WO2013129713A1

WO2013129713A1 - System for transmitting emergency patient information

Info

Publication number: WO2013129713A1
Application number: PCT/KR2012/001512
Authority: WO
Inventors: 김윤년; 전효찬; 최규태
Original assignee: 주식회사 엠디웨어
Priority date: 2012-02-28
Filing date: 2012-02-28
Publication date: 2013-09-06
Also published as: KR20130098732A

Abstract

The present invention relates to a system for transmitting emergency patient information, and more specifically to a system for transmitting emergency patient information which transmits, until the arrival of an emergency patient at a medical treatment center, emergency patient information to places needing same, such as a medical treatment center, by means of a multi-relay system having distributed servers. The system for transmitting emergency patient information according to the present invention comprises: a transport center for transporting an emergency patient; a medical treatment center for treating the emergency patient; and a relay center for transmitting and receiving data from the transport and medical treatment centers, wherein the relay center comprises: a receiving server for receiving data transmitted from the transport center; a data server for storing and managing data received by the receiving server; and a transmission server for transmitting data stored in the data server. The present invention for a system for transmitting emergency patient information allows distributing the sever load via the relay center configured so as to permit a multi-relay, and thus the benefit of prompt and accurate delivery of emergency patient information from the transport center to the medical treatment center is anticipated.

Description

Emergency patient information transmission system

The present invention relates to an emergency patient information transmission system, and in detail, the emergency patient is transmitted to the place where the emergency patient information is needed, such as a medical center through a multi- relay configuration having a server in which the emergency patient information is distributed until the arrival of the medical center It relates to an emergency patient information transmission system.

When an emergency patient occurs, various mobile centers, such as vehicles, helicopters, ships, etc., move to the place where the emergency patient is located to transport emergency patients to medical facilities that can take care of emergency patients. do.

Recently, the frequency of emergence of emergency patients in residential and outdoor areas is increasing due to the increase in the degree of concern about health and the increase of outdoor activities for exercise, etc. Various mobile centers are being provided to transfer medical treatment centers.

In addition, the situation of the emergency patient is diversified due to various activities, the situation of emergency treatment that occurs while transporting the emergency patient of various forms is diversified.

In the case of emergency patients, the importance of first aid is emphasized because the impact on the patient's condition is large according to the initial emergency treatment. There is a situation that needs to be transferred.

Even after the emergency patient arrives at the medical center, the first aid agent must explain the emergency patient's situation to the medical professional. After listening to the explanation, the medical expert will treat the emergency patient.

As described above, while the emergency patient of various states are transferred to the most suitable medical center for the emergency patient's transfer, an urgent situation occurs in which emergency treatment must be simultaneously performed according to the emergency patient's condition during the transfer.

Even after the emergency patient's transfer is completed, the paramedics should explain to the medical professional the situation and condition of the emergency patient's transfer and also provide information on the first aid that was taken. Will occur.

During the transfer of emergency patients, first aid personnel should proceed to the most appropriate first aid according to the emergency patient's condition, there is a limit to the first aid method according to the various conditions, the situation requires a medical expert advice.

On the other hand, Republic of Korea Patent No. 10-0800026 discloses an emergency patient transport service method and system. The registered patent cooperates with medical institutions based on pre-stored information to quickly transfer emergency patients to an optimal medical institution, as well as emergency patient transfer service method to provide optimal customized emergency treatment to emergency patients in transit and A configuration for providing a system is disclosed.

The registered patent is an invention related to an emergency patient transport service method and system that allows optimal customized emergency treatment for an emergency patient in transit, and an emergency patient management server transmits an emergency call signal including identification information through a network. Receives, retrieves the pre-stored database to read the medical information of the emergency patient, and notifies the dispatching station of the read medical information and the current location information of the emergency patient.

In addition, in response to the first aid inquiries including video and audio from the emergency patient transfer means for transferring the emergency patient, a method of determining and notifying the destination medical institution based on the information of the primary medical hospital which has read and transmitted the first aid method. Is initiated.

An object of the present invention is to collect the information related to the emergency patient from the transfer means for transporting the emergency patient and the emergency patient information transmission system capable of various first aid even during the transportation of the emergency patient by multi-relay configuration of the collected emergency patient information To provide.

It is another object of the present invention to provide an emergency patient information transmission system capable of quickly and accurately transmitting an emergency patient's condition in an emergency patient's transport situation.

Emergency patient information transmission system according to the present invention, the mobile center for transporting emergency patients; Medical center for the medical treatment of the emergency patient; And a relay center for transmitting and receiving data between the mobile center and the medical center; It is configured to include, the relay center, receiving server for receiving data transmitted from the mobile center; A data server for storing and managing data received by the receiving server; And a transmission server for transmitting data stored in the data server. It is configured to include.

Emergency patient information transmission system according to the present invention is configured to enable the transmission and reception of data through multiple relays between the mobile center for transferring the emergency patient by the relay center and the medical center where the medical professional is located.

In addition, the mobile center is configured to transmit and receive information data and emergency prescription of the emergency patient in transit through the relay center capable of multiple relays with the medical center.

As such, the mobile center is configured to transmit information data of the emergency patient through multiple relays, and the relay center transmits the information data of the emergency patient to the medical center most suitable according to the received information data of the emergency patient. It is configured to transmit.

The emergency patient information transmission system configured as described above delivers the emergency patient's information data transmitted from the mobile center to the most suitable medical center, and the emergency treatment of the emergency patient can be expected according to the most suitable first aid method. do.

In addition, the mobile center is capable of delivering data quickly and accurately by the configuration capable of multiple relays, and through the connection with the medical center can be expected to receive the most effective emergency treatment and emergency medical treatment for the emergency patient. Will be.

Since the mobile center and the medical center are configured to transmit and receive the emergency patient's information through the multi-relay, the medical professional through the emergency patient's information transmitted and received in real time even during the transportation of the emergency patient is the best medical treatment for the emergency patient's situation. You can expect the effect to become possible.

Since the load of the server is distributed by the relay center configured to allow multiple relays, it is possible to expect the effect that information data of emergency patients delivered from the mobile center can be quickly and accurately delivered to the medical center.

Since the load of the server is distributed by the relay center configured to allow multiple relays, it is possible to expect the effect of enabling simultaneous access to the relay center of the multiple mobile centers.

Simultaneous simultaneous connection of the mobile center enables the transfer of emergency patients due to large accidents to occur at the same time can be expected to be easy, and the most effective first aid for emergency patients by medical professionals in the mobile center You can expect.

1 is a block diagram showing the configuration of an emergency patient information transmission system according to an embodiment of the present invention.

Figure 2 is a block diagram showing the configuration of a mobile center of the emergency patient information transmission system according to an embodiment of the present invention.

Figure 3 is a block diagram showing the configuration of the relay center of the emergency patient information transmission system according to an embodiment of the present invention.

Figure 4 is a block diagram showing the stored information according to the load balancing of the server for multiple relays of the emergency patient information transmission system according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings, the configuration of the emergency patient information transmission system according to the present invention will be described with reference to the embodiment.

However, the spirit of the present invention is not limited to the implementation state by the embodiments described below, and those skilled in the art to understand the spirit of the present invention using other embodiments falling within the scope of the same technical spirit It may be easily proposed, but this will also be included in the technical idea of the present invention.

In addition, terms used in the present specification or claims are concepts selected for convenience of description and should be properly interpreted as meanings corresponding to the technical idea of the present invention in grasping the technical contents of the present invention.

1 is a block diagram showing the configuration of the emergency patient information transmission system according to an embodiment of the present invention, Figure 2 is a block diagram showing the configuration of a relay center of the emergency patient information transmission system according to an embodiment of the present invention.

3 is a block diagram showing stored information according to load balancing of a server for multiple relaying of an emergency patient information transmission system according to an embodiment of the present invention.

First, referring to Figure 1, looking at the configuration of the emergency patient information transmission system according to the present invention, the emergency patient information transmission system comprises a mobile center 10, the control center 20 and the medical center 30 Has

The movement center 10 refers to a transportation means in which a device capable of collecting information of an emergency patient being transferred is installed. That is, the mobile center 10 is equipped with a plurality of devices for collecting emergency patient information, such as emergency vehicles or emergency helicopters, emergency aircraft, emergency vessels for transporting emergency patients.

In detail, a plurality of measurement and inspection devices for collecting the information of the emergency patient is mounted, and the transfer means 10 is configured to enable the transportation of the emergency patient.

As such, the movement center 10 is a center in which a plurality of devices are installed in a transfer means for transferring an emergency patient at a place where an emergency patient in need of emergency treatment occurs, and the transfer center 10 is an emergency patient to be transferred. It collects information about the current state.

The transport means corresponds to an emergency vehicle for emergency patient transport to the ground or an emergency helicopter or emergency aircraft for emergency patient transport to the air, an emergency vessel for transport to the sea, and the like.

A plurality of devices mounted on the transfer means for collecting the state information during the transportation of the emergency patient is a device for collecting information by measuring basic physical information data of the current state, including the blood pressure state and heart rate of the emergency patient, and the emergency during transfer A device for collecting image information data and the like relating to the transport status of the patient is provided.

More specifically, the mobile center 10 may collect information such as a blood pressure monitor for measuring the current blood pressure of the emergency patient for collecting the body information of the emergency patient during the transportation of the emergency patient, and a heart rate monitor for measuring the current heartbeat state ( 11), the photographing device 12 for capturing the current transport status of the emergency patient, the information collecting device 11 and the information collected from the photographing device 12 is converted into data and stored and other information required It comprises a terminal 13 installed with software that can be input by emergency personnel dispatched to the field, and a communication unit 14 for transmitting and receiving data.

The communicator 14 is configured to enable wireless communication to transmit and receive data stored in the terminal 13 to the relay center 20 and the medical center 30 in a moving state of the mobile center 10. do.

Data related to the emergency patient collected in the mobile center 10 is transmitted to the relay center 20. The relay center 20 transmits the received data to the medical center 30 and the control center so that the current situation of the emergency patient is necessary for the transfer of the emergency patient such as the medical center 30 and the control center. You will be able to pinpoint it.

The relay center 20 is configured to enable transmission and reception of data, and transmits information on the collected emergency patient to the relay center 20. The relay center 20 transmits the emergency patient's information to the medical center 30 most appropriate based on the information on the emergency patient received from the mobile center 10.

According to the information received from the relay center 20 in the medical center 30, a medical specialist in the corresponding field is located to guide the progress of the first aid most suitable for emergency patients.

At this time, the medical professional of the medical center 30 checks the emergency patient's information received from the relay center 20 in real time, and the emergency patient progresses the most appropriate first aid for the emergency patient according to the emergency patient's transfer status. It will be delivered to the paramedics who are accompanied with you to guide them to proceed with first aid.

In addition, the relay center 20 is connected to a control center and the like to transmit information such as the location of the mobile center 10 is configured to enable the rapid transfer of emergency patients through the traffic control in the control center, etc. Sometimes.

As such, the mobile center 10, the relay center 20, and the medical center 30 have the advantage of providing the most appropriate first aid for emergency patients, and through the connection with the relevant control center Emergency patient transfer has the advantage that it is possible.

Hereinafter, a configuration of a relay server of an emergency patient information transmission system according to an embodiment of the present invention will be described with reference to FIG. 2.

The relay center 20 is configured to perform the function of receiving data transmitted from the mobile center 10 and transmitting the data to the medical center 30 and the control center. It is configured to perform the function of transporting emergency patients quickly and safely by sending it.

The relay center 20 includes a receiving server 21 for receiving data transmitted from the mobile center 10, a data server 22 for storing and managing data received by the receiving server 21, and , A transmission server 23 for transmitting the data stored in the data server 22 to the medical center 30.

As such, the relay center 20 may divide the load generated from the server by dividing the server by the function to perform a smooth server function.

The reception server 21 transmits the received data to the data server 22 when data is received from the mobile center 10 while waiting to receive a signal transmitted from the mobile center 10. Done.

The receiving server 21 may be configured as one server, but is composed of a plurality of servers in order to smoothly receive data transmitted from the mobile center 10. This is to reduce the load generated in the receiving server 21 even when the plurality of mobile centers 10 are connected to the relay center 20, that is, the receiving server 21 simultaneously.

In detail, the receiving server 21 performs a function of waiting for reception of data transmitted from the predetermined mobile center 10. In this case, the receiving server 21 is provided in one or more quantities, and as the load of the receiving server 21 increases, the quantity of the receiving server 21 is increased and installed.

The reception server 21 is mounted in at least one quantity to receive data transmitted from the mobile center 10. At this time, the load of the receiving server 21 increases as the amount of data transmitted to the receiving server 21 or the mobile center 10 for transmitting data by accessing the receiving server 21 increases. The connection of the receiving server 21 may be limited or the processing speed may be reduced.

That is, when the connection of the receiving server 21 is limited or the processing speed is lowered, the emergency patient's state becomes dangerous. Therefore, the receiving server 21 is increased by increasing the quantity of the receiving server 21 to prevent this. By distributing the generated load, it is possible to prevent a decrease in the connection speed and the processing speed of the receiving server 21.

In addition, the data center 22 is mounted to the relay center 20. The data server 22 is composed of at least two servers, and the data server 22 performs a function of storing data received by the receiving server 21, so that the data server 22 in use is It would be desirable for the configuration to be further equipped with another data server for use in case of failure or exceeding the capacity of the data server 22.

Hereinafter, the mobile center will be described with reference to FIG. 3. 3 is a block diagram showing data stored in a mobile center of an emergency patient information transmission system according to an embodiment of the present invention.

In the mobile center 10, the access address and access port number of the reception server 21 and the priority of the reception server 21 to be accessed are stored. The IP address of the receiving server 21 is input as the access address of the receiving server 21, and the server port number of the corresponding IP address is stored.

In addition, the access center according to the stored address and port of the receiving server 21 is stored in the mobile center 10. Referring to the drawings, in the case of the connection list of the receiving server 21 stored in 1 to 4 of the mobile center 10, the IP address of the receiving server 21 whose IP address is from 100.100.100.11 to 100.100.100.14 is Stored.

The receiving server 21 having an IP address of 100.100.100.11 has a port number of 2000 and a connection priority of 1 is stored. The receiving server 21 having an IP address of 100.100.100.14 has a port number of 2000 and a connection priority of 4 is stored.

The mobile center 10 assigned the designated number 1 to 4 has an IP address of 100.100.100.11 having a priority of 1 when the mobile center 10 is to transmit the data collected from the emergency patient. Attempt to connect to the receiving server 21 first.

When the connection is not made to the receiving server 21 having a priority of 1 for a set time, an attempt is made to connect to the receiving server 21 having an IP address of 100.100.100.12 having a priority of 2.

In this way, the mobile center 10 attempts to access sequentially according to the stored access priority of the receiving server 21, and first attempts to connect to the receiving server 21 having a relatively priority setting time. If no connection is established for a while, then a connection is attempted to the receiving server 21 having a higher connection priority.

On the other hand, the mobile center 10 assigned the designated numbers 11 to 14 is stored to have a priority in the opposite direction to the access priority of the mobile center 10 assigned the designated numbers 1 to 4.

That is, in the mobile center 10 assigned with the designated numbers 11 to 14, the receiving server 21 having the IP address of 100.100.100.14 is stored as the access priority 1 and the IP having the IP address of 100.100.100.11. The receiving server 21 is stored at connection priority 4.

As such, each of the mobile centers 10 is configured to have different access priorities, and is formed to prevent concentration of load on any one of the receiving servers 21.

As a result, the receiving server 21 has an advantage in that the connection load is distributed, thereby limiting the connection due to the load concentration of the receiving server 21 or reducing the processing speed of data due to the connection.

When the mobile center 10 and the receiving server 21 are connected, the mobile center 10 includes the unique number, jurisdiction, and accessor identification code of the mobile center 10 previously stored. The data about the basic information of the will be transmitted to the receiving server 21 is connected.

The receiving server 21 receiving the basic information of the mobile center 10 transmits data to the data server 22 to store the basic information of the currently connected mobile center 10.

In this case, the data server 22 compares the last connection time of the received basic information of the mobile center 10 with a set time to determine whether the information of the same emergency patient is the same for the connection of the same mobile center 10. It is determined whether the information of the patient.

If it is determined that the information of the same emergency patient, the same emergency treatment is continued according to the information of the emergency patient transmitted in real time, if it is determined that the information of the new emergency patient, stored in the data server 22 and the transmission server It is transmitted to the medical center 30 through the 23.

On the other hand, the data server 22 is provided to at least two servers or more so that when one of the data server 22 causes a failure, the other data server 22 is configured to proceed with the service.

And, in the configuration of the receiving server 21 for the purpose of load balancing, the receiving server 21, the idle connection amount in the maximum connection amount of the mobile center 10 that can be received by the receiving server 21 In the reservation method, the receiving server 21 is configured to reserve the connection from 50% to 90% and store it in the mobile center 10.

In addition, the receiving server 21 and the transmission server 23 stores the connection information of all the mobile center 10 and the connection information of the medical center 30 in the data server 22 and the data if necessary. The server 22 is configured to enable inquiry.

Hereinafter will be described the operation of the emergency patient information transmission system according to an embodiment of the present invention.

When an emergency patient occurs, the transfer request of the emergency patient is transmitted to the control center of each region, for example, a fire station. When the transfer request is transmitted to the control center, the mobile center 10 moves to the place where the emergency patient occurred, boards the emergency patient, and proceeds to transfer to the appropriate medical center 30.

The mobile center 10 proceeds to the medical center 30 while collecting the emergency patient's information and the necessary first aid. At this time, the information on the state of the emergency patient is collected by using a device such as a blood pressure monitor, a heart rate monitor mounted on the mobile center 10 to collect the information of the emergency patient.

In addition, an emergency patient and an ambulance person accompanying the mobile center 10 attempt to access the relay center 20 after determining whether additional information is collected. At this time, an attempt is made to access the receiving server 21 according to the priority stored in the mobile center 10.

When connected to the receiving server 21 transmits the collected emergency patient information to the receiving server 21. The mobile center 10 transmits the information of the emergency patient and simultaneously transmits the information of the mobile center 10, that is, the unique number and the jurisdiction, the current location, the accessor identification key, and the like.

If it is not connected to the receiving server 21 having a high priority, an attempt is made to connect to the receiving server 21 of the lane priority after a set time elapses, and if the receiving server 21 of the lane priority is connected, The data is transmitted to the receiving server 21 in the same manner as when connected to the receiving server 21.

The data transmitted to the receiving server 21 is stored in the data server 22, and the data server 22 transmits the stored data to the transmission server 23 and transmits the data to the medical center 30. .

In the medical center 30 receiving the data, the medical center 30 is connected to the mobile center 10 so that the medical professional can proceed to the first aid most suitable for emergency patients.

On the other hand, when the mobile center 10 is connected to the relay server 20 is configured with a plurality of the receiving server 21 so as not to increase the load of the receiving server 21, each of the mobile center ( 10, the load of the receiving server 21 can be shared by differently setting the access priority of the receiving server 21 to be connected.

The description of the present invention as described above is merely illustrative of the technical idea of the present invention, and those skilled in the art to which the present invention pertains various modifications without departing from the essential characteristics of the present invention. Modifications may be possible.

Therefore, the load of the server is distributed by the relay center configured to allow multiple relays, so that the information data of the emergency patient delivered from the mobile center can be quickly and accurately delivered to the medical center.

In addition, since the load of the server is distributed by the relay center configured to enable multiple relays, it is possible to expect the effect of allowing simultaneous access to the relay center of the multiple mobile centers.

Due to these many effects, the emergency patient information transmission system according to the present invention will be highly applicable to not only the medical industry but also various industries related thereto.

Claims

A mobile center for transporting emergency patients;

Medical center for the medical treatment of the emergency patient; And

A relay center for transmitting and receiving data between the mobile center and the medical center; It is configured to include,

The relay center,

A reception server for receiving data transmitted from the mobile center;

A data server for storing and managing data received by the receiving server;

A transmission server for transmitting data stored in the data server; Emergency patient information transmission system comprising a.
The method of claim 1,

The relay center receives the current state of the emergency patient from the mobile center and transmits to the medical center, the emergency patient information transmission system is configured to enable multiple relays to enable emergency treatment by medical professionals during the transfer of emergency patients .
The method of claim 1,

Emergency medical system that stores the access address and access port and the access priority of the receiving server in the mobile center.
The method of claim 1,

The receiving server is composed of a plurality of servers to enable the multi-relay by distributing the load by the connection of the mobile center, the transmission server is an emergency patient consisting of a plurality of servers for the distribution of load by the connection to the medical center Information transmission system.
The method of claim 1,

The mobile center transmits basic information including a unique number, a jurisdiction, and a visitor identification key to the receiving server to compare the last connection time, and to determine whether the current connection is identical to the previous connection.
The method of claim 1,

And the mobile center stores the access address, access port, and access priority of the new receiving server after a set time elapses.
The method of claim 1,

The data server is an emergency patient information transmission system that is further equipped with another data server for use in the event of failure of the data server in use.