KR200442209Y1 - Fire Alarm System Using TTS - Google Patents

Abstract

The present invention relates to a fire alarm system using a TTS. The present invention, the receiving unit for receiving a fire occurrence signal containing the location information of fire occurrence from the fire detection system; A storage unit configured to store a scenario database including at least one or more editable fire broadcast scenarios composed of text; A fire broadcasting text constructing unit configured to obtain an evacuation route according to the fire occurrence position information and to configure the fire broadcasting text by reflecting the fire occurrence position information and the obtained evacuation route in the fire broadcasting scenario; A voice converter for converting text into voice using a TTS engine; A transmitter for transmitting the voice converted by the voice converter to an internal broadcasting system; And when the fire occurrence signal is received from the fire detection system, referring to the scenario database, searching for a fire broadcasting scenario corresponding to the fire occurrence position information included in the received fire occurrence signal, and displaying the text component for fire broadcasting. Control and configure the text for the fire broadcast according to the fire occurrence position information included in the received fire occurrence signal, and control the voice conversion unit to convert the configured fire broadcasting text to the voice and transmit to the premises broadcasting system through the transmission unit It provides a fire alarm system using a TTS including a control unit.

Fire Detection, Fire Broadcasting Scenario, Text for Fire Broadcasting, TTS, On-premises Broadcasting

Description

Fire Alarm System Using TTS

The present invention relates to a fire alarm system using a TTS, and more specifically, in the event of a fire, it is possible to reflect the actual situation in an editable and prepared fire broadcasting scenario, generate an optimized evacuation plan, and perform a fire broadcasting using the TTS. The present invention relates to a fire alarm system using TTS.

The conventional fire alarm system recognizes a fire occurrence in the detector and informs the receiver, the receiver sounds a fire alarm, and controls various evacuation guide lights and emergency lights to induce people in the building to evacuate. That is, the conventional fire alarm system automatically detects heat, smoke, flame or combustion products generated in a fire in a detector when a fire occurs, and when a receiver occurs, it displays and alarms the occurrence of a fire in the receiver. In this case, since a conventional fire alarm system simply outputs an alarm sound, accurate information on the occurrence of a fire is essential in order to evacuate without injury and property damage as soon as possible.

Among these fire alarm systems, the fire breaking news system which broadcasts the fire warning in the building is a very important part. In the conventional fire alarm system, when a fire occurs, the entire building alarm system is triggered and an alarm occurs throughout the building. It occurred, and how to evacuate and take the route, the firefighters must broadcast directly through the building broadcast system. Therefore, when a fire breaks out in a building, the building is in chaos, and even if the firefighters do not prepare a response manual in advance, even the broadcast becomes confusing.

According to the conventional fire alarm system, a building equipped with an announcement system is often operated manually, and the contents of the announcement are also mainly transmitted to the fact that a fire occurs without specific evacuation plan. Often followed. In addition, evacuation broadcasts themselves are also required to present the best evacuation plan separately according to whether they are near or far from the fire area.

In addition, according to the conventional fire alarm system, a training program for an actual fire situation is not supported, and there is almost no monitoring so that there is almost no adequate countermeasure against fire at night or on public holidays.

The present invention solves the above problems and has been proposed in accordance with recent trends and requests. In the event of a fire, a fire alarm system using a TTS capable of automatically reflecting the actual situation in an editable and prepared fire broadcasting scenario is provided. The purpose is to provide.

Another object of the present invention is to provide a fire alarm system using a TTS that can be broadcast by automatically converting a fire broadcasting scenario reflecting the actual situation using the TTS engine.

Still another object of the present invention is to provide a fire alarm system using a TTS capable of performing optimized evacuation broadcasting at different locations in a building, including a fire location, when a fire occurs in a specific place of a building.

Another object of the present invention is to provide a fire alarm system using a TTS capable of a 24-hour fire detection / alarm system, and can provide a training program for a fire situation.

Another object of the present invention is to provide a fire alarm system using a TTS capable of performing an efficient fire broadcasting without a large structural change to the premises broadcasting system installed in the building.

As an aspect of the present invention for achieving the above object, the fire alarm system using the TTS according to the present invention, using a text-to-speech (TTS) installed in a building having a fire detection system and the premises broadcasting system A fire alarm system, comprising: a receiving unit for receiving a fire occurrence signal including fire occurrence location information from the fire detection system; A storage unit configured to store a scenario database including at least one or more editable fire broadcast scenarios composed of text; A fire broadcasting text constructing unit configured to obtain an evacuation route according to the fire occurrence position information and to configure the fire broadcasting text by reflecting the fire occurrence position information and the obtained evacuation route in the fire broadcasting scenario; A voice converter for converting text into voice using a TTS engine; A transmitter for transmitting the voice converted by the voice converter to the premises broadcasting system; And when the fire occurrence signal is received from the fire detection system, referring to the scenario database, searching for a fire broadcasting scenario corresponding to the fire occurrence position information included in the received fire occurrence signal, and displaying the text component for fire broadcasting. Control and configure the text for the fire broadcast according to the fire occurrence position information included in the received fire occurrence signal, and control the voice conversion unit to convert the configured fire broadcasting text to the voice and transmit to the premises broadcasting system through the transmission unit It comprises a control unit.

The storage unit may store the evacuation route information according to the location in the building, and the text structure for the fire broadcasting, the evacuation route information, by referring to the evacuation route information, it may be characterized in that the technical have. The evacuation route information may include at least one of an emergency exit location, an evacuation direction, and an evacuation site.

The storage unit stores an internal configuration diagram of the building including an emergency exit location, a corridor, and a staircase, and the fire broadcasting text configuration unit obtains the evacuation route according to the fire occurrence location with reference to the internal configuration diagram of the building. It can be made into a technical feature.

The broadcast broadcasting system may broadcast different contents according to the location of the building, and the control unit may receive a plurality of fire broadcasting scenarios having different contents according to the location of the building when the fire occurrence signal is received. And a plurality of fire broadcasting texts having different contents according to the locations where the retrieved fire broadcasting scenarios are broadcasted. The control unit may control the voice conversion unit to convert the plurality of fire broadcasting texts into voices, and transmit the converted voices to the premises broadcasting system together with the location information on which the converted voices are to be broadcast. have.

As another aspect of the present invention for achieving the above object, the fire alarm system using the TTS according to the present invention, using a text-to-speech (TTS) installed in a building having a fire detection system and the premises broadcasting system A fire alarm system, comprising: a receiving unit for receiving a fire occurrence signal including fire occurrence location information from the fire detection system; A storage unit configured of text, editable, and storing a scenario database including a plurality of fire broadcasting scenarios including different evacuation routes according to the location of the fire; A voice conversion unit for converting text into voice using a TTS engine; A transmitter for transmitting the voice converted by the voice converter to the premises broadcasting system; And when the fire occurrence signal is received from the fire detection system, searching for a fire broadcasting scenario corresponding to the fire occurrence position information included in the received fire occurrence signal by referring to the scenario database, and controlling the voice conversion unit. And a controller for converting the searched fire broadcasting scenario into voice and transmitting the voice to the premises broadcasting system through the transmitter.

The evacuation route may include at least one of an emergency exit location, an evacuation direction and an evacuation site.

The premises broadcasting system may broadcast different contents according to the location in the building, and the control unit may have a plurality of contents having different contents according to the location where each fire broadcasting scenario is to be broadcast when the fire occurrence signal is received. Searching for fire broadcast scenarios can be a technical feature. The control unit may control the voice conversion unit to convert the plurality of fire broadcasting scenarios into voices, and transmit the converted voices to the premises broadcasting system together with the location information on which the converted voices are to be broadcast. have.

The fire alarm system using the TTS according to an aspect or another aspect of the present invention, further comprises a client terminal for editing the fire broadcast scenario using a scenario editing application, the scenario editing application, the client terminal It may be installed or stored in the storage unit and provided to the client terminal by the control unit. Here, the fire alarm system and the client terminal, it may be characterized in that the communication by the TCP / IP (Transmission Control Protocol / Internet Protocol) communication method.

A fire alarm system using a TTS according to an aspect or another aspect of the present invention, includes a plurality of fire detection sensors are respectively installed in different locations of the building, the plurality of fire detection sensors, which partitions the building The at least one fire detection sensor grouped into a plurality of fire detection groups each corresponding to a plurality of zones and including at least one fire detection sensor, wherein the at least one fire detection sensor belonging to each fire detection group is recognized to be installed at the same location. It can be made into a technical feature. Here, the fire detection system, when a specific fire detection sensor of the plurality of fire detection sensors detect a fire, the fire occurrence zone information corresponding to the fire detection group to which the specific fire detection sensor for detecting the fire belongs It may be a technical feature that the location information is generated and transmitted to the receiver.

In a fire alarm system using a TTS according to an aspect or another aspect of the present invention, the fire detection system and the fire alarm system, it is possible to perform communication by Ethernet (Ethernet) communication method.

According to the fire alarm system using the TTS according to the present invention has the following effects.

First, according to the present invention, in the event of a fire, the actual situation is automatically reflected in an editable and prepared fire broadcasting scenario, and the fire broadcasting scenario reflecting the actual situation can be automatically converted and broadcasted using the TTS engine. There is.

Second, according to the present invention, if a fire occurs in a specific place of the building, there is an effect that can be optimized for evacuation broadcast for each different location in the building, including the location of the fire.

Third, according to the present invention, a 24-hour fire detection / alarm system is possible, and a training program for a fire situation can be provided.

Fourth, according to the present invention, it is possible to perform efficient fire broadcasting without making a big structural change to the broadcasting system installed in the building. For example, while using the premises broadcasting system using the TTS as it is, it is possible to perform a broadcast suggesting an optimized evacuation plan in case of fire.

The above objects, features and advantages of the present invention will become more apparent from the following detailed description taken in conjunction with the accompanying drawings. Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. Like numbers refer to like elements throughout. In addition, when it is determined that the detailed description of known functions or configurations related to the present invention may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

1 is a block diagram schematically showing a disaster prevention system environment to which the present invention is applied. The disaster prevention system environment to which the present invention is applied may include a fire detection system 10, a fire alarm system 20, a premises broadcasting system 30, and a client terminal 40. The fire detection system 10, the fire alarm system 20, and the premises broadcasting system 30 may be installed inside a building. The client terminal 40 may be installed inside a building. It may be remote from the building. Hereinafter, a specific building A is assumed for convenience of description, and the fire detection system 10, the fire alarm system 20, the premises broadcasting system 30, and the client terminal 40 are installed in the building ABC. It is assumed that

Hereinafter, a fire alarm system using a TTS according to an embodiment of the present invention and a disaster prevention system environment to which the present invention is applied will be described in detail with reference to FIG. 1 and necessary drawings.

The fire detection system 10 includes a sensor unit 100 composed of a plurality of fire detection sensors respectively installed at different locations of the building ABC. The fire detection system 10 transmits a fire occurrence signal including fire occurrence position information to the fire alarm system 20.

The plurality of fire detection sensors may be grouped into a plurality of fire detection groups each corresponding to a plurality of zones partitioning the building and including at least one fire detection sensor. For example, in a five-story building, the first fire detection group 101 and the second fire detection group 102 are installed on the first floor, the third fire detection group 103 is installed on the second floor, and the fourth The fire detection group 104 and the fifth fire detection group 105 are installed on the third floor, the sixth fire detection group 106 is installed on the fourth floor, and the seventh fire detection group 107 is on the fifth floor, respectively. Can be installed. Here, the at least one fire detection sensor belonging to each fire detection group may be recognized as being installed at the same location. For example, even if any of the four fire detection sensors belonging to the third fire detection group 103 installed on the second floor detects a fire, the fire detection system 10 may include the third fire detection group ( It may be detected that a fire has occurred in one zone corresponding to 103).

The fire detection system 10, when a specific fire detection sensor among the plurality of fire detection sensors detect a fire, the fire information of the zone corresponding to the fire detection group to which the specific fire detection sensor that detects the fire belongs The location information may be generated and transmitted to the fire alarm system 20.

The premises broadcasting system 30 is a system for delivering information to people located in a building through an output device installed in the premises using a broadcast equipment that can be installed in the building. The premises broadcasting system 30 may transmit information by audio and may also transmit information by audio and video. The premises broadcasting system 30 may be provided with broadcast equipment capable of broadcasting different contents at the same time according to a location in a building.

The fire alarm system 20 includes a receiver 200, a storage 210, a fire broadcast text component 220, a voice converter 230, a transmitter 240, and a controller 250. Can be.

The receiver 200 receives a fire occurrence signal including fire occurrence position information from the fire detection system 10.

The storage unit 210 stores a scenario database including at least one fire broadcast scenario composed of text and editable. 2A to 2E are diagrams showing examples of fire broadcasting scenarios according to fire situations. FIG. 2A is a fire broadcasting scenario for fire training guidance, FIG. 2B is a fire occurrence scenario regarding customer evacuation and important goods release, FIG. 2C is a fire broadcasting scenario regarding lifesaving and fire suppression activity, and FIG. 2D is damage recovery It is a fire broadcast scenario for, Figure 2e is a fire broadcast scenario for the end of the fire situation. It is to be noted that the fire broadcasting scenarios illustrated in FIGS. 2A to 2E are only examples, and are not limited thereto.

The storage unit 210 may store the evacuation route information according to the location in the building. The evacuation route information may include at least one of the emergency exit location, evacuation direction and evacuation site.

The storage unit 210 may store an internal configuration diagram of the building including an emergency exit location, a corridor, and a staircase.

Fire broadcasting scenarios described in the present invention can be included in the scenario database in a variety of ways. For example, the fire broadcast scenarios may be edited differently according to the location of a building where a fire may occur. The location of the building where the fire may occur may be a location where a fire detection sensor is physically installed. For example, depending on the location of the fire, people in the building may need to evacuate, and may need to be careful but not evacuated. As such, the fire broadcast scenarios may be configured differently according to the location of the fire. Also, for example, the fire broadcast scenarios may be edited with different contents according to a fire occurrence time. For example, during the day when there are many people in the building and at night when there are few people in the building, the measures to cope in case of fire may be different.

The fire broadcast scenario can be edited by an administrator who manages the fire alarm system 20. The manager may create or modify the fire broadcast scenario through the client terminal 40. The manager may periodically update the fire broadcasting scenario according to the disaster prevention manual.

The client terminal 40 may provide the administrator with a scenario edit screen provided by a scenario editing application for editing the fire broadcast scenario. The scenario editing application is installed in the client terminal 40 or stored in the storage unit 210 provided in the fire alarm system 20 and is controlled by the control unit 250 by the client terminal 40. May be provided.

The fire broadcasting text constructing unit 220 obtains an evacuation route according to the fire occurrence position information and configures the fire broadcasting text by reflecting the fire occurrence position information and the obtained evacuation route in the fire broadcasting scenario.

The speech converter 230 converts text into speech using a text-to-speech engine. TTS technology is a technology that converts the character information or symbols into a human voice to hear. TTS technology constructs a pronunciation database for all phonemes of a language and connects them to create a continuous voice. At this time, it adjusts the size, length, and height of the voice to synthesize natural voice. Technology may be included. TTS technology can be easily found in electronic communication fields such as CTI, PC, PDA, and mobile phones, and in consumer electronics such as recorders, toys, and game machines, and is widely used in home automation systems for improving productivity in the factory or for more convenient everyday life. It is written. Since the TTS technology is a known technology, a detailed description thereof will be omitted.

The transmitter 240 transmits the voice converted by the voice converter 230 to the premises broadcasting system 30.

The controller 250 controls the components constituting the fire alarm system 20 according to an embodiment of the present invention, and controls the overall operation of the fire alarm system 20. In addition, the controller 250 may control / control the overall operation of the disaster prevention system environment including the fire detection system 10, the fire alarm system 20, and the premises broadcasting system 30. The controller 250 may exist as a separate server.

Hereinafter, the operation of the fire alarm system using the TTS according to an embodiment of the present invention with reference to the operation of the control unit 250 will be described in detail.

When the fire occurrence signal is received from the fire detection system 10, the control unit 250 refers to the scenario database to determine a fire broadcasting scenario corresponding to the fire occurrence position information included in the received fire occurrence signal. Search and control the fire broadcasting text constructing unit 220 to configure the fire broadcasting text according to the fire occurrence position information included in the received fire generating signal, and control the voice conversion unit 230 to control the configured fire. The broadcast text is converted into voice and transmitted to the premises broadcasting system 30 through the transmitter 240.

3 is a block diagram of a building assumed to explain the operation of the fire alarm system according to an embodiment of the present invention. The building shown in FIG. 3 has 11 floors except for the rooftop. As shown in FIG. 3, it is assumed that a fire has occurred on the fifth floor.

The fire detection system 10 detects that a fire has occurred through at least one fire detection sensor installed on a fifth floor, and receives a fire occurrence signal including fire location information on the receiver of the fire alarm system 20. Send to 200.

When the control unit 250 receives a fire occurrence signal indicating that a fire has occurred on the fifth floor through the reception unit 200, a case in which a fire occurs on the fifth floor among fire broadcasting scenarios included in the scenario database is performed. Search for scheduled fire broadcast scenarios in preparation. In this case, the controller 250 may further consider other factors such as a fire occurrence time as well as a fire occurrence position when searching for a fire broadcasting scenario.

In addition, when receiving the fire occurrence signal, the controller 250 may search for a plurality of fire broadcasting scenarios having different contents according to the location of the building. In FIG. 3, when a fire occurs on the fifth floor, it is to consider a situation in which different contents should be broadcast on each floor. For example, if a fire occurs on the fifth floor in an 11-story building, people located above the sixth floor should be evacuated to the rooftop, those located below the fifth floor may be required to evacuate to the first floor, and certain floors. It may be safer for people located at not to evacuate.

The control unit 250 controls the fire broadcasting text constructing unit 220 to configure the fire broadcasting text according to the fire occurrence position information included in the received fire occurrence signal.

The fire broadcasting text constructing unit 220 acquires an evacuation route according to the fire occurrence position and reflects the fire occurrence position and the obtained evacuation route in the searched fire broadcasting scenario, thereby constructing the fire broadcasting text. Can be. The text broadcasting unit 220 for fire broadcasting, with reference to the evacuation route information stored in the storage unit 210, may obtain the evacuation route according to the location of the fire. In addition, the fire broadcast text configuration unit 220, with reference to the internal configuration of the building stored in the storage unit 210 may obtain the evacuation route according to the location of the fire.

Meanwhile, when the plurality of fire broadcasting scenarios are searched for fire broadcasting with different contents according to the location of the building, the controller 250 may have different contents depending on the location where each of the searched plurality of fire broadcasting scenarios is to be broadcast. A plurality of fire broadcasting texts may be configured.

FIG. 4 shows examples of texts for fire broadcasting that may be configured when a fire occurs in the fifth floor of the building of FIG. 3. When a fire occurs on the fifth floor of the building (first fire location (a) of FIG. 3), as illustrated in FIG. 4, the controller 250 may include text for fire broadcasting to be broadcast on the fifth floor, which is the floor where the fire occurred. 70, the fire broadcasting text 71 to be broadcast on six or more floors, and the fire broadcasting text 72 to be broadcast on four or less floors, respectively.

The controller 250 controls the voice converter 230 to convert the configured fire broadcasting text into voice and transmits the voice to the premises broadcasting system 30 through the transmitter 240. On the other hand, when a plurality of fire broadcasting texts are configured to fire broadcasting with different contents according to the location of the building, the control unit 250 controls the voice conversion unit 230, each of the plurality of fire broadcasting texts By converting the voice, the converted voice may be transmitted to the premises broadcasting system 30 together with the location information on which the converted voice is to be broadcast. Through the above process, the premises broadcasting system 30 may perform different fire broadcasting according to the location of the building (for example, for each floor of the building).

5 is a view showing an example of another building to which the present invention is applied. 5, the fire alarm system 20 according to an embodiment of the present invention, when a fire occurs in the second fire location (b), those who are located in the "high school" building to optimize the evacuation route Fire broadcasting may be performed through the premises broadcasting system 30 to evacuate in the "main gate" direction. In addition, the fire alarm system 20, if a fire occurs in the third fire location (c), the fire through the premises broadcasting system 30 to evacuate people located in the "elementary school" building in the direction of "back door" Broadcasting can be performed.

Hereinafter, a fire alarm system using a TTS according to another embodiment of the present invention will be described in detail. The fire alarm system using the TTS according to another embodiment of the present invention, unlike the fire alarm system using the TTS according to the embodiment of the present invention described above, different fire escape scenarios depending on the location of the fire broadcast scenario Pre-stored separately. A fire alarm system using a TTS according to another embodiment of the present invention may be configured to exclude the text broadcast unit 220 for fire broadcasting in FIG. 1. Hereinafter, a fire alarm system using a TTS according to another embodiment of the present invention will be described in detail with reference to a difference from the fire alarm system using a TTS according to an embodiment of the present invention.

The storage unit 210 is composed of a text, editable, and stores a scenario database including a plurality of fire broadcast scenarios, including different evacuation routes according to the location of the fire.

When the fire detection signal is received from the fire detection system 10, the controller 250 searches for a fire broadcasting scenario corresponding to the fire occurrence position information included in the received fire occurrence signal by referring to the scenario database. In addition, the voice conversion unit 230 is controlled to convert the searched fire broadcasting scenario into voice and transmit the voice to the premises broadcasting system 30 through the transmission unit 240.

Meanwhile, as described above, when the fire occurrence signal is received, the controller 250 searches for a plurality of fire broadcasting scenarios having different contents according to the location where each fire broadcasting scenario is to be broadcast, and the voice converter The control unit 230 may convert the searched fire broadcasting scenarios into voices, respectively, and transmit the converted voices to the premises broadcasting system together with the location information to which the converted voices are to be transmitted.

In the embodiments of the present invention, the fire alarm system 20 and the client terminal 40 performs communication by a Transmission Control Protocol / Internet Protocol (TCP / IP) communication scheme, and the fire alarm system 20 ) And the fire detection system 10 may perform communication by an Ethernet communication method.

The present invention described above is possible to those skilled in the art to which the present invention belongs, various substitutions, modifications and changes can be made within the scope without departing from the spirit of the present invention and the above-described embodiments and attached It is not limited by the drawings.

1 is a block diagram schematically showing a disaster prevention system environment to which the present invention is applied.

2A to 2E are diagrams showing examples of fire broadcasting scenarios according to fire situations.

3 is a block diagram of a building assumed to explain the operation of the fire alarm system according to an embodiment of the present invention.

FIG. 4 shows examples of texts for fire broadcasting that may be configured when a fire occurs in the fifth floor of the building of FIG. 3.

5 is a view showing an example of another building to which the present invention is applied.

[Description of Symbols for Main Parts of Drawing]

10: fire detection system 100: sensor

101 to 107: fire detection sensor 20: fire alarm system

200: receiver 210: storage

220: text component for fire broadcasting 230: voice conversion unit

240: transmission unit 250: control unit

30: premises broadcasting system 40: client terminal

Claims (15)

In a fire alarm system using a text-to-speech (TTS) installed in a building having a fire detection system and a broadcast system, Receiving unit for receiving a fire occurrence signal including the fire occurrence location information from the fire detection system; A scenario database including at least one or more editable fire broadcasting scenarios and a storage for storing evacuation route information according to locations in the building; By referring to the evacuation route information, the evacuation route according to the location of the fire is obtained, and the fire broadcasting text to configure the text for the fire broadcasting by reflecting the fire occurrence location information and the obtained evacuation route in the fire broadcasting scenario part; A voice converter for converting text into voice using a TTS engine; A transmitter for transmitting the voice converted by the voice converter to the premises broadcasting system; And When the fire occurrence signal is received from the fire detection system, the fire broadcasting scenario corresponding to the fire occurrence position information included in the received fire occurrence signal is searched for by referring to the scenario database, and the fire broadcasting text component is controlled. And constructing a text for fire broadcasting according to the fire occurrence position information included in the received fire occurrence signal, and controlling the voice conversion unit to convert the configured fire broadcasting text into voice to transmit to the premises broadcasting system through the transmission unit. Control Fire alarm system using a TTS. delete The method of claim 1, wherein the evacuation route information, A fire alarm system using a TTS that includes at least one of an emergency exit location, an evacuation direction and an evacuation site. The method of claim 1, The storage unit stores an internal configuration diagram of the building including an emergency exit location, a corridor, and a staircase, The fire broadcasting text component, the fire alarm system using the TTS, characterized in that to obtain the evacuation route according to the location of the fire with reference to the internal configuration of the building. The method of claim 1, In the premises broadcasting system, it is possible to broadcast different contents according to the location in the building, When the fire occurrence signal is received, the controller searches for a plurality of fire broadcasting scenarios having different contents according to the location of the building, and each of the searched fire broadcasting scenarios is different from each other according to a position to be broadcasted. Fire alarm system using TTS, characterized in that composed of a plurality of texts for the fire broadcast having the content. The method of claim 5, wherein the control unit, And converting the plurality of fire broadcasting texts into voices by controlling the voice conversion unit, and transmitting the converted voices to the premises broadcasting system together with the location information on which the converted voices are to be broadcast. Fire alarm system. In a fire alarm system using a text-to-speech (TTS) installed in a building having a fire detection system and a broadcast system, Receiving unit for receiving a fire occurrence signal including the fire occurrence location information from the fire detection system; Store a scenario database comprising a plurality of fire broadcast scenarios composed of text, editable and including different evacuation routes depending on the location of the fire, wherein the evacuation route includes at least an emergency exit location, an evacuation direction and an evacuation site; A storage unit comprising one; A voice converter for converting text into voice using a TTS engine; A transmitter for transmitting the voice converted by the voice converter to the premises broadcasting system; And When the fire occurrence signal is received from the fire detection system, the fire broadcasting scenario corresponding to the fire occurrence position information included in the received fire occurrence signal is searched by referring to the scenario database, and the voice conversion unit is controlled. A control unit for converting the searched fire broadcasting scenario into voice and transmitting the sound to the premises broadcasting system through the transmission unit; Fire alarm system using a TTS. delete The method of claim 7, wherein In the premises broadcasting system, it is possible to broadcast different contents according to the location in the building, The control unit, when receiving the fire occurrence signal, the fire alarm system using a TTS, characterized in that for searching a plurality of fire broadcasting scenarios having different contents according to the location where each fire broadcasting scenario is to be broadcast. The method of claim 9, wherein the control unit, TTS, characterized in that for controlling the voice conversion unit converts the plurality of fire broadcast scenarios to a voice, respectively, and transmits each converted voice to the premises broadcasting system together with the location information to be broadcast each converted voice. Fire alarm system. The method according to claim 1 or 7, Further comprising a client terminal for editing the fire broadcast scenario using a scenario editing application, The scenario editing application is installed in the client terminal or stored in the storage unit and provided to the client terminal by the control unit, a fire alarm system using a TTS. The method of claim 11, wherein the fire alarm system and the client terminal, Fire alarm system using TTS, characterized in that for performing the communication by TCP / IP (Transmission Control Protocol / Internet Protocol) communication method. The method according to claim 1 or 7, The fire detection system includes a plurality of fire detection sensors that are respectively installed at different locations of the building, The plurality of fire detection sensors are grouped into a plurality of fire detection groups each corresponding to a plurality of zones partitioning the building and including at least one fire detection sensor, The at least one fire detection sensor belonging to each of the fire detection group, it is recognized that the fire alarm system using a TTS, characterized in that installed in the same position. The method of claim 13, wherein the fire detection system, When a specific fire detection sensor among the plurality of fire detection sensors detects a fire, zone information corresponding to the fire detection group to which the specific fire detection sensor which detects the fire belongs is generated as the location of the fire generation to the receiver. Fire alarm system using TTS, characterized in that for transmitting. The method of claim 1 or 7, wherein the fire detection system and the fire alarm system, Fire alarm system using TTS, characterized in that the communication by the Ethernet (Ethernet) communication method.

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