KR20140125568A - A Disaster Broadcasting Device - Google Patents

Abstract

The present invention relates to a disaster broadcasting apparatus which is installed at several areas and informs a disaster promptly when the disaster occurs and, more particularly, to a disaster broadcasting apparatus which can minimize battery consumption without using a separate GPS module because the position of the disaster broadcasting apparatus can be detected automatically on the basis of a received terrestrial DMB signal. The disaster broadcasting apparatus can perform normal disaster broadcasting in an emergency situation when a part of a communication network is damaged due to the multiplexing of a communication network, by broadcasting a signal corresponding to established priority first by establishing the priority as using a triple communication network of a mobile communication network signal, a terrestrial DMB signal and a VHF signal, and can increase efficiency of maintenance by being able to upgrade, add, change and delete a function of a control program remotely by being able to update the control program remotely. Also, the disaster broadcasting apparatus can enable a neighboring resident to grasp and manage an urgent patient situation rapidly before a rescue team arrives, by receiving an RF signal of a a health care device in a neighboring area and broadcasting received information about an urgent patient to a neighboring village.

Description

A Disaster Broadcasting Device

The present invention relates to a disaster broadcasting apparatus installed in a plurality of areas to promptly notify a disaster disaster in the event of a disaster, more specifically, it can automatically detect the location of a disaster broadcasting apparatus based on a received terrestrial DMB signal, Module is not used, battery consumption can be minimized, and priority can be set by utilizing a triple communication network of a mobile communication network signal, a terrestrial DMB signal, and a VHF signal so that a signal corresponding to a set priority is broadcast first, It is possible to remotely update the control program so that the control program can be upgraded, added, changed, and deleted remotely, thereby improving the efficiency of maintenance , And RF signals from nearby healthcare devices Relates to an emergency situation, God receives emergency information broadcast by a nearby village before rescue teams arrived at the emergency broadcast system that allows you to cope with the neighbors quickly identified.

Disaster disasters can occur anywhere in the nation in a variety of forms such as tsunami, flood, heavy snowfall, and earthquake, and if people do not inform them quickly, they will cause a lot of damage to people and property.

Disaster broadcasting apparatuses are installed in various places in order to prevent damage from sudden disaster disasters and to cope with such disasters quickly. Most of such conventional disaster broadcasting apparatuses are located at a remote location, and therefore, However, in the conventional disaster broadcasting apparatus as disclosed in the following patent documents, the electric power is continuously used due to various electric equipment / devices to be used, so that the power can be saved. Design is the most important factor.

(Patent Literature)

Registered Patent Publication No. 10-0546806 (2005. 1. 31. Announcement) "Disaster broadcasting system using satellite broadcasting network"

However, since the conventional disaster broadcasting devices use a separate GPS to track the location of the area where the disaster broadcasting device is installed, there is a problem due to the power source required for the GPS operation. In addition, the disadvantage is that the method of directly setting the location of each disaster broadcasting apparatus in each area in which the disaster broadcasting apparatus is installed is inefficient.

On the other hand, the conventional disaster broadcasting apparatuses are only updating the configuration file (telephone number, broadcasting station, volume, etc.) in a simple replacement form, and a problem occurs in the process of remotely updating, The number of visits to the site is also increasing. In addition, disaster broadcasting devices should be able to perform normal broadcasting even in extreme situations caused by unforeseen natural disasters, so it is necessary to prepare measures against situations where a specific communication network is interrupted.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems,

It is an object of the present invention to provide an apparatus and method for automatically disabling a location of a disaster broadcasting apparatus based on a terrestrial DMB signal received through a terrestrial DMB receiving module, Thereby providing a disaster broadcasting apparatus.

It is another object of the present invention to provide a disaster broadcasting apparatus capable of detecting a location where a disaster broadcasting apparatus is installed based on two or more terrestrial DMB signals received to more accurately identify the installation location of the disaster broadcasting apparatus.

It is another object of the present invention to provide a method and apparatus for broadcasting a signal corresponding to a set priority by broadcasting a mobile communication network signal, a terrestrial DMB signal, and a VHF signal, And to provide a disaster broadcasting apparatus capable of performing normal disaster broadcasting even in a damaged emergency situation.

Another object of the present invention is to arrange two VHF transceivers capable of transmitting and receiving VHF at a specific point when the disaster broadcasting apparatus is located at a remote location and can not receive the VHF signal so that the attenuated radio waves are retransmitted to increase the communication distance , And to provide a disaster broadcasting apparatus capable of remote VHF communication without a separate repeater.

It is another object of the present invention to provide a system and method for receiving emergency RF signals from a nearby healthcare device and broadcasting the received emergency patient information to nearby towns so that nearby residents can quickly identify and respond to emergency patient situations before the rescue team arrives And to provide a disaster broadcasting apparatus.

It is still another object of the present invention to provide a disaster broadcasting apparatus that can remotely update a control program of a control unit, thereby enabling an upgrade, a function addition, a modification, and a deletion of a control program remotely, thereby enhancing maintenance efficiency.

It is still another object of the present invention to provide a disaster broadcasting apparatus capable of safely protecting an existing program even if a problem occurs during updating by moving an updated program to another area of the memory at the time of updating the control program will be.

It is still another object of the present invention to provide a disaster broadcasting apparatus that minimizes the possibility of a problem of remote update by storing received data in a buffer memory and then checking an error of received data, .

It is still another object of the present invention to provide a method and apparatus for monitoring a state of various devices including a data receiving unit, a battery, and an amplifier of a disaster broadcasting apparatus, transmitting and receiving corresponding information to remotely check the hardware and software status of the disaster broadcasting apparatus, Thereby providing a disaster broadcasting apparatus.

The disaster broadcasting apparatus for achieving the object of the present invention includes the following configuration.

A disaster broadcasting apparatus according to an embodiment of the present invention includes a data receiving unit for receiving information related to a disaster or a disaster; And a control unit for controlling the operation of the terrestrial DMB system and automatically detecting a location where the disaster broadcasting apparatus is installed based on a signal received by the data receiving unit, wherein the data receiving unit includes a terrestrial DMB receiving module for receiving a terrestrial DMB signal The controller automatically detects the location where the disaster broadcasting device is installed based on the terrestrial DMB signal received through the terrestrial DMB receiving module, so that it does not use a separate GPS module, and battery consumption can be minimized do.

According to another embodiment of the present invention, in the disaster broadcasting apparatus according to the present invention, the controller includes a repeater location extracting module for extracting location information of a repeater transmitted from the terrestrial DMB signal received through the terrestrial DMB receiving module, And a signal strength measurement module for measuring the strength of the received signal of the terrestrial DMB signal received through the terrestrial DMB receiving module. The signal strength measuring module measures the strength of the terrestrial DMB signal received from the repeater based on the extracted position information of the repeater, And recognizes the position.

According to another embodiment of the present invention, in the disaster broadcasting apparatus according to the present invention, the controller identifies the location where the disaster broadcasting apparatus is installed based on two or more terrestrial DMB signals received through the terrestrial DMB receiving module, And the installation position of the broadcasting apparatus is more accurately identified.

According to another embodiment of the present invention, in the disaster broadcasting apparatus according to the present invention, the data receiving unit further includes a mobile communication receiving module for receiving a mobile communication network signal, and a VHF receiving module for receiving a VHF signal, The control unit includes a priority signal setting module for setting a priority among a mobile communication network signal, a terrestrial DMB signal, and a VHF signal received from the data receiving unit to broadcast a signal corresponding to a set priority level, So that normal disaster broadcasting can be performed even in this damaged emergency situation.

According to another embodiment of the present invention, when a disaster broadcasting apparatus is located at a remote location and it is impossible to receive a VHF signal, two disaster- The communication distance is increased to enable remote VHF communication without a separate repeater.

According to another embodiment of the present invention, in the emergency broadcast apparatus according to the present invention, the data receiving unit further includes an RF receiving module for receiving an RF signal of a healthcare device located in the vicinity, And an emergency patient information processing module for broadcasting the emergency patient information received from the module to nearby towns so that the nearby residents can quickly identify and cope with the emergency patient situation before the rescue team arrives.

According to another embodiment of the present invention, in the disaster broadcasting apparatus according to the present invention, the data receiving unit further includes a mobile communication receiving module for receiving a mobile communication network signal, and the control unit controls the control unit And a software update module for remotely updating the program, so that the control program can be upgraded, added, changed, or deleted remotely.

According to another embodiment of the present invention, in the disaster broadcasting apparatus according to the present invention, the software update module moves the program updated at the time of updating the control program to another area of the memory, So that the existing program can be protected safely.

According to another embodiment of the present invention, in the emergency broadcast apparatus according to the present invention, the control unit stores data received through the data receiving unit in a buffer memory, checks errors of received data, And a data check module for moving data to the location of the remote update.

According to another embodiment of the present invention, in the emergency broadcast apparatus according to the present invention, the control unit includes a diagnostic process module for inquiring statuses of various devices including a data receiving unit, a battery, and an amplifier of the disaster broadcasting apparatus, And the maintenance and repair efficiency is improved by remotely checking the hardware and software status of the disaster broadcasting apparatus.

The present invention can obtain the following effects by the above-described embodiment, the constitution described below, the combination, and the use relationship.

The present invention can automatically detect the location of a disaster broadcasting device based on a terrestrial DMB signal received through a terrestrial DMB receiving module, thereby avoiding the use of a separate GPS module, thereby minimizing battery consumption.

The present invention has an effect of accurately detecting the installation position of the disaster broadcasting apparatus by detecting the location where the disaster broadcasting apparatus is installed based on the received two or more terrestrial DMB signals.

The present invention utilizes a triple communication network of a mobile communication network signal, a terrestrial DMB signal, and a VHF signal, and priorities are set so that a signal corresponding to a set priority level is broadcasted first. So that the normal disaster broadcasting can be performed.

When two or more VHF radio transmitters capable of transmitting and receiving VHFs are disposed together at a specific point in a case where the disaster broadcasting apparatus is located at a remote location and reception of a VHF signal is impossible, the attenuated radio waves are retransmitted to increase the communication distance, So that the remote VHF communication can be performed.

The present invention receives the RF signal of a nearby healthcare device and broadcasts the received emergency patient-related information to nearby towns so that the nearby residents can quickly identify and cope with the emergency patient situation before the rescue team arrives .

The present invention can remotely update the control program of the control unit, and thus it is possible to remotely upgrade the control program, add, change, or delete the function, thereby improving the efficiency of maintenance.

The present invention has the effect of allowing an existing program to be safely protected even if a problem occurs during an update operation by moving a program updated at the time of updating the control program to another area of the memory.

The present invention has the effect of minimizing the possibility of a problem of remote update by storing received data in a buffer memory, checking errors of received data, and moving data to a corresponding location when it is determined to be normal.

The present invention has an effect of increasing maintenance efficiency by remotely checking the hardware and software status of a disaster broadcasting apparatus by inquiring statuses of various devices including a data receiving unit, a battery, and an amplifier of the disaster broadcasting apparatus, transmitting and receiving corresponding information.

1 is a block diagram of a disaster broadcasting apparatus according to an embodiment of the present invention;
2 is a block diagram illustrating a state in which a position of a disaster broadcasting apparatus is measured using a repeater position extraction module and a signal strength measurement module in a control unit
FIG. 3 is a view showing a structure for enabling VHF communication in a wide area by constructing a repeater connecting two VHF radios
4 is a view showing a state in which a disaster broadcasting device receives an emergency patient occurrence status from a health care device and broadcasts the emergency patient occurrence status to a nearby place
5 is a flowchart showing an updating process of the control program
6 is a flowchart showing an error checking process of the received data

Hereinafter, preferred embodiments of a disaster broadcasting apparatus according to the present invention will be described in detail with reference to the accompanying drawings. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. Throughout the specification, when an element is referred to as "including" an element, it is understood that the element may include other elements as well as other elements, The terms "part,"" module, "and the like denote a unit for processing at least one function or operation, which may be implemented as hardware or software or a combination of hardware and software.

1 to 6, a disaster broadcasting apparatus according to an embodiment of the present invention includes a data receiving unit 11 for receiving information related to a disaster or a disaster; And a controller 12 for controlling the overall operation and automatically detecting the location where the disaster broadcasting apparatus is installed based on the signal received by the data receiving unit 11. [ The disaster broadcasting apparatus of the present invention includes a solar module 14 as a stand-alone power source for supplying power, a battery 13 for storing power generated by the solar module 14, Humidity sensor 17 for measuring the climate of the surrounding area in which the disaster broadcasting device is installed, which is provided with an amplifier 15 and a speaker 16 for performing a disaster broadcast under control, The configurations mainly used in the apparatus are not described in further detail.

In the present invention, the data receiving unit 11 includes a terrestrial DMB receiving module 112 for receiving a terrestrial DMB signal, and the control unit 12 receives the terrestrial DMB signal received through the terrestrial DMB receiving module 112, The location of the disaster broadcasting device is automatically detected based on the location of the disaster broadcasting device, so that a separate GPS module is not used and battery 13 consumption can be minimized.

That is, as mentioned above, in the conventional disaster broadcasting apparatuses, a separate GPS module is mounted on the disaster broadcasting apparatus in order to track the location of the disaster broadcasting apparatus installed at a long distance, The present invention can automatically detect the location where the disaster broadcasting apparatus is installed through the terrestrial DMB receiving module 112 without installing or using a separate GPS module do.

The terrestrial DMB receiving module 112 is included in the data receiving unit 11 in order to receive information related to a disaster or a disaster, and receives information related to disasters or disasters transmitted through the terrestrial DMB. In order to receive information related to a disaster or a disaster transmitted to the terrestrial DMB, the terrestrial DMB signal received by the terrestrial DMB receiving module 112 included in the data receiving unit 11 includes position information of the repeater to which the corresponding signal is transmitted This location information value is called TII (Transmitter Identification Information). The control unit 12 includes a repeater location extraction module 121 for extracting location information of a repeater transmitted from the terrestrial DMB signal received through the terrestrial DMB reception module 112, And a signal strength measurement module 122 for measuring the strength of a received signal of the terrestrial DMB signal received through the repeater 100. Based on the position information of the extracted repeater and the received signal strength received from the repeater, The installation position of the broadcasting apparatus is identified.

The repeater location extraction module 121 extracts the location information of the repeater based on the location information value (TII) of the repeater to which the corresponding signal included in the terrestrial DMB signal received through the terrestrial DMB receiving module 112 is transmitted Respectively.

The signal strength measurement module 122 mathematically calculates the received signal strength according to the distance using the received signal intensity of the terrestrial DMB signal received through the terrestrial DMB receiving module 112, that is, the Received Signal Strength Indication (RSSI) The distance information is extracted by calculation (measurement).

At this time, the controller 12 recognizes the location where the disaster broadcasting apparatus is installed based on the two or more terrestrial DMB signals received through the terrestrial DMB receiving module 112, so that the installation location of the disaster broadcasting apparatus can be accurately identified . 2, when the terrestrial DMB signals received through the terrestrial DMB receiving module 112 are two, the controller 12 receives the respective receiving signals through the repeater position extracting module 121, (The repeater 1 and the repeater 2) of the two repeaters to which the corresponding signal is transmitted from the terrestrial DMB signal and extracts the distances L1, L2 of the disaster broadcasting apparatus. Based on this, as shown in FIG. 2, the installation location of the disaster broadcasting apparatus can be more accurately tracked by limiting the result to overlapping portions. For reference, the more terrestrial DMB signals received, the more accurate the location will be.

The data receiving unit 11 may further include a mobile communication receiving module 111 for receiving a mobile communication network signal and a VHF receiving module 113 for receiving a VHF signal, A priority signal setting module 123 for setting a priority among a mobile communication network signal, a terrestrial DMB signal, and a VHF signal received at the base station 11 to broadcast a signal corresponding to a set priority, It is possible to make a normal disaster broadcasting even in an emergency in which the communication network is damaged.

The mobile communication receiving module 111 receives the mobile communication network signal and receives information related to disaster or disaster transmitted in the mobile communication network signal. The user's voice is broadcast through the speaker 16 of the disaster broadcasting apparatus, and the character signal is transmitted to the disaster broadcasting apparatus The contents are broadcasted through the speaker 16, and broadcasting through the DATA enables reproduction of the media file and input / output of various other files.

The VHF receiving module 113 receives the VHF signal and receives information related to a disaster or a disaster transmitted in the VHF signal. The VHF signal is a voice broadcast signal transmitted through a radio.

The priority signal setting module 123 sets a priority of a mobile communication network signal, a terrestrial DMB signal, and a VHF signal received from the data receiving unit 11 to broadcast a signal corresponding to a set priority, When the communication network signal, the terrestrial DMB signal, and the VHF signal are both received, the priority is set in the order of the mobile communication network signal> the terrestrial DMB signal> the VHF signal so as to preferentially broadcast the disaster broadcast received through the mobile communication network, When a signal of a normal mobile communication network is not received, a disaster broadcasting can be performed by broadcasting a disaster broadcasting signal received by a terrestrial DMB signal of a next order (hereinafter, a mobile communication network is recovered and a mobile communication network signal is received again A disaster broadcast received through a high-priority mobile communication network is broadcast It is). In the present invention, the multiplexing of the communication network is realized and the priorities of the received signals are set and used. Thus, it is possible to smoothly broadcast emergency disaster information even when a specific communication network collapses, It is possible to perform accurate broadcasting without any crosstalk through the priority order.

In order to transmit the VHF signal to the distant broadcasting station located far away, a separate repeater must be installed in the middle of the VHF signal, There is a problem that installation is expensive to install and maintain. Therefore, in order to solve this problem without installing a separate repeater, two VHF radios 30 capable of transmitting and receiving VHF at specific points are disposed together when the disaster broadcasting apparatus is located at a remote location and reception of VHF signals is impossible The attenuated radio waves are retransmitted to increase the communication distance, thereby enabling the remote VHF communication without a separate repeater. 3, when the VHF signal transmitted from the A point reaches the B point, if the distance between the A and B is long, two VHF radios 30 are separately disposed at the middle C point, The VHF signal transmitted to the VHF transceiver 30 at the C-point is transmitted to the VHF transceiver 30 at the C-point through the repeater constructed between the VHF transceiver 30 and the VHF transceiver 30 at the C- It is possible to increase the communication distance by retransmitting to the point B via the reverse link (even in the case of reverse communication from B to A).

The data receiving unit 11 may further include an RF receiving module 114 for receiving an RF signal of a healthcare device 40 located in the vicinity of the disaster broadcasting apparatus, And an emergency patient information processing module 124 for broadcasting the emergency patient related information received in the nearby town to the nearby village so that the nearby residents can quickly identify and cope with the emergency patient situation before the rescue team arrives can do. 4, the RF receiving module 114, which is further included in the disaster broadcasting apparatus data receiving unit 11 of the present invention, is connected to the healthcare apparatus 40 in the vicinity of the disaster broadcasting apparatus Emergency patient information received by the RF receiving module 114 is processed through the emergency patient information processing module 124 to be transmitted to the speaker of the disaster broadcasting apparatus 16), allowing nearby residents to quickly identify the situation of emergent emergency patients, allowing nearby residents to promptly respond to or respond to emergency patients before the rescue team arrives.

The control unit 12 includes a software update module 125 that remotely updates the control program of the control unit 12 through the data receiving unit 11 to remotely upgrade the control program, Deletion can be made possible. That is, the software update module 125 performs an upgrade, a function addition, a change, a deletion, etc. of the control program of the control unit 12 remotely by using the update data of the control program received through the data receiving unit 11 do. Most of the conventional disaster broadcasting apparatuses have been limited to the simple replacement of the configuration file (telephone number, broadcasting station, volume, etc.), while in the present invention, replacement of the firmware through the software update module 125 So that the control program itself can be remotely updated.

At this time, as shown in FIG. 5, when the control program is updated, the software update module 125 moves the updated program to another area of the memory and performs an update operation, So that the normal operation of the disaster broadcasting apparatus can be made possible and normal updating can be performed by attempting to update again in the future. As mentioned above, if a problem arises during the remote update of the disaster broadcasting apparatus located at a remote place, the problem of the maintenance cost due to the engineer having to dispatch to the site is increased. In order to solve the problem, according to the present invention, when updating the control program in the software update module 125, the updated program is moved to another area of the memory, So that the normal operation of the disaster broadcasting apparatus can be continuously performed.

The control unit 12 stores data received through the data receiving unit 11 in the buffer memory, and checks the received data for errors. When the data is determined to be normal, the data checking module 126 ), It is possible to minimize the possibility of a problem of remote update or remote data transmission / reception. 6, the data check module 126 temporarily stores the data received through the data receiver 11 in the buffer memory, and then performs a cyclic redundancy check (CRC) check on the received data It is possible to minimize the possibility of a problem in the process of remotely transmitting / receiving data by moving data to the corresponding position when it is determined that there is no abnormality.

The control unit 12 may further include a diagnostic process module 127 for inquiring statuses of various devices including the data receiving unit 11, the battery 13 and the amplifier 15 of the disaster broadcasting apparatus and transmitting and receiving the information, And to remotely check the hardware and software status of the disaster broadcast device to increase maintenance efficiency. That is, it is possible to check the hardware or software of the disaster broadcasting apparatus on-line through the diagnosis process module 127 and diagnose the problem, thereby minimizing on-site maintenance of the disaster broadcasting apparatus located at a remote location The maintenance efficiency is improved.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, Should be interpreted as belonging to the scope.

11: Data receiving unit 111: Mobile communication receiving module
112: terrestrial DMB receiving module 113: VHF receiving module
114: RF receiving module 12:
121: Repeater position extraction module 122: Signal strength measurement module
123: Priority signal setting module 124: Emergency patient information processing module
125: Software update module 126: Data check module
127: diagnostic process module 30: VHF transceiver
40: HEALTHCARE DEVICE 13: BATTERY
14: Solar module 15: Amplifier
16: Speaker 17: On / Humidity sensor

Claims (10)

A data receiving unit for receiving information related to a disaster or a disaster;
And a control unit for controlling the entire operation and automatically detecting a location where the disaster broadcasting apparatus is installed based on a signal received by the data receiving unit,
Wherein the data receiving unit includes a terrestrial DMB receiving module for receiving a terrestrial DMB signal,
The control unit automatically detects the location of the disaster broadcasting device based on the terrestrial DMB signal received through the terrestrial DMB receiving module, thereby minimizing battery consumption by not using a separate GPS module. Disaster broadcasting device. The method according to claim 1,
The control unit includes a repeater location extraction module for extracting location information of a repeater transmitted from the terrestrial DMB signal received through the terrestrial DMB receiving module, and a repeater location extracting module for measuring a received signal intensity of the terrestrial DMB signal received through the terrestrial DMB receiving module And a signal strength measurement module for recognizing the installation position of the disaster broadcasting apparatus from the repeater based on the position information of the extracted repeater and the received signal strength received from the repeater. 3. The method of claim 2,
Wherein the control unit recognizes the location of the disaster broadcasting apparatus based on at least two terrestrial DMB signals received through the terrestrial DMB receiving module to more accurately identify the installation location of the disaster broadcasting apparatus. The method according to claim 1,
Wherein the data receiving unit further includes a mobile communication receiving module for receiving a mobile communication network signal and a VHF receiving module for receiving a VHF signal,
The control unit includes a priority signal setting module for setting a priority among a mobile communication network signal, a terrestrial DMB signal, and a VHF signal received from the data receiver, and broadcasting a signal corresponding to a set priority level, And a normal disaster broadcasting can be performed even in an emergency where the communication network is damaged. 5. The method of claim 4,
In the event that the disaster broadcasting apparatus is located at a remote location and it is impossible to receive a VHF signal, the disaster broadcasting apparatus arranges two VHF radio transmitters capable of transmitting and receiving VHF at specific points to retransmit the attenuated radio waves to increase the communication distance, So that the remote VHF communication can be performed. The method according to claim 1,
Wherein the data receiving unit further includes an RF receiving module for receiving an RF signal of a surrounding healthcare device,
The control unit includes an emergency patient information processing module for broadcasting the emergency patient related information received from the RF receiving module to nearby towns so that the nearby residents can quickly identify and cope with the emergency patient situation before the rescue team arrives A featured disaster broadcast device. The method according to claim 1,
Wherein the data receiving unit further includes a mobile communication receiving module for receiving a mobile communication network signal,
Wherein the control unit includes a software update module for remotely updating a control program of the control unit through the data receiving unit so that the control program can be remotely upgraded, added, changed, or deleted. 8. The method of claim 7,
Wherein the software update module moves an updated program to another area of the memory when updating the control program and performs an update operation so that the existing program can be safely protected even if a problem occurs during the update. . 8. The method of claim 7,
The control unit may include a data check module that stores data received through the data receiver in a buffer memory and then checks an error of the received data and moves the data to the corresponding position when it is determined to be normal. Is minimized. 8. The method of claim 7,
The control unit includes a diagnostic process module for inquiring statuses of various devices including a data receiving unit, a battery, and an amplifier of the disaster broadcasting apparatus, and transmitting and receiving corresponding information. The control unit remotely checks hardware and software status of the disaster broadcasting apparatus, Of the disaster broadcasting apparatus.

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