KR20150053393A - Oxygen Treatment System and Method using Mobile Terminal - Google Patents

Abstract

An oxygen treatment system and method using mobile terminal are provided to perform oxygen treatment in an adaptive way in accordance with the severity of symptoms of patients, by diagnosing illness, which is the subject of oxygen treatment using a mobile terminal on the basis of personal medical record and personal biometrics, and sending the diagnosis result to an oxygen treatment apparatus. The oxygen treatment system using mobile terminal according to an embodiment of the present invention comprises: a medical record provider that has medical record of individuals; a biometrics measuring unit that measures and saves biometrics; a mobile terminal that receives the medical record and biometrics, diagnoses an illness on the basis of the medical record and the biometrics, and outputs the diagnosis result; and an oxygen treatment unit that receives the diagnosis result, sets an oxygen treatment parameter according to the diagnosis result, and conducts oxygen treatment based on the oxygen treatment parameter, which is set.

Description

Technical Field [0001] The present invention relates to an oxygen treatment system using a mobile terminal,

More particularly, the present invention relates to an oxygen therapy system and method, and more particularly, to an oxygen therapy system and a method for diagnosing oxygen therapy using a mobile terminal based on personal medical information and personal bio information, To an oxygen therapy system and method using a mobile terminal capable of adaptively treating oxygen according to the degree of pathology.

A method of providing high-pressure oxygen using an oxygen chamber is an oxygen therapy method in which oxygen is inhaled in an environment higher than atmospheric pressure to induce oxygen to penetrate the blood in the body and supply oxygen of high purity to the body through capillary blood vessels. .

Such high concentration of oxygen inhalation increases the amount of oxygen bound to hemoglobin. Therefore, not only neurological diseases such as fractures, orthopedic diseases such as ligament injuries, acute attacks, suffocative encephalopathy, optic neuritis, but also emergency diseases such as burns and carbon monoxide poisoning ≪ / RTI >

In recent years, treatment with oxygen inhaled by high concentration has been used for treatment of limbic cold, which is cold and cold, recovery of chronic fatigue and myalgia, prevention and treatment of dementia and cerebral infarction, and alleviation of diabetes and hypertension.

Meanwhile, recently, a method of collecting biometric information using a smart device such as a smart phone and diagnosing its own health based on the collected biometric information has been proposed.

As a conventional technique, there is a bio-signal self-diagnosis system using a smart phone filed in Korean Patent Application No. 2011-0084503.

Such prior art technology allows the smartphone to continuously receive and store bio-signals measured by a portable health meter through a local communication network to generate diagnostic data, thereby making it possible to utilize the bio-signal as a daily health diary of an individual, Biomedical signals and currently measured biological signals are compared and analyzed to propose behavioral directions according to individual health status.

However, the above-described prior arts are not limited to the use of various sensors for measuring living body signals (alcohol, blood glucose measurement, blood pressure, oxygen saturation, electrocardiogram, electromyogram (electroencephalogram), pulse, body temperature, The present invention is limited to receiving biometric information using a local area network, storing the received biometric information, and utilizing the biometric information to diagnose a current health condition.

Therefore, the above-mentioned prior art does not specifically describe how to use any of the biosensors listed in the measurement of a certain bottle and how to handle the sensor data to determine the pathology.

That is, the prior art does not describe the method of using the bio-sensor and the method of distinguishing diagnoses.

On the other hand, in the case of diagnosis based on only low-cost biometric sensor information having a simple structure in the past, it is difficult to diagnose the exact pathology in comparison with the use of expensive and complicated equipment provided in hospitals and medical institutions.

In addition, there is a problem that the reliability of the biometric sensor information due to the simple structure and the reliability of the biometric sensor information due to the non-professional diagnosis is low because the mobile terminal diagnoses the pathology using a simple algorithm based on the data transmitted from the biometric sensor.

On the other hand, since the conventional oxygen supply device supplies the same amount of oxygen to all people, the treatment effect is also limited due to the fact that the person does not take into consideration diversity of physical characteristics and pathology.

Moreover, there was the inconvenience that a person had to manually adjust the oxygen amount of the daily oxygen supply device according to the diagnosis result.

In addition, in the past, high cost and a lot of time is invested in the hospital, and the medical information of the real-time health detection is regularly checked, and the health status is simply confirmed.

That is, the various inspection information of the patient performed in the hospital using the expensive and precise equipment can not serve as the input information for treating the disease in various ways and is left untreated. In order to treat a specific disease, Respectively.

In addition, since personal medical information is transmitted to the patient in a printed form, it is easy to lose and vulnerable to security, so that privacy infringement and utilization of unauthorized personal medical information are likely to occur.

In addition, since the medical information of the patient is stored only in the hospital where the patient is consulted, the patient can not utilize the existing measurement result and diagnosis result even when moving the hospital or searching for a precise diagnosis at the higher hospital, .

Disclosure of Invention Technical Goals The present invention has been proposed in order to solve the problems of the prior art as described above, and it is an object of the present invention to diagnose a disease subject to oxygen therapy using a mobile terminal based on personal medical information and personal biometric information, And an oxygen treatment system and method using a mobile terminal that can adaptively treat oxygen according to the severity of a patient's disease.

According to another aspect of the present invention, there is provided an oxygen treatment system using a mobile terminal, comprising: a medical information provider storing personal medical information; A biometric information measuring unit for measuring and storing biometric information; A mobile terminal for receiving the medical information and the biometric information, diagnosing a disease based on the medical information and the biometric information, and outputting a diagnosis result; And an oxygen therapy unit for receiving the diagnosis result, setting an oxygen treatment parameter according to the diagnosis result, and performing oxygen treatment according to the set oxygen treatment parameter.

The medical information provider according to the embodiment of the present invention may further include: a medical information database storing the medical information; And a source communication module for transmitting and receiving information to and from the external device.

In this case, the medical information provider may further include a provider authentication unit for verifying whether the external device requests the medical information.

Meanwhile, the bio-information measuring unit according to the embodiment of the present invention may include: a measuring unit for measuring the bio-information; And a sensor selecting unit for selecting biometric information according to a request signal from the biometric information requesting unit of the biometric information.

The mobile terminal according to an embodiment of the present invention may further include a user database for storing the medical information and the biometric information; And a disease diagnosis unit for diagnosing a disease based on the medical information and the biometric information stored in the user database.

Meanwhile, the mobile terminal may be configured to perform secondary diagnosis based on the result of the primary diagnosis and the biometric information after the primary diagnosis based on the medical information.

The mobile terminal may further include: a weight setting unit configured to set a weight to be applied to the biometric information; A weight applying unit for receiving the biometric information and applying a weight to the biometric information; A criterion value generation unit for generating a criterion value based on the biometric information to which the weight is applied; And a diagnosis result generation unit for comparing the determination basis value with a predetermined threshold value to generate a diagnosis result.

The oxygen treatment unit according to the embodiment of the present invention transmits an oxygen treatment result to the mobile terminal and the mobile terminal updates the stored health information based on the oxygen treatment result transmitted from the oxygen treatment unit do.

The oxygen treatment unit may include a treatment device setting unit configured to set treatment parameters according to the diagnosis result; And an oxygen therapy apparatus for providing an oxygen therapy environment according to treatment parameters transmitted from the therapeutic apparatus setting unit.

The oxygen treatment unit may further include a treatment result providing unit for transmitting a prescription and a patient's state change information before and after the treatment to the mobile terminal.

In addition, the oxygen treatment method using the mobile terminal according to the embodiment of the present invention may include: preparing a disease diagnosis for receiving and storing medical information and biometric information from a medical information provider and a biometric information measuring unit; Diagnosing a pathology based on the medical information and the biometric information, and outputting a diagnosis result; And an oxygen treatment step of receiving the diagnosis result, setting an oxygen treatment parameter, and performing oxygen treatment according to the set oxygen treatment parameter.

And an information updating step of, after the oxygen treatment step, transmitting the oxygen treatment result to the mobile terminal, and updating the health information stored in the mobile terminal.

In addition, after the oxygen treatment step, the treatment part may further include an additional information transmission step of transmitting information on a patient's state change to the mobile terminal before and after the prescription and treatment.

Meanwhile, the pathological diagnosis preparation step may include: an information request step of executing the diagnostic application installed in the mobile terminal and requesting the medical information and the biometric information; An information providing step in which the medical information provider and the biometric information measuring unit transmit the medical information and the biometric information; And an information storing step in which the mobile terminal receives and stores the medical information and the biometric information.

Further, in the information requesting step, when the diagnostic application is executed, the medical information and the biometric information are requested after a predetermined authentication procedure.

At this time, upon receipt of the medical information request, the medical information provider transmits the medical information after confirming that it is the authenticated information requestor.

The biometric information measuring unit may collect biometric information corresponding to the requested biometric information and transmit the biometric information when receiving the biometric information request.

In the meantime, the pathological diagnosis step may include: a first diagnosis step of diagnosing a pathology suspected of being a pathologic disease that can be treated with oxygen based on the medical information; A second diagnosis step of diagnosing the pathology diagnosed in the first diagnosis step based on the biometric information; And a diagnosis result output step of outputting a diagnosis result diagnosed through the secondary diagnosis step.

In this case, the secondary diagnosis step may include applying weighting values to the biometric information; A biometric basis value generation step of generating a biometric basis value by summing the biometric information to which the weight is applied; And a diagnosis result generation step of comparing the discrimination basis value with a threshold value to generate a diagnosis result.

According to the present invention, the user's mobile device automatically discriminates his / her pathology and severity using personal medical information of a patient and various bio-sensors, provides optimal oxygen amount corresponding thereto, Can be obtained.

In addition, since it is possible to database the medical information of the patient in his / her mobile terminal, the medical information can be shared with the hospital and the oxygen therapy system without fear of privacy invasion and security, This is done automatically.

Further, by applying the oxygen treatment system and method proposed in the present invention in an extended manner, it is possible to provide various kinds of treatments (oxygen deficiency and chronic fatigue (muscle pain)) that can be applied by using an oxygen chamber in hospitals, rehabilitation centers, social welfare centers, , Dementia (cerebral infarction), diabetes and hypertension, ligament and muscle damage).

1 is a block diagram illustrating an oxygen therapy system using a mobile terminal according to an embodiment of the present invention.
2 is a configuration diagram of a pathology diagnosis unit of an oxygen therapy system using a mobile terminal according to an embodiment of the present invention.
3 is a flowchart illustrating an oxygen treatment method using a mobile terminal according to an embodiment of the present invention.
4 is a flowchart specifically showing the secondary diagnosis step of FIG.
5 is a diagram illustrating an example of diagnosing a pathology by applying the oxygen therapy system and method using a mobile terminal according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. In this process, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation.

Further, terms to be described below are terms defined in consideration of functions in the present invention, which may vary depending on the intention or custom of the user, the operator. Therefore, definitions of these terms should be made based on the contents throughout this specification.

FIG. 1 is a configuration diagram illustrating an oxygen therapy system using a mobile terminal according to an embodiment of the present invention, and FIG. 2 is a block diagram of a pathology diagnosis unit of an oxygen therapy system using a mobile terminal according to an embodiment of the present invention.

Referring to FIG. 1, an oxygen treatment system (hereinafter referred to as 'oxygen treatment system') using a mobile terminal according to an embodiment of the present invention includes a medical information provider 100, a biometric information measuring unit 200, a mobile terminal 300, And an oxygen therapy unit 400.

Here, the configuration of the oxygen treatment system is a preferred embodiment for explaining the technical idea of the present invention, and the configuration of the oxygen treatment system is not limited to the embodiment of the present invention, As shown in FIG.

The medical information provider 100 stores medical information of an individual, for example, a user using the oxygen therapy system provided in the present invention.

At this time, the medical information provider 100 may be a hospital in which a user has already received a health examination, a medical examination or an inspection.

At this time, the medical information provider 100 may store the medical information of the user in the medical information database 110.

For example, the medical information provider 100 stores information on the user's personal information (such as height, weight, blood type), health examination data, medical history items, attention bottles, diagnosis data, : DB)

In addition, the medical information provider 100 includes a provider communication module 120 for transmitting and receiving information to and from an external medical information requesting device.

For example, the provider communication module 120 may be a communication module for a near field communication, but the communication module 120 is not limited thereto.

In addition, the medical information provider 100 may further include a provider authentication unit 130 for verifying whether the external medical information requesting apparatus is an authenticated information requestor.

Accordingly, when the external medical information requesting device requests the medical information through the communication module 120, the medical information provider 100 determines that the requested information requester is an authenticated information requester using the provider authentication part 130 And provides medical information related to the authenticated information requestor from the medical information database 110.

For example, if a hospital's medical information provider provides medical information via an NFC with an authenticated user's mobile device, the patient at the hospital can easily obtain reliable information about his or her pathology. .

The biometric information measuring unit 200 includes a measuring unit 210 for measuring biometric information that can easily confirm the health information of the user's body. The measuring unit 210 includes a plurality of measurement sensors.

In addition, when the biometric information measuring unit 200 receives a request signal from an external biometric information requesting device, the biometric information measuring unit 200 transmits the biometric information to the biometric information requesting device according to the request signal.

For example, the measurement unit 210 may include a digital infrared thermal imaging (DITI) measurement sensor 211, an oxygen saturation (SpO2) measurement sensor 212, a heart rate variability (HRV) A blood pressure measuring sensor 213, a blood pressure measuring sensor 214, and a pulse measuring sensor 215. In addition, the measuring sensor may further include various measuring sensors for measuring the living body information.

The biometric information measuring unit 200 may include a sensor selecting unit 220 for selecting biometric information according to a request signal from the biometric information requesting unit of the biometric information measured by the measuring unit 210 .

At this time, the request signal is a signal transmitted from the biometric information requesting device to determine which of the biometric information measured by the biometric sensor 210 is transmitted by the biometric information measuring unit 200.

That is, the sensor selection unit 220 receives the request signal from the biometric information request device, selects a measurement sensor corresponding to the request signal from among a plurality of measurement sensors constituting the measurement unit 210, Receives the biometric information from the sensor, and transmits the biometric information to the biometric information requesting device.

 In addition, the bio-information measuring unit 200 includes a measurement unit communication module 230 for transmitting and receiving information to and from the bio-information requesting apparatus.

At this time, the measurement unit communication module 230 may be a communication module for wireless communication such as Bluethhoth and Zigbee.

Therefore, when the external biometric information request unit sends a request signal, the biometric information measurement unit 200 receives the request signal through the measurement unit communication module 230, and uses the sensor selection unit 220 to acquire necessary biometric information And collects the biometric information from the sensor according to the determined result, and transmits the collected biometric information to the biometric information request device.

Meanwhile, the biometric information measured by the measurement unit 210 is stored in the measurement database 240, and the sensor selection unit 220 may be configured to collect necessary biometric information among the biometric information stored in the measurement database 240 .

As an example of use of the measurement sensors constituting the measurement unit 210,

The deteriorated body thermometry sensor 211 measures the temperature of the hands and feet and stores measurement information. At this time, the deteriorated body heat measuring sensor 211 can be used for diagnosis when the condition is poor.

When the deteriorated body heat measuring sensor 211 is used for diagnosis of poor circulation, the temperature difference between the head part and the center of the anterior superior part measured for the diagnosis of poor circulation of the hand part is 0.3 degree or more, If the temperature difference in the center of the femur is more than 0.4 degree, it can be diagnosed as cold handedness.

The oxygen saturation measuring sensor 212 measures the amount of oxygen contained in the body and stores measurement information.

At this time, when the value of oxygen saturation expressed by the ratio of oxidized hemoglobin in the total hemoglobin is 95% or more, it is regarded as a normal value, and 0 point treatment is performed. When the value of oxygen saturation is 70% It can be normalized and used.

The heart rate variability measuring sensor 213 measures minute changes of the heart rate variation and stores measurement information, and continuously measures the interval between heart beats using a pulse wave meter using an electrocardiogram.

Analyze the frequency domain of the measured signal to determine if the average of the total power is 755.06 ± 844.85 or the mean value of VLF (very low frequency) is 340.27 ± 392.16 or less.

On the other hand, when the average value is equal to the specified value (steady state), 0 is set, and when the difference becomes the maximum value (cooling severity) is 100 points, normalization can be used.

The blood pressure / pulse measurement sensors 214 and 215 measure the blood pressure (pulse) in the wrist of the user (patient) and the blood pressure (pulse) in the ankle and calculate and store the ratio.

At this time, if the blood pressure at the ankle does not exceed 90% of the blood pressure measured at the wrist, it may be suspected that the peripheral arterial disease is the cause of poor circulation.

Therefore, it is possible to normalize the score by setting a minimum score of 80%, a maximum score of 90%, a score of 100 score of 100 score, and a score of 0 score of 90%.

The mobile terminal 300 receives the medical information from the medical information provider 100, receives the biometric information from the biometric information measuring unit 200, and diagnoses the pathology based on the medical information and the biometric information , And outputs the diagnosis result.

The mobile terminal 300 includes a user database 310 for storing the medical information and the biometric information and a disease diagnosis unit 320 for diagnosing a medical condition based on the medical information and the biometric information stored in the user database 310 ).

At this time, the pathology diagnosis unit 320 performs a first diagnosis based on the medical information, and a second diagnosis based on the first diagnosis result and the biometrics information.

Specifically, the pathology diagnosis unit 320 diagnoses the most suspicious diseases (such as poor circulation, chronic fatigue, dementia (cerebral infarction), diabetes (hypertension), other surgical diseases, etc.) based on the medical information in the primary diagnosis. It is obvious to those skilled in the art that the invention is extendable to various diseases that can treat oxygen as well as the diseases listed here.

Thereafter, the pathology diagnosis unit 320 performs a secondary diagnosis by using the biometric information additionally in order to diagnose the exact pathology of the suspected pathology and the severity of the pathology in detail.

Meanwhile, the pathology diagnosis unit 320 may be configured as shown in FIG. 2 for the secondary diagnosis.

Referring to FIG. 2, the pathology diagnosis unit 320 includes a weight setting unit 321 for setting weights to be applied to the biometric information, a weight applying unit 322 for receiving the biometric information and applying weights, And a diagnosis result generation unit (324) for generating a diagnosis result by comparing the determination basis value with a preset threshold value. The diagnosis result generation unit (323) generates a diagnosis basis value by combining the biometric information to which the weight is applied .

At this time, a plurality of threshold values can be set, and if a plurality of threshold values are set, detailed diagnosis results can be obtained.

In addition, the pathology diagnosis unit 320 outputs a diagnosis result after the second diagnosis, and the diagnosis result includes the severity of pathology and pathology.

The mobile terminal 300 may further include a communication unit 330 for communicating with the medical information provider 100, the bio-information measuring unit 200, and a later-described oxygen treatment unit 400 .

The communication unit 330 includes a first communication module 331 for communicating with the medical information provider 100, a second communication module 333 for communicating with the biometric information measurement unit 200, And a third communication module 335 for communicating with the first and second modules 400 and 400, respectively.

At this time, the first communication module 331, the second communication module 333, and the third communication module 335 have the same communication protocol as the communication protocol of the communication module installed in the device communicating with each communication module And a communication module to be used.

In addition, the mobile terminal 300 may include a diagnostic control unit 340 that is equipped with a diagnostic application for diagnosing the pathology and controls the pathology diagnosis.

When the user of the mobile terminal 300 controls the diagnosis control unit 340 to execute the diagnostic application, the mobile terminal 300 is switched to the last diagnostic mode for diagnosing the pathology, ).

Here, the diagnosis control unit 340 controls the user database 310, the pathology diagnosis unit 320, and the communication unit 330 described above.

Meanwhile, the mobile terminal 300 may further include a user authentication unit 350 for authenticating a user who is to diagnose the pathology.

That is, when the user turns on the diagnostic control unit 340 to diagnose the pathology using the mobile terminal 300, the authentication program of the user authentication unit 350 is automatically executed, and if a predetermined authentication procedure is performed Only the following operation is performed.

Therefore, the diagnosis control unit 340 requests the medical information providing unit 100 and the biometric information measuring unit 200 through the communication unit 330, respectively, for medical information and biometric information, And the biometric information are transmitted from the medical information providing unit 100 and the biometric information measuring unit 200.

The medical information and the biometric information transmitted from the medical information provider 100 and the biometric information measuring unit 200 are stored in the user database 310 through the communication unit 330 and are controlled by the diagnosis controller 340 The pathology diagnosis unit 320 diagnoses the pathology based on the medical information and the biometric information stored in the user database 310. [

Meanwhile, the user database 310 may be configured to overwrite the stored medical information and the biometric information with the current medical information and the biometric information when the stored medical information and the biometric information are stored.

On the other hand, the user database 310 may be configured to store the current medical information and the biometric information in a separate area when the previously stored medical information and the biometric information exist.

The oxygen treatment unit 400 receives diagnostic results output from the mobile terminal 300, sets oxygen treatment parameters according to the diagnosis results, and performs oxygen treatment according to the set oxygen treatment parameters.

In addition, the oxygen treatment unit 400 transmits the oxygen treatment result to the mobile terminal 300, and the mobile terminal 300 receiving the oxygen treatment result updates the health information stored in the user database 310.

For example, the oxygen therapy unit 400 can transmit information related to the treatment date and treatment contents to the mobile terminal 300, And updates the medical information related to the transmitted information among the information.

In addition, the oxygen therapy unit 400 may be configured to transmit the prescription and the state change information of the patient before and after the treatment to the mobile terminal 300. Herein, the state change information of the patient includes heart beat variability, blood pressure, , And oxygen saturation.

The oxygen therapy unit 400 may include a treatment device setting unit 410 for setting treatment parameters according to the diagnosis result and transmitting the treatment parameters to the oxygen therapy device 420.

The oxygen therapy device 420 provides an oxygen therapy environment according to treatment parameters transmitted from the treatment device setting unit 410.

For example, the treatment device setting unit 410 may set the oxygen pressure, the oxygen treatment time, and the treatment temperature. The oxygen treatment device 420 may set the oxygen pressure, the oxygen treatment time, Provide the patient with a therapeutic environment in which the therapeutic temperature is applied.

The oxygen therapy device 420 may include an oxygen generator, an air conditioner, and an oxygen chamber. The oxygen generator and the air conditioner may set the pressure, the discharge time, and the temperature according to the setting of the treatment device setting unit 410. And then oxygen is supplied.

In addition, the oxygen therapy unit 400 may include a therapeutic device communication module 430 for communicating with the mobile terminal 300.

The therapeutic device communication module 430 may be connected to the third communication module 335 of the mobile terminal 300 to form a communication line.

For example, the medical device communication module 430 may be a communication module for a near field communication, but the medical device communication module 430 is not limited thereto.

In addition, the oxygen therapy unit 400 may further include a treatment result providing unit 440 for transmitting a prescription and a patient's state change information before and after the treatment to the mobile terminal 300.

FIG. 3 is a flowchart illustrating an oxygen treatment method using a mobile terminal according to an embodiment of the present invention, and FIG. 4 is a flowchart illustrating a second diagnostic step of FIG.

1 to 4, a method of treating oxygen using a mobile terminal according to an embodiment of the present invention is performed through the following process.

First, the mobile terminal 300 is switched to the pathology diagnosis mode, and a pathological diagnosis preparation step (S100) for receiving and storing the medical information and the biometric information from the medical information provider 100 and the biometric information measuring unit 200 is performed.

More specifically, the pathological diagnosis preparation step (S100) includes an information request step (S110) in which a diagnostic application is executed to request medical information and biometric information, the medical information provider 100 and the biometric information measurement unit 200 An information providing step (S120) for transmitting medical information and biometric information, and an information storing step (S130) for receiving the medical information and the biometric information, and storing the received medical information and the biometric information .

At this time, when the diagnostic application is executed in the information request step (S110), the medical information and the biometric information are requested after a predetermined authentication procedure.

The information providing step S120 is performed through the two operations of the medical information provider 100 transmitting the medical information and the biometric information measuring unit 200 transmitting the biometric information.

At this time, upon receipt of the medical information request, the medical information provider 100 confirms the authenticated information requestor, and then transmits the medical information.

When the biometric information measuring unit 200 receives the biometric information request, the biometric information measuring unit 200 collects the biometric information corresponding to the requested biometric information and transmits the biometric information.

That is, the bio-information measurement unit 200 accesses the measurement database 240, which stores the bio-information measured by the measurement unit 210, and selectively collects biometric information corresponding to the requested bio-information among the stored bio- To the mobile terminal (300).

After the pathological diagnosis preparation step (S100), a pathological diagnosis step (S200) for diagnosing a pathology based on the medical information and the biometric information and outputting a diagnosis result is performed.

Specifically, the diagnosis of the pathology (S200) may include a first diagnosis step (S210) for diagnosing a pathology suspected of being a pathology susceptible to oxygen therapy based on the medical information (S210) A secondary diagnosis step (S220) for diagnosing the pathology diagnosed in the differential diagnosis step, and a diagnosis result output step (S230) for outputting the diagnosis result diagnosed through the secondary diagnosis.

At this time, the secondary diagnosis step (S220) makes a detailed diagnosis of the diagnosed disease in the first diagnosis step (S210) and determines the severity of the disease.

On the other hand, the diagnosis result outputted in the diagnosis result output step (S320) includes the severity of the pathology and pathology.

Specifically, the secondary diagnosis step S220 includes a weight applying step S221 for applying the set weights to the biometric information, a discriminating basis value generating step S222 for generating a discriminant basis value by summing the biometric information to which the weight is applied, And a diagnosis result generation step (S223) for comparing the discrimination basis value with a threshold value to generate a diagnosis result.

After the pathology diagnosis step (S200), an oxygen treatment step (S300) is performed in which an oxygen treatment parameter is set based on the diagnosis result, and an oxygen treatment is performed according to the set oxygen treatment parameter. The coral treatment parameters may include oxygen pressure, oxygen treatment time, treatment temperature, and the like.

At this time, the oxygen treatment step (S300) may include a setting step (S310) of setting an oxygen treatment parameter based on the diagnosis result, and a treatment step (S320) of performing oxygen treatment according to the set oxygen treatment parameter.

Further, after the oxygen treatment step (S300), the information update step (S400) for transmitting the oxygen treatment result to the mobile terminal (300) and updating the health information stored in the mobile terminal (300) Lt; / RTI >

Further, after the oxygen treatment step (S300), an additional information transmission step (S500) may be further performed in which the treatment part transmits the prescription and the state change information of the patient before and after the treatment to the mobile terminal.

5 is a diagram illustrating an example of diagnosing a pathology by applying the oxygen therapy system and method using a mobile terminal according to an embodiment of the present invention.

3, the measuring unit 210 of the bio-information measuring unit 200 measures the temperature of the deteriorated body by the deterioration detecting unit 210, the oxygen saturation measuring sensor 212, A sensor 213, a blood pressure measurement sensor 214 and a pulse measurement sensor 215 will be described as an example.

3, other configurations are omitted, except for the measurement unit 210, the sensor selection unit 220, and the pathology diagnosis unit 320. FIG.

First, the pathology diagnosis unit 320 receives the biometric information measured by each of the measurement sensors 211 to 215 transmitted through the sensor selection unit 220, The weighting values al to a5 are applied, and the final discrimination basis value Val is calculated by integrating the biometric information to which the weight is applied.

Therefore, the final determination basis value Val can be obtained by Equation (1) below.

&Quot; (1) "

Here, a _k Is a k-th weight, and Sensor _i is biometric information measured by a measurement sensor.

That is, the pathology diagnosis unit 320 multiplies the weighted values by the weighting values in order of the biomedical information having the highest weight in the pathological diagnosis, and then adds the resultant values to calculate the final discriminant value Val.

Then, the pathology diagnosis unit 320 sequentially determines the severity of the pathology by comparing the final decision rule value Val with a plurality of preset threshold values (Thx, x = 1, 2, ..., n) do.

3 illustrates an example in which two threshold values Th1 and Th2 are set and a final diagnosis basis value Val is compared with two threshold values Th1 and Th2 to output a comparison diagnosis result. It will be appreciated by those skilled in the art that the present invention can be extended to output diagnostic results via a comparison step.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, And various alternatives, modifications, and changes may be made within the scope of the invention.

Therefore, the embodiments described in the present invention and the accompanying drawings are intended to illustrate rather than limit the technical spirit of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments and accompanying drawings . The scope of protection of the present invention should be construed according to the claims, and all technical ideas within the scope of equivalents should be interpreted as being included in the scope of the present invention.

100: medical information provider 110: medical information database
120: Providing destination communication module 130: Providing destination authentication section
200: biometric information measuring unit 210: measuring unit
220: Sensor selection unit 230: Measurement unit communication module
240: measurement database 300: mobile terminal
310: user database 320: pathology diagnosis unit
321: weight setting unit 322: weight applying unit
323: criterion value generation unit 324: diagnosis result generation unit
330: communication unit 340: diagnosis control unit
350: user authentication unit 400: oxygen treatment unit
410: Therapeutic device setting section 420: Oxygen therapy device
430: Therapeutic apparatus communication module 440:

Claims (19)

A medical information provider storing personal medical information;
A biometric information measuring unit for measuring and storing biometric information;
A mobile terminal for receiving the medical information and the biometric information, diagnosing a disease based on the medical information and the biometric information, and outputting a diagnosis result; And
And an oxygen treatment unit for receiving the diagnosis result, setting an oxygen treatment parameter according to the diagnosis result, and performing oxygen treatment according to the set oxygen treatment parameter. The method according to claim 1,
The medical information provider,
A medical information database storing the medical information; And
And a source communication module for transmitting and receiving information to and from an external device. 3. The method of claim 2,
Wherein the medical information provider further includes a provider authentication unit for verifying whether the external device requests the medical information when the external device requests the medical information. The method according to claim 1,
Wherein the bio-
A measurement unit for measuring the biometric information; And
And a sensor selection unit for selecting biometric information according to a request signal from the biometric information requesting device among the biometric information. The method according to claim 1,
The mobile terminal comprises:
A user database for storing the medical information and the biometric information; And
And a disease diagnosis unit for diagnosing a disease based on the medical information and the biological information stored in the utility database. 6. The method of claim 5,
Wherein the mobile terminal is configured to perform secondary diagnosis based on the result of the primary diagnosis and the biometric information after the primary diagnosis based on the medical information. 6. The method of claim 5,
The mobile terminal comprises:
A weight setting unit configured to set a weight to be applied to the biometric information;
A weight applying unit for receiving the biometric information and applying a weight to the biometric information;
A criterion value generation unit for generating a criterion value based on the biometric information to which the weight is applied; And
And a diagnosis result generation unit for comparing the determination basis value with a preset threshold value to generate a diagnosis result. The method according to claim 1,
Wherein the oxygen treatment unit transmits an oxygen treatment result to the mobile terminal,
Wherein the mobile terminal updates the stored medical information based on an oxygen treatment result transmitted from the oxygen treatment unit. The method according to claim 1,
The oxygen treatment unit may include:
A therapy device setting unit for setting a treatment parameter according to the diagnosis result; And
And an oxygen therapy device for providing an oxygen therapy environment according to treatment parameters transmitted from the treatment device setting part. 10. The method of claim 9,
Wherein the oxygen treatment unit further includes a treatment result providing unit for transmitting a prescription and a change information of a patient's state before and after the treatment to the mobile terminal. A pathological diagnosis preparation step of receiving and storing the medical information and the biometric information from the medical information provider and the biometric information measuring unit of the mobile terminal;
Diagnosing a pathology based on the medical information and the biometric information, and outputting a diagnosis result; And
And an oxygen treatment step in which the oxygen treatment part receives the diagnosis result, sets an oxygen treatment parameter, and performs oxygen treatment according to the set oxygen treatment parameter. 12. The method of claim 11,
And an information updating step of, after the oxygen treatment step, transmitting the oxygen treatment result to the mobile terminal, and updating the health information stored in the mobile terminal. 12. The method of claim 11,
And a supplementary information transmission step of transmitting, after the oxygen treatment step, the condition change information of the patient to the prescription and before and after the treatment, to the mobile terminal. 12. The method of claim 11,
In the pathological diagnosis preparation step,
An information request step of executing the diagnostic application installed in the mobile terminal and requesting the medical information and the biometric information;
An information providing step in which the medical information provider and the biometric information measuring unit transmit the medical information and the biometric information; And
Wherein the mobile terminal receives and stores the medical information and the biometric information. 15. The method of claim 14,
Wherein the requesting step requests the medical information and the biometric information after a predetermined authentication procedure when the diagnostic application is executed. 15. The method of claim 14,
Wherein the medical information provider transmits the medical information after confirming that the request is an authenticated information request upon receiving the request for medical information. 15. The method of claim 14,
Wherein the bio-information measuring unit collects bio-information corresponding to the requested bio-information when receiving the bio-information request, and transmits the bio-information. 12. The method of claim 11,
In the pathological diagnosis step,
A first diagnostic step of diagnosing a suspected pathologic disease susceptible to oxygen therapy based on the medical information;
A second diagnosis step of diagnosing the pathology diagnosed in the first diagnosis step based on the biometric information; And
And a diagnosis result output step of outputting a diagnosis result diagnosed through the second diagnosis step. 19. The method of claim 18,
In the secondary diagnosis step,
A weight applying step of applying the set weight to biometric information;
A biometric basis value generation step of generating a biometric basis value by summing the biometric information to which the weight is applied; And
And generating a diagnostic result by comparing the discriminant basis value with a threshold value.

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