KR102220042B1 - Method and system for controlling intelligent waterjet massage sections and patterns based on biometric indicators - Google Patents

Abstract

An intelligent waterjet massage section and pattern control method performed by a fatigue recovery system according to an embodiment includes: acquiring biometric information including brain wave information and pulse wave information of a user; Analyzing a biometric index based on the obtained biometric information; Determining a section and a pattern of a water jet massage for recovering a user's fatigue based on an analysis result of analyzing the biometric index; And controlling an oxygen chamber or a hydrotherapy device connected to the oxygen chamber according to the determined section and pattern of the waterjet massage.

Description

Intelligent waterjet massage section and pattern control method and system based on biometric indicators {METHOD AND SYSTEM FOR CONTROLLING INTELLIGENT WATERJET MASSAGE SECTIONS AND PATTERNS BASED ON BIOMETRIC INDICATORS}

The description below relates to customized healthcare technology.

As the use of laptops and mobile devices increases, and leisure activities such as hiking and sports are activated, the probability of developing musculoskeletal disorders has increased.Social interest in improving the working environment, changes in the health paradigm in the era of prevention before treatment For this reason, personalized healthcare solutions are required.

In keeping with the times when the combination of these various devices is active, technology that can help users effectively recover from fatigue and manage their own health by providing personalized treatment regimens that go beyond simple health care devices such as massages and meet the current state of the user and accordingly. Needs to be suggested.

It is possible to provide a method and system for controlling a hydrotherapy device to provide an optimal massage to a user by determining an intelligent waterjet massage section and a pattern based on a biometric index that analyzes biometric information including brain wave information and pulse wave information. .

The intelligent waterjet massage section and pattern control method performed by the fatigue recovery system includes: acquiring biometric information including brain wave information and pulse wave information of a user; Analyzing a biometric index based on the obtained biometric information; Determining a section and a pattern of a water jet massage for recovering a user's fatigue based on an analysis result of analyzing the biometric index; And controlling an oxygen chamber or a hydrotherapy device connected to the oxygen chamber according to the determined section and pattern of the waterjet massage.

The determining of the section and pattern of the waterjet massage may include at least one section of the user's shoulder, abdomen, waist, upper body, lower body, and whole body, at least one water spray pattern, water pressure intensity, lighting state, time state, and music information. Determining operation information for controlling an oxygen chamber including an oxygen chamber and a hydrotherapy device connected to the oxygen chamber, wherein the controlling step includes selecting a massage mode based on operation information determined according to the analysis result, It may include controlling the water jet massage section and the water spray pattern differently through the selected massage mode.

The step of obtaining the biometric information includes collecting the user's biometric information through an EEG and a pulse wave meter, and analyzing the biometric index includes a questionnaire obtained as a questionnaire item is created from the user. Analyzing information and electrical signals obtained through the collected sensor information in real time to calculate a biometric index including mental fatigue and physical fatigue of at least one user, wherein the biometric index comprises: a pulse wave signal And calculated through the analysis of the EEG signal, and the pulsation pressure and the stress level index are calculated by analyzing the state data of the cardiovascular system through the pulse wave signal, and the index for heart health through the analysis of the trend of heart rate fluctuations, Autonomic nerve balance index, physical problem determination data and advice data are calculated, adult disease early determination data including high blood pressure, hypotension, and anemia risk are calculated, arteriosclerosis, blood circulation status, and age related to blood vessels are calculated, and the above Through the EEG signal, the frontal lobe asymmetry index, concentration index, left/right brain activity symmetry value index, and alpha/beta wave training index are calculated, and a program for improving concentration by applying neurofeedback can be calculated.

The intelligent waterjet massage section and pattern control method is an automatic fatigue recovery service using a biometric information measuring device inside the oxygen chamber through the user's reservation management and interview through the external display of the oxygen chamber, and through the internal display of the oxygen chamber. Or operating a manual fatigue recovery service, and further comprising the step of setting control information of the oxygen chamber, wherein the setting step includes logging in to the fatigue recovery service through input of the user's ID and password, and Recording the user information related to the created questionnaire item upon receiving that the user's questionnaire item is created as it is performed, and providing an operation state of the oxygen chamber or a hydrotherapy device connected to the oxygen chamber, and a user's reservation state. Can include.

In the controlling, a fatigue recovery service is provided for a user by controlling the oxygen chamber or a hydrotherapy device connected to the oxygen chamber, and a result based on the inputted medical examination information and biometric information according to the use of the fatigue recovery service. Providing a report, presenting physical problems through analysis of brain wave signals and pulse wave signals, contents for body activation, and training plans, and capturing and tracking and managing the user's abnormal symptoms, wherein the oxygen chamber is Intake, exhaust, ultraviolet sterilization lamps, antibacterial mattresses are used, music, oxygen supply, aromatherapy functions are supported, and lighting conditions according to the user are provided through automatic lighting control, and the operation status of the inside and outside of the oxygen chamber can be checked. It is possible to provide a fatigue recovery service including a fatigue recovery space and environment.

A suitable massage can be provided to a user by controlling the hydrotherapy device according to an intelligent waterjet massage section and a pattern determined based on a biometric index obtained by analyzing biometric information including brain wave information and pulse wave information.

It is possible to provide assistance in the user's fatigue recovery by implementing an optimal fatigue recovery space and environment for the user.

1 is an example of a fatigue recovery system according to an embodiment.
2 is a diagram for explaining the general operation of the fatigue recovery system according to an embodiment.
3 is a view for explaining the structure of the fatigue recovery system according to an embodiment.
4 is a block diagram illustrating a configuration of a fatigue recovery system according to an embodiment.
5 is a flowchart illustrating an intelligent waterjet massage section and a pattern control method in the fatigue recovery system according to an exemplary embodiment.
6 is an example showing user login and reservation details in the fatigue recovery system according to an embodiment.
7 to 14 are examples of a user interface for performing a paperweight test in the fatigue recovery system according to an embodiment.
15 to 20 are examples of a user interface in which a fatigue recovery service is executed in a fatigue recovery system according to an embodiment.
21 to 22 are examples showing results of performing a fatigue recovery service in a fatigue recovery system according to an embodiment.

Hereinafter, embodiments will be described in detail with reference to the accompanying drawings.

1 is an example of a fatigue recovery system according to an embodiment.

The fatigue recovery system collects and analyzes life information (interview: height, weight, smoking/smoking quantity, alcohol/drinking quantity, sleep time, exercise, etc.) and biometric information signals in real time to provide an optimal resting environment tailored to the individual characteristics of users. It is to provide services for fatigue recovery. The fatigue recovery system can control the operation of the chamber type water jet bed. For example, a hydrotherapy device may be connected to the inside of the chamber, and the chamber and the hydrotherapy device may be driven. In this case, the chamber-type hydrotherapy device may allow a user to lie down on a male bed through a vertical pump and perform a massage through water pressure.

For example, a water jet bed may promote muscle relaxation and blood circulation, and a chamber (to be described as an oxygen chamber in the embodiment) may provide an independent recovery space and a psychologically stable environment. Specifically, the hydrotherapy device is a hydrotherapy (dry type)-based product optimized for Asians, and is a product optimized for recovery from musculoskeletal diseases and fatigue. The hydrotherapy device can realize smoothness and dynamic stimulation at the same time through injection mode and speed control. The hydrotherapy device can provide various injection modes such as shoulder, abdomen, waist, upper body, lower body, and whole body. The hydrotherapy device can provide a simple operation method of the touch panel and additionally provide a wireless remote control capable of remote control. The water temperature and execution speed can be manipulated through the touch panel, the operation of the hydrotherapy device can be controlled from a distance through the wireless remote control, and the user can easily operate the device even when lying down. Hydrotherapy can promote blood circulation by relaxing muscles and relieving tension with the heat effect of hot water. The hydrotherapy device is capable of adjusting the strength of a soft and powerful massage by using water pressure composed of a plurality of stages.

In addition, the oxygen chamber is equipped with an oxygen generating device and an intake and exhaust system, and it is possible to minimize discomfort with a generous space and induce an optimized recovery process in a cozy environment. The oxygen chamber can provide oxygen room, aromatherapy, music healing, and emotional lighting, and is equipped with an intake and exhaust system that applies diagonal tornado theory. The oxygen chamber can apply a three-stage disinfection system through an antibacterial mattress, an anion filter (intake), and an ultraviolet sterilization lamp. The frame of the oxygen chamber is made of aluminum, the exterior material is polycarbonate, PLA filament, etc., and the interior finish is a phytoncide finish (soundproof, dustproof design can be used, and a sliding manual door can be installed in case of an emergency.

2 is a diagram for explaining the general operation of the fatigue recovery system according to an embodiment.

The fatigue recovery system can obtain the paperweight information as the paperweight is created from the user. In addition, the fatigue recovery system can measure the user's biometric information. For example, the fatigue recovery system can obtain medical examination information by performing a user's interview through DID inside and outside the chamber, and obtain biometric information including EEG and pulse waves measured using a biometric information measuring device. I can. In addition, the fatigue recovery system may input and provide information related to the user's reservation through D.I.D inside and outside the chamber.

The fatigue recovery system can provide a fatigue recovery service suitable for users through an oxygen chamber. The oxygen chamber may provide a hand hitting massage using a hydrotherapy device based on biometric indicators such as fatigue and blood oxygen saturation based on the user's biometric information. The oxygen chamber may supply acoustic/aromatic therapy and oxygen based on a biometric index including fatigue and blood oxygen saturation.

The fatigue recovery system can analyze the user's biometric information and can statistically analyze the analysis result of the biometric information. The fatigue recovery system can quantify a biometric index based on the user's biometric information. For example, the fatigue recovery system may collect biometric information through an electroencephalograph and a pulse wave meter. The fatigue recovery system analyzes the electrical signals acquired from the sensor in real time and can calculate more than eight biometric indicators, including the user's systemic and physical fatigue. The fatigue recovery system uses the biometric information acquired through the pulse wave meter to analyze the cardiovascular state data (Pulse Wave Velocity) to measure the pulsation pressure and stress level index, the heart health index through the heart rate fluctuation trend analysis. Neural balance index, physical problem judgment data and advice data can be calculated. The fatigue recovery system can calculate early judgment data for adult diseases (high blood pressure, hypotension, anemia risk, etc.) using biometric information acquired through a pulse wave meter, and can calculate arteriosclerosis, blood circulation status, and age related to blood vessels (physiological age). Can be calculated. In addition, the fatigue recovery system can calculate biometric indicators such as frontal lobe asymmetry index, concentration index, left/right brain activity symmetric value index, and alpha/beta wave training index using biometric information acquired through an EEG. . The fatigue recovery system can be applied to a concentration improvement program that applies neurofeedback.

The fatigue recovery system can capture and track abnormalities in advance through the analysis results of analyzing biometric indicators. The fatigue recovery system can provide individual result reports based on the analysis results. At this time, health management information and advice/improvement information may also be included in the individual result report. The fatigue recovery system can collect and analyze various environments for integrated control.

3 is a view for explaining the structure of the fatigue recovery system according to an embodiment.

The fatigue recovery system can be composed of a control board (H/W) and a health management program (S/W).

The health management program performs execution operations (for example, user management, reservation, function operation information) through internal D.I.D and external D.I.D of the chamber, and can control each device through communication with the control board.

The control board is an integrated board for the control function in the chamber, and through the serial communication module, it can interlock with the internal PC and measure the biological signal for controlling the hydrotherapy device and the chamber function. In addition, the control board may transmit and control operation data of internal functions such as data and temperature to the corresponding device. Specifically, the control board may physically control a power supply unit, a water treatment device, and a biometric information sensor related to the entire driving. The health management program can collect and analyze biometric information in real time, control all functions including chamber PC and server, and select functions through DID (touch monitor) installed inside and outside the chamber. And make it possible to execute the operation.

D.I.D outside the chamber can be provided so that users can perform reservation management and interviews. D.I.D outside the chamber can support functions before using the hydrotherapy device, such as entering user information, making reservations, and entering/exiting the chamber. D.I.D inside the chamber can be provided to manipulate all functions of the hydrotherapy device operation and fatigue recovery program. D.I.D inside the chamber can check the current fatigue level through the biometric information measuring device inside the chamber, enable the optimal recovery program to be automatically or manually operated, and support sound and lighting control. The server may provide healthy content (eg, food, exercise, etc.) suitable for a user through user-specific IDs. In this case, the server shown in FIG. 3 may be a program or platform that performs the same role as the server, but is not limited thereto, and may be driven separately from the fatigue recovery system or inside the fatigue recovery system.

The environmental elements inside the chamber use silver nano intake and exhaust (diagonal configuration for tornado effect), ultraviolet sterilization lamp, and antibacterial mattress, and are necessary for rest through music, oxygen supply, aromatherapy function support and internal automatic lighting control. Optimal lighting can be provided, and an optimal fatigue recovery space and environment can be implemented by allowing the internal and external operating conditions to be checked through operation lamps and the like.

The hydrotherapy device can perform massage based on the strength of the water pressure and the pattern. The hydrotherapy device can control the water cooling and measure the water temperature. The hydrotherapy device can be configured as follows. AC 200V INPUT is the MAIN POWER input terminal and can supply AC220V 15A or higher. LINE POWER TRANS: After generating the main power DC24V to be used in the MAIN BOARD and MOTOR DRIVER BOARD from AC220V, it can be supplied to the MAIN BOARD. Power Control can generate and supply DC12V and 5V required for each part from the main power DC24V. MICOM receives operation data from the operation unit and sensor inputs of the hand treatment unit and controls the appropriate output by combining it, and transmits the current state of the equipment to the operation unit, and can control the hand treatment unit through mutual communication. Sensor Input is an input terminal of sensors installed in each part, temperature sensor of heater, and emergency switch sensor. It effectively transmits the operation status of equipment to MICOM to enable control. Magnetic Switch Driver Circuits 1,2,3 are circuits for driving magnetic switches, and can be controlled by configuring a TRIAC circuit for driving AC power. The DC Motor Driver Board is composed of two DC/DC converters (Step Down) circuits for controlling the speed of a vertical moving motor and a rotating motor, and can output DC12V~DC21V by receiving DC24V input power. The pressure regulation control is a circuit that controls the water pressure regulation inverter. M/G Switch: As a magnetic switch, it can be used separately for pump and heater and control.

The fatigue recovery system can provide the operation status of the oxygen chamber, the reservation status of the user, and the result of the lightning protection service through a web page. In this case, information related to the fatigue recovery service may be checked through a web page displayed through the display of the oxygen chamber or a web page accessed through a device related to the user. The fatigue recovery system may determine a physical problem through analysis of EEG and pulse wave signals through a web page, provide content for physical activation, and suggest a training plan. The fatigue recovery system can deliver improvements through the lightning protection system to the user through a health management algorithm including medical examination information and biometric information through a web page. The fatigue recovery system can provide advice and management functions according to evaluation through web pages. For example, diet, exercise therapy, disease prevention therapy, graph results for current measurements, and the like can be provided.

4 is a block diagram illustrating a configuration of a fatigue recovery system according to an embodiment, and FIG. 5 is a flowchart illustrating an intelligent waterjet massage section and a pattern control method in the fatigue recovery system according to an embodiment.

The processor of the fatigue recovery system 100 may include a measurement unit 410, an analysis unit 420, a determination unit 430, and a control unit 440. Components of such a processor may be expressions of different functions performed by the processor according to a control command provided by a program code stored in the fatigue recovery system 100. The processor and components of the processor may control the fatigue recovery system 400 to perform steps 510 to 540 included in the intelligent waterjet massage section and the pattern control method in the system of FIG. 5. In this case, the processor and the components of the processor may be implemented to execute an instruction according to the code of the operating system included in the memory and the code of at least one program.

Program code stored in a program file for the intelligent waterjet massage section and pattern control method can be loaded into the memory. For example, when a program is executed in the fatigue recovery system 100, the processor may control the fatigue recovery system 100 to load the program code from the program file into the memory under the control of the operating system. At this time, the processor and the processor included in the processor each of the measurement unit 410, the analysis unit 420, the determination unit 430, and the control unit 440 execute a command of a corresponding part of the program code loaded into the memory, It may be different functional representations of a processor for executing steps 510 to 540.

In step 510, the measurement unit 410 may acquire biometric information including brain wave information and pulse wave information of the user. The measurement unit 410 may collect biometric information of a user through an EEG and pulse wave analyzer.

In step 520, the analysis unit 420 may analyze the biometric index based on the obtained biometric information. The analysis unit 420 is a biometric indicator including mental and physical fatigue of at least one user by analyzing in real time the electronic signal obtained through the collected sensor information and the interview information obtained as the questionnaire item is created by the user. Can be calculated. In this case, the biometric index may be calculated through analysis of a pulse wave signal and an EEG signal. For example, as the cardiovascular state data analysis is performed through the pulse wave signal, the pulsation pressure and the stress level index are calculated, and the heart health index, the autonomic balance index, and the physical problem determination data through the analysis of the trend of heart rate fluctuations. And advice data are calculated, early judgment data for adult diseases including high blood pressure, hypotension, and anemia risk are calculated, arteriosclerosis, blood circulation status and age related to blood vessels are calculated, and frontal lobe asymmetry index, concentration index, and The left brain/right brain activity symmetric value index and the alpha wave/beta wave training index are calculated, and a program for improving concentration by applying neurofeedback can be calculated.

In step 530, the determination unit 430 may determine a section and a pattern of a waterjet massage for recovering a user's fatigue based on an analysis result obtained by analyzing the biometric index. The determination unit 430 includes at least one section of the user's shoulder, abdomen, waist, upper body, lower body, and whole body, at least one water spray pattern, water pressure intensity, lighting state, time state, and oxygen chamber including music information. Operation information for controlling the hydrotherapy device connected to the chamber may be determined.

In step 540, the controller 440 may control an oxygen chamber or a hydrotherapy device connected to the oxygen chamber according to the determined section and pattern of the water jet massage. The controller 440 may select a massage mode (eg, massage setting information) based on manipulation information determined according to an analysis result, and control a water jet massage section and a water spray pattern differently through the selected massage mode. The control unit 440 provides a fatigue recovery service for the user by controlling the oxygen chamber or a hydrotherapy device connected to the oxygen chamber, and provides a result report based on the inputted interview information and biometric information as the fatigue recovery service is used. , Physical problems through analysis of brain wave signals and pulse wave signals, contents for body activation, and training plans can be presented, and abnormal symptoms of users can be captured and tracked.

6 is an example showing user login and reservation details in the fatigue recovery system according to an embodiment.

The fatigue recovery system can control the external D.I.D of the chamber. The fatigue recovery system can query the user's login and reservation details. For example, as an ID and password are input from the user, the user may log in to the fatigue recovery system, and reservation details related to the logged-in user's account may be inquired. At this time, membership registration may be made by entering member information into the fatigue recovery system in advance. The fatigue recovery system may provide a list of reservations reserved every preset time unit (eg, 30 minutes). The fatigue recovery system can display the current user's information and the remaining time of the fatigue recovery service, and can also provide information on the reservation for the next time zone.

In addition, the fatigue recovery system may store user information when logging out/stopping the use of the oxygen chamber or the hydrotherapy device connected to the oxygen chamber. The fatigue recovery system may record a log related to the user's login and logout as well as the downtime of the oxygen chamber or the hydrotherapy device connected to the oxygen chamber. The fatigue recovery system can record a log that checks the system status, such as power supply time, door opening/closing test success/time, and oxygen supply test success/time. The fatigue recovery system can operate a daily system log file. The fatigue recovery system may be provided to enable the use of an oxygen chamber or a hydrotherapy device connected to the oxygen chamber to be stopped when an emergency situation occurs.

7 to 14 are examples of a user interface for performing a paperweight test in the fatigue recovery system according to an embodiment.

Fatigue recovery systems can be provided to fill out a brief paperweight before entering the oxygen chamber. For example, a paperweight may be conducted through D.I.D outside the oxygen chamber. Referring to FIG. 7, the fatigue recovery system may perform a simple interview to obtain data to be analyzed together with biometric information. At this time, it is possible to customize according to the target of use. For example, a questionnaire may be conducted in relation to the user's job situation. For example, assume that the user is a user who performs duties related to flight tasks. A user interface may be provided to select information related to a flight task and a follow-up task of the flight service, and a user's selection may be input through the provided user interface.

Referring to FIG. 8, when'after flight service' is selected among flight tasks, it may be provided to select a pre-mission difficulty level and flight fatigue level. In this case, a bar-shaped user interface may be provided, and an initial value may be set and displayed in the bar-shaped user interface. The user can adjust the difficulty level of the preceding mission and the flight fatigue level and place it at a value felt by the user.

Referring to FIG. 9, a musculoskeletal pain questionnaire may be performed. At least one of the neck/shoulder, lower back, and lower extremities may be selected. If the neck/shoulder area is selected, the neck/shoulder pain intensity can be selected, and the neck/shoulder pain type can be selected. Referring to FIG. 10, as the waist region is selected, the intensity of pain in the lower back may be selected and the type of pain in the lower back may be selected. Referring to FIG. 11, according to the selection of the lower limb region, the pain intensity of the lower limb may be selected, and the type of pain of the lower limb may be selected.

Referring to FIG. 12, an interview may be performed on symptoms of physical fatigue. It is possible to allow the user to select a current level of fatigue and a current level of stress (eg, a range of 0 to 10). In addition, painless, headache, eye fatigue, dehydration symptoms, indigestion, lethargy, tinnitus, dyspnea, difficulty urinating / constipation at least one of the physical symptoms can be selected.

Referring to FIG. 13, a questionnaire for a sleep state may be performed. For example, it is possible to select the previous sleep time, the cumulative sleep time of 3 days, the time taken to fall asleep the previous day, and the quality of the recent sleep (eg, a range between 0 and 10). In addition, sensorimotor classes may be tested. For example, if a number is displayed on the screen along with a message to touch when a number is shown on the screen, the user can touch the screen. Sensorimotor response tests performed by the user can be checked.

Referring to FIG. 14, as the user is interviewed, the paperweight examination may be completed. Information on the paperweight examination may be linked with the user's reservation information. As the paperweight test is completed, the door to the oxygen chamber may be opened. For example, a user interface for opening the door may be provided, and the door of the oxygen chamber may be opened as the user interface is selected by the user. Alternatively, in the case of the user's reservation time, the entrance door of the oxygen chamber may be opened.

15 to 20 are examples showing a user interface in which a fatigue recovery service is executed in a fatigue recovery system according to an embodiment.

Referring to FIG. 15, as the entrance door of the oxygen chamber is opened, information related to a user may be provided through the inner D.I.D of the oxygen chamber. For example, the user's information and the user's usage time may be displayed. After taking the posture guided through the internal D.I.D, the user can touch the door closed user interface. At this time, the information on which the door is closed can be displayed on the external D.I.D at the same time.

Referring to FIG. 16, a guide message may be provided to wear a biometric information meter. The user can wear a biometric information measuring device. As the biometric information measuring device is worn by the user, whether or not the device is connected may be displayed. If the biometric information meter is not properly worn, a connection error message of the device may be displayed. Then, the user can wear the biometric information meter again. As the biometric information meter is properly worn by the user, a connection completion message of the device may be displayed, and the user's biometric information measured from the device (biometric information meter) may be displayed together. In addition, even when the user wears the biometric information meter again, if a device connection error message is displayed, a manual connection may be attempted.

As the user wears the biometric information measuring device, biometric information including brain wave information and pulse wave information of the user measured may be obtained. EEG refers to the occurrence of regular electric shocks of a unique shape in human brain cells. Brain waves can be divided into delta waves, theta waves, alpha waves, beta waves, and gamma waves. Delta wave (0~4Hz) is for sound sleep, Theta wave (4~8Hz) is dream, sleep, sleepiness, meditation, alpha wave (8~13Hz) is rest (strong when eyes are closed), beta wave (13~30Hz) Learning (mental work) and gamma waves (30~120Hz) can mean cognitive action by combining information scattered in several parts. Since the waveform of the EEG changes in case of an EEG abnormality, it is possible to diagnose and treat brain damage, epilepsy, and degenerative diseases of the brain nervous system through the frequency, amplitude, and waveform of the EEG.

As a result of analyzing the EEG signal, the index can be displayed as follows.

Table 1:

The pulse wave is a waveform record of the beats of the chest wall and arteries generated by the heartbeat, and reacts sensitively according to the condition of the blood vessel or the heart. When the pulse wave signal is used as diagnostic information, information on abnormalities and physical characteristics of the vascular system and valve, which are the limitations of diagnosis, can be collected. Changes in blood pressure according to the beating generated in the heart form a wave and are transmitted through blood vessels, and changes that occur as the transmitted effect reaches the body surface can be measured in an open or non-invasive manner.

As a result of analyzing the pulse wave signal, the index can be displayed as follows.

Table 2:

Referring to FIGS. 17 and 18, a section and a pattern of a water jet massage for a fatigue recovery service may be determined. For example, a waterjet massage section and pattern suitable for the user's condition may be recommended based on the user's biometric information and the interview information. Alternatively, the user may manually select a section and pattern of the waterjet massage desired by the user. Referring to FIG. 19, an example of a pattern list is shown. In this case, the pattern may mean a form (pattern) in which water is sprayed from the hydrotherapy device. For example, the pattern list may be presented differently according to the waterjet massage section. Thereafter, a fatigue recovery service may be started, and an oxygen chamber or a hydrotherapy device connected to the oxygen chamber may be controlled based on a section and a pattern of a waterjet massage recommended according to the user's biometric information and medical examination information. In addition, water pressure intensity, lighting conditions, time, music information, and the like may be recommended according to the user's biometric information and interview information. Accordingly, a massage may be performed in the hydrotherapy device based on the section and pattern of the waterjet massage recommended according to the user's biometric information and the interview information.

Referring to FIG. 20, it is an example showing state information of a user during a fatigue recovery service. For example, the user's body pressure distribution, heart rate, body surface temperature, reservation remaining time, etc. may be displayed. In addition, setting information such as intensity, section, pattern, water temperature, lighting, volume, and sleep mode of the water jet massage in which the fatigue recovery service is performed may be displayed. At this time, it is also possible to manually change the setting information. For example, you can adjust the intensity, lighting, and volume of the waterjet massage. If the user wants to stop the fatigue recovery service, the use of the service may be stopped.

21 to 22, it is an example showing the results of performing the fatigue recovery service. Referring to FIG. 21, the result of using the fatigue recovery service may be shown. As a result of using the fatigue recovery service, the user's overall fatigue level and the result of analyzing bio-signals may be displayed. In this case, if the user is not wearing the biometric information measuring device, the result of using the fatigue recovery service may not be displayed. For example, the total fatigue value when the user does not use the fatigue recovery service and the total fatigue level value after using the fatigue recovery service may be displayed. The result of using the fatigue recovery service and the result of analyzing the bio-signal may be displayed as numerical values and/or graphs. Referring to FIG. 22, a heart rate, a heart rate interval, and a blood flow index may be provided through pulse wave information, and depression incidence, cognitive ability, ADHD, learning ability, etc. may be provided through brain wave information. A result report may be provided based on the interview information and biometric information input from the user.

The apparatus described above may be implemented as a hardware component, a software component, and/or a combination of a hardware component and a software component. For example, the devices and components described in the embodiments are, for example, a processor, a controller, an arithmetic logic unit (ALU), a digital signal processor, a microcomputer, a field programmable gate array (FPGA). , A programmable logic unit (PLU), a microprocessor, or any other device capable of executing and responding to instructions, such as one or more general purpose computers or special purpose computers. The processing device may execute an operating system (OS) and one or more software applications executed on the operating system. In addition, the processing device may access, store, manipulate, process, and generate data in response to the execution of software. For the convenience of understanding, although it is sometimes described that one processing device is used, one of ordinary skill in the art, the processing device is a plurality of processing elements and/or a plurality of types of processing elements. It can be seen that it may include. For example, the processing device may include a plurality of processors or one processor and one controller. In addition, other processing configurations are possible, such as a parallel processor.

The software may include a computer program, code, instructions, or a combination of one or more of these, configuring the processing unit to behave as desired or processed independently or collectively. You can command the device. Software and/or data may be interpreted by a processing device or to provide instructions or data to a processing device, of any type of machine, component, physical device, virtual equipment, computer storage medium or device. Can be embodyed. The software may be distributed over networked computer systems and stored or executed in a distributed manner. Software and data may be stored on one or more computer-readable recording media.

The method according to the embodiment may be implemented in the form of program instructions 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, etc. alone or in combination. The program instructions recorded on the medium may be specially designed and configured for the embodiment, or may be known and usable to those skilled in computer software. Examples of computer-readable recording media include magnetic media such as hard disks, floppy disks, and magnetic tapes, optical media such as CD-ROMs and DVDs, and magnetic media such as floptical disks. -A hardware device specially configured to store and execute program instructions such as magneto-optical media, and ROM, RAM, flash memory, and the like. Examples of the program instructions include not only machine language codes such as those produced by a compiler, but also high-level language codes that can be executed by a computer using an interpreter or the like.

As described above, although the embodiments have been described by the limited embodiments and drawings, various modifications and variations are possible from the above description by those of ordinary skill in the art. For example, the described techniques are performed in a different order from the described method, and/or components such as a system, structure, device, circuit, etc. described are combined or combined in a form different from the described method, or other components Alternatively, even if substituted or substituted by an equivalent, an appropriate result can be achieved.

Therefore, other implementations, other embodiments, and claims and equivalents fall within the scope of the claims to be described later.

Claims (2)

In the intelligent waterjet massage section and pattern control method performed by the fatigue recovery system,
Acquiring biometric information including user's brain wave information and pulse wave information;
Analyzing a biometric index based on the obtained biometric information;
Determining a section and a pattern of a water jet massage for recovering a user's fatigue based on an analysis result obtained by analyzing the biometric index; And
Controlling an oxygen chamber or a hydrotherapy device connected to the oxygen chamber according to the determined section and pattern of the water jet massage
Including,
The step of determining the section and pattern of the water jet massage,
Oxygen chamber including user's shoulder, abdomen, waist, upper body, lower body, at least one section of the user's body, at least one water spray pattern, water pressure intensity, lighting state, time state, music information, and a hydrotherapy device connected to the oxygen chamber Determining operation information for controlling
Including,
The controlling step,
A massage mode is selected based on the operation information determined according to the analysis result, the section of the water jet massage and the water spray pattern are differently controlled through the selected massage mode, and the oxygen chamber or a hydrotherapy device connected to the oxygen chamber is controlled. Accordingly, a fatigue recovery service is provided for the user, and a result report is provided based on the inputted interview information and biometric information as the fatigue recovery service is used, and physical problems through analysis of EEG and pulse wave signals, and for physical activation. Proposing content and training plans, capturing and tracking the user's abnormal symptoms
Including,
The step of obtaining the biometric information,
Including the step of collecting the user's biometric information through the EEG and pulse wave meter,
Analyzing the biometric index,
Computing a biometric index including mental and physical fatigue of at least one user by analyzing in real time the interview information obtained as the questionnaire item is created from the user and the electrical signal obtained through the collected sensor information
Including,
The biometric index includes those calculated through analysis of a pulse wave signal and an EEG signal,
As the cardiovascular condition data analysis is performed through the pulse wave signal, the pulsation pressure and the stress level index are calculated, and the index for heart health, the autonomic balance index, and the physical problem determination data and advice data through the analysis of the trend of heart rate fluctuations Is calculated, early judgment data for adult diseases including high blood pressure, hypotension, and anemia risk are calculated, arteriosclerosis, blood circulation status and age related to blood vessels are calculated,
Through the EEG signal, the frontal lobe asymmetry index, concentration index, left/right brain activity symmetry value index, and alpha/beta wave training index are calculated, and a program for improving concentration by applying neurofeedback is calculated,
Through the external display of the oxygen chamber, user's reservation management and medical examination are performed, and the oxygen chamber's internal display operates an automatic fatigue recovery service or a manual fatigue recovery service using a biometric information measuring device inside the oxygen chamber, and the oxygen Further comprising the step of setting control information of the chamber,
The setting step,
Log in to the fatigue recovery service through the input of the user's ID and password, and record user information related to the created questionnaire item upon receiving that the user's questionnaire item is created as the interview is performed, and the oxygen chamber or Including the step of providing an operating state of the hydrotherapy device connected to the oxygen chamber and a user's reservation state,
The oxygen chamber uses exhaust, ultraviolet sterilization lamps, and antibacterial mattresses, provides lighting conditions according to users through music, oxygen supply, aromatherapy function support and automatic lighting control, and internal and external operation states of the oxygen chamber To provide a fatigue recovery service including a fatigue recovery space and environment
Intelligent waterjet massage section and pattern control method.
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