KR101504960B1 - The method for managing emergency state based on management server related to distributer and management server for managing emergency state - Google Patents

Abstract

Disclosed are a method for managing an emergency situation based on a management server cooperating with a distributor and a management server for managing the emergency state. The method for managing the emergency situation based on the management server includes the steps of: determining the occurrence of the emergency situation in a building based on information collected from the distributor in the building by the management server; creating information of the emergency situation and transmitting the information of the emergency situation to a plurality of beacons installed in the building by the management server when the emergency situation occurs; and transmitting the information of the emergency situation to a user device by the beacons; and transmitting information of an emergency propagation created based on the information of the emergency situation to another user device by the user device.

Description

[0001] The present invention relates to an emergency situation management method based on a control server linked with a power distribution device, and a control server for managing an emergency situation,

The present invention relates to a control server-based emergency situation management method and a control server for emergency situation management linked to a power distribution device, and more particularly, to a control server for controlling an emergency situation based on a control server and a beacon, And a control server for emergency situation management.

Recently, the government is concentrating on the policy for the safety of the people at the national level. In addition to the existing disaster prevention topics that have been developed around the existing natural disaster prevention areas, institutional improvement related to the life safety areas such as pedestrian safety, traffic accident safety, and school life safety is needed.

The change in the type of buildings makes it difficult to respond to natural disasters such as fires or natural disasters such as earthquakes, and evacuates the self - power, which is causing concern for large - scale casualties. In October 2010, a fire broke out in a 38-storey residential office building in Haeundae-gu, Busan, and five people were injured. As a result, the Ministry of Land, Transport and Maritime Affairs has revised the "Building Act" to strengthen the fire safety standards of high-rise buildings, establishing evacuation areas such as safe-zone safety areas on buildings over 30 stories, Respectively.

In addition, the National Emergency Management Agency has revised the Fire Service Installation and Safety Management Law to strengthen the standards for firefighting facilities to reduce large-scale casualties and disasters in the event of a disaster, Standards and eligibility criteria.

Recently, due to the development of wireless communication, the majority of people carry wireless communication devices. Based on these wireless communication devices, the damage can be minimized in case of human disaster and natural disaster.

Korean Registered Patent No. 10-0803097 [Title: Disaster Prevention System for Earthquake Disaster]

One aspect of the present invention provides an emergency situation management method based on power distribution equipment.

Another aspect of the present invention provides a control server for emergency situation management.

According to one aspect of the present invention, an emergency situation management method is a control server-based emergency situation management method linked with a distribution device, wherein the control server determines whether an emergency situation occurs in a building based on information collected from a distribution device in the building And transmitting the emergency situation information to a plurality of beacons that are installed in the building and transmit predetermined general situation information when the emergency situation occurs, the method comprising: transmitting a plurality of beacons from the control server to the emergency situation information And transmitting the emergency content information to the adjacent user device. When the user device receives the emergency information generated based on the emergency information, the user device displays the emergency content information to the user. In addition, Transmitting emergency state information to the user equipment in a beacon manner, Through a beacon broadcasting its own status, to the manager who accesses him / herself for an abnormal situation response or recovery, so that his / her status can be broadcasted to the manager device so as to be confirmed before the close.

Meanwhile, the control server judges the occurrence position of the emergency situation in the building, and considers the moving distance for escape of the people in the building, sequentially calculates the emergency situation information Can be transmitted.

The emergency information includes information related to the user equipment, the user equipment related information includes telephone number information of the user equipment, and the control server interlocks with the first external server based on the conversion number information Wherein the control server determines whether or not the user has escaped from the building based on an escape detection beacon located at an exit of the plurality of beacons, The location information of the user equipment can be transmitted to the second external server.

Also, the beacon includes a first RF unit and a second RF unit, the first RF unit is used for transmission of the emergency situation information, the second RF unit is used for transmission of general situation information, The general situation information may include building guidance information and store guidance information as information transmitted in a general situation other than the emergency situation.

Also, the emergency information includes the location information of the user equipment, and the control server judges whether there is a person on a specific location in the building based on the location information, The area can be determined.

When the emergency situation occurs, the control server supplies electric power having a value smaller than the general situation power value to the lamp corresponding to the escape route, supplies the general situation power value to the lamp corresponding to the exit, The power value may be the magnitude of the power supplied in the general situation.

In a control server for managing an emergency situation in cooperation with a power distribution apparatus according to another aspect of the present invention, the control server includes a processor, and the processor is directly collected from the power distribution apparatus in the building, The control unit determines whether an emergency situation has occurred in the building based on indirectly collected information through the user apparatus that has received the distribution device status information broadcasted through the beacon disposed in the beacon. And transmitting the beacon information to the adjacent user apparatus when the beacon receives the emergency situation information, changing the transmission contents into the emergency situation information, and transmitting the emergency situation information to the adjacent user apparatus, The user equipment receives the emergency radio wave information generated based on the emergency situation information In addition, the surface must appear to the user is the own beacon is arranged to transmit the emergency information to the other user devices in the beacon system.

Meanwhile, the processor determines the occurrence position of the emergency situation in the building, sequentially calculates the emergency situation information at each time interval in each building in consideration of a moving distance for escape of people in the building Lt; / RTI >

The emergency information includes information related to the user equipment, the information related to the user equipment includes telephone number information of the user equipment, and the processor, in cooperation with the first external server, Wherein the processor acquires personal information of a user of the user device and the processor determines whether the user has escaped from the building based on an escape detection beacon located at an exit of the plurality of beacons, The location information of the user device can be transmitted to the second external server.

Also, the beacon includes a first RF unit and a second RF unit, the first RF unit is used for transmission of the emergency situation information, the second RF unit is used for transmission of general situation information, The general situation information may include building guidance information and store guidance information as information transmitted in a general situation other than the emergency situation.

In addition, the emergency propagation information includes the location information of the user equipment, and the processor determines whether there is a person on a specific location in the building based on the location information, Can be determined.

When the emergency situation occurs, the control server supplies electric power having a value smaller than the general situation power value to the lamp corresponding to the escape route, supplies the general situation power value to the lamp corresponding to the exit, The power value may be the magnitude of the power supplied in the general situation.

According to an aspect of the present invention, emergency situation information is propagated to a user device using a beacon and a control server interlocked with a power distribution device, thereby allowing a user of the user device to quickly cope with an emergency situation and reduce casualties. In addition to this, the control server can cut off the power supplied to the power distribution device, thereby reducing the secondary damage caused by electricity.

1 is a conceptual diagram showing an emergency control system according to an embodiment of the present invention.
2 is a conceptual diagram illustrating an emergency situation releasing operation according to an embodiment of the present invention.
3 is a conceptual diagram showing the setting of a user apparatus on an emergency management system in an emergency situation according to an embodiment of the present invention.
4 is a conceptual diagram illustrating the operation of a control server on an emergency management system in an emergency situation according to an embodiment of the present invention.
5 is a conceptual diagram illustrating an operation of a control server according to an embodiment of the present invention.
6 is a conceptual diagram illustrating grouping of user devices according to an embodiment of the present invention.
7 is a conceptual diagram illustrating a method of generating emergency propagation information of a master user equipment according to an embodiment of the present invention.
8 is a conceptual diagram illustrating an operation of a control server according to an embodiment of the present invention.
9 is a conceptual diagram illustrating an operation of a control server according to an embodiment of the present invention.
10 is a block diagram showing a control server according to an embodiment of the present invention.
11 is a block diagram illustrating a user device according to an embodiment of the present invention.

The following detailed description of the invention refers to the accompanying drawings, which illustrate, by way of illustration, specific embodiments in which the invention may be practiced. These embodiments are described in sufficient detail to enable those skilled in the art to practice the invention. It should be understood that the various embodiments of the present invention are different, but need not be mutually exclusive. For example, certain features, structures, and characteristics described herein may be implemented in other embodiments without departing from the spirit and scope of the invention in connection with an embodiment. It is also to be understood that the position or arrangement of the individual components within each disclosed embodiment may be varied without departing from the spirit and scope of the invention. The following detailed description is, therefore, not to be taken in a limiting sense, and the scope of the present invention is to be limited only by the appended claims, along with the full scope of equivalents to which such claims are entitled, if properly explained. In the drawings, like reference numerals refer to the same or similar functions throughout the several views.

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

The emergency control system according to the embodiment of the present invention is implemented not only in a building but also in various places, so that emergency situations (human injury, natural disaster, Disaster, etc.).

1 is a conceptual diagram showing an emergency control system according to an embodiment of the present invention.

Referring to FIG. 1, an emergency management system may be implemented based on a control server 100, a beacon 140, a power distribution device 120, and a user device 160. Here, the power distribution device 120 may include one of a power transmission device, a distribution panel, an electric motor, and a power device.

The control server 100 may be implemented to perform an emergency situation determination and control. The control server 100 may be implemented to perform determination of an emergency situation on the emergency management system and to transmit information on an emergency situation (emergency situation information) to the beacon 140. [ The control server 100 can receive situation information (earthquake, fire, etc.) in the building for generating emergency situation information from an external device such as the power distribution device 120. [ For example, when the power distribution device 120 has an earthquake detection function, the control server 100 receives earthquake detection information from the power distribution device 120, The beacon 140 may transmit emergency state information generated based on the support detection information.

The control server 100 collects information on various building situations (fire, smoke, external disaster information, blocking information or earthquake information provided by the power distribution device, etc.) , Lighting, etc.) to the power distribution device 120. [0064]

Emergency situation information transmitted from the control server 100 to the beacon 140 includes information on the collected building situation, information on the interruption of various devices, current position of the user device on the building, escape route, escape route, Information about the method, and the like.

The control server 100 may receive user related information (e.g., user location information, user telephone number information, etc.) from the beacon 140 (or directly). The control server 100 can check the evacuation status of the user based on the received user related information and block or recover power supply to various devices based on the power distribution device 120. [

As a specific example, the control server 100 makes the power supply device 120 prepare the user for power-off through the user device 160 before instructing the power-off of the specific device in the building, You can check and turn off the power. In addition, when there is no user near the dangerous object when the power shutdown is restored, the power distribution device 120 can be instructed to restart power for recovery.

Communication between the control server 100 and the beacon 140 may be performed based on wide area BLE communication or other types of communication means.

The beacon 140 may be installed at a prime location in the building. The beacon 140 may be implemented to propagate general situation information to the perimeter user equipment 160 under normal circumstances and to propagate emergency situation information to the perimeter user equipment 160 in an emergency situation.

General situation information may include basic building-related information (for example, floor occupant introduction, floor introduction, building announcement, floor division introduction, company introduction, product introduction, coupon information, have.

Emergency information is information that is transmitted when an emergency situation (fire, earthquake, etc.) occurs and may include information on emergency situation information, current location, escape route, escape route, information on how to cope with an emergency situation, .

The beacon 140 may include a plurality of radio frequency (RF) portions. The beacon 140 may operate based on a bluetooth low energy (BLE) for the propagation of a general situation and an RF unit (e.g., ZigBee) having broader coverage than the BLE for propagation of an emergency situation. have. Of course, even in an emergency situation, the beacon 140 may propagate an emergency situation based on the BLE.

The beacon 140 may receive emergency status information (e.g., a BLE beacon protocol based push message) and a response signal (e.g., a response to a push message) from the user device 160 to the user device 160. The response signal transmitted from the user may include the location information of the user. Or the location of the user equipment 160 that transmitted the response signal based on the strength of the response signal delivered to the plurality of beacons 140 may be determined.

The beacon 140 is installed in a main location in the building and can transmit the general situation information and the emergency situation information to the user device 160. The user device 160 having received the emergency status information from the beacon 140 may switch to the beacon 140 and may transmit the emergency radio wave information to another user device. The emergency propagation information is information generated based on the emergency situation information and may include emergency situation information and user device related information.

The power distribution device 120 may collect information on the emergency situation and deliver it to the control server 100. [ For example, the power distribution device 120 may analyze the earthquake-related information and transmit the analyzed information to the control server 100. [ In addition, the power distribution device 120 can sequentially block the internal components and sequentially block power supplied to the inside of the building based on the control information received from the control server 100.

The power distribution device 120 may include a beacon 140 that broadcasts only the state of the power distribution device professionally in the adjacent area in addition to the general use. When the beacon 140 is mounted on the power distribution apparatus 120 having a high risk of fire or electric shock, the beacon 140 is connected to an internal sensor (temperature, electric power, fire, earthquake, It is possible to notify the users (administrator, restoration agent for restoration, adjacent general users) of the distribution device internal sensing information or abnormal information so that the adjacent user can confirm the abnormality and if the distribution device 120 and the control server 100 If there is an abnormality in the communication between the control server 100 and the control server 100, In particular, when an administrator approaches the power distribution device 120 for recovering an abnormal situation, the safety of the administrator can be improved since the beacon can confirm the short circuit or internal state of the circuit breaker due to abnormal operation of the circuit breaker in advance.

User device 160 may receive a signal transmitted from beacon 140 and display it to a user. The user device 160 may transmit the user device related information as a response signal to the beacon 140 or the control server 100 when the emergency situation information is received from the beacon 140 , The emergency delivery information may be transmitted to another user device (when the user device operates as a beacon). Emergency delivery information may be transmitted to beacon 140 or control server 100 as a response signal to emergency situation information. Emergency delivery information may include occasional situation information and user device related information.

The user device related information includes user location information (e.g., distance between beacon 140 and user device 160, location information [GPS / Wifi / base station utilization] collected from user device 160 itself) And may include connection information (e.g., telephone number) to the device 160.

The control server 100 can check the actual situation by contacting the user adjacent to the location where the emergency situation occurred based on the user related information. For example, a message containing a call / response function may be sent to the user (Yes / No), and a response may be received from the user.

When the user device 160 transmits the user related information, the control server 100 (or the power distribution device 120) can provide the emergency status information to the user device 160 based on the user related information. For example, emergency situation information reflecting user location information may be transmitted to the user device 160. When the emergency situation ends, the operation of the user device 160 as a beacon can be stopped.

2 is a conceptual diagram illustrating an emergency situation releasing operation according to an embodiment of the present invention.

In FIG. 2, when it is determined that the emergency situation has ended, the procedure for the control server 220 to release the emergency situation is started.

Referring to FIG. 2, the control server 220 may transmit an emergency termination message to the beacon 240 when it is determined that the emergency condition is terminated. Having received the emergency termination message, the beacon 240 may terminate the transmission of the emergency condition information and may transmit general condition information to the user device 260. In addition, the beacon 240 receiving the emergency termination message may send an emergency termination message to the user device 260. The user equipment 260 having received the emergency termination message can stop the operation of the application executed to operate as a beacon and receive general situation information from the beacon 240. [ As described below, the user device 260 may receive the emergency exit message and re-switch the power mode of the user device 260 from the low power mode to the normal mode. In addition to this, it is also possible to disconnect the connected network between user equipments.

3 is a conceptual diagram showing the setting of a user apparatus on an emergency management system in an emergency situation according to an embodiment of the present invention.

Referring to FIG. 3, the power mode of the user device 320 that has received the emergency status information may vary. In the event of an emergency, the user must continue to receive emergency information via the user device 320. Thus, if emergency situation information is delivered to the user device 320 to reduce the situation where the user device 320 fails to receive emergency status information due to insufficient charging power, the user device 320 may operate in a low power mode .

When operating in a low power mode, the user device 320 may reduce power consumption by performing minimal operations such as reception of emergency information and operation for transmission of emergency information or user related information.

The user device 320 may be operated in the low power mode in consideration of the charging status (charge amount) for each user device 320. [ For example, the user device 320 that has received the emergency information may transmit emergency propagation information (when the user device operates as a beacon) and user related information (when the user device does not operate as a beacon) to a beacon or control server Lt; / RTI > The user device 320 may transmit the charging status information (charging amount information) of the user device 320 to the emergency information or user related information. The control server 300 may determine whether the user device 320 is operated in the low power mode in consideration of the charging status information of the user device 320. [ For example, the control server may command the user device 320 to operate in a low power mode if the amount of charge of the user device 320 is below a threshold value. When the operation of the user apparatus in the low power mode is determined, the control server 300 may transmit the emergency status information transmitted to the user apparatus, including instructions for instructing operation of the low power mode.

4 is a conceptual diagram illustrating the operation of a control server on an emergency management system in an emergency situation according to an embodiment of the present invention.

FIG. 4 illustrates a method in which a power distribution device sequentially shuts off power based on a determination of a control server based on a user location.

The control server can receive the location information of the user apparatus from the user apparatus (step S410). According to the embodiment of the present invention, the control server can preferentially block the power of the area where the user equipment does not exist. In an emergency situation, it is also important for the control server to quickly shut down the power supplied by the power distribution unit to prevent the occurrence of additional accidents due to electricity. However, if the power supplied by the power distribution unit is cut off (for example, The power supplied to the lamp of the floor is cut off), the escape of the user may be difficult.

Accordingly, the control server can determine the power shutdown zone based on the location information of the user device received from the user device (step S420). For example, the control server may divide the power supply area in the building into a plurality of units and determine whether the user equipment exists in each of the plurality of divided power supply areas. If there is no user device in the specific power supply zone, the control server may instruct the power distribution device that performs power distribution to the zone to block power in the zone (step S430).

As described above, the user equipment not only transmits the location information of the user equipment to the control server, but also collects information on whether there is another person in the vicinity and transmits the collected information to the control server. When the user apparatus transmits information on whether there is another person in the vicinity, the control server can perform power cutoff more accurately.

The control server can determine whether to shut off power in a specific zone based on additional judgment information such as image information transmitted from the closed circuit television (CCTV) as well as information transmitted from the user device.

According to another embodiment of the present invention, the control server may control the power distribution device to supply only the minimum power required in an emergency situation. For example, the control server can control so that only power required for escape and power required for escape broadcasting are supplied by the power distribution apparatus, and other power is controlled to be blocked by the power distribution apparatus. As a concrete example, the control server controls the power distribution device to supply the same power as the general situation in the case of the bulb in the area corresponding to the exit from each floor when the power is supplied in the building, Only the power corresponding to 1/2 can be supplied.

By using this method, the user can quickly find an escape route and minimize additional damage due to electric wiring.

5 is a conceptual diagram illustrating an operation of a control server according to an embodiment of the present invention.

In Fig. 5, the control server 500 discloses a method for forming a network between user equipments based on user equipment related information transmitted by the user equipment.

Referring to FIG. 5, the control server 500 may receive power information of the user apparatus and position information of the user apparatus from each of the plurality of user apparatuses as information related to the user apparatus.

The control server 500 may group a plurality of user devices and divide a plurality of user devices included in the grouped user device group into a master user device 520 and a servant user device 540. For example, the control server 500 can group a plurality of user devices located in adjacent ranges in each floor in a building into one user device group.

In addition, the control server 500 may divide a plurality of user devices included in a user device group into a master user device 520 and a servant user device 540. For example, the control server 500 can set the user device of the best charge state among the user devices included in the user device group as the master user device 520 and set the remaining user devices as the servant user device 540 have.

The control server 500 may group a plurality of user devices and transmit to each of the plurality of user devices information about whether the user device is the master user device 520 or the servant user device 540 and the grouping identifier information of the user device have.

Each of the plurality of user equipments includes information about whether the user device transmitted to each of the plurality of user equipments is the master user device 520 or the servant user device 540 and the grouping identifier information of the user equipments Information and roles in the user device group (master user device 520, servant user device 540).

The control server 500 can only transmit emergency information to the master user device 520 directly or via a beacon. The master user device 520 may receive emergency situation information from the control server 500 and may transmit emergency propagation information to another servant user device 540 in the same group. The servant user device 540 can receive emergency propagation information through communication with the master user device 520 without directly communicating with the control server 500 or the beacon. In addition, the servant user device 540 may transmit only the user device related information to the master user device 520 without transmitting the emergency wave information to another user device. The master user device 520 may transmit user device related information received from the servant user device 540 to the control server 500 or the beacon.

By using this method, the power consumption of the user device which does not have much charge power can be reduced, and the control server can transmit the emergency situation information to the user device more efficiently.

The settings of the user device group, the master user device and the servant user device may vary.

6 is a conceptual diagram illustrating grouping of user devices according to an embodiment of the present invention.

Fig. 6 discloses a change in the settings of the user device group, the master user device and the servant user device.

Referring to FIG. 6, the user device group may continuously change as the user device moves. When the user moves, the distance between the user devices may change. The control server can continuously perform a reset for the user device group.

For example, when five user equipments UE1 to UE5 are set as the same user equipment group, one of them is a master user equipment, and the remaining UE1, UE2, UE4 and UE5 are set as servant user equipment Can be assumed.

If the distance between the user of UE2 620 and the user of UE3 630 is remote, UE2 620 may skip the coverage of UE3 630. [ When the emergency information is not received from the UE 3 630 for a predetermined time, the UE2 620 determines that the UE 3 630 is out of coverage, and directly transmits a message requesting group reset through the beacon to the control server 600 ).

The control server 600 determines the location of the UE2 620 and allocates a new user device group to the UE2 620 or manages the UE2 620 as an unassigned individual user device .

If the control server 600 assigns UE2 620 as a new user device group, the control server 600 may send a UE group reassignment message to UE2 620. [ If the control server 600 manages UE2 620 as an individual user device that is not grouped, it can transmit emergency information to UE2 620 individually.

According to an embodiment of the present invention, a reset of the master user device within the user device group may be performed. When the charged amount of the master user device is reduced below the threshold value, one user device having the maximum charge amount among the existing servant user devices may be reset to the master user device and the existing master user device may be reset to the servant user device. The threshold may be the maximum amount of charge of at least one servant user device contained within the user equipment group.

7 is a conceptual diagram illustrating a method of generating emergency propagation information of a master user equipment according to an embodiment of the present invention.

In Figure 7, the master user device 700 may receive emergency status information from the control server or beacon. The emergency situation information may include escape route information as described above.

The location of the master user device 700 and the location of the servant user device 750 may be different. Therefore, the escape route information for the master user apparatus 700 and the escape route for the servant user apparatus 750 should be different from each other. That is, the escape path information included in the emergency propagation information transmitted to each of the servant user devices 750 may be different from each other.

Emergency situation information transmitted from the control server to the master user equipment 700 may include escape route information corresponding to each of the servant user devices 750. [ The control server can collect the location information of the master user device 700 and the servant user device 750 as described above and the control server can collect the location information of the master user device 700 and the servant user device 750 Escape route corresponding to the master user apparatus 700 and escape route information corresponding to each of the servant user apparatuses 750 can be generated and transmitted in the emergency situation information. The master user device 700 may transmit corresponding escape route information to each of the plurality of servant user devices 750. [

Alternatively, the emergency situation information transmitted from the control server to the master user equipment 700 may be escape route information considering only the location information of the master user equipment 700. [ The master user apparatus 700 receives the escape route information received from the servant user apparatus 750 and the position information of the servant user apparatus 750 transmitted from the servant user apparatus 750, And the escape route information corrected based on the location information of the location information of the terminal 750.

8 is a conceptual diagram illustrating an operation of a control server according to an embodiment of the present invention.

8, a method of structuring an emergency situation through interlocking of the control server 800 and the external servers 820 and 840 will be described.

Referring to FIG. 8, the control server 800 can determine whether the user is escaping and the current position of the user by assigning identification information for each user device. The user's escape status and the current location of the user can be acquired and shared through interoperation between a server (for example, 119 server 860, communication company server 820) for coping with an external emergency situation and the control server 800 have.

The control server 800 can receive the telephone number information of the user apparatus from the user apparatus as the user related information as described above. The control server 800 can obtain personal information (e.g., name address, etc.) for the user under the current emergency situation through the communication company server 820 based on the telephone number information. The communication company server 820 can provide the information of the user corresponding to the telephone number to the control server 800 or the 119 server 860.

The control server 800 can continuously instruct the user device to request the identification information to the beacon (escape detection beacon) 840 located at the exit to the outside of the building. An escape detection beacon 840, located at an exit to the outside of the building, may continuously request identification information to be transmitted to the peripheral user device and collect identification information from the user device. The control server 800 can determine whether or not the specific user is escaped based on the identification information of the user apparatus collected by the escape detection beacon 840 entering the outside of the building. Information on whether or not the specific user has escaped can be transmitted to the 119 server 860.

The control server 800 can continuously transmit the emergency situation information only to the user apparatus determined to be located in the building among the identified user apparatuses. In addition, the control server 800 may collect location information of the user device determined to be located inside the building, and may transmit the location information of the user device to the 119 server 860. In this case, the 119 server 860 can transmit the location information of the user to the 119-member device that performs the rescue operation, and the 119 member can move to the corresponding location in the building to perform the rescue operation for the user.

9 is a conceptual diagram illustrating an operation of a control server according to an embodiment of the present invention.

FIG. 9 shows a method for the control server to determine the location where an emergency situation has occurred and sequentially propagate the emergency situation information to users located at each floor of the building. At the same time, when an emergency situation information is transmitted to all the user devices located in the building, additional casualties may occur during the escape of many users to the outside of the building at the same time. In order to prevent such damage, the control server can sequentially transmit the emergency information to the user equipment located in the building in consideration of the location of the emergency situation.

Referring to FIG. 9, the control server can transmit emergency situation information to user equipment in each layer in consideration of an area where an emergency situation occurs.

First, the control server can determine the emergency occurrence area (step S900).

For example, it can be assumed that fire occurred on the 10th floor of a 20-story building.

The control server determines the floor propagation order (step S910) and determines the floor propagation order (step S920).

In this case, the emergency situation information can be preferentially transmitted to the user equipment located on the 10th to 20th floor from the user equipment located on the 1st to 9th floors. From the 10th floor to the 20th floor, the user equipment located on the 10th floor is the first to propagate the emergency situation information, and sequentially, 11, 12, 13, ... , It is also possible to transmit the emergency situation information to the user equipment up to the 20th floor. (12th floor, 19th floor), (13th floor, 18th floor), (11th floor and 18th floor), and 14th, and 17th floors), (15th, 16th floors).

According to yet another embodiment, the control server is provided with a plurality of (for example, first, second, third, fourth, fifth, The emergency situation information may be sequentially propagated to the user equipment located on the floor.

The control server can implement an algorithm for the propagation order for each emergency situation, and the emergency situation information can be sequentially propagated according to the algorithm according to the emergency situation.

10 is a block diagram showing a control server according to an embodiment of the present invention.

10, the control server may include an emergency situation determination unit 1000, an emergency situation information generation unit 1010, a power off instruction unit 1020, a communication unit 1030, and a processor 1040. Each component of the control server can perform the operations of the control server described above with reference to Figs. The following is an exemplary illustration of the operation of each component.

The emergency situation determination unit 1000 may be implemented to determine an emergency situation. For example, the emergency situation determination unit 1000 may collect information on an emergency situation such as a fire, an earthquake, or a collapse of a building, judge the current state, predict a predicted situation, and perform power- It is possible to judge whether or not it is. The emergency situation determination unit 1000 can determine the transmission order of the emergency information for each floor in the building according to the location of the emergency situation.

 The emergency situation information generation unit 1010 can be implemented to generate beacons and emergency situation information to be transmitted to the user equipment. Emergency information may be information that is propagated when an emergency (fire, earthquake, etc.) occurs. The emergency situation information may include current situation information, current location, escape route, escape route, information on how to cope with the emergency situation, and whether the main power is cut off. The emergency situation information can be transmitted from the control server to the beacon, and the beacon can propagate the emergency situation information transmitted from the control server to the user device. The emergency situation information generated by the control server may be transmitted directly to the user equipment.

The emergency situation information generation unit 1010 may classify a plurality of user devices into at least one user device group and classify the user devices in the user device group into a master user device and a servant user device. The emergency situation information generating unit may generate emergency situation information differently transmitted to each of the master user apparatus and the servant user apparatus.

The power-off unit 1020 may be implemented to control power-off of the power distribution apparatus according to the emergency situation of the control server. As described above, the power cut-off unit 1020 can sequentially issue power off of the power distribution apparatus based on the determination of the position of the user apparatus.

The communication unit 1030 may be implemented for communication with a user apparatus and a beacon.

The processor 1040 may be implemented to control the operations of the emergency situation determination unit 1000, the emergency situation information generation unit 1010, the power cutoff unit 1020, and the communication unit 1030.

11 is a block diagram illustrating a user device according to an embodiment of the present invention.

11, the user equipment may include an operation mode setting unit 1100, an emergency propagation information generating unit 1110, a communication unit 1120, and a processor 1130. [ The operation of the user apparatus described above in Fig. 9 can be performed. The following is an exemplary illustration of the operation of each component.

The operation mode setting unit 1100 may be configured to receive emergency situation information from a beacon or power distribution apparatus and to perform operation setting in a low power mode. In addition, the operation mode setting unit 1100 can receive the emergency situation information, determine whether to set the user apparatus as a master user apparatus or a servant user apparatus, and set an operation mode of the user apparatus.

The emergency-wave-information generating unit 1110 may be implemented to generate emergency-wave information to be transmitted to another user apparatus based on the received emergency-situation information.

The communication unit 1120 may be implemented to receive emergency situation information from a beacon or power distribution apparatus and to transmit emergency propagation information to another user apparatus.

The processor 1130 may be implemented to control operations of the operation mode setting unit 1100, the emergency propagation information generating unit 1110, and the communication unit 1120.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made therein without departing from the spirit and scope of the invention as defined in the appended claims. It will be possible.

100: control server
120: Distribution equipment
140: Beacon
160: User device
520: Master User Device
540: Servant User Device

Claims (12)

An emergency situation management method based on a control server interlocked with a power distribution device,
Determining whether an emergency situation occurs in the building based on information collected from a power distribution device in the building;
When the emergency situation occurs, the control server generates emergency situation information and transmits the generated emergency situation information to a plurality of beacons installed in the building and transmitting predetermined general situation information;
When the beacons of the plurality of beacons receive the emergency situation information from the control server, changing the transmission contents into the emergency situation information and transmitting the emergency situation information to the neighboring user devices;
When the user equipment receives the emergency propagation information generated based on the emergency situation information, displaying the generated emergency propagation information to the user, and transmitting the emergency situation information in a beacon to the other user equipment in a beacon; And
And broadcasting the status of the power distributing device to the manager to access the manager for accessing the network for responding to the abnormal situation or repairing the beacon through a beacon broadcasting its status,
Wherein the emergency propagation information includes user device related information,
Wherein the user equipment related information includes telephone number information of the user equipment,
The control server obtains the personal information of the user of the user apparatus in cooperation with the first external server based on the telephone number information,
The control server determines whether the user has escaped from the building based on an escape detection beacon located at an exit of the plurality of beacons,
Wherein the control server transmits location information of the user equipment to a second external server when the user can not escape from the building. The method according to claim 1,
The control server determines the occurrence position of the emergency situation in the building and sequentially transmits the emergency situation information at each time interval in each building in consideration of a moving distance for escape of people in the building The emergency situation management method comprising the steps of: delete The method according to claim 1,
The beacon includes a first RF (radio frequency) part and a second RF part,
Wherein the first RF unit is used for transmission of the emergency situation information,
The second RF unit is used for transmission of general situation information,
Wherein the general situation information includes building guide information and store guidance information. 5. The method of claim 4,
Wherein the emergency propagation information includes location information of the user equipment,
Wherein the control server determines whether there is a person on a specific location in the building based on the location information, and determines a power blocking area to block power among the plurality of power supply areas. 6. The method of claim 5,
When the emergency situation occurs, the control server supplies power having a value smaller than the general situation power value to the lamp corresponding to the escape route, supplies the general situation power value to the lamp corresponding to the exit,
Wherein the general state power value is a magnitude of power supplied in the general situation. A control server for managing an emergency situation in cooperation with a power distribution device, the control server including a processor,
The processor may receive the distribution device state information broadcasted through the beacon disposed in the distribution device when the connection is established directly with the distribution device in the building or when the communication connection with the distribution device is abnormal, based on the information collected indirectly through the user device It is judged whether or not an emergency situation occurs in the vehicle,
When the emergency situation occurs, generates emergency situation information and transmits the generated emergency situation information to a plurality of beacons, which are installed in the building and transmit predetermined general situation information,
When the beacons of the plurality of beacons receive the emergency situation information, the transmission contents are changed to the emergency situation information and transmitted to adjacent user devices,
When the user equipment receives the emergency propagation information generated based on the emergency situation information, displays the generated emergency propagation information to the user, and transmits the emergency situation information to the other user equipment in a beacon manner,
Wherein the emergency propagation information includes user device related information,
Wherein the user equipment related information includes telephone number information of the user equipment,
The processor acquires personal information of a user of the user apparatus in cooperation with a first external server based on the telephone number information,
Wherein the processor determines whether the user has escaped from the building based on an escape detection beacon located at an escape out of the plurality of beacons,
Wherein the processor transmits location information of the user equipment to a second external server when the user fails to escape from the building. 8. The method of claim 7,
The processor determines the occurrence position of the emergency situation in the building and sequentially transmits the emergency situation information at time intervals to each floor in the building in consideration of a moving distance for escape of people in the building Wherein the server is a server. delete 8. The method of claim 7,
The beacon includes a first RF (radio frequency) part and a second RF part,
Wherein the first RF unit is used for transmission of the emergency situation information,
The second RF unit is used for transmission of general situation information,
Wherein the general situation information includes building guidance information and store guidance information. 11. The method of claim 10,
Wherein the emergency propagation information includes location information of the user equipment,
Wherein the processor determines whether there is a person on a specific location in the building based on the location information, and determines a power blocking area to block power among the plurality of power supply areas. 12. The method of claim 11,
When the emergency situation occurs, the control server supplies power having a value smaller than the general situation power value to the lamp corresponding to the escape route, supplies the general situation power value to the lamp corresponding to the exit,
Wherein the general situation power value is a magnitude of power supplied in the general situation.

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