KR102581462B1 - System for providing remote consultation platform service and non-face-to-face monitoring in response to infectious diseases - Google Patents

Abstract

According to one embodiment, in a non-face-to-face monitoring and remote consultation platform service provision system for responding to infectious diseases, the system is deployed in a first space and monitors the occurrence of infectious diseases in the first space in order to respond to infectious diseases occurring in the first space. Monitoring devices that provide face-to-face monitoring; And when an infectious disease occurs in the first space, a device for providing a remote consultation service through the monitoring device, wherein the monitoring device includes: a first device; second device; and a third device, wherein the first device includes: a head performing a video conversation function; and a body that performs a computer processing function; and a biosensor for detecting infectious diseases in the first space by detecting virus particles floating in the air is installed inside the second device, 3 Inside the device, there is a personal test kit equipped with a kit insertion part into which the test kit is inserted to test for infection with an infectious disease; A non-face-to-face monitoring and remote consultation platform service providing system for responding to infectious diseases is provided, which is installed with a close-up camera that photographs a test kit inserted into the cart insertion portion.

Description

Non-face-to-face monitoring and remote consultation platform service provision system for infectious disease response {SYSTEM FOR PROVIDING REMOTE CONSULTATION PLATFORM SERVICE AND NON-FACE-TO-FACE MONITORING IN RESPONSE TO INFECTIOUS DISEASES}

The examples below relate to technology for performing non-face-to-face monitoring and providing remote consultation platform services in response to infectious diseases.

Recently, as the trend in medical services is changing from face-to-face medical care to non-face-to-face medical care, the market for non-face-to-face medical services is expanding, and the need for personal self-diagnosis and emergency treatment is increasing as blind spots in medical care increase.

Additionally, due to the expansion of the healthcare market, the global digital healthcare market is growing at an average annual rate of 30%.

Accordingly, the demand to overcome the infection environment and create a non-face-to-face medical environment is increasing, and the realization of non-face-to-face or minimal face-to-face remote medical services is required, and work and healthcare services that can minimize the spread of infection are increasing. Research into technologies that can create an environment is required.

In addition, there is an increasing demand to supplement blind spots in health care and improve accessibility through self-diagnosis services, and with COVID-19, learning and experience are becoming more common, and medical response to emergency situations through self-diagnosis and easy management is increasing. There is a need to possess the capabilities themselves, and research is required on technologies that can contribute to improving access to medical care for those in self-quarantine, office workers, housewives, and residents in medically underserved areas.

In addition, there is an increasing demand to resolve inter-regional medical disparities, overcome medical inequalities, and provide medical services that transcend time and space. Provide medical infrastructure to environments in urgent need of medical support, overcome the acceleration of concentration of health and medical personnel in large cities, and provide disabled people. There is a need for research into technologies that can create a service environment that can be used by the elderly and those with limited mobility.

Korean Patent No. 10-2421416 Korean Patent No. 10-2199020 Korean Patent Publication No. 10-2022-0148957 Korean Patent Publication No. 10-2022-0146251

According to one embodiment, the purpose is to provide a non-face-to-face monitoring and remote consultation platform service provision system for infectious disease response.

The object of the present invention is not limited to the object mentioned above, and other objects not mentioned can be clearly understood from the description below.

According to one embodiment, in a non-face-to-face monitoring and remote consultation platform service provision system for responding to infectious diseases, the system is deployed in a first space and monitors the occurrence of infectious diseases in the first space in order to respond to infectious diseases occurring in the first space. Monitoring devices that provide face-to-face monitoring; And when an infectious disease occurs in the first space, a device for providing a remote consultation service through the monitoring device, wherein the monitoring device includes: a first device; second device; and a third device, wherein the first device includes: a head performing a video conversation function; and a body that performs a computer processing function; and a biosensor for detecting infectious diseases in the first space by detecting virus particles floating in the air is installed inside the second device, 3 Inside the device, there is a personal test kit equipped with a kit insertion part into which the test kit is inserted to test for infection with an infectious disease; A non-face-to-face monitoring and remote consultation platform service providing system for responding to infectious diseases is provided, which is installed with a close-up camera that photographs a test kit inserted into the cart insertion portion.

When the monitoring device detects that an infectious disease has occurred in the first space through the biosensor, it is set to an interactive mode to collect request information of the first patient through the first device, and is set to a diagnostic mode. Set to collect status information of the first patient through the second device and the third device, and the device obtains request information of the first patient and status information of the first patient from the monitoring device, , Based on the request information of the first patient and the condition information of the first patient, the medical professional most suitable for treating the first patient is selected from among professional medical staff as the first medical professional, and the first patient and the first medical professional are selected. is connected through a virtual space implemented in a metaverse environment to support telemedicine between the first patient and the first medical professional, and when the first patient's prescription is submitted through telemedicine, the first patient The drug prescribed to the first patient is confirmed based on the patient's prescription, and if the location of the first space is included in the first area, the drug prescribed to the first patient among pharmacies located in the first area The pharmacy most suitable for dispensing is selected as the first pharmacy, a request for dispensing medicine through the first patient's prescription is transmitted to the first pharmacy terminal, and medicine through the first patient's prescription is sent from the first pharmacy terminal. When acceptance of the dispensing request is received, the delivery driver most suitable to deliver the drug prepared for the first patient is selected from among the delivery drivers in charge of the first region as the first delivery driver, and the first delivery driver is selected. A delivery request for medicine prepared for a patient can be transmitted to the first delivery driver terminal.

When a plurality of biosensors for detecting a first virus are installed in each zone, the device acquires a sensing value generated by detecting the first virus from the plurality of biosensors, and detects any of the plurality of biosensors. When one first biosensor is installed in the first zone, based on the sensing value obtained from the first biosensor, the level of the first virus detected in the first area is confirmed as the first value, and , if the first value is confirmed to be below the preset first standard value, the state of the first zone is set to normal, and if the first value is confirmed to be above the first standard value and below the preset second standard value, The state of the first zone is set to a caution state, and if the first value is confirmed to exceed the second reference value, the state of the first zone is set to a dangerous state, and the state of the first zone is changed to a caution state. When set, a notification message warning that the first zone is set to a caution state for the first virus is transmitted to user terminals located in the first zone, and when the state of the first zone is set to a dangerous state, A notification message warning that the first zone is set to a dangerous state for the first virus is transmitted to user terminals located in the first zone and user terminals located in an area adjacent to the first zone, and the first user When a request to provide a service for visualizing the infection risk of the first virus is received from the terminal, a map for visualizing and displaying the infection risk of the first virus is provided to the first user terminal, and the first area is in a peacetime state. When set to, the first area is controlled to be displayed in a first color on the map, and when the first area is set to a caution state, the first area is controlled to be displayed in a second color on the map, and When the first zone is set to a dangerous state, the first zone can be controlled to be displayed in a third color on the map.

According to one embodiment, by providing non-face-to-face monitoring and remote consultation platform services in response to infectious diseases, a non-face-to-face medical environment can be created, blind spots in health care can be supplemented and accessibility improved through self-diagnosis services, It has the effect of resolving medical imbalances between regions and overcoming medical inequality.

Meanwhile, the effects according to the embodiments are not limited to those mentioned above, and other effects not mentioned can be clearly understood by those skilled in the art from the description below.

Figure 1 is a diagram schematically showing the configuration of a system according to an embodiment.
Figure 2 is a diagram showing the operation of the system according to one embodiment.
Figure 3 is a diagram showing a process for providing non-face-to-face remote medical treatment services according to an embodiment.
Figure 4 is a diagram showing the components of a system according to an embodiment.
Figure 5 is a diagram showing the process of detecting an infectious disease in a biosensor according to an embodiment.
Figure 6 is a diagram showing the configuration of a monitoring device according to an embodiment.
Figure 7 is a diagram showing the configuration of a first device according to an embodiment.
Figure 8 is a diagram showing the configuration of a second device according to an embodiment.
Figure 9 is a diagram showing the configuration of a third device according to an embodiment.
Figure 10 is a diagram illustrating a process for providing an infection risk visualization notification service according to an embodiment.
Figure 11 is a diagram showing a process of performing non-face-to-face monitoring in a vehicle according to an embodiment.
Figure 12 is a flowchart for explaining the process of providing non-face-to-face remote medical treatment services according to an embodiment.
Figure 13 is a flow chart to explain the process of providing an infection risk visualization notification service according to an embodiment.
Figure 14 is a flow chart to explain the process of selecting the most suitable medical professional to treat a patient according to an embodiment.
Figure 15 is a flowchart for explaining the process of setting the loading order and delivery order of boxes packaging medicines according to one embodiment.
Figure 16 is an exemplary diagram of the configuration of a device according to an embodiment.

Hereinafter, embodiments will be described in detail with reference to the attached drawings. However, various changes can be made to the embodiments, so the scope of the patent application is not limited or limited by these embodiments. It should be understood that all changes, equivalents, or substitutes for the embodiments are included in the scope of rights.

Specific structural or functional descriptions of the embodiments are disclosed for illustrative purposes only and may be modified and implemented in various forms. Accordingly, the embodiments are not limited to the specific disclosed form, and the scope of the present specification includes changes, equivalents, or substitutes included in the technical spirit.

Terms such as first or second may be used to describe various components, but these terms should be interpreted only for the purpose of distinguishing one component from another component. For example, a first component may be named a second component, and similarly, the second component may also be named a first component.

When a component is referred to as being “connected” to another component, it should be understood that it may be directly connected or connected to the other component, but that other components may exist in between.

The terms used in the examples are for descriptive purposes only and should not be construed as limiting. Singular expressions include plural expressions unless the context clearly dictates otherwise. In this specification, terms such as “comprise” or “have” are intended to designate the presence of features, numbers, steps, operations, components, parts, or combinations thereof described in the specification, but are not intended to indicate the presence of one or more other features. It should be understood that this does not exclude in advance the possibility of the existence or addition of elements, numbers, steps, operations, components, parts, or combinations thereof.

Unless otherwise defined, all terms used herein, including technical or scientific terms, have the same meaning as generally understood by a person of ordinary skill in the technical field to which the embodiments belong. Terms defined in commonly used dictionaries should be interpreted as having a meaning consistent with the meaning in the context of the related technology, and unless explicitly defined in the present application, should not be interpreted in an ideal or excessively formal sense. No.

In addition, when describing with reference to the accompanying drawings, identical components will be assigned the same reference numerals regardless of the reference numerals, and overlapping descriptions thereof will be omitted. In describing the embodiments, if it is determined that detailed descriptions of related known technologies may unnecessarily obscure the gist of the embodiments, the detailed descriptions are omitted.

Embodiments may be implemented in various types of products such as personal computers, laptop computers, tablet computers, smart phones, televisions, smart home appliances, intelligent vehicles, kiosks, and wearable devices.

1 is a diagram schematically showing the configuration of a system according to an embodiment.

Referring to FIG. 1, the system according to one embodiment is a non-face-to-face monitoring and remote consultation platform service provision system in response to infectious diseases, and may include a monitoring device 100 and a device 200. At this time, the monitoring device 100 can perform non-face-to-face monitoring in response to infectious diseases, and the device 200 can provide a remote consultation platform service.

The monitoring device 100 is placed in the first space and can monitor the occurrence of infectious diseases in the first space non-face-to-face in order to respond to infectious diseases occurring in the first space.

A detailed description of the detailed configuration of the monitoring device 100 will be described later with reference to FIGS. 6 to 9.

The monitoring device 100 may be equipped with a communication module and configured to communicate wirelessly with the device 200.

If an infectious disease occurs in the first space, the device 200 can provide a remote consultation service through the monitoring device 100.

The device 200 may be its own server owned by a person or organization that provides services using the device 200, a cloud server, or a p2p (peer-to-peer) set of distributed nodes. It may be possible. The device 200 may be configured to perform all or part of the calculation function, storage/reference function, input/output function, and control function of a typical computer.

The device 200 may be configured to communicate wirelessly with the monitoring device 100 and may control the overall operation of the monitoring device 100.

Figure 2 is a diagram showing the operation of the system according to one embodiment.

Referring to FIG. 2, the system according to one embodiment can perform the role of an intermediary that connects consumers and suppliers non-face-to-face through the monitoring device 100, and through this, provides fast, borderless, 24-hour medical care in response to infectious diseases. Services can be provided.

The system can receive requests for non-face-to-face consultations from patients or the general public as consumers, and can receive remote consultation and treatment services from AI counselors or medical staff as suppliers.

The system according to one embodiment may be divided into an offline system and an online system.

The offline system can be implemented through the monitoring device 100, and can monitor infectious diseases in real time using a biosensor, which will be described later, and can be performed by group (for example, about 20 people) rather than 1:1 testing. Infection can be checked by space (for example, 7 pyeong), and medical consultation and 24-hour emergency remote medical services can be provided quickly in response to infectious diseases.

Specifically, infectious disease monitoring and remote consultation services can be provided in the following order: non-face-to-face air monitoring, self-confirmation of infection, quick non-face-to-face remote consultation and treatment request by medical staff, medication prescription, and self-treatment. At this time, biosensors for detecting infectious diseases can perform the function of detecting not only various viruses, but also lung cancer, dementia, mental illness, and heart disease. Through this, it is possible to simply and easily provide 24-hour consultation and self-diagnosis without making an appointment or visiting a hospital.

The online system can be implemented through a platform provided by the device 200, and can provide a healthcare metaverse on-off platform that realizes non-face-to-face diagnosis and self-management, and provides membership services and personalized healthcare solutions. It can provide integrated management of healthcare and management solutions from other organizations.

Specifically, we will build an individual-led disease management data integration platform in the order of personal health self-management, medical data monitoring, health-related information matching, medical system matching, and additional services utilizing medical data, and provide various health management contents from other companies. It can be configured to be available. Through this, various health information through health monitoring can be converted into my data.

Figure 3 is a diagram showing a process for providing non-face-to-face remote medical treatment services according to an embodiment.

Referring to FIG. 3, first, in the (1) consultation request stage, the consumer (patient or general public) may request a consultation through the monitoring device 100.

(2) In the consultation relay stage, the monitoring device 100 can request consultation relay to the device 200, and the device 200 can process the first consultation to proceed through an AI counselor or medical staff. At this time, AI counselors may be able to provide consultation for free, and medical staff may be able to provide consultation for a fee.

(3) In the most appropriate medical staff connection step, the device 200 selects the most suitable medical staff from among professional medical staff and processes the selected medical staff to be connected to the patient.

(4) In the patient status request stage, the device 200 may request a patient status request from the monitoring device 100 through treatment by a professional medical staff.

(5) In the accurate diagnosis stage, the monitoring device 100 can collect the client's counseling information in an interactive mode and collect the client's status information in a diagnostic mode.

When collecting information on a client's condition, various diagnostic sensors and diagnostic kits, such as biosensors, digital sensors, image sensors, and rapid diagnosis, can be used.

(6) In the rapid prescription submission stage, the device 200 can transmit the submitted prescription to the pharmacy after diagnosis by a medical professional.

(7) At the drug dispensing stage, pharmacists working at pharmacies can dispense drugs through prescriptions.

(8) In the rapid drug delivery stage, delivery drivers can deliver drugs prepared at a pharmacy to patients.

As shown in Figure 3, non-face-to-face remote medical treatment services can be provided through several processes. A detailed description of an embodiment of the non-face-to-face remote medical treatment service will be described later with reference to FIG. 12.

Figure 4 is a diagram showing the components of a system according to an embodiment.

Referring to FIG. 4, a system according to one embodiment may be composed of a biosensor, a smart device, and an app.

First, the biosensor performs functions such as non-invasive monitoring, and may be included in the monitoring device 100 or installed separately. A detailed description related to the biosensor will be described later with reference to FIG. 5.

The smart device performs functions such as remote air intake measurement and may be implemented as a monitoring device 100. A detailed description related to the smart device will be described later with reference to FIGS. 6 to 9.

The app performs functions such as infection alert and visualization, and may be implemented as an app provided by the device 200. A detailed description of the app's services will be described later with reference to FIG. 10.

Figure 5 is a diagram showing the process of detecting an infectious disease in a biosensor according to an embodiment.

Biosensors can detect infectious diseases by detecting virus particles floating in the air, and through this, a non-face-to-face air monitoring system can be established.

When detecting infectious diseases, viruses and infectious diseases can be detected through steps such as discovery, specific binding, FET sensor configuration, and measurement.

Biosensors can be implemented to be detachable from a specific device or attached to a specific point, and can determine the presence or absence of a specific component by analyzing the components of the surrounding air.

Biosensors can be composed of various sensors such as sensors that detect viruses, sensors that detect diseases, and sensors that detect components that cause diseases. For example, they can detect diseases such as coronavirus in clinical trials. It consists of a sensor that detects diseases such as swine fever that is in the preclinical process, a sensor that detects diseases such as lung cancer, and a sensor that detects cancer-causing factors. The presence or absence of ingredients, etc. can be analyzed.

A biosensor is implemented as a sensor that includes a substrate coated with a substance (for example, protein, etc.) that adsorbs viruses in the air, and when adsorbed, an electrical signal is generated and viruses in the air can be detected.

Figure 6 is a diagram showing the configuration of a monitoring device according to an embodiment.

Referring to FIG. 6 , the monitoring device 100 may include a first device 110, a second device 140, and a third device 150.

The first device 110 can perform functions such as video chat and computer processing, and a detailed description of the detailed configuration of the first device 110 will be described later with reference to FIG. 7.

The second device 140 may be implemented as a biosensor module, and a detailed description of the detailed configuration of the second device 140 will be described later with reference to FIG. 8.

The third device 150 may be implemented as a personal checker module, and a detailed description of the detailed configuration of the third device 150 will be described later with reference to FIG. 9.

Figure 7 is a diagram showing the configuration of a first device according to an embodiment.

Referring to FIG. 7 , the first device 110 may be divided into a head 120 and a torso 130.

The head 120 may perform a video conversation function and may include an image camera 121. That is, the head 120 can provide a video consultation system using a camera, microphone, and speaker.

The head 120 may be configured in the shape of a face and may rotate through motion tracking. A rotating part for left and right rotation may be provided at the bottom of the head 120.

The body 130 may perform computer processing functions and may include a monitor 131, a speaker 132, and a power source 133.

The torso 130 may be configured in the shape of a body and may rotate through motion tracking. A rotating part for left and right rotation may be provided at the top of the body 130.

Figure 8 is a diagram showing the configuration of a second device according to an embodiment.

Referring to FIG. 8, the second device 140 is implemented as a biosensor module, and a biosensor 141 and a proximity camera 142 may be installed inside, and a power button may be installed outside.

The biosensor 141 can detect virus particles floating in the air and detect infectious diseases in the first space.

That is, since the monitoring device 100 is placed in the first space, the biosensor 141 can detect infectious diseases in the first space.

Figure 9 is a diagram showing the configuration of a third device according to an embodiment.

Referring to FIG. 9, the third device 150 is implemented as a personal tester module, and a personal test kit 151 and a proximity camera 152 may be installed inside, and a power button may be installed outside.

The third device 150 can test for infection by an infectious disease. The personal test kit 151 may have a kit insertion part into which the test kit is inserted, and the proximity camera 152 may photograph the test kit inserted into the cart insertion part.

According to one embodiment, only the first device 110 includes a communication module, so that communication can be performed with the device 200 through the first device 110. In addition, the first device 110, Each of the second device 140 and the third device 150 includes a communication module, so that the first device 110, the second device 140, and the third device 150 each separately communicate with the device 200. You can also perform .

Figure 10 is a diagram illustrating a process for providing an infection risk visualization notification service according to an embodiment.

Referring to FIG. 10, first, in the air detection step, biosensors are installed in each space, detect infectious diseases in each installed space, and monitor infectious diseases in each space.

In the infection risk notification stage, a notification service regarding the risk of infectious diseases can be provided. At this time, notification services can be provided by differentiating colors, vibrations, sounds, etc. depending on the level of risk.

At the map visualization stage, a visualization service can be provided so that the risk of infection can be checked on the map through the app.

As shown in FIG. 10, an infection risk visualization notification service may be provided through several processes. A detailed description of the embodiment of the infection risk visualization notification service will be described later with reference to FIG. 13.

Figure 11 is a diagram showing a process of performing non-face-to-face monitoring in a vehicle according to an embodiment.

Referring to FIG. 11, a mobile support service can be provided by installing a monitoring device 100 inside a vehicle.

Through this, remote consultation, self-diagnosis, and self-management can be easily handled in infectious disease response vehicles, allowing infectious diseases to be managed more safely in infectious disease situations and responding to situations where it is difficult for busy modern people to receive medical services. can do.

Figure 12 is a flowchart for explaining the process of providing non-face-to-face remote medical treatment services according to an embodiment.

Referring to FIG. 12 , first, in step S1201, the device 200 may obtain request information of the first patient and status information of the first patient from the monitoring device 100.

Specifically, when it is detected that an infectious disease has occurred in the first space through the biosensor, the first patient can request a consultation through the monitoring device 100, and the monitoring device 100 is set to interactive mode to provide 1 Request information of the first patient can be collected through the device 110, and status information of the first patient can be collected through the second device 140 and the third device 150 by setting the diagnostic mode.

The first patient's request information is information describing the first patient's symptoms, and may be extracted through a video conversation with the first patient or generated by direct input by the first patient.

The first patient's condition information is information that diagnoses the first patient's condition, and can be obtained using various diagnostic sensors and diagnostic kits, such as biosensors, digital sensors, image sensors, and rapid diagnosis.

When the monitoring device 100 collects the first patient's request information and the first patient's state information, the device 200 acquires the first patient's request information and the first patient's state information from the monitoring device 100. You can.

In step S1202, the device 200 may select the medical professional most suitable for treating the first patient from among professional medical professionals as the first medical professional based on the first patient's request information and the first patient's condition information.

That is, the device 200 may select the medical professional most suitable to treat the first patient from among pre-registered professional medical professionals, considering the symptoms and condition of the first patient, and select the selected medical professional as the first medical professional. . A detailed description of the process of selecting the most suitable medical professional to treat the first patient will be described later with reference to FIG. 14.

In step S1203, the device 200 may support telemedicine between the first patient and the first medical professional by connecting the first patient and the first medical professional through a virtual space implemented in a metaverse environment. Here, metaverse is a compound word of meta, meaning processing and abstraction, and universe, meaning the real world. In an online three-dimensional virtual world, individuals embodied in the form of characters or avatars communicate with each other, It refers to a platform that allows you to carry out activities in the real world. This metaverse environment may include extended reality (XR), which encompasses virtual reality (VR), augmented reality (AR), and mixed reality (MR).

Specifically, the treatment rooms provided for each medical practitioner are implemented in a metaverse environment, and when the first medical practitioner is selected as the most suitable medical practitioner to treat the first patient, the first medical practitioner's medical office is located in a virtual space implemented in a metaverse environment. The first patient can be connected. At this time, the device 200 can control the virtual space to be displayed on the screen of the monitoring device 100, providing the first patient with an experience similar to visiting the first medical practitioner's office.

In the virtual space, the first patient and the first medical professional may be displayed as characters or avatars, the character or avatar of the first medical professional may be displayed on the screen of the monitoring device 100, and the first medical professional may be displayed on the screen of the terminal used by the first medical professional. The character or avatar of the first patient is displayed, and non-face-to-face telemedicine can be performed between the first patient and the first medical professional in a virtual space. At this time, a consultation service that allows actual conversation between the first patient and the first medical professional in a virtual space can be provided.

In step S1204, when the first patient's prescription is submitted through telemedicine, the device 200 may check the medicine prescribed to the first patient based on the first patient's prescription.

Specifically, through telemedicine performed in a virtual space, the first medical professional can write and register the first patient's prescription, and the device 200 determines that the registered first patient's prescription has been submitted, and the first patient Based on the prescription, the drug prescribed to the first patient can be confirmed.

In step S1205, when the location of the first space is included in the first area, the device 200 selects the pharmacy most suitable for dispensing the medicine prescribed for the first patient among pharmacies located in the first area as the first pharmacy. can do.

That is, since the monitoring device 100 is placed in the first space, it can be determined that the first patient is located in the first space, and the device 200 takes into account the location of the pharmacy, the type of medicine stored in the pharmacy, etc. Thus, the pharmacy most suitable for dispensing the drug prescribed to the first patient can be selected, and the selected pharmacy can be selected as the first pharmacy.

For example, the device 200 selects a pharmacy that can dispense medicine prescribed for a first patient among pharmacies located in a first area, and selects a pharmacy located closest to the first patient among the selected pharmacies. 1 You can select a pharmacy.

In step S1206, the device 200 may transmit a request for dispensing medicine through the first patient's prescription to the first pharmacy terminal. Here, a request to dispense a drug through the first patient's prescription is a request to dispense a drug to be taken by the first patient based on the first patient's prescription, including the first patient's prescription and the first patient's location (1st patient's location). It may include information about location in space, etc. To this end, the device 200 may be configured to communicate wired or wirelessly with the first pharmacy terminal.

In step S1207, the device 200 may receive acceptance of the request for dispensing medicine through the first patient's prescription from the first pharmacy terminal. Here, the acceptance of the first patient's request for dispensing a drug through a prescription is accepted by a pharmacist working at the first pharmacy to dispense the first patient's drug.

In step S1208, the device 200 may select the delivery driver most suitable for delivering the medicine prepared for the first patient from among the delivery drivers in charge of the first area as the first delivery driver.

That is, the device 200 considers the location of the first pharmacy, the location of the first patient, the current location of the delivery drivers, the schedules of the delivery drivers, etc., and selects the delivery driver most suitable for delivering the medicine prepared for the first patient. You can select and select the selected delivery driver as the first delivery driver.

For example, the device 200 selects delivery drivers who have ample schedules from among the delivery drivers in charge of the first region, and when delivering medicine prepared for the first patient among the selected delivery drivers, The delivery driver with the shortest movement path can be selected as the first delivery driver.

In step S1209, the device 200 may transmit a delivery request for medicine prepared for the first patient to the first delivery driver terminal. Here, a request for delivery of a drug prepared for the first patient is a request to receive the drug prepared for the first patient from the first pharmacy and deliver it to the first patient, based on the location of the first pharmacy and the location of the first patient. It may include information about, etc. To this end, the device 200 may be configured to communicate wired or wirelessly with the first delivery driver terminal.

Figure 13 is a flow chart to explain the process of providing an infection risk visualization notification service according to an embodiment.

Referring to FIG. 13, first, in step S1301, when a plurality of biosensors for detecting the first virus are installed in each zone, the device 200 detects the first virus from the plurality of biosensors and generates a sensing value. can be obtained.

That is, a plurality of biosensors are installed for each zone, and a sensing value can be generated by detecting how many first viruses are present in the installed zone, and the device 200 detects the first virus from each of the plurality of biosensors. The generated sensing value can be obtained. At this time, the sensing value is a value indicating how many first viruses are present in the area where the biosensor is installed.

In step S1302, when a first biosensor, which is one of a plurality of biosensors, is installed in the first zone, the device 200 detects the sensor in the first zone based on the sensing value obtained from the first biosensor. The level of the first virus can be confirmed by the first number.

In step S1303, the device 200 may check whether the first numerical value is less than or equal to the first reference value. Here, the first reference value may be set differently depending on the embodiment.

If the first value is confirmed to be below the first reference value in step S1303, the device 200 may set the state of the first zone to the normal state in step S1305.

If it is confirmed in step S1303 that the first value is greater than the first standard value rather than less than or equal to the first standard value, in step S1304, the device 200 may check whether the first value is less than or equal to the second standard value. Here, the second reference value may be set to a higher value than the first reference value.

If the first value is confirmed to be less than or equal to the second reference value in step S1304, the device 200 may set the state of the first zone to a caution state in step S1306.

If the first value is confirmed to be greater than the second standard value rather than less than or equal to the second standard value in step S1304, the device 200 may set the state of the first zone to a dangerous state in step S1307.

In step S1308, when the state of the first zone is set to the caution state, the device 200 transmits a notification message warning that the first zone is set to the caution state for the first virus to user terminals located in the first zone. You can.

That is, the device 200 can use the location information of the user terminals to determine which zone the user terminals are located in, and when the state of the first zone is set to the caution state, it can determine which user terminals are located in the first zone. After confirmation, a warning notification message for the first zone can be transmitted to the confirmed user terminals.

In step S1309, when the state of the first zone is set to a dangerous state, the device 200 sends a notification message warning that the first zone is set to a dangerous state with respect to the first virus to the user terminals located in the first zone and the second zone. It can be transmitted to users located in areas adjacent to area 1.

That is, the device 200 can use the location information of the user terminals to determine which zone the user terminals are located in, and when the state of the first zone is set to a dangerous state, not only the first zone but also adjacent to the first zone After confirming which user terminals are located in the zone, a warning notification message for the first zone can be transmitted to the confirmed user terminals.

According to one embodiment, the device 200 may receive a request to provide a service for visualizing the infection risk of the first virus from the first user terminal. At this time, the first user terminal may request the provision of a visualization service for the infection risk of the first virus through the app.

Thereafter, the device 200 may provide a map for visualizing and displaying the infection risk of the first virus to the first user terminal, and the map may be displayed on the screen of the first user terminal.

Thereafter, when the first zone is set to the peacetime state, the device 200 controls the first zone to be displayed in the first color on the map displayed on the screen of the first user terminal, and when the first zone is set to the caution state, The first area is controlled to be displayed in the second color on the map displayed on the screen of the first user terminal, and when the first area is set to a dangerous state, the first area is displayed in the third color on the map displayed on the screen of the first user terminal. You can control it to be displayed as .

In other words, the device 200 divides the state of each zone into a normal state, a caution state, a dangerous state, etc. according to the risk of infection by a specific virus, and processes each zone so that it is displayed in different colors on the map according to the state, so that the app can be used. Through this, infection risk visualization services can be provided.

Figure 14 is a flow chart to explain the process of selecting the most suitable medical professional to treat a patient according to an embodiment.

Referring to FIG. 14, first, in step S1401, the device 200 may determine whether the first patient needs medical consultation based on the first patient's request information and the first patient's condition information.

That is, the device 200 checks the symptoms of the first patient through the first patient's request information, checks the condition of the first patient through the first patient's condition information, and then considers the symptoms and condition of the first patient. Thus, it is possible to determine whether medical consultation is necessary for the first patient.

In step S1402, if it is determined that the first patient requires medical consultation, the device 200 may classify the medical personnel currently working among the professional medical staff into the first group. At this time, the device 200 can classify only those medical personnel currently working who have more than a certain amount of time remaining until they leave work into the first group.

In step S1403, if the device 200 determines that treatment for the first medical subject is necessary through the symptoms of the first patient, it selects a medical professional who specializes in the first medical subject from among the medical practitioners classified into the first group. It can be classified into 2 groups.

For example, if the first patient's symptom is sore throat, the device 200 may determine that the first patient requires otolaryngology treatment and classify an otolaryngologist among the medical professionals classified into the first group as the second group. can do.

In step S1404, the device 200 may assign a lower first score to each medical person classified into the second group as the number of people waiting for treatment increases.

For example, if the first medical professional and the second medical professional are classified into the second group, and the number of people waiting for treatment by the first medical professional is 3 and the number of people waiting for treatment by the second medical professional is 5, the device 200 provides treatment to the first medical professional. 50 points can be awarded for 1 point, and 20 points for the first point can be given to the second medical professional.

In step S1405, the device 200 may assign a higher second score to each of the medical personnel classified into the second group as the number of times they treat the first patient increases.

For example, the first medical professional and the second medical professional are classified into the second group, the first medical professional treated the first patient once, and the second medical professional treated the first patient three times. In this case, the device 200 may grant a second score of 10 points to the first medical professional and a second score of 30 points to the second medical professional.

In step S1406, the device 200 may assign a lower third score to each medical person classified into the second group as the number of patients treated within a predetermined period increases.

For example, if the first medical professional and the second medical professional are classified into the second group, and the number of patients treated by the first medical professional within 8 hours is 20 and the number of patients treated by the second medical professional within 8 hours is 40, the device ( 200) may grant a third score of 40 points to the first medical professional, and may grant a third score of 20 points to the second medical professional.

In step S1407, the device 200 may assign a higher fourth score to each of the medical personnel classified into the second group as the distance between the hospital where they are working and the first patient's residence is closer.

For example, the first medical person and the second medical person are classified into the second group, the distance between the hospital where the first medical person works and the first patient's residence is 4 km, and the hospital where the second medical person works and the first patient are If the distance between residences is 2km, the device 200 may grant a fourth score of 20 points to the first medical professional and a fourth score of 40 points to the second medical professional.

In step S1408, the device 200 may calculate the total score by adding up the first score, second score, third score, and fourth score for each of the medical personnel classified into the second group.

In step S1409, the device 200 may compare the total scores of each medical professional classified into the second group and select the medical professional with the highest total score as the first medical professional.

Figure 15 is a flowchart for explaining the process of setting the loading order and delivery order of boxes packaging medicines according to one embodiment.

Referring to FIG. 15, first, in step S1501, the device 200 packs the medicine prepared for the first patient at the first pharmacy into a first box, and the medicine prepared for the second patient into the second box. When packaged and a delivery driver suitable for delivering the first box and the second box is selected as the first delivery driver, it is confirmed that the delivery address of the first box is registered as the first branch, and the delivery address of the second box is registered as the first branch. You can confirm that it is registered as branch 2. At this time, the first point is the location of the first patient, and the second point is the location of the second patient.

In step S1502, the device 200 generates a first movement line in the order of the current location of the first delivery driver, the location of the first pharmacy, and the location of the first point, and the current location of the first delivery driver and the location of the first pharmacy. And a second movement line may be created in order of the location of the second point. At this time, the current location of the first delivery driver can be confirmed using the location information of the first delivery driver terminal.

In generating the first movement route and the second movement route, the device 200 may generate the first movement route and the second movement route based on the main movement path of the first delivery driver. To this end, the location record of the first delivery driver is stored in the database of the device 200, and the device 200 can analyze the movement path of the first delivery driver based on the location record of the first delivery driver, By analyzing the movement path of the first delivery driver for a predetermined period of time, the route along which the first delivery driver mainly moves can be identified, and then the route along which the first delivery driver mainly moves can be set as the main movement path of the first delivery driver. .

The device 200 generates a first movement line in the order of the current location of the first delivery driver, the location of the first pharmacy, and the location of the first point, based on the main movement path of the first delivery driver, and A second route can be created in the order of the current location, the location of the first pharmacy, and the location of the second point.

That is, based on the main movement path of the first delivery driver, the device 200 moves from the current location of the first delivery driver through the first pharmacy to the first point without deviating from the main movement path of the first delivery driver as much as possible. A movement path that can be moved is created as a first movement line, and a movement path that can move from the current location of the first delivery driver to the second point via the first pharmacy is created while maintaining the main movement path of the first delivery driver as much as possible. 2 It can be created with a moving line.

In step S1503, the device 200 may calculate the difference between the distance of the first moving line and the distance of the second moving line as the first distance.

Specifically, the device 200 compares the distance of the first copper wire and the distance of the second copper wire, and if it is confirmed that the distance of the first copper wire is longer than the distance of the second copper wire, the device 200 compares the distance of the first copper wire to the distance of the second copper wire. The first distance can be calculated by subtracting the distance, and if the distance of the second moving line is confirmed to be longer than the distance of the first moving line, the first distance can be calculated by subtracting the distance of the first moving line from the distance of the second moving line. You can.

In step S1504, the device 200 may check whether the first distance is outside the reference range. Here, the reference range may be set differently depending on the embodiment.

If it is confirmed that the first distance is outside the reference range in step S1504, the device 200 may check whether the distance of the first moving line is shorter than the distance of the second moving line in step S1505.

If it is confirmed in step S1505 that the distance of the first moving line is shorter than the distance of the second moving line, in step S1507, the device 200 may set the loading order in the order of the second box and the first box.

That is, when it is confirmed that the difference between the distance of the first moving line and the distance of the second moving line is outside the reference range, the device 200 compares the distance of the first moving line and the distance of the second moving line, and determines the distance of the first moving line. If it is confirmed that is shorter than the distance of the second moving line, the loading order can be set in the order of the second box and the first box. Through this, the second box with a long movement line can be loaded first and placed inside the loading space for later delivery, and the first box with a short movement line can be loaded later and placed outside the loading space for faster delivery. It can be guided into position.

If it is confirmed in step S1505 that the distance of the first moving line is longer than the distance of the second moving line, it may be confirmed that the distance of the second moving line is shorter than the distance of the first moving line, and in step S1508, the device 200 You can set the loading order in the order of the first box and the second box.

That is, when it is confirmed that the difference between the distance of the first moving line and the distance of the second moving line is outside the reference range, the device 200 compares the distance of the first moving line and the distance of the second moving line, and determines the distance of the second moving line. If it is confirmed that is shorter than the distance of the first moving line, the loading order can be set in the order of the first box and the second box. Through this, the first box with a long movement line can be loaded first and positioned inside the loading space for later delivery, and the second box with a short movement line can be loaded later and positioned outside the loading space for faster delivery. It can be guided into position.

Meanwhile, if it is confirmed that the first distance is within the reference range in step S1504, in step S1506, the device 200 operates at a first time point when the first patient's prescription is submitted and a time point when the second patient's prescription is submitted. By comparing the second time point, it is possible to check whether the first time point is earlier than the second time point.

If it is confirmed that the first time point is earlier than the second time point in step S1506, the device 200 may set the loading order in the order of the second box and the first box in step S1509.

That is, when the device 200 determines that the difference between the distance of the first moving line and the distance of the second moving line is within the reference range, the device 200 compares the first time point and the second time point, and determines that the first time point is greater than the second time point. If confirmed to be fast, the loading order can be set in the order of the second box and the first box. Through this, if the movement route is similar, the second box to be delivered to the patient who submits the prescription slowly can be loaded first and placed inside the loading space for later delivery, and the second box to be delivered to the patient who submits the prescription early can be induced to load first. 1 Boxes can be loaded later and positioned outside of the loading area to ensure faster delivery.

If the first time point is confirmed to be slower than the second time point in step S1506, the second time point may be confirmed to be faster than the first time point, and in step S1510, the device 200 moves the first box and the second box in order. You can set the loading order.

That is, when the device 200 determines that the difference between the distance of the first moving line and the distance of the second moving line is within the reference range, the device 200 compares the first time point and the second time point, and determines that the second time point is greater than the first time point. If confirmed to be fast, the loading order can be set in the order of the first box and the second box. Through this, if the movement lines are similar, the first box to be delivered to the patient who submits the prescription slowly can be loaded first and placed inside the loading space for later delivery, and the first box to be delivered to the patient who submits the prescription early can be guided to the inside of the loading space. 2 Boxes can be loaded later and positioned outside of the loading area to ensure faster delivery.

In step S1511, when the stacking order of the boxes is set, the device 200 may set the delivery order of the boxes in the reverse order of the set stacking order.

That is, when the loading order is set in the order of the first box and the second box, the device 200 can set the delivery order in the order of the second box and the first box, and the loading order is set in the order of the second box and the first box. If set, the delivery order can be set in the order of the first box and the second box,

In step S1512, the device 200 may transmit a notification message about the loading order of the boxes and the delivery order of the boxes to the first delivery man terminal.

Figure 16 is an exemplary diagram of the configuration of a device according to an embodiment.

Device 200 according to one embodiment includes a processor 210 and memory 220. The processor 210 includes at least one device described above with reference to FIGS. 1 to 15, or controls the operation of at least one device described with reference to FIGS. 1 to 15, or refers to FIGS. 1 to 15. Thus, at least one method described above can be performed. A person or organization using the device 200 may provide services related to some or all of the methods described above with reference to FIGS. 1 to 15 .

The memory 220 may store information related to the methods described above or store a program in which methods described later are implemented. Memory 220 may be volatile memory or non-volatile memory.

The processor 210 can execute programs and control the control device 200. The code of the program executed by the processor 210 may be stored in the memory 220. The control device 200 is connected to an external device (eg, a personal computer or a network) through an input/output device (not shown) and can exchange data through wired or wireless communication.

The embodiments described above may be implemented with hardware components, software components, and/or a combination of hardware components and software components. For example, the devices, methods, and components described in the embodiments may include, for example, a processor, a controller, an arithmetic logic unit (ALU), a digital signal processor, a microcomputer, and a field programmable gate (FPGA). It may be implemented using one or more general-purpose or special-purpose computers, such as an array, programmable logic unit (PLU), microprocessor, or any other device capable of executing and responding to instructions. A processing device may execute an operating system (OS) and one or more software applications that run on the operating system. Additionally, a processing device may access, store, manipulate, process, and generate data in response to the execution of software. For ease of understanding, a single processing device may be described as being used; however, those skilled in the art will understand that a processing device includes multiple processing elements and/or multiple types of processing elements. It can be seen that it may include. For example, a processing device may include a plurality of processors or one processor and one controller. Additionally, other processing configurations, such as parallel processors, are possible.

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 on a computer-readable medium. The computer-readable medium may include program instructions, data files, data structures, etc., singly or in combination. Program instructions recorded on the medium may be specially designed and configured for the embodiment or may be known and available to those skilled in the art of 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. -Includes optical media (magneto-optical media) and hardware devices specifically configured to store and execute program instructions, such as ROM, RAM, flash memory, etc. Examples of program instructions include machine language code, such as that produced by a compiler, as well as high-level language code that can be executed by a computer using an interpreter, etc. The hardware devices described above may be configured to operate as one or more software modules to perform the operations of the embodiments, and vice versa.

Software may include a computer program, code, instructions, or a combination of one or more of these, which may configure a processing unit to operate as desired, or may be processed independently or collectively. You can command the device. Software and/or data may be used on any type of machine, component, physical device, virtual equipment, computer storage medium or device to be interpreted by or to provide instructions or data to a processing device. , or may be permanently or temporarily embodied in a transmitted signal wave. 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.

Although the embodiments have been described with limited drawings as described above, those skilled in the art can apply various technical modifications and variations based on the above. For example, the described techniques are performed in a different order than the described method, and/or components of the described system, structure, device, circuit, etc. are combined or combined in a different form than the described method, or other components are used. Alternatively, appropriate results may be achieved even if substituted or substituted by an equivalent.

Therefore, other implementations, other embodiments, and equivalents of the claims also fall within the scope of the following claims.

Claims (3)

In the non-face-to-face monitoring and remote consultation platform service provision system for infectious disease response,
A monitoring device disposed in a first space to non-face-to-face monitor the occurrence of an infectious disease in the first space in order to respond to an infectious disease occurring in the first space; and
In case an infectious disease occurs in the first space, a device that provides a remote consultation service through the monitoring device,
The monitoring device is,
first device; second device; and a third device;
The first device is,
A head that performs video communication functions; and
Divided into: a body that performs computer processing functions;
Inside the second device,
A biosensor is installed to detect infectious diseases in the first space by detecting virus particles floating in the air,
Inside the third device,
A personal test kit having a kit insertion part into which the test kit is inserted to test for infection with an infectious disease; and
A close-up camera is installed to photograph the test kit inserted into the kit insertion portion,
The monitoring device is,
When it is detected that an infectious disease has occurred in the first space through the biosensor, the interactive mode is set to collect the first patient's request information through the first device, and the diagnostic mode is set to the second device. And collecting status information of the first patient through the third device,
The device is,
Obtaining request information of the first patient and status information of the first patient from the monitoring device,
Based on the request information of the first patient and the condition information of the first patient, select the medical professional most suitable for treating the first patient from among professional medical professionals as the first medical professional,
Connecting the first patient and the first medical professional through a virtual space implemented in a metaverse environment to support telemedicine between the first patient and the first medical professional,
When the first patient's prescription is submitted through telemedicine, the drug prescribed to the first patient is confirmed based on the first patient's prescription,
If the location of the first space is within the first area, selecting the pharmacy most suitable for dispensing the drug prescribed to the first patient from among pharmacies located in the first area as the first pharmacy,
Transmitting a request for dispensing medicine through the first patient's prescription to the first pharmacy terminal,
When an acceptance of the request for dispensing medicine through the first patient's prescription is received from the first pharmacy terminal, the best person among the delivery drivers in charge of the first area is to deliver the medicine prepared for the first patient. Select a suitable delivery driver as the first delivery driver,
Transmitting a delivery request for the medicine prepared for the first patient to the first delivery driver terminal,
The device is,
Based on the first patient's request information and the first patient's condition information, determine whether the first patient needs medical consultation,
If it is determined that the first patient requires medical consultation, the medical personnel currently working among the professional medical staff are classified into the first group,
If it is determined that treatment for the first medical subject is necessary through the symptoms of the first patient, medical practitioners who specialize in the first medical subject among the medical personnel classified into the first group are classified into a second group,
For each medical person classified into the second group, the first score is given a lower value as the number of people waiting for treatment increases,
For each medical person classified into the second group, the second score is assigned a higher value as the number of times the first patient is treated,
For each medical person classified into the second group, the third score is assigned a lower value as the number of patients treated within a predetermined period increases,
For each medical person classified into the second group, the fourth score is assigned a higher value as the distance between the hospital where he/she works and the residence of the first patient is closer,
For each medical person classified into the second group, the first score, the second score, the third score, and the fourth score are added to calculate a total score,
Comparing the total scores of each of the medical practitioners classified into the second group, and selecting the medical practitioner with the highest total score as the first medical practitioner,
Non-face-to-face monitoring and remote consultation platform service provision system for infectious disease response. delete According to paragraph 1,
The device is,
When a plurality of biosensors for detecting a first virus are installed in each zone, a sensing value generated by detecting the first virus from the plurality of biosensors is obtained,
When a first biosensor, one of the plurality of biosensors, is installed in the first zone, the level of the first virus detected in the first zone based on the sensing value obtained from the first biosensor Confirm with the first number,
If the first value is confirmed to be less than the preset first standard value, the state of the first zone is set to normal, and if the first value is confirmed to be greater than the first standard value and less than the preset second standard value, the Setting the state of the first zone to a caution state, and if the first value is confirmed to exceed the second reference value, setting the state of the first zone to a dangerous state,
When the state of the first zone is set to a caution state, a notification message warning that the first zone is set to a caution state for the first virus is transmitted to user terminals located in the first zone,
When the state of the first zone is set to a dangerous state, a notification message warning that the first zone is set to a dangerous state for the first virus is sent to user terminals located in the first zone and adjacent to the first zone. Transmit to user terminals located in the area,
When a request to provide a service for visualizing the infection risk of the first virus is received from a first user terminal, a map for visualizing and displaying the infection risk of the first virus is provided to the first user terminal,
When the first area is set to a normal state, the first area is controlled to be displayed in a first color on the map, and when the first area is set to a caution state, the first area is controlled to be displayed in a second color on the map. and controlling the first area to be displayed in a third color on the map when the first area is set to a dangerous state.
Non-face-to-face monitoring and remote consultation platform service provision system for infectious disease response.