easily added by a person skilled in the art, Let the sound be revealed.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 shows a schematic configuration of a safety system using a healthcare U-helmet according to an embodiment of the present invention, and FIG. 2 shows an example of an information processing flow.

The safety system using the healthcare U-helmet according to an embodiment of the present invention includes a U-helmet 100, a mobile communication terminal 200, and a service providing server 300.

According to the design conditions, the configurations and functions included in the U-helmet 100, the mobile communication terminal 200, and the service providing server 300 may be variously designed such that their positions are mutually changed .

The U-helmet 100 is configured to be worn on the head of the user and to be equipped with a sensor for detecting the user's body information such as blood pressure, pulse rate and body temperature.

Also, an acceleration sensor for detecting the movement of the user is mounted, and a type of the sensor may be a 3-axis acceleration sensor or a gyro sensor, and generates acceleration information of the user.

The blood pressure sensor, the pulse sensor, and the body temperature sensor may be attached to the U-helmet in a position where it is easy to detect information, rather than attaching a specific point on the U-helmet. In the case of the acceleration sensor, It is not fixed.

The U-helmet transmits information using Bluetooth to the mobile communication terminal 200, and transmits the body information detected by the U-helmet and the acceleration information detected by the acceleration sensor to the mobile communication terminal.

The mobile communication terminal 200 receives the Global Positioning System (GPS) signal and generates location information based on the latitude, longitude and altitude of the location of the mobile communication terminal.

And may be designed to display position information according to the GPS signal based on a map stored in advance in the mobile communication terminal according to a design condition.

The body information and the acceleration information obtained in the U-helmet and the position information acquired in the mobile communication terminal are transmitted to the service providing server. The service providing server exchanges information through a mobile communication terminal, a mobile communication network, and an Internet network.

The service providing server 300 receives the body information, the acceleration information, and the position information transmitted from the mobile communication terminal, and acquires the corresponding information based on the user information of the mobile communication terminal.

In addition, the acquired body information and acceleration information compares with the respective stored region information and generates the danger information. Here, the previously stored region information includes a region range corresponding to the body information. The range and the risk information are described below.

Meanwhile, the mobile communication terminals 200 may be grouped into a plurality of groups. Accordingly, the grouped mobile communication terminals exchange the risk information and the location information via the service providing server, respectively.

As shown in FIG. 2, the body information and the acceleration information acquired by the mobile communication terminal 1 are transmitted to the server together with the position information based on the GPS signal, and the service providing server transmits the position information to the grouped mobile communication terminal Send information and risk information.

That is, A transmits the positional information and the danger information to other members grouped through the service providing server, from the body information, the acceleration information, and the position information acquired in the mobile communication terminal-1 of the user wearing the U-helmet And B indicates that the location information and the danger information based on the mobile communication terminal -N that the other members have are transmitted to the mobile communication terminal_1. Here, N is a natural number of 2 or more.

FIG. 3 is a flowchart illustrating an example of determining a dangerous situation in a system according to an embodiment of the present invention. FIG. 4 is an example of comparing and comparing body information and acceleration change information with respective region ranges and acceleration change patterns. .

According to the safety system using the healthcare U-helmet according to an embodiment of the present invention, the mobile communication terminal receives body information such as blood pressure, pulse, and temperature from the U-helmet at regular intervals.

Here, the body information transmitted in a predetermined period may be converted into an average value of the corresponding data based on the time information embedded in the mobile communication terminal. For example, in the case of a pulse, the pulse rate may be set to 1 minute. In the case of blood pressure, the pulse rate may be determined to be 30 seconds. The body temperature may be averaged over 60 seconds.

In other words, the body information transmitted from the mobile communication terminal is converted into a blood pressure information, pulse information, and body temperature information of a predetermined period, for comparison with the range of the corresponding body information previously stored in the service providing server.

In an embodiment of the present invention, the terminal converts the body information of a predetermined period into the body information. However, the present invention is not limited to this and can be processed by the service providing server.

Also, the mobile communication terminal receives the acceleration information from the U-helmet and generates acceleration change information for a certain period of time.

That is, the acceleration information is transmitted for a predetermined period, and is converted into acceleration change information including a change amount or change rate during the period, and is transmitted to the service providing server.

The service providing server stores acceleration pattern information such as a fall, a crash, and a seizure, and compares the information with the transmitted acceleration change information to determine a risk situation.

For example, in the case of a mountain climbing leisure activity where the altitude is continuously increasing or decreasing, if the acceleration change information for a certain period of time is a sudden change pattern, a fall or a fall is suspected. In case of a fall, the acceleration change is more sudden, Based on what they do.

In an embodiment of the present invention, the terminal converts the acceleration change information into a predetermined period of acceleration change information. However, the present invention is not limited to this and can be processed by a U-helmet or a service providing server.

On the other hand, the body information of the predetermined period generates different risk information according to the range of the region previously stored in the service providing server or the type of the leisure.

For example, in the case of the blood pressure, if the diastolic blood pressure 80 to the systolic blood pressure 120 is within the normal blood pressure range, the reference blood pressure is 100 as an arithmetic average. If the blood pressure is in the range of ± 20 based on the reference blood pressure 100, it can be regarded as normal blood pressure. The range of the blood pressure based on the reference blood pressure 100 at this time, that is, 80 to 120 is the normal blood pressure range. And blood pressure outside this area, that is, a blood pressure of less than 80 and a blood pressure of more than 120, is in the danger blood pressure range.

On the other hand, the reference blood pressure 100 is a reference value measured during a normal life in which a person does not have excessive exercise or labor. It can be higher than in some cases of excessive exercise or labor. Accordingly, the reference blood pressure is higher than 100, and the systolic blood pressure and the diastolic blood pressure belonging to the normal blood pressure range according to the reference blood pressure are also increased. Therefore, the range of the reference blood pressure and the normal blood pressure is different depending on the type of exercise and labor.

Although the embodiment of the present invention has been described with reference to the case of blood pressure, it is needless to say that the range of pulse and body temperature according to the type of leisure or exercise can be provided according to simulation and statistics.

As shown in FIG. 3, the mobile communication terminal compares the body information of the predetermined period transmitted in the mobile communication terminal with a normal range or a danger zone, and generates a safety signal if the normal range is determined. If it is determined that the range of the dangerous area is out of the normal range, a danger signal is generated.

Also, it is determined whether or not the acceleration change information for a certain period of time is a pattern of a dangerous situation, and if it is a dangerous pattern, a warning signal is generated.

The danger information generated by the service providing server, that is, the safety signal, the danger signal, and the warning signal is transmitted not only to the mobile communication terminal (mobile communication terminal) 1 that transmitted the body information but also to one or more grouped mobile communication terminals As shown in FIG.

Meanwhile, the safety signal, the danger signal, and the warning signal transmitted from the service providing server are displayed on a display screen provided in the mobile communication terminal. The display screen displays the safety signal and the danger signal based on the body information, and the safety signal and the warning signal based on the acceleration information independently.

For example, what is displayed may be independently displayed as "safety signal based on member name, body information, danger signal, safety signal based on acceleration information, and warning signal ".

At this time, the background screen displayed on the display screen of the mobile communication terminal displays a point based on the location information received from the mobile communication terminal together with the map.

Also, since there are many grouped members, it is preferable to display the member name, the position information, and the risk information with different colors for the purpose of distinguishing them.

Referring back to FIG. 2, if a user carrying the mobile communication terminal 1 is exposed to a dangerous situation such as a physical emergency, a fall, or a state in which the user can not move the body due to an external shock, The service providing server transmits the risk information from the mobile communication terminal (mobile communication terminal 1) to the service providing server, and the service providing server transmits the danger information to the mobile communication terminal (N) of the group members.

Accordingly, the member who is in danger can quickly get out of the emergency situation or perform emergency treatment by viewing the member name, the danger information and the position information displayed on the mobile communication terminal of the members.

Hereinafter, with reference to Figs. 5 and 6, setting of the range of regions in the system according to the embodiment of the present invention will be described in detail.

Fig. 5 schematically shows an example of setting the range of the blood pressure, and Fig. 6 is a block diagram showing an example of setting the range of the range.

In the system of the present invention, the reference blood pressure (reference value) is changed according to the type of leisure based on the normal blood pressure range, and the weight is added to the changed reference blood pressure according to the physical condition and / The range of the blood pressure is modified to determine the normal range and the range of the dangerous range.

First, referring to T in Fig. 5, it is generally assumed that the blood pressure of a person has between 80 and 120. At this time, the blood pressure 80 is called the lower limit blood pressure, the blood pressure 120 is the upper limit blood pressure, and the arithmetic mean 100 of the lower limit blood pressure and the lower limit blood pressure is set as the reference blood pressure. The upper limit blood pressure is set to 120, which is +20 added to the reference blood pressure 100, and the lower limit blood pressure is set to 80, which is minus 20 points based on the reference blood pressure 100. Accordingly, when the lower limit blood pressure and the upper limit blood pressure are determined by the reference blood pressure, the normal blood pressure range range is determined accordingly.

It goes without saying that the boundary value between the normal reference blood pressure and the upper limit and the lower limit may be varied depending on the design conditions.

Next, when a specific type of leisure activity is selected, the reference blood pressure is somewhat lower or higher depending on the amount of exercise or the degree of motion of the leisure activity. T 'in FIG. 5 shows a case in which the blood pressure is lowered, and T and T' represent the same range of the area between the upper and lower blood pressures relative to the reference blood pressure. In other words, the reference value can be changed according to the leisure activity.

The range of the converted area may vary depending on a person's health condition and / or body condition. The normal blood pressure range of a healthy person is formed to be wider than the normal blood pressure range of a person who is not. To this end, weights are applied to the converted reference blood pressure. T " in Fig. 5 shows a case in which + (plus) weight is calculated.

It can be seen that the corrected blood pressure region range of T "in FIG. 5 is wider than the normal blood pressure range range than the previous T '. As described above, the normal blood pressure region can be set to be different depending on a physical condition and / or a health state of a person.

5 shows that the blood pressure is lowered. However, the present invention is not limited to this, and it is needless to say that the range of the region can be set differently by calculating the change of the weight value while the blood pressure is high. In addition, blood pressure, pulse or body temperature in the case of a standard value is determined and can be set according to the person's physical condition, health condition, or leisure area can be different.

According to the design conditions, the service providing server may be configured to store the range of the blood pressure, the pulse rate, and the body temperature according to the type of leisure, health condition or physical condition. That is, the user can select only the leisure type, and set the area range by inputting the health condition or the body condition of the user.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It will be possible to carry out various modifications.

100: U-helmet
200: Mobile communication terminal
300: service providing server

Claims (5)

U-helmet; A mobile communication terminal; And a service providing server, the safety system using the healthcare U-helmet,
The U-helmet detects the user's body information and acceleration information and transmits the information to the mobile communication terminal,
The mobile communication terminal is configured to (a) detect user position information, (b) convert the body information into body information of a predetermined period, (c) convert the acceleration information into acceleration change information of a predetermined period, To the providing server,
The service providing server compares (a) the body information of the predetermined period with the pre-stored region range, (b) compares the acceleration change information of the predetermined period with the pre-stored acceleration change pattern, However,
The mobile communication terminal,
- being grouped into a plurality of groups, exchanging the results through the service providing server,
Displaying the result together with a map on which the location information is displayed,
- displaying the results with different colors to distinguish the grouped mobile communication terminals,
The pre-
(a) changing the reference blood pressure according to the leisure type based on the normal blood pressure range range,
(b) calculating a weighted value according to a physical condition or a health state of the modified reference blood pressure, and determining a normal range and a dangerous range according to health conditions.
delete delete delete The method according to claim 1,
The body information includes detection information of a blood pressure sensor, a pulse sensor or a body temperature sensor,
Wherein the acceleration information includes detection information of a three-axis acceleration sensor or a gyro sensor,
Wherein the location information includes GPS information. ≪ RTI ID = 0.0 > 8. < / RTI >

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