KR102440881B1 - Shelter, shelter utilization method and shelter utilization system - Google Patents

Abstract

The present invention provides the steps of receiving and storing usage state information from a plurality of disaster houses, receiving a disaster housing installation request capable of specifying the installation location and the number of installed houses, and the utilization rate and a plurality of disasters according to the use status of a plurality of disaster houses It relates to a method of utilizing disaster housing, comprising the step of determining a candidate disaster housing to be moved to the installation location according to the distance between the house and the installation location.

Description

Disaster housing and disaster housing utilization method and system

The present invention relates to a disaster housing and a disaster housing utilization method and system, and more specifically, to a disaster housing that can be used as a lodging facility in normal times and can be used as a lodging facility in case of a disaster. It relates to a method and system for using disaster housing and disaster housing that can select people and can detect and notify abnormalities in the movement of disaster housing.

Disaster situations occur in different regions and places every year. For example, disasters due to natural disasters such as floods and typhoons, disasters due to diseases or infectious diseases, or disasters due to accidents, explosions, regional disputes, etc. occur.

According to the occurrence of a disaster situation, a large number of disaster relief workers occur in a specific area, and large-scale temporary housing facilities (hereinafter also referred to as 'disaster housing') are required for a large number of disaster victims. For example, in the event of a mass epidemic, an isolation facility (negative pressure room, etc.) to accommodate a large number of infected persons or a temporary shelter to accommodate a large number of victims caused by floods or typhoons are needed.

In the event of a large number of disaster relief workers, local governments designate temporary shelters such as gyms and schools and accommodate a large number of disaster relief workers in temporary shelters. Disaster relief workers in temporary shelters are experiencing a lot of inconvenience due to the exposure of their personal lives.

Considering the occurrence of disaster relief people, it is desirable to protect personal life and stockpile disaster housing that can be moved and installed. The mobile disaster housing can have a rectangular parallelepiped shape and can provide many advantages compared to the existing temporary housing by providing a space separated from the outside and various devices and furniture inside.

If a large amount of mobile disaster housing can be prepared in advance, it can be used to accommodate a large number of disaster relief workers in the future, but it is virtually impossible to stockpile disaster housing in advance. In other words, it is impossible to secure economic feasibility because there is a lot of cost in manufacturing disaster housing, and it is difficult to secure a place to install disaster housing after production, and there is no plan for everyday use.

A disaster housing and disaster housing utilization method and system that can solve these mobile disaster housing-related problems are needed.

The present invention has been devised to solve the above-described problems, and to provide a disaster housing, a disaster housing utilization method and system that can be used on a daily basis and can supply the disaster housing stockpiled according to the usual use in an emergency disaster situation. There is a purpose.

In addition, the present invention can determine using various sensors equipped with the state of use of the disaster housing in normal times, and select disaster housing candidates to be supplied to the disaster site according to the use state of a plurality of disaster houses and the distance from the disaster site in case of an emergency disaster. The purpose of the present invention is to provide disaster housing and disaster housing utilization methods and systems.

In addition, the present invention has an object to provide a disaster housing, disaster housing utilization method and system that can grant mileage according to normal use and grant the right to use the disaster housing according to the mileage granted in the event of a disaster. .

The technical problems to be achieved in the present invention are not limited to the technical problems mentioned above, and other technical problems not mentioned will be clearly understood by those of ordinary skill in the art to which the present invention belongs from the description below. will be able

Disaster housing according to an aspect of the present invention includes a plurality of sensors available to determine the use state of the disaster housing; and receiving the sensing signals from the plurality of sensors, automatically determining the use state of the disaster house from the sensed signals received using the learned machine learning program, and transmitting the use state information including the determined use state through the network and a control panel to, wherein the disaster house is a mobile disaster house.

In the disaster housing, the plurality of sensors include a door sensor for sensing opening and closing of a door, a motion detection sensor for detecting a user's movement, an electricity consumption sensor for monitoring electricity consumption, and the use of facilities provided in the disaster housing. and a facility usage detection sensor for detecting, wherein the control panel is configured to receive a door sensing signal from the door sensor, a motion sensing signal from the motion detection sensor, an electricity usage sensing signal from the electricity usage sensor, and the facility usage detection sensor. Provide the machine learning program with a use state or a non-use state mapped with inputs of the facility use sensing signal of the machine learning program to learn the machine learning program and a use state or non-use state is determined from the facility use sensing signal.

In the disaster housing, further comprising; a shock detector for detecting the impact of the disaster housing, wherein the control panel configures the housing state information based on the shock sensing signal from the shock detector and transmits the configured housing state information to the network. transmitted through

In addition, the disaster housing utilization method according to an aspect of the present invention comprises the steps of: receiving and storing, by the disaster housing management platform, use state information from the plurality of disaster houses; receiving, by the disaster housing management platform, a disaster housing installation request capable of specifying the installation location and the number of installed housing; and determining, by the disaster housing management platform, the candidate disaster housing to be moved to the installation location according to the usage rate according to the usage state of the plurality of disaster houses and the distance between the plurality of disaster houses and the installation location. .

In the disaster housing utilization method, after receiving the disaster housing installation request, the disaster housing management platform checks the available mileage of the member who requested the disaster housing installation, and the available mileage is the mileage required for the installation request It further includes; receiving a mileage donation from other members if less.

In the disaster housing utilization method, the disaster housing management platform determining the utilization rate of a plurality of housing clusters corresponding to the plurality of disaster housing according to the use state information received from the plurality of disaster housing; And predicting, by the disaster housing management platform, the additional demand for disaster housing in each housing cluster according to the usage rate of the plurality of housing clusters; further comprising, wherein the housing cluster is composed of a combination of a plurality of disaster housing and It is used as accommodation for registered members.

In the above-described disaster housing utilization method, after the step of determining the disaster housing, the disaster housing management platform receives the housing state information according to the shock detection of the shock sensor provided from the plurality of disaster houses, and the received housing storing state information; and outputting, by the disaster housing management platform, a management alarm message through a network according to one or more housing state information stored and mapped to each of a plurality of disaster houses; further comprising, wherein the housing state information is in the movement of the disaster housing Received when more than a specified threshold shock occurs.

In the above-mentioned disaster housing utilization method, after the step of receiving the mileage donation from other members, the disaster housing management platform uses the available mileage of the member who requested the disaster housing installation and the donation mileage of other members as the disaster housing The step of calculating the cost required according to the installation of the; further includes.

In addition, the disaster housing utilization system according to an aspect of the present invention includes the plurality of disaster housing; and receiving and storing usage state information from each of the plurality of disaster houses through a network, receiving a disaster housing installation request capable of specifying the installation location and the number of installed houses through the network, and the utilization rate according to the use status of the plurality of disaster houses and a disaster housing management platform that determines a candidate disaster housing to be moved to the installation location according to the distance between the plurality of disaster houses and the installation location.

In the disaster housing utilization system, the disaster housing management platform determines the utilization rate of a plurality of housing clusters corresponding to the plurality of disaster houses according to the use state information received from the plurality of disaster houses, and the plurality of houses The additional demand for disaster housing in each housing cluster is predicted according to the cluster usage rate, and the housing cluster is composed of a combination of a plurality of disaster housing and is used as a lodging for registered members.

In the disaster housing utilization system, the disaster housing management platform receives the housing state information according to the shock detection of the shock sensor provided from the plurality of disaster houses, stores the received housing state information, and stores the received housing state information in each of the plurality of disaster houses. A management alarm message is output through the network according to the mapped and stored one or more house state information, and the house state information is information received when a specified threshold shock or more occurs in the movement of the disaster house.

Disaster housing and disaster housing utilization method and system according to the present invention as described above have an effect that can be used normally and can supply emergency housing stockpiled according to normal use in an emergency disaster situation.

In addition, the disaster housing and disaster housing utilization method and system according to the present invention as described above are determined using various sensors equipped with the use state of the disaster housing in normal times, and the use state and disaster site of a plurality of disaster housing in case of an emergency disaster. It has the effect of selecting candidates for disaster housing to be supplied to disaster-stricken areas according to the distance from the city.

In addition, the disaster housing and disaster housing utilization method and system according to the present invention as described above have the effect of granting mileage according to the usual use and granting the right to use the disaster housing according to the mileage granted when a disaster occurs. .

The effects obtainable in the present invention are not limited to the above-mentioned effects, and other effects not mentioned may be clearly understood by those of ordinary skill in the art from the following description. will be.

1 is a view showing an example of a house for disaster preparedness constructed in accordance with the present invention.
2 is a view showing an example of a disaster housing utilization system configured according to the present invention.
3 is a diagram illustrating an exemplary configuration included in the disaster home and capable of electronic control and monitoring.
4 is a diagram illustrating an exemplary block diagram of a disaster housing management platform.
5 is a diagram illustrating a main control flow for disaster housing management.

The above-described objects, features and advantages will become more clear through the detailed description described below in detail with reference to the accompanying drawings, and accordingly, those of ordinary skill in the art to which the present invention pertains can understand the technical spirit of the present invention. can be easily implemented. In addition, in the description of the present invention, when it is determined that a detailed description of a known technology related to the present invention may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted. Hereinafter, preferred embodiments according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a view showing an example of a house for disaster preparedness constructed in accordance with the present invention.

Figure 1 (b) shows an example of a single disaster housing 100, Figure 1 (a) shows an example of a housing cluster 10 consisting of a combination of several disaster housing (100).

As can be seen from FIG. 1 , the disaster home 100 is a movable house as a modular type house that can be separated and combined with other disaster houses 100 . The disaster housing 100 has a rectangular parallelepiped shape (eg, a container shape) and is mounted on a trailer and is configured to be movable and installed at a specific location. The disaster housing 100 may be used as a temporary residence for disaster victims in a disaster-prone area according to movement and installation.

The disaster housing 100 may be fixed to another disaster housing 100 to constitute a housing cluster 10 . The housing cluster 10 is configured to include a plurality of disaster housing 100 and may be fixedly installed at a specific location. The housing cluster 10 (the disaster housing 100 of) is available as accommodation (eg, a hotel, etc.) for members registered in the disaster housing utilization system according to the present invention.

As described above, the disaster house 100 according to the present invention is designed as a modular type of a rectangular parallelepiped shape and can be combined and separated with other disaster houses 100, and is a movable disaster house that can be installed in a trailer or the like and installed in another location.

The housing cluster 10 may be dispersedly installed in regions across the country, and may be used as accommodation facilities (eg, hotel facilities) when a member or the like is on a business trip. As such, in normal times, the housing cluster 10 including the disaster housing 100 can be used as accommodation for registered members, etc., and disaster housing ( 100) has been installed and can be used as a facility to accommodate emergency victims.

2 is a view showing an example of a disaster housing utilization system configured according to the present invention.

According to FIG. 2, the disaster housing utilization system includes a plurality of disaster housing 100, one or more member terminals 300, a management terminal 400, and a disaster housing management platform 200, and disaster housing 100, member terminals ( 300), the management terminal 400, and the disaster housing management platform 200 may be connected to a network to transmit and receive various data.

2, a brief look at the disaster housing utilization system, the disaster housing 100 is a house that can be used as a temporary residence for disaster victims by moving to the disaster area in the event of a disaster, and can be used as a lodging for registered members of the disaster housing utilization system in normal times. Disaster housing 100 may be combined with other disaster housing 100 to form a housing cluster 10 . The housing cluster 10 may be installed in specific regions of the country and used as a lodging for business trips.

The disaster housing 100 is configured to communicate with the disaster housing management platform 200 through a network, and may transmit various types of information. For example, the disaster housing 100 may transmit use state information or housing state information determined through an internally provided sensor or the like to the disaster housing management platform 200 through a network. Each disaster housing 100 in the housing cluster 10 individually transmits the use state information or housing state information to the disaster housing management platform 200 through the network, or the use state through the representative disaster housing 100 or other devices. Information or housing condition information may be transmitted to the disaster housing management platform 200 through a network.

The disaster housing management platform 200 is a platform for managing the disaster housing 100 . The disaster housing management platform 200 is configured to receive and store various information from the disaster housing 100 and process various requests from the member terminal 300 . In particular, the disaster housing management platform 200 receives a disaster housing installation request from the member terminal 300 through the network, and determines the candidate disaster housing 100 according to the usage status of the disaster housing 100 connected through the network. is configured to

The disaster housing management platform 200 may have various hardware configurations. For example, the disaster housing management platform 200 may be configured as a single server or a plurality of servers connected to a dedicated or public network. Alternatively, the disaster housing management platform 200 may be configured as a cloud server.

The member terminal 300 is a terminal used by a member registered in the disaster housing utilization system. The member terminal 300 may be, for example, a personal computer, a smart phone, a tablet PC, a notebook computer, or the like. The member may transmit various requests to the disaster housing management platform 200 through the member terminal 300 .

The management terminal 400 is a terminal used by the manager of the disaster housing utilization system. The management terminal 400 may be, for example, a personal computer, a smart phone, a tablet PC, a notebook computer, and the like. The management terminal 400 may receive and output various management alarm messages or status messages of the disaster housing 100 through the disaster housing management platform 200 .

The network may transmit/receive various data between the disaster housing 100 , the member terminal 300 and the disaster housing management platform 200 . The network may include a wired/wireless communication network provided by a mobile communication service provider or may include the Internet. At least the network can transmit and receive IP packets according to the Internet protocol, including the Internet.

3 is a diagram illustrating an exemplary configuration included in the disaster housing 100 and capable of electronic control and monitoring.

According to FIG. 3 , the disaster home 100 includes a door sensor 110 , a motion detection sensor 120 , an electricity usage sensor 130 , a facility usage detection sensor 140 , and an impact sensor 150 , and a door sensor ( 110), a motion detection sensor 120, an electricity usage sensor 130, a facility usage detection sensor 140, and a control panel 190 connected to the impact sensor 150 to learn the status according to various sensing signals and determine the status ) is included. Depending on the design example, disaster housing 100 may omit some blocks or have a different block arrangement.

Referring to the configuration for electronically controlling and monitoring the disaster housing 100 through FIG. 3 , the disaster housing 100 includes a plurality of sensors that can be used to determine the use state of the disaster housing 100 . The disaster house 100 is installed in the door lock of the door to sense the opening and closing of the door of the disaster house 100, and it is installed around the door or in the passage in the disaster house 100 to detect the movement of the user. It includes a detection sensor 120 . The motion sensor 120 may sense the user's motion using signals such as ultrasonic waves and infrared rays.

In addition, the disaster housing 100 includes an electricity consumption sensor 130 (eg, a digital meter, etc.) for monitoring electricity consumption according to the use of electrical equipment in the disaster housing 100 and within the disaster housing 100 . It includes a facility use detection sensor 140 for sensing whether facilities such as an air conditioner, an electric heater, and a heat exchanger are used. The facility use detection sensor 140 may be provided for each facility and may be configured to detect a current of a wire connected to each facility.

In addition, the disaster housing 100 further includes an impact sensor 150 for detecting the impact. The impact sensor 150 may be an acceleration sensor capable of detecting an impact applied to the disaster housing 100 .

The disaster home 100 includes a control panel 190 (control panel) that can determine the state of the disaster home 100 based on sensing signals from various sensors, and the control panel 190 includes a plurality of sensors (doors). Receive the sensing signals from the sensor 110, the motion detection sensor 120, the electricity usage sensor 130, and the facility usage detection sensor 140) The use state of the house 100 is automatically determined and the use state information including the determined use state is transmitted to the disaster housing management platform 200 through the network.

The control panel 190 includes a GPS module 191, a communication module 195, a storage medium 193 and a processor 197, and may further include a display or LED, a speaker, etc. for outputting various statuses. can

The GPS module 191 of the control panel 190 includes a GPS sensor and receives a GPS signal. The GPS module 191 may include an antenna, a GPS sensing chipset, and the like to receive a GPS signal from a GPS satellite and output GPS data corresponding to the GPS signal. The GPS module 191 may output location data for specifying the current location of the disaster home or data (analog or digital data) representing a GPS signal as GPS data. According to a design example, the GPS module 191 may be installed outside the control panel 190 to output GPS data to the control panel 190 .

The communication module 195 is connected to a network to transmit and receive data. The communication module 195 may transmit and receive communication packets including hardware logic such as a communication chipset for connection to Wi-Fi, a wired LAN, a mobile communication network, and the like. At least, the communication module 195 may output communication packets of various types of information generated by the processor 197 to the disaster housing management platform 200 through the network.

The storage medium 193 stores various data and programs. The storage medium 193 stores various data and programs including a volatile memory, a non-volatile memory, and/or a hard disk. The storage medium 193 stores a program executed by the processor 197 of the disaster housing 100 . For example, the storage medium 193 includes a control program for monitoring and controlling the disaster housing 100 and further includes a machine learning program performed by the control program. The control program and the machine learning program may be executed in the processor 197 to recognize various controls and the state of the disaster home 100 .

The processor 197 controls the control panel 190 and further the disaster home 100 . The processor 197 may include one or more execution units for executing the instructions of the program, and may control the disaster home 100 and the control panel 190 through the program by loading the program in the storage medium 193 . The processor 197 may represent or include a CPU, an MPU, a central processing unit, a microcomputer, and the like.

For example, by the processor 197 executing the control program, the control panel 190 uses the machine learning program to learn the use state and non-use state of the disaster house 100, or a learning result using other disaster houses can be installed. The control panel 190 (processor 197 of) provides a door sensing signal from the door sensor 110 , a motion sensing signal from the motion detection sensor 120 , an electricity usage sensing signal from the electricity usage sensor 130 , and equipment. A usage state (eg, use according to a registered member's accommodation, etc.) or an emergency state (eg, an administrator, access by a cleaner) is provided to the machine learning program, and the control panel 190 (processor 197 of) can learn the machine learning program. Determination of the use state or non-use state used for learning may be made by the manager of the disaster housing 100 or the housing cluster 10 of the disaster housing 100 .

Accordingly, the machine learning program may learn the use or non-use state of the user (member user) from inputs of various types of sensors. Each of the control panels 190 of the disaster housing 100 in the housing cluster 10 learns a machine learning program, or a machine learning program in the control panel 190 of a specific one disaster housing 100 in the housing cluster 10 can be learned and distributed to the control panel 190 of the other disaster housing 100 in the same cluster 10 .

Then, through the processor 197 executing the control program, the control panel 190 receives the door sensing signal from the door sensor 110 , the motion sensing signal from the motion detection sensor 120 , and the electricity consumption sensor 130 . The electricity usage sensing signal and the facility usage sensing signal from the facility usage detection sensor 140 are input to the machine learning program, and the use state of the disaster house 100 according to various sensor inputs through the machine learning program is used or non-used. can be decided with

The control panel 190 (processor 197 of) may configure the use state information indicating the use state or the non-use state and transmit it to the disaster housing management platform 200 through the communication module 195 . The use state information includes the ID of the disaster housing 100 and state data indicating the use or non-use state, and may further include current location data (location determined through the GPS module 191) of the disaster housing 100. have. Also, the use state information may be information indicating access for management purposes or access for cleaning purposes. This usage status information can be utilized for the management of disaster housing.

In addition, the control panel 190 (processor 197 of) receives the shock sensing signal from the shock detector 150, and configures the housing state information based on the shock sensing signal, and the disaster housing management platform 200 through the network. can be output as The control panel 190 (processor 197 of the control panel 190) receives an impact of a certain level or higher during movement when the impact value of the impact sensing signal is greater than or equal to a specified threshold and the location is changing (moving) through the GPS module 191. The home state information indicating the sensed may be configured and transmitted to the disaster housing management platform 200 . The housing state information may include the sensed shock value data, the ID of the disaster housing 100, and the sensed position data (the shock detection position through the GPS module 191).

Disaster home 100 may further include other rechargeable batteries. The rechargeable battery is configured to supply power to the control panel 190, various sensors, etc. inside when power supply from the outside of the disaster home 100 is impossible.

4 is a diagram illustrating an exemplary block diagram of the disaster housing management platform 200 .

According to FIG. 4 , the disaster housing management platform 200 includes a communication unit 210 , a storage unit 230 , a connection unit 250 , and a control unit 270 . The block diagram of Fig. 4 is a functional block diagram. The disaster housing management platform 200 of FIG. 4 may have various physical configurations for performing each function.

Referring to each functional block through FIG. 4 , the communication unit 210 transmits and receives data through a network. The communication unit 210 may transmit/receive various data including a communication chipset for connection to a wireless LAN, a wired LAN, an optical LAN, or the like.

The storage unit 230 stores various data. The storage unit 230 may store various data in a DB or the like including a mass storage medium such as a memory and/or a hard disk. The storage unit 230 may store a member DB, a disaster housing information DB, a housing cluster DB, a disaster housing installation project DB, and the like.

The member DB includes one or more member items, and each member item includes a member ID, password, available lodging vouchers (number or blocks), available mileage, and the like. Members corresponding to the member items of the member DB may be group members such as government, corporations, schools, etc., general individual members, or special members of disaster-related groups.

The disaster housing information DB stores information of disaster houses 100 that are normally installed throughout the country and used as accommodation facilities. The disaster housing information DB includes one or more disaster housing information items, and the disaster housing information item includes a disaster housing ID and may include a housing cluster ID or an installation project ID capable of specifying a currently installed location. The disaster housing information item may include one or more use state information and one or more housing state information, and may further include current location information.

The stored usage status information may include status data indicating a usage or non-use status by a general user (member), and may further include reception time and location data. The stored house state information may include shock value data and may further include reception time and location data.

The housing cluster DB stores information for specifying and managing the housing cluster 10 . The housing cluster DB includes one or more housing cluster items, and the housing cluster item includes the housing cluster ID, the installation location of the housing cluster, and the disaster housing ID of one or more disaster houses 100 constituting the housing cluster 10, and further It may further include a past usage rate and a current usage rate of the housing cluster 10 .

The past usage rate may represent the past monthly average usage rate of all disaster homes 100 in the housing cluster 10, and the current usage rate may represent the average usage rate of all disaster homes 100 from the present to the previous month before (or the current month). have.

The housing cluster item further stores information about one or more disaster experience programs that are otherwise available. Information of the disaster experience program may be output when a member makes a reservation for accommodation for a specific housing cluster 10, and thereafter, the member may be provided with a disaster experience program. The disaster experience program may be provided to the member in connection with accommodation, and additional mileage accumulation may be provided to the member when receiving the disaster experience program according to the design example.

The disaster housing installation project DB includes one or more installation project items that can specify the installation project of the disaster housing 100 . The installation project item includes the installation project ID, the member ID that requested the installation, the progress of the installation project, the ID of the disaster houses 100 or housing clusters 10 assigned to the installation project, the installation request time, the installation location and the number of installed houses. may include

The storage unit 230 stores the disaster housing management program performed by the other control unit 270 .

The connection unit 250 transmits and receives various data between blocks in the disaster housing management platform 200 . The connection unit 250 may transmit/receive various data including one or more of a parallel bus, a serial bus, Ethernet, Wi-Fi, and the like.

The control unit 270 controls the disaster housing management platform 200 . The control unit 270 may control the disaster housing management platform 200 through the disaster housing management program of the storage unit 230 and various DBs. The control unit 270 may include one or more of a CPU, an MPU, a central processing unit, a microcomputer, a processor, and the like to execute an instruction code of a program.

Various control flows performed in the control unit 270 will be described in more detail with reference to FIG. 5 .

5 is a diagram illustrating a main control flow for disaster housing management.

The control flow of FIG. 5 is performed by the disaster housing utilization system, and the disaster housing management platform 200 (control unit 270 of), disaster housing 100 (control panel 190 of), member terminal 300 and This is accomplished through transmission and reception of various data with the management terminal 400 .

First, the disaster housing utilization system sets various information and data for disaster housing utilization (S101). The disaster housing management platform 200 may receive member registration from the member terminal 300 through the network, and store a member item including a member ID capable of specifying a registered member in the member DB. In addition, the disaster housing information DB and housing cluster DB that can be used as a member's lodging facility in normal times and can be used as a temporary residence for disaster victims in case of a disaster are formed.

Thereafter, the registered member can check various information such as the installation location of the housing cluster DB and the number of installed houses, reserve the lodging (S103), and use it on the reserved date (S105). As the member's use is completed, the using member may acquire mileage according to the use and accumulate (accumulate) the mileage that can be used for member items.

In addition, each of the disaster housing 100 (control panel 190 of) has several sensors (door sensor 110, motion detection sensor 120) according to a specified cycle (daily, 3 times a day, hourly, etc.) , electricity usage sensor 130, facility usage detection sensor 140, etc.) determine the usage status from the sensing signal from the machine learning program learned in advance, and transmit information indicating the determined usage status through the network to the disaster housing management platform ( 200) and the disaster housing management platform 200 may store the disaster housing information item having the ID of the disaster housing 100 that transmits the usage state information of the storage unit 230 .

Through this process, the disaster housing management platform 200 may check the usage status of the disaster housing 100 (including the housing cluster 10) by date, month, and year.

Following the member's use, as the usage rate determination cycle (eg, the last day of each month, the last day of each quarter, etc.) arrives, the disaster housing management platform 200 provides various usage status information received from each of the disaster housing 100 . According to the determination of the use rate of the disaster housing 100 (S107).

For example, the disaster housing management platform 200 may determine the monthly usage rate of each disaster housing 100 by using information on one or more usage statuses of the disaster housing information item of the disaster housing information DB. Alternatively, the disaster housing management platform 200 may determine the usage rate of each of the multiple housing clusters 10 by using one or more usage status information of the disaster housing information item of the disaster housing information DB. The disaster housing management platform 200 may determine the utilization rate of each housing cluster 10 as an average of the use rate (usage rate calculated according to the use state information) of the disaster housing 100 included in each housing cluster 10 . have.

Thereafter, the disaster housing management platform 200 may predict the additional demand for the disaster housing 100 in each housing cluster 10 according to the usage rate of several housing clusters 10 ( S109 ). In addition, the disaster housing management platform 200 detects or estimates management errors by comparing the use state information (use state information automatically generated through a machine learning program) of the disaster housing 100 and the use state registered for management can do.

As a disaster situation occurs in a specific area, the disaster housing management platform 200 may receive a disaster housing installation request from the member terminal 300 of the member who has logged in through the network (S111). The disaster housing installation request may include the installation location and the number of houses of the disaster housing 100 to be installed.

The disaster housing management platform 200 checks the available mileage of the member who requested the installation in the member item of the member DB, and compares the available mileage with the required mileage required for the installation request. The required mileage may be calculated according to the number of installed houses and furthermore, the installation location.

The disaster housing management platform 200 may receive a mileage donation from other members through the network when the required mileage required for the installation request is less than the member's available mileage (S113).

When the required mileage is secured, the disaster housing management platform 200 creates a new installation project item in the disaster housing installation project DB, and the installation project ID, installation request member ID, installation request time, installation location in the created installation project item and the number of installed houses, and the progress state can be set as the start state.

As a new installation project item is created, the disaster housing management platform 200 outputs a notification message of the progress state to the manager terminal, etc. You can check whether the transfer and installation of .

Thereafter, the disaster housing management platform 200 determines the candidate disaster houses 100 to be moved to the installation location according to the creation of a new installation project item (S115). The disaster housing management platform 200 is a candidate disaster housing 100 to be moved to the installation location according to the usage rate according to the usage state of the plurality of disaster housing 100 and the distance between the current location and the installation location of each disaster housing 100. can decide Disaster housing management platform 200 gives a high weight to be selected as a candidate to the disaster housing 100 with a low usage rate, and gives a high weight to be selected as a candidate to the disaster housing 100 that is close to the disaster housing that received a high score. (100) can be determined as the candidate disaster housing (100).

Preferably, the disaster housing management platform 200 uses the distance between the installation location of the housing cluster items of the housing cluster DB and the installation location of the project and the use rate (average use rate) of the housing cluster item in each housing cluster item. Candidate disaster housing 100 may be selected. The disaster housing management platform 200 may determine one or more candidate disaster housing 100 for each housing cluster 10 according to a score calculated according to the distance and usage rate in each housing cluster item.

In addition, the disaster housing management platform 200 is preferably configured so that the number of disaster housing 100 remaining after selection of the candidate disaster housing 100 for each cluster can be covered by more than the average usage rate of the housing cluster 10. . For example, if there are 10 disaster houses 100 in a specific cluster, and the average usage rate is 40%, the disaster housing management platform 200 sets up to 6 (60%) disaster houses 100 that can be moved. By judging, it is possible to determine the candidate disaster housing 100 within 6 or less.

According to the determination of the candidate disaster housing 100, the ID of each of the candidate disaster housing 100, furthermore, the housing cluster ID is stored in the installation project item.

As the candidate disaster housing 100 is determined, the candidate disaster housing 100 may be separated from the housing cluster 10 and mounted on a trailer to move to a disaster installation location. The control panel 190 of the disaster house 100 detects the movement of the disaster house 100 through the GPS module 191, and when an impact greater than a specified threshold (level) is detected during movement, configures housing state information indicating this and disaster It transmits to the housing management platform 200 .

The disaster housing management platform 200 receives the housing state information according to the shock detection of the disaster housing 100 through the network, and includes the received housing state information or disaster housing information corresponding to the recognizable ID of the disaster housing 100 It is stored in the disaster housing information item of the DB (S117). Such housing state information is received at least when a specified threshold shock or more occurs in the movement of the disaster housing 100 .

The disaster housing management platform 200 constructs a management alarm message according to one or more house state information mapped and stored in each of the disaster houses 100 and outputs it to the manager terminal through the network (S119). Accordingly, the manager of the manager terminal can check the impact on the disaster housing 100 that occurred during movement, and can perform measures such as inspection, preventive maintenance, and replacement of parts accordingly.

As the disaster housing 100 moves to the disaster site, the disaster housing 100 requested to be installed at the installation location is installed, and the necessary facilities (electricity, water and sewerage, etc.) are introduced, and then the disaster residents can use it.

As the disaster situation is over, the installed disaster housing 100 can be moved to the original housing cluster 10 and reinstalled, and the disaster housing management platform 200 is the available mileage of the member who requested the disaster housing installation and the The cost required for the installation of the disaster housing 100 is settled with the donation mileage (S121).

The disaster housing management platform 200 may deduct the usable mileage of the member requesting installation from the member DB and store the available mileage of other members by deducting the donation mileage.

Through such a control flow, it is possible to use the disaster housing 100 as a general accommodation in normal times, so that it is possible to reserve the disaster housing 100 in various areas in advance. By selecting the housing 100, it is possible to effectively support the disaster housing 100 to the disaster site, and to enable maintenance and repair according to the movement characteristics of the disaster housing 100.

The present invention described above, various substitutions, modifications and changes are possible within the scope without departing from the technical spirit of the present invention for those of ordinary skill in the art to which the present invention pertains. It is not limited by the drawings.

10 : housing cluster
100: disaster housing
110: door sensor 120: motion detection sensor
130: electricity usage sensor 140: facility usage detection sensor
150: shock detector
190: control panel
191: GPS module 193: storage medium
195: communication module 197: processor
200: disaster housing management platform
210: communication unit 230: storage unit
250: connection unit 270: control unit
300: member terminal
400: management terminal

Claims (11)

As disaster housing,
A plurality of sensors available for determining the use state of the disaster housing; and
Receives the sensing signals from the plurality of sensors, automatically determines the use state of the disaster house from the sensed signals received using the learned machine learning program, and transmits the use state information including the determined use state through the network control panel; including;
The disaster housing is a mobile disaster housing,
Further comprising; an impact sensor for detecting the impact of the disaster housing;
The control panel further includes a GPS module for receiving a GPS signal from a GPS satellite,
The control panel detects the movement of the disaster house through the GPS module, and when the shock sensor provided in the disaster house detects an impact greater than a specified threshold during movement, configures the house state information and transmits it through the network,
The house state information includes the sensed shock value data and the ID of the disaster house, and the location data sensed through the GPS module,
disaster housing. According to claim 1,
The plurality of sensors include a door sensor for sensing opening/closing of a door, a motion sensor for detecting a user's movement, an electricity usage sensor for monitoring electricity usage, and a facility usage detection sensor for detecting the use of facilities provided in the disaster house. including,
The control panel maps to inputs of a door sensing signal from the door sensor, a motion sensing signal from the motion sensor, an electricity usage sensing signal from the electricity usage sensor, and a facility usage sensing signal from the facility usage detection sensor. The used state or non-use state is provided to the machine learning program to learn the machine learning program, and the use state or non-use state from the door sensing signal, the motion sensing signal, the electricity usage sensing signal and the facility use sensing signal received thereafter. to determine the state of use,
disaster housing. delete As a method of utilizing disaster housing,
Disaster housing management platform receiving and storing the use state information from a plurality of disaster housing;
receiving, by the disaster housing management platform, a disaster housing installation request capable of specifying the installation location and the number of installed housing; and
Determining, by the disaster housing management platform, the candidate disaster housing to be moved to the installation location according to the usage rate according to the use state of the plurality of disaster housing and the distance between the plurality of disaster housing and the installation location;
After the step of determining the disaster housing,
When the control panel of the disaster house detects the movement of the disaster house through the GPS module and the shock sensor provided in the disaster house detects an impact greater than a specified threshold during the movement, the housing condition information is configured and transmitted to the disaster house management platform to do;
receiving, by the disaster housing management platform, the housing state information and storing the received housing state information; and
The method further includes; outputting, by the disaster housing management platform, a management alarm message through a network according to one or more housing state information stored and mapped to each of a plurality of disaster houses;
The house state information includes the detected shock value data and the ID of the disaster house, and the location data sensed through the GPS module,
How to use disaster housing. 5. The method of claim 4,
After receiving the disaster housing installation request,
The step of receiving, by the disaster housing management platform, the mileage donation from other members when the available mileage of the member who requested the disaster housing installation is less than the available mileage is less than the mileage required for the installation request;
How to use disaster housing. 5. The method of claim 4,
determining, by the disaster housing management platform, the utilization rate of a plurality of housing clusters corresponding to the plurality of disaster houses according to the use state information received from the plurality of disaster houses; and
Predicting, by the disaster housing management platform, the additional demand for disaster housing in each housing cluster according to the usage rate of the plurality of housing clusters; further comprising,
The housing cluster is composed of a combination of a plurality of disaster housing and is used as a lodging for registered members,
How to use disaster housing. delete 6. The method of claim 5,
After receiving the mileage donation from other members,
Comprising, by the disaster housing management platform, the cost required for the installation of the disaster housing with the available mileage of the member who requested the disaster housing installation and the donation mileage of other members;
How to use disaster housing. A plurality of disaster housing according to claim 1; and
Receive and store usage status information from each of the plurality of disaster houses through a network, receive a disaster housing installation request that can specify the installation location and the number of installed houses through the network, and the utilization rate according to the use status of the plurality of disaster houses A disaster housing management platform that determines a candidate disaster housing to be moved to the installation location according to the distance between the plurality of disaster houses and the installation location; including,
Disaster housing utilization system. 10. The method of claim 9,
The disaster housing management platform determines the utilization rate of a plurality of housing clusters corresponding to the plurality of disaster houses according to the use state information received from the plurality of disaster houses, and each housing cluster according to the utilization rates of the plurality of housing clusters Predicting the additional demand for disaster housing in
The housing cluster is composed of a combination of a plurality of disaster housing and is used as a lodging for registered members,
Disaster housing utilization system. delete

Images