KR20220118117A - System and method for supporting emergency/disaster relief and quarantine using augmented reality - Google Patents

Abstract

The present invention relates to a system and method for remotely providing the elderly (especially elderly families) with help from experts based on augmented reality in urgent situations, emergencies, and disease spread situations to escape from the urgent/emergency situations and avoid infected areas anytime anywhere. The present invention proposes the system providing a senior-friendly social safety/disinfection service by using a smartphone and smart glass for the elderly living alone and elderly families whose number is naturally increasing due to an increase of aging population and nuclear families, which: firstly, provides the elderly with help from experts in emergency situations such as traffic accidents, natural disasters, and fires so as to quickly evacuate; secondarily, in the event of an emergency such as a sudden cardiac arrest of a spouse in an elderly family, allows the elderly to give first aid until emergency technicians arrive; and lastly, in a situation where viral infectious diseases such as COVID-19 are spreading, provides supports to avoid infected areas and movement trace of infected people. The system comprises a storage unit, a processing unit, and a communication unit.

Description

Augmented reality-based emergency/disaster relief and quarantine support system and method {System and method for supporting emergency/disaster relief and quarantine using augmented reality}

The present invention provides an apparatus and method that can be solved remotely with the help of a specialist for the elderly (disabled people) who cannot quickly and appropriately respond to emergency/emergency situations and the spread of infectious diseases due to slow physical movement and poor cognitive ability due to old age More specifically, using smartphones and augmented reality technology that is connected to specialized institutions to provide first aid to emergency patients in the vicinity, to get out of emergency situations such as traffic accidents (fire, flood), and to It relates to a method of avoiding the spread of the virus.

With the recent introduction of virtual reality and augmented reality technology, it is widely used in realistic games, education of airplane piloting technology, and medical fields such as surgery (rehabilitation treatment). In contrast to virtual reality technology based on a virtual world that is far from the real world, augmented reality technology provides additional information and content on the basis of reality, so it is highly utilized as a variety of support technologies for the elderly (disabled people).

First of all, the elderly are people who tend to have lower or delayed health status and cognitive ability compared to younger people due to their old age, and the disabled are people who have difficulties in daily life or social life due to a disability in a part of the body or poor mental ability. It is collectively referred to as the socially underprivileged, and refers to the object that the state should support so that they can live comfortably and live comfortably in society in the name of social welfare.

In particular, Korea has become an aged society as the proportion of those aged 65 and over exceeded 14% in 2018, and is expected to enter a super-aged society (the proportion of elderly people is more than 20%) in 2025. Therefore, the number of people experiencing difficulties in living as members of society due to deterioration of health and cognitive ability due to aging is increasing.

The biggest difficulties and risk factors for the elderly and the socially disadvantaged to live like ordinary people are as follows. First, the elderly have a problem in quickly responding to emergency situations such as fire or traffic accidents because their cognitive ability, memory, and reaction speed are slower than those of the general public.

Second, as the number of elderly families living only with elderly couples increases due to industrialization and nuclear family, when a spouse suddenly experiences an emergency such as cardiac arrest, heart attack, or difficulty breathing, emergency relief (CPR: CPR) occurs without panic. ) is difficult to perform. Finally, compared to the general public who are skilled in IT, they are immature in how to protect themselves from the spread of viral diseases such as COVID-19, which has recently become a major epidemic and threatens the lives of the elderly.

Republic of Korea Patent Application No. 10-2019-0149547 is an invention dealing with a rescue system at a disaster site based on augmented reality. According to the above-described augmented reality-based disaster relief system and method, various sensors (fire detection, temperature and humidity, The occupancy sensor) allows you to know the location of the evacuee and information on the building in real time, and uses the augmented reality method on the rescuer's terminal display to intuitively grasp the situation, and through this, a safe and rapid rescue at the disaster site. to be able to do However, in order for the patent to operate normally, sensors capable of recognizing the rescuer's environment must be pre-equipped in all buildings or roads. However, when a fire or earthquake occurs, it is almost impossible to accurately communicate the situation of the rescuer to the headquarters through Bluetooth communication between these sensors and the user's terminal. Second, the invention of Application No. 10-2018-0061676 relates to an augmented reality implementation method for patient treatment practice, and stores virtual images for multiple treatment practices in a database and requests processing practice virtual images and corresponding markers. By matching, the coordinates of the object to be expressed in the augmented reality implementation are set and displayed. In this way, situations such as wounds and fractures of real patients are expressed on the model's body as augmented reality images, and patient treatment practitioners are educated on treatment methods appropriate to the situation, and the practitioners can feel realistically in the same way as the actual treatment methods. It is an augmented reality implementation method that can be practiced. However, since this invention is intended for medical personnel, it will be very difficult for ordinary people such as the elderly to familiarize themselves with the surgical method and use it in their daily life. Third, the invention of Application No. 10-2018-006300 relates to a CPR training device, and more specifically, it uses virtual reality to perform training in a similar environment for first aid personnel or students of related departments, and the result is The goal is to provide effective first aid training by providing feedback. In addition, it will be an effective practical training method when conducting first aid (cardiopulmonary resuscitation) training for a large number of trainees in one space. However, this method is used not when an emergency occurs, but when training CPR while wearing a virtual reality device (HMD) in advance. In addition, this method is not a technique that can be used as an emergency treatment for an elderly person who is embarrassed by a spouse when an emergency such as cardiac arrest occurs in the elderly household. Finally, the invention, registered patent 10-2027565, relates to a technology for providing a walking navigation service using augmented reality. It relates to a technology that can guide points of interest and collect coins through augmented reality during a tour to acquire points. An object of the present invention is to provide an augmented reality application that enables fun and efficient way guidance, expression and guidance for points of interest. Through this, coins implemented through augmented reality are collected during the tour so that they can be more useful not only in famous tourist destinations but also in alley tours, and the corresponding coins can be used during the alley tour, which doubles the fun. However, this invention is difficult to utilize as a method of avoiding the movement of infected persons in order to protect themselves from viral diseases, which the elderly are particularly vulnerable to. To summarize the existing inventions, it is an AR-based method of escaping from high-tech buildings or structures equipped with various IoT sensors, or using augmented reality/virtual reality to educate professionals such as medical personnel and first responders. It deals with methods such as proposing a method or providing AR-based navigation within a building in a fun way. However, practically, the socially disadvantaged people such as the elderly can safely respond to emergency situations such as traffic accidents, provide first aid for the sudden cardiac arrest of the elderly family, and protect their health from the spread of diseases such as coronavirus. It is difficult to apply age-friendly services.

The present invention is to overcome the disadvantages of the prior art as described above, targeting the elderly with reduced cognitive ability and inability to move, so as to be able to evacuate from the site of a traffic accident and disaster without additional secondary accidents and damage to human life. A system in which experts (rescue) in the elderly (accident) understand the situation through the camera image of the elderly (accident) smartphone or smart glass and inform the evacuation method and countermeasures overlapping the accident scene image based on augmented reality to help. will provide

In addition, when a spouse suddenly has cardiac arrest or a heart attack in an elderly home consisting of only the elderly, a remote emergency responder can provide CPR and other first aid until emergency services arrive after calling 911. It is to provide a system that can protect the life and health of a spouse by informing the smart glasses of CPR and first aid.

Furthermore, when the elderly move, if there is a store that a person infected with a virus such as COVID-19 has passed through the surrounding area or has visited, based on the COVID-19 quarantine database, the smart glasses of the elderly can provide directions to avoid the infected area. It is to provide a system that can give.

In order to solve the above technical problem, a system for supporting relief and quarantine according to an embodiment of the present invention is an emergency based on augmented reality using a GPS mounted on a smartphone, a sensor, and smart glasses connected to the smartphone for communication. In a system supporting relief and quarantine for a situation, the system supporting the relief and quarantine stores a program for processing emergency data using a user input or data generated by the GPS, sensors, and smart glasses storage unit; a processing unit executing a program for processing the emergency data; and a communication unit for transmitting the emergency data to a specialized agency and receiving emergency support data from the specialized agency, wherein the emergency data includes at least one of image data, GPS data, and sensor data, The program stored in the storage unit generates one of disaster relief data, emergency patient response data, and quarantine support data from the user's input or data generated by the GPS, sensors, and smart glasses, and the emergency situation received from the specialized institution Provide support data to users.

In addition, emergency support data received from the specialized agency may be implemented in augmented reality through the smart glasses and provided to the user.

In addition, the program stored in the storage unit generates emergency data including the user's situation information when the user's input is a disaster relief request, and an evacuation route including emergency support data received from the specialized agency Alternatively, an action tip may be provided to the user through the smart glasses.

In addition, the program stored in the storage unit, when the user's input is an emergency patient response request, generates emergency patient response data including emergency patient situation information, and includes emergency support data received from the specialized institution CPR performance information or action tips may be provided to the user through the smart glasses, and the CPR performance information may be provided to the user by implementing a compression position and a compression cycle in the smart glasses in augmented reality.

In addition, the program stored in the storage unit generates quarantine support data including the user's situation information when the user's input is a request for quarantine support or the user is moving, and receives the infection area location from the specialized institution. , an infection area avoidance route, or action tips may be provided to the user through the smart glasses.

According to embodiments of the present invention, by using a smart phone that anyone owns and a smart glass that frees both hands, and through remote support from an expert, the elderly can appropriately respond to sudden traffic accidents or natural disasters (fire, flood) When an emergency patient occurs at home for the elderly, emergency relief is provided until the 119 ambulance arrives. to minimize the risk of infection.

When an elderly person has a sudden car accident, fire, earthquake/flood, etc. while carrying a smartphone and smart glasses with a simple structure, the situation is reported remotely to a smartphone or a camera and micro-related expert mounted on the smart glass. At this time, the expert receives this information, judges the situation, and transmits the most appropriate action instructions in the form of graphics and text to be projected on the smart glasses of the elderly (reporter), thereby ensuring safety while minimizing damage to the elderly without panic will receive

In addition, as the number of households composed of only the elderly increases due to industrialization and nuclear family, when a sudden emergency such as cardiac arrest or heart attack occurs to a spouse, if there is no one to help, and cannot provide first aid, it may endanger the life of the patient. can Therefore, in a sudden emergency, it is possible to perform cardiopulmonary resuscitation (CPR), etc. on the patient by receiving remote support from the emergency rescue team 119 and medical staff and receiving first aid tips and action instructions from the smart glasses of the elderly. Of course, you should seek the help of a professional paramedic through emergency calls such as 119, but it may take as short as 30 minutes or as long as 1 hour or more for them to arrive, so the lives of emergency patients may be at risk. Therefore, it is possible to maximize the effect of life-saving within the golden time by providing essential emergency treatment to the patient until the first-aid paramedic arrives.

Furthermore, the most lethal part for the elderly is that if they become infected with the virus, they are prone to death as a high-risk group. Recently, as a virus such as COVID-19 rapidly spreads, the movement of the virus infected (confirmed) is revealed in the area around the elderly, and a warning message is coming. However, it is virtually impossible for an elderly person who is not familiar with IT technology to recognize and avoid areas to avoid in terms of quarantine by linking the infected person's movement route with the map of the surrounding area. Therefore, it is possible to protect the health and life of the elderly by displaying the avoidance area in red color on the smart phone or smart glass when moving the elderly based on the virus prevention related database, and by sounding a warning sound when entering the avoidance area. have.

In addition, the present invention is connected (communicated) with a smartphone so that rapid actions such as emergency evacuation, emergency rescue, and danger zone avoidance can be accompanied, and both hands are freed by using smart glasses including a camera and an internal display. can

1 is a block diagram of an augmented reality-based emergency disaster relief and quarantine support system according to the present invention.
2 is a block diagram of smart glasses connected to a smart phone for increasing the efficiency of the emergency disaster relief and prevention support system according to the present invention.
3 is a view for explaining an emergency situation (traffic accident, disaster, fire) relief process according to the present invention.
4 is a view for explaining an emergency situation (cardiac arrest, heart attack of a nearby person) response process according to the present invention.
5 is a view for explaining a process for supporting avoidance of infectious agents for the prevention of infectious diseases according to the present invention.
6 is an embodiment of smart glasses connected to a smart phone according to the present invention, and FIG. 7 is a view for explaining a process of responding to an emergency using smart glasses.

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

However, the technical spirit of the present invention is not limited to some embodiments described, but may be implemented in various different forms, and within the scope of the technical spirit of the present invention, one or more of the components may be selected between the embodiments. It can be used by combining or substituted with

In addition, terms (including technical and scientific terms) used in the embodiments of the present invention may be generally understood by those of ordinary skill in the art to which the present invention pertains, unless specifically defined and described explicitly. It may be interpreted as a meaning, and generally used terms such as terms defined in advance may be interpreted in consideration of the contextual meaning of the related art.

In addition, the terms used in the embodiments of the present invention are for describing the embodiments and are not intended to limit the present invention.

In this specification, the singular form may also include the plural form unless otherwise specified in the phrase, and when it is described as "at least one (or one or more) of A and (and) B, C", it is combined with A, B, C It may include one or more of all possible combinations.

In addition, in describing the components of the embodiment of the present invention, terms such as first, second, A, B, (a), (b), etc. may be used. These terms are only for distinguishing the component from other components, and are not limited to the essence, order, or order of the component by the term.

And, when it is described that a component is 'connected', 'coupled', or 'connected' to another component, the component is directly 'connected', 'coupled', or 'connected' to the other component. In addition to the case, it may include a case of 'connected', 'coupled', or 'connected' by another element between the element and the other element.

In addition, when it is described as being formed or disposed on "above (above)" or "below (below)" of each component, "above (above)" or "below (below)" means that two components are directly connected to each other. It includes not only the case of contact, but also the case where one or more other components are formed or disposed between two components. In addition, when expressed as "upper (upper)" or "lower (lower)", the meaning of not only an upper direction but also a lower direction based on one component may be included.

1 is a block diagram of an augmented reality-based emergency disaster relief and quarantine support system according to the present invention.

The augmented reality-based emergency disaster relief and prevention support system according to an embodiment of the present invention is composed of a user terminal 100 , smart glasses 200 , and a specialized institution 300 .

The user terminal 100 includes an imaging unit 110 , a sensing unit 120 , a communication unit 130 , a processing unit 140 , a display 150 , and may further include a storage unit 160 .

The user terminal 100 is a device capable of network communication, and may be a smart phone, but is not limited thereto, and may include a tablet PC, a notebook computer, a smart watch, and the like. The imaging unit 110 may be a camera module including an image sensor. An image including a photographing target may be generated, and an image may be photographed and transmitted to the communication unit 130 . The sensing unit 120 may sense data such as GPS (position), motion, brightness, temperature, etc. including a GPS signal or a gyro sensor and an illuminance and temperature sensor built into the user terminal (smartphone).

The communication unit 130 is connected to a specialized institution server through a communication network (wireless communication network, Wifi, etc.). Here, the specialized institution is the 119 emergency department for handling accidents such as traffic accidents, natural disasters, and fires for the elderly, or 119 emergency medical services or hospitals that are in charge of emergency treatment when a sudden emergency patient (cardiac arrest, myocardial infarction) occurs in the home of the elderly. etc. In addition, by being connected to the smart glasses 200 worn by the user through wireless communication such as Bluetooth, it is possible to support the movement (hands) of the elderly freely in an emergency/emergency situation.

The communication unit 130 transmits emergency data to the specialized agency 300 , and receives emergency support data from the specialized agency 300 . Here, the emergency data may include at least one of image data, GPS data, and sensor data.

The storage unit 160 stores a program executed in the processing unit 140 . The storage unit 160 may store a program for processing emergency data using a user's input or data generated from the GPS, sensors, and smart glasses. In addition, the storage unit 160 stores information on the spread of a disease such as COVID-19 (location of an infected person, travel time, and movement route), and periodically or frequently updates it and stores it as a database (DB). In an environment in which a wireless network is supported, it is not necessary to be stored in the user terminal 100, but information on disease infection is very important information for an individual's life and health even in a building or in an area with poor communication quality, so it is managed as a database ( save and update).

The processing unit 140 executes the program stored in the storage unit 160 . The processing unit may include one or more processors, and may execute program instructions stored in the storage unit 160 . It may be a central processing unit that processes an image notifying the user's situation in the user terminal 100 or a command of a specialized agency (rescue signal, emergency relief command, prevention area avoidance instruction), etc., and whether the user's input is disaster relief, It can operate in three modes depending on whether it is an emergency patient response or whether it is avoidance of the virus spread area to prevent the risk of infection. The processing unit 140 may execute a program to process emergency data, and the communication unit 130 may process the emergency support data received from the specialized agency 300 to provide the user.

The display 150 displays information or an image provided to the user. When emergency support data is received from the specialized agency 300 , the emergency support data may be displayed.

The imaging unit 110 , the sensing unit 120 , and the display 150 of FIG. 1 may not be used when the smart glasses 200 are connected and operated. However, the smart glasses 200 may be mounted and operated in preparation for a situation in which the smart glasses 200 are not prepared. That is, it can be used for emergency preparedness.

2 is a block diagram of smart glasses according to an embodiment of the present invention, showing smart glasses 200 communicating with the user terminal 100 in order to smoothly provide emergency disaster relief and quarantine support functions to the elderly.

The smart glasses 200 worn by the user include an imaging unit 210 configured with a camera that can take pictures, a sensing unit 220 capable of measuring the user's body temperature, pulse, ambient illuminance, and temperature, and notifying the user's situation. In order to purify the signal of the imaging unit 210 and the sensing unit, send it to the user terminal 100, and receive and process the instruction signal of the user terminal, the processing unit 240, the communication unit 230 for connecting the communication with the user terminal (smartphone) , is composed of a transparent display 250 that displays the signal of the user terminal 100 (emergency/disaster rescue instructions, infection area avoidance information) on the surface of the glasses. The communication unit 230 may receive emergency data, and the emergency support data may be implemented in augmented reality and projected on the display 250 to be displayed.

It is possible to transmit the user's emergency data to the specialized agency 300 , receive emergency support data from the specialized agency 300 , and provide emergency support data received from the specialized agency 300 to the user. In other words, the user's disaster situation and emergency situation are transmitted to the server connected to the expert in real time, and the signal of the expert (119, emergency rescue team, KCDC) is transmitted directly to the user's smart glasses, thereby providing the effect of having a virtual expert help by the side. can be obtained Through this, the elderly can quickly evacuate from danger, provide emergency relief in a timely manner, and avoid virus-infected areas to protect their health and the lives of those around them.

When the emergency data according to the user's input or the user's situation is a disaster relief request, emergency data including the user's situation information is generated, and emergency support data received from the specialized agency is included in an evacuation route or Action tips may be provided to the user through the smart glasses.

With the recent development of medical technology and industrialization, the aging population is accelerating, and the number of elderly households (living alone and married couples) is increasing. Property damage is becoming more frequent. In this case, as shown in FIG. 3 , when an emergency occurs, the camera and micro images requested by smart glasses are taken and transmitted to specialized agencies (police stations, fire stations), etc. , As shown in FIG. 6, by providing text or graphics (arrows) directly to the user's smart glasses, the elderly do not panic and handle the traffic accident according to the expert's instructions and get out of the danger area, thereby minimizing the damage of secondary accidents can do. In case of floods and fires, fire department specialists receive video (including audio) and GPS information, and provide the optimal evacuation route with text and arrows (graphics) instead of voice to quickly save lives.

When the emergency data according to the user's input or the user's situation is an emergency patient response request, emergency patient response data including emergency patient situation information is generated, and cardiopulmonary including emergency support data received from the specialized institution Resuscitation performance information or action tips may be provided to the user through the smart glasses, and the CPR performance information may be provided to the user by implementing a compression position and a compression cycle on the smart glasses in augmented reality.

Due to industrialization and nuclear family, the number of elderly living alone and elderly families living only with the elderly is increasing. Therefore, when an emergency such as sudden cardiac arrest, heart attack, or shortness of breath occurs due to geriatric chronic disease and high blood pressure, there may be cases where CPR is not practiced normally or cannot be applied due to embarrassment even after practicing. You can call 119 emergency services, but if you do not provide first aid (cardiopulmonary resuscitation: CPR) on time after reporting and before the rescue team arrives, blood will not be supplied to the brain, resulting in serious sequelae or fatal consequences for the patient. can Therefore, after calling 911 and receiving remote help from an expert before emergency services arrive, it is necessary to perform CPR on the patient himself. To this end, as shown in FIG. 4, when an emergency patient at home for the elderly occurs, the emergency rescue app is turned on, the smart glasses are operated to transmit the camera and micro-transplantation status to 119 (emergency rescue team), and at the same time an emergency signal ( 119) is sent. Accordingly, the emergency responders are instructed whether to perform CPR, and if CPR is not required, they can try to talk with the patient and wait until the ambulance arrives to keep them awake. If cardiopulmonary resuscitation is required, as shown in FIG. 7, "PUSH" is displayed in augmented reality so that the center of the patient's chest can be found according to the remote support of a specialist (emergency paramedic), and compression can be performed at a frequency of 100 to 120 times per minute. can do. With the help of the gyro sensor included in the smart glass, the compression strength can be displayed to a depth of 5 cm in the chest. In this way, it is possible to help the elderly to perform CPR on their own until the rescue team arrives with remote support from an emergency patient.

If the emergency data according to the user's input or the user's situation is a request for quarantine support or the user is moving, generates quarantine support data including the user's context information and receives the infection area location from the specialized institution; An infection area avoidance route or action tips may be provided to the user through the smart glasses.

Recently, viral infections such as SARS, MERS, and COVID-19 continue to occur, threatening the lives of the elderly with relatively low immunity. In the case of the recently released COVID-19, the movement route of the confirmed patient that occurred in the surrounding area is being received by text message. However, an elderly person with poor IT utilization ability or spatial judgment ability may not be able to accurately apply this information to a geographic map and thus cannot avoid the outbreak area, and thus may be exposed (infected) to the virus.

As shown in Figure 5, when the user selects the quarantine support service in the app of the user terminal (smartphone), turns on the GPS, shares the current location, and sets the destination to which the user wants to move, the user terminal is sent to a specialized institution (KCDC and affiliated city hall) /Infection Control Center), you can get the latest infected person (confirmed person)'s movement line and database of the infected area.

When the elderly (user) wears smart glasses and moves, if the GPS information of the moving direction and the GPS coordinates of the infected area database are matched and matched, the corresponding position of the front view can be displayed in red by implementing augmented reality. . If the user moves out of the infected area by changing the direction to avoid this, the front sight may be displayed transparently as it is seen without adding color. In addition, it is possible to create a route that can avoid the infected area on the way to the destination, and provide navigation information to the smart glasses with arrows.

Although the above-described augmented reality-based emergency disaster relief and prevention support system has been described to operate as a combination of a user terminal (smartphone) and smart glasses in order to free the two hands of the elderly, user terminals (smart glasses) other than smart glasses It is natural that it can be implemented as a screen of a phone). However, in this case, since the user has to use the camera, microphone, and built-in sensor of the terminal, there is a limitation that the hands are not free, but it is possible to provide relief in emergency/disaster situations and avoidance of infected areas without problems.

Meanwhile, the embodiments of the present invention can be implemented as computer-readable codes on a computer-readable recording medium. The computer-readable recording medium includes all types of recording devices in which data readable by a computer system is stored.

Examples of computer-readable recording media include ROM, RAM, CD-ROM, magnetic tape, floppy disk, and optical data storage devices. Also, computer-readable recording media are distributed in networked computer systems. , computer-readable code can be stored and executed in a distributed manner. And functional programs, codes, and code segments for implementing the present invention can be easily inferred by programmers in the technical field to which the present invention pertains.

A person of ordinary skill in the art related to this embodiment will understand that it can be implemented in a modified form within a range that does not deviate from the essential characteristics of the above description. Therefore, the disclosed methods are to be considered in an illustrative rather than a restrictive sense. The scope of the present invention is indicated in the claims rather than the foregoing description, and all differences within the scope equivalent thereto should be construed as being included in the present invention.

100: user terminal
110, 210: imaging unit
120, 220: sensing unit
130, 230: communication unit
140, 240: processing unit
150, 250: display
160: storage (DB)
200: smart glass
300: professional organization (server)

Claims (5)

In a system that supports relief and quarantine for emergency situations based on augmented reality using a GPS mounted on a smartphone, a sensor, and a smart glass connected to the smartphone,
The system that supports the relief and quarantine is,
a storage unit for storing a program for processing emergency data using a user's input or data generated from the GPS, sensors, and smart glasses;
a processing unit executing a program for processing the emergency data; and
and a communication unit for transmitting the emergency data to a specialized agency and receiving emergency support data from the specialized agency,
The emergency data includes at least one of image data, GPS data, and sensor data,
The program stored in the storage unit,
generating one of disaster relief data, emergency patient response data, and quarantine support data from the user's input or data generated from the GPS, sensors and smart glasses;
A system that supports relief and quarantine that provides emergency support data received from the specialized agency to a user. According to claim 1,
The emergency support data received from the specialized institution is implemented in augmented reality through the smart glasses to support relief and quarantine provided to the user. According to claim 1,
The program stored in the storage unit,
When the user's input is a disaster relief request, generating emergency data including the user's context information,
A system for supporting relief and quarantine that provides an evacuation route or action tips including emergency support data received from the specialized agency to the user through the smart glasses. According to claim 1,
The program stored in the storage unit,
When the user's input is an emergency patient response request, emergency patient response data including situation information of an emergency patient is generated,
Provide CPR performance information or action tips, including emergency support data received from the specialized institution, to the user through the smart glasses,
The CPR performance information is implemented in augmented reality on the smart glasses for the compression position and compression cycle, and a system to support relief and quarantine provided to the user. According to claim 1,
The program stored in the storage unit,
When the user's input is a quarantine support request or the user is moving, generating quarantine support data including the user's context information;
A system for supporting relief and quarantine that provides the location of the infected area, the route to avoid the infected area, or action tips to the user through the smart glasses, which are received from the specialized agency.

Images