KR101882417B1 - Apparatus and method for voice alarm in vessel - Google Patents

Abstract

A control method of a voice alarm device is disclosed. The control method includes analyzing a signal detected by at least one sensor provided on a ship to determine whether an event related to an accident of a ship is generated, determining a broadcasting method of a voice alarm when an event occurs, The method comprising the steps of: performing a voice alarm using at least one speaker provided on a ship according to a method, and the method of broadcasting a voice alarm includes a manual operation of performing a voice alarm on the basis of a voice input through a microphone A broadcasting mode, an automatic broadcasting mode for performing a voice alarm based on data previously stored in a storage unit of the ship, and a remote broadcasting mode for performing a voice alarm based on a voice input from a remote terminal apparatus.

Description

Technical Field [0001] The present invention relates to a voice alarm apparatus for a ship,

The present invention relates to a voice alarm apparatus and a control method thereof, and more particularly, to a voice alarm apparatus and a control method thereof for performing an alarm broadcast for evacuation of a passenger in the event of an accident such as fire, will be.

Generally, marine vessels are developed in a wide variety of types according to the purpose of use and propulsion method, and they are divided into commercial ships and special ships according to the purpose of use.

In such ships and offshore plants, it is very important to detect and alert emergency situations such as fire, flooding, and gas leaks.

Accordingly, existing vessels were provided with an alarm system such as fire, gas leakage and immersion.

However, such a conventional alarm system has a disadvantage in that it is difficult to promptly cope with damage of a ship requiring urgency, such as broadcasting only a simple alarm sound for alarm propagation.

SUMMARY OF THE INVENTION The present invention has been made in view of the above-mentioned needs, and it is an object of the present invention to provide a voice alarm apparatus for a ship which performs alarm broadcasting for evacuation of a passenger in the event of an accident such as fire or collision, and a control method thereof.

According to another aspect of the present invention, there is provided a method for controlling a voice alarm apparatus, comprising: analyzing a signal detected by at least one sensor provided on a ship to determine whether an event related to an accident of the ship occurs; Determining one of the plurality of broadcast modes that has occurred in advance when the event occurs, and performing a voice alarm using at least one speaker provided in the ship according to the determined broadcast mode Wherein the broadcasting mode of the voice alarm includes a manual broadcasting mode in which a voice alarm is performed on the basis of a voice input through a microphone provided on the ship, The automatic broadcasting mode that performs the alarm and the voice alarm based on the voice input from the remote terminal device And a remote broadcasting mode to be performed.

Further comprising the step of notifying occurrence of the event to the in-vessel broadcasting person in charge of the ship when the event occurs, and wherein the determining step comprises the step of not broadcasting the alarm broadcast within a preset time from the time of the notification Or if the broadcasting method is set to the remote broadcasting mode, the broadcasting method of the voice alarm can be determined as the remote broadcasting mode.

And notifying the terminal of the person in charge of performing remote broadcasting of the occurrence of the event and communicating with the terminal device of the person in charge when the remote broadcasting mode is determined as the remote broadcasting mode, May perform a voice alarm based on the voice input from the terminal device of the person in charge of performing the remote broadcasting.

The method may further include transmitting the photographed image photographed by at least one camera provided on the ship to the terminal of the person in charge of performing the remote broadcasting when the communication is established.

Further, a step of displaying a screen for setting at least one of the sensitivity of the sensor, the display method provided on the ship, the method of broadcasting the voice alarm, the person in charge of performing onboard broadcasting, the person in charge of performing remote broadcasting, .

The method of claim 1, further comprising: allocating and storing a communication connection priority for each of the personnel performing the remote broadcasting, wherein the communication connection step comprises: And can control the remote terminal to perform the remote broadcasting only through the communication terminal.

According to another aspect of the present invention, there is provided a voice alarm apparatus for analyzing a signal sensed by at least one sensor provided on a ship to determine whether an event related to an accident of the ship is generated Wherein the control unit is configured to determine one of the plurality of events in the plurality of broadcast modes when the event determination unit and the event occur and to perform a voice alarm using at least one speaker provided in the ship according to the determined broadcast mode Wherein the broadcasting mode of the voice alarm includes a manual broadcasting mode in which a voice alarm is performed on the basis of a voice input through a microphone provided on the ship, In the automatic broadcasting mode in which a voice alarm is performed by a remote terminal device It may include remote broadcast mode to perform the alarm.

And a communication unit for notifying the in-vessel broadcasting person in charge of the ship of the occurrence of the event when the event occurs, wherein the control unit does not perform alarm broadcasting within a preset time from the time of the notification, When the broadcasting method is set to the remote broadcasting mode, the broadcasting method of the voice alarm can be determined as the remote broadcasting mode.

In addition, when the remote broadcasting mode is determined, the communication unit notifies the person responsible for remote broadcasting of the ship of the occurrence of the event and communicates with the terminal device of the person in charge of performing the remote broadcasting, It is possible to control the voice alarm to be performed using the speaker based on the voice input from the terminal device of the person in charge of performing the remote broadcasting.

When the communication is established, the communication unit may transmit the photographed image photographed by at least one camera provided on the ship to the terminal device of the person in charge of performing the remote broadcasting.

Also, the control unit may display a screen for setting at least one of the broadcasting method of the voice alarm, the person in charge of performing on-board broadcasting, the person in charge of performing remote broadcasting, and the sensitivity of the sensor through a display device provided on the ship can do.

When the remote broadcasting mode is determined, the control unit determines the remote broadcasting mode, and the control unit determines the remote broadcasting mode, It is possible to request a communication connection to the terminal of the person in charge based on the stored priority and to control only the communication terminal connected to the communication can perform the remote broadcasting.

According to various embodiments of the present invention described above, it is possible to prevent the occurrence of an accident at the time of occurrence of an accident in a ship, not only at an initial time of occurrence of an accident where a source exists, but also at a time when a source in a ship must be evacuated, A voice alarm for evacuation of passengers can be performed.

Particularly, according to the remote broadcasting mode according to an embodiment of the present invention, a marine vessel or a rescue team dispatched for a vessel incident response can confirm a real-time photographed image inside the vessel using its own terminal device outside the vessel, At the same time, a voice alarm can be performed inside the ship remotely by controlling the voice alarm device using its own terminal device outside the ship.

In addition, according to various embodiments of the present invention described above, it is possible to automatically alert an accident occurrence location, an accident type, instructions, and the like when a vessel accident occurs, thereby enabling quick measures for an accident and evacuation.

In addition, according to various embodiments of the present invention described above, by storing the executed voice alarm, the cause of the occurrence of a post-accident can be easily grasped.

1 is a block diagram illustrating a ship voice alarm system according to an embodiment of the present invention.
2 is a conceptual diagram illustrating an operation of a ship voice alarm system according to an embodiment of the present invention.
3 is a block diagram illustrating a voice alarm apparatus according to an embodiment of the present invention.
4 is a block diagram illustrating a screen of a display device according to an exemplary embodiment of the present invention.
5 is a flowchart illustrating an operation of a voice alarm apparatus according to an embodiment of the present invention.
6 is a flowchart illustrating an operation of the voice alarm apparatus according to an embodiment of the present invention.
7 is a block diagram illustrating a terminal device according to an embodiment of the present invention.
8 to 9 are views showing an application execution screen of a terminal device according to an embodiment of the present invention.

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

1 is a block diagram illustrating a ship voice alarm system according to an embodiment of the present invention. Referring to Figure 1, a ship voice alarm system 1000 includes at least one sensor 110, at least one speaker 120, at least one microphone 130, at least one display device 110, A voice alarm device 150 that controls the overall operation of the system 1000 to control voice alarms, and at least one or more cameras 160. In addition, the ship voice alarm system 1000 may include a terminal device 200 provided by a person in charge of on-board broadcasting, and a terminal device 300 provided by a person in charge of remote broadcasting.

Here, the in-board broadcasting personnel may be the crew of the ship. In addition, the remote broadcasting personnel may not be the crew of the ship but may include the same rescue team responsible for the rescue of the vessel in case of a vessel accident, and the rescue conductor conducting the rescue team structure at the rescue headquarters.

The terminal devices 200 and 300 provided by the responsible persons may be portable terminals such as a smart phone, a tablet computer, a notebook computer, a personal digital assistant (PDA), a portable multimedia player (PMP), a smart glass, a project glass, Device. ≪ / RTI > Alternatively, the terminal devices 200 and 300 may be implemented as a voice input device such as a microphone of a structure headquarter that is installed in the structure headquarters so that the structure can be commanded.

Hereinafter, the operation of the voice alarm system 1000 according to an embodiment of the present invention will be described in more detail with reference to these matters.

The at least one sensor 110 may include a plurality of sensors such as a fire detection sensor, a gas leakage detection sensor, a flood detection sensor, a tilt sensor, a collision detection sensor, etc., provided in the ship 100, One sensor 110 may send a sensing signal to the voice alarm device 150.

In this case, the voice alarm apparatus 150 may analyze the signal detected by the at least one sensor 110 to determine whether an event related to the accident of the ship has occurred. Then, the voice alarm device 150 can determine the broadcasting method of the voice alarm if it is determined that an event related to the accident has occurred. The voice alarm device 150 may perform a voice alarm using at least one speaker 120 provided on the ship according to the determined broadcasting method.

Here, the voice alarm performed through the speaker 120 may be different from each other depending on the accident-related event that is generated. For example, it may include an alert to guide the atmosphere within the vessel, such as 'Wait for a while in the vessel', or an alert to guide the evacuation within the vessel, such as 'Escape to the ship'.

In addition, the broadcasting method of the voice alarm may include at least one of a manual broadcasting mode, an automatic broadcasting mode, and a remote broadcasting mode.

For example, when the broadcasting method of the voice alarm is determined to be the manual broadcasting mode, the voice alarm device 150 detects the speaker 120 based on the voice of the in-board broadcasting person inputted through the microphone 130 provided in the ship 100, Lt; RTI ID = 0.0 > a < / RTI >

Alternatively, when the broadcasting method of the voice alarm is determined to be the automatic broadcasting mode, the voice alarm apparatus 150 generates the voice using the data stored in the data storage unit, and transmits the voice through the speaker 120 Voice alarm can be performed. In this case, the voice alarm device 150 can perform an automatic voice alarm using a TTS (Text To Speech) function.

As another example, if the voice alarm broadcasting method is determined to be the remote broadcasting mode, the voice alarm device 150 may be a terminal device 200 provided in charge of on-board broadcasting, a terminal device 300 The voice alarm can be performed through the speaker 120 based on the voice.

By using the voice alarm system 1000 according to an embodiment of the present invention, it is possible to more effectively perform alarm broadcasting for evacuation of a passenger in the event of an accident such as fire or collision of a ship. In other words, it is necessary to broadcast an alarm for the evacuation of a passenger in a ship in case of an accident. At the beginning of the accident, it is possible to broadcast an alarm, but when it is time for the crew to evacuate, It becomes a situation without it. However, when the voice alarm system 1000 according to an embodiment of the present invention is used, not only an initial time of occurrence of an accident in which a crew is present in a vessel when an accident occurs, but also a time when a crew must be evacuated, It is possible to perform a voice alarm for evacuation of the passenger by using the remote broadcasting mode even when all of them are not present.

Meanwhile, the voice alarm system 1000 of the ship can operate in conjunction with the Global Maritime Distress and Safety System (GMDSS). This will be described in detail with reference to FIG.

GMDSS is a state-of-the-art device that periodically transmits the position and condition of a ship under sailing to the satellite. In order to complement and improve the problems of the conventional distress safety system in IMO (International Maritime Organization) It is a system for the rescue system built around the world in order to install the latest facilities and to reinforce the land facilities and to quickly protect the people and property in the sea.

The GMDSS includes a ship 100, a geostationary satellite 410, a local user terminal (LUT) 420, a mission control center (MCC) 430, a rescue center (RCC) Coordinate Center 440 and a rescue line 450.

Specifically, the ship 100 can transmit a distress signal to the geostationary satellite 320 through the provided beacon. Here, a beacon is mounted on a moving object such as a ship or an aircraft, and can be an apparatus for notifying a distress of a moving object and assisting in position identification by automatically or manually transmitting an alarm signal using a wireless communication route in case of a distress of a ship or an aircraft have. Such a beacon may provide information such as the identification number and location of the distressed mobile by digitally encoding the message.

The geostationary satellite 410 is wirelessly connected to the ship 100 and may basically include a search and rescue repeater unit (SARR) and a SAR receiver-processor and memory unit (SARP). SARR receives an alarm signal from beacon and converts it to a frequency of 1544.5MHz and adjusts it to a constant output (required on the ground) by Automatic Level Control (ALC) to relay it to the ground do. The SARP can demodulate the digital message originated from the 406 MHz beacon to calculate the exact frequency required for position measurement and display the measurement time to produce an output frame, which can then be transmitted to the local user terminal 420 and stored in the memory. If the beacon signal is received while processing the received beacon signal to the local user terminal 420, the beacon signal may be temporarily suspended, the beacon signal may be received first and then all signals may be processed, .

The local user terminal 420 is wirelessly connected to the geostationary satellite 410 and demodulates the beacon signal relayed or processed from the geostationary satellite 420 to recover necessary data such as an alarm signal and location information And may transmit the corresponding data to the mission control headquarters 430 or the like.

The mission control head 430 transmits the beacon alert signal and location information to the related structural adjustment headquarters 440 and collects, organizes and interchanges the data received from the local user terminal 420 or other mission control headquarters 430 Can play a role. The data exchanged between the Mission Control Headquarters 430 consists of alarm and position data processed by the beacon signal, and system adjustment data required to enhance the performance of the system. All of the mission control headquarters 430 are connected to each other through a communication network to exchange such data, and this communication network uses an international fixed telecommunication network, an AFTN (Automatic Fixed Telecommunication Network) of civil aviation, or a packet data network (X.25) .

The restructuring headquarters 440 can receive an alarm signal or the like transmitted from the mission control headquarters 430 and communicate with the rescue line 450 that is closest to the distress occurrence area and direct the rescue operation. In Korea, the restructuring headquarters (440) is located in Incheon, Busan, Mokpo, Donghae and Jeju.

The ship 100 may further include a GPS receiver configured with a dedicated antenna and a board for receiving GPS signals. In this case, accurate time information and position information, movement direction and speed information of the first alarm, arrangement state of GPS satellites, and signal strength can be obtained using the GPS receiver.

Meanwhile, the voice alarm system 1000 according to an embodiment of the present invention may include a terminal device 200 provided in charge of on-board broadcasting in cooperation with the GMDSS, a terminal device 300 provided in charge of remote broadcasting, And the position information of the accident occurrence vessel can be transmitted.

When the terminal devices 200 and 300 receive the alarm signal and the position information, the terminal devices 200 and 300 can execute an application for controlling the voice alarm device 150 of the ship and display the voice alarm device control screen of the ship. Here, the voice alarm device control screen of the ship includes a UI (User Interface) area for selecting the operation mode of the voice alarm device of the ship as a manual broadcast mode, a UI area for selecting the automatic broadcast mode, UI area.

If the broadcasting person selects the remote broadcasting mode UI area and inputs a voice to the microphone of the terminal devices 200 and 300, the voice alarm device 150 of the ship transmits the voice signal to the speaker 120 ). ≪ / RTI >

Hereinafter, the voice alarm device 150 will be described in more detail.

3 is a block diagram illustrating a voice alarm apparatus according to an embodiment of the present invention. 3, the voice alarm device 150 includes all or a part of the event determination unit 151, the communication unit 152, the storage unit 153, and the control unit 154. [

The storage unit 153 stores various data and applications necessary for the operation of the voice alarm apparatus 150. In particular, the storage unit 153 may store data for automatic broadcasting of voice alarms.

Here, the storage unit 153 may be implemented by a storage unit such as a RAM (Random Access Memory), a flash memory, a ROM (Read Only Memory), an EPROM (Erasable Programmable ROM), an EEPROM (Electronically Erasable and Programmable ROM) Card, or the like, as well as a detachable type storage device such as a USB memory.

Such a storage unit 153 may be implemented in the voice alarm apparatus 150 or in the form of an external database (DB) connected to the voice alarm apparatus 150. [

The event determination unit 151 may analyze the signal detected by at least one sensor included in the ship to determine whether an event related to the accident of the ship is generated. For example, the event determination unit 151 may analyze signals detected by at least one sensor provided on the ship to determine whether or not an onboard fire event, an onboard gas leakage event, a sinking event, And the like.

The communication unit 152 allows the voice alarm apparatus 150 to perform communication with another apparatus. In particular, the communication unit 152 can enable the voice alarm device 150 to communicate with the terminal device 200 of the person in charge of in-vessel broadcasting and the terminal device 300 of the person in charge of remote broadcasting.

The control unit 154 controls the overall operation of the voice alarm apparatus 150. Specifically, the control unit 154 can control all or a part of the event determination unit 151, the communication unit 152, and the storage unit 153.

In particular, the control unit 154 can determine a broadcasting method of a voice alarm when an event occurs.

For example, the control unit 154 may determine a broadcasting method corresponding to an event among a plurality of broadcasting methods including a manual broadcasting mode, an automatic broadcasting mode, and a remote broadcasting mode by a broadcasting method of a voice alarm. Specifically, when the in-vessel gas leakage event occurs, the broadcasting method of the voice alarm is determined to be the manual broadcasting mode, and if the sinking event occurs, the broadcasting method of the voice alarm can be determined to be the remote broadcasting mode.

As another example, the control unit 154 may determine the mode selected by the user who operates the voice alarm apparatus 150 as a broadcast method of voice alarm. Specifically, when an event occurs, the control unit 154 can control the display unit 140 included in the ship 100 to display a screen including a broadcasting method of the voice alarm, If known, the in-line user can select one of the manual broadcasting mode, the automatic broadcasting mode, and the remote broadcasting mode by operating the voice alarm device 150 through the screen. In this case, the control unit 154 can determine the mode selected by the user who operates the voice alarm apparatus 150 as a voice alarm broadcasting method.

As another example, the control unit 154 can determine the mode selected by the terminal device 200 of the person in charge of the in-vessel broadcasting and the terminal device 300 of the remote broadcasting person by the broadcasting method of the voice alarm. Specifically, when the occurrence of an event is notified to the terminal device 200 of the in-board broadcasting person and the terminal device 300 of the remote broadcasting person in charge, Mode, or remote broadcasting mode. In this case, the control unit 154 can determine the mode selected by the terminal apparatuses 200 and 300 as the broadcasting method of the voice alarm.

As another example, when manual broadcast is not performed within a predetermined time from when the occurrence of an event is notified to a person in charge of the in-board broadcasting through an alarm sound or the like, the control unit 154 can determine the broadcasting method of the voice alarm to the remote broadcasting mode have.

Meanwhile, the control unit 154 may control the voice alarm to be performed using at least one speaker 120 provided on the ship according to the determined broadcasting method.

The control unit 154 controls the speaker 120 based on the voice of the in-ship broadcasting person inputted through the microphone 130 provided on the ship 100 Voice alarm can be performed.

Alternatively, when the broadcasting method of the voice alarm is determined to be the automatic broadcasting mode, the control unit 154 generates a voice using the data stored in the data storage unit, Can be performed. In this case, the voice alarm device 150 can perform an automatic voice alarm using a TTS (Text To Speech) function.

As another example, when the broadcasting method of the voice alarm is determined to be the remote broadcasting mode, the control unit 154 controls the terminal device 200 included in the in-vessel broadcasting managers, the terminal apparatus 300 included in the remote broadcasting agents, A voice alarm can be performed through the speaker 120 as a basis.

In this remote broadcast mode, the communication unit 152 communicates with the terminal device 200 of the person in charge of in-vessel broadcasting or the terminal device 300 of the remote broadcasting person in charge, Through the communication unit 152 and controls the voice alarm to be performed using the speaker 120 based on the received data.

Meanwhile, when the communication unit 152 is communicatively connected and the remote broadcasting mode is determined, the captured image photographed by at least one camera 160 provided on the ship can be transmitted to the terminal devices 200 and 300 of the person in charge of remote broadcasting .

According to one embodiment of the present invention, not only an initial time of occurrence of an accident where a crew is present in a vessel when an accident occurs, but also a time when a crew must be evacuated in the vessel, The user can perform a voice alarm for evacuation.

Particularly, according to the remote broadcasting mode according to an embodiment of the present invention, a marine vessel or a rescue team dispatched for a vessel incident response can confirm a real-time photographed image inside the vessel using its own terminal device outside the vessel, At the same time, a voice alarm can be performed inside the ship remotely by controlling the voice alarm device using its own terminal device outside the ship.

Meanwhile, the control unit 154 may control the display device 140 to display a screen for setting the environment of the voice alarm device 150. [ This will be described in detail with reference to FIG. 4, the screen for setting the environment includes a UI area 401 for setting a broadcasting method of voice alarm, a UI area 402 for setting a person in charge of performing onboard broadcasting, a setting of a person in charge of performing remote broadcasting A UI area 403 for setting the sensitivity of the sensor 110, and a UI area for setting the sensitivity of the sensor 110. [ The UI area 401 for setting the broadcasting method includes a UI area 401-3 for selecting a manual broadcasting mode, a UI area 401-1 for selecting an automatic broadcasting mode, and a UI Region 401-2. ≪ / RTI >

In addition, it is possible to display the photographed image 405 photographed in real time by the camera 160 provided in the vessel.

In this case, the user who operates the voice alarm device 150 can designate at least one person in charge of performing in-line broadcasting among a plurality of crew members through the screen, and also can designate a plurality of crew members, Members, and rescue conductors, at least one person to perform remote broadcasting.

On the other hand, when a plurality of broadcasting execution personnel are designated, the communication connection priorities for the respective agents can be designated, and the priority order can be stored in the storage unit 153. [ Specifically, when a plurality of personnel perform remote alarm broadcasting, confusion may occur in the alarm broadcasting and confusion of the passengers who have to evacuate may occur. Accordingly, according to an embodiment of the present invention, the control unit 154 requests the communication connection based on the priority stored in the storage unit 153, and only the terminal devices 200 and 300 of the communication-connected person in charge perform remote alarm broadcasting Can be controlled.

Further, according to the embodiment of the present invention, when an accident occurs in a ship, the location of an accident, the type of an accident, instructions and the like are automatically alerted by a voice, so that quick measures and evacuation of an accident can be made possible.

In addition, according to an embodiment of the present invention, the control unit 154 may store the voice alarm performed in the storage unit 153 so that the cause of the occurrence of a post-accident can be easily grasped.

5 is a flowchart illustrating an operation of a voice alarm apparatus according to an embodiment of the present invention. Referring to FIG. 5, the voice alarm apparatus 150 may analyze a signal sensed by at least one sensor included in the ship to determine whether an event related to a ship accident has occurred (S101).

When an event occurs, the voice alarm device 150 can notify the occurrence of an event to the person in charge of performing the in-vessel broadcast of the ship and / or the terminal devices 200 and 300 of the person in charge of performing the remote broadcast (S102).

Then, the voice alarm device 150 can determine the broadcasting method of the voice alarm (S103). Here, the voice alarm broadcasting method includes a manual broadcasting mode in which a voice alarm is performed based on a voice input through a microphone provided on a ship, an automatic broadcasting mode in which a voice alarm is performed based on data pre- And a remote broadcasting mode for performing a voice alarm based on the voice input from the remote terminal apparatus.

In addition, the voice alarm apparatus 150 may perform a voice alarm using at least one speaker provided in the ship according to the determined broadcasting method (S104).

6 is a flowchart illustrating an operation of the voice alarm apparatus according to an embodiment of the present invention. 6, when the broadcasting method of the voice alarm is determined to be the manual broadcasting mode, the voice alarm device 150 receives the voice of the in-ship broadcasting person inputted through the microphone 130 provided in the ship 100 S201), and the received voice may be outputted through the speaker 120 to perform a voice alarm (S202).

If the broadcasting method of the voice alarm is determined to be the automatic broadcasting mode, the voice alarm apparatus 150 generates voice using the pre-stored data in the storage unit (S203), outputs the generated voice through the speaker 120, An alarm can be performed (S204). In this case, the voice alarm device 150 can perform an automatic voice alarm using a TTS (Text To Speech) function.

When the voice alarm broadcasting method is determined to be the remote broadcasting mode, the voice alarm device 150 communicates with the terminal device 200 of the person in charge of the in-board broadcasting or the terminal device 300 of the remote broadcasting person in charge (S205) 200, and 300 through the communication unit 152 (S206), and outputs a voice corresponding to the received data through the speaker 120 to perform a voice alarm (S207).

Meanwhile, the voice alarm apparatus 150 according to the embodiment of the present invention determines the remote broadcasting mode, and transmits the photographed image photographed by at least one camera 160 provided on the ship to a terminal device (200, 300).

7 is a block diagram illustrating a terminal device according to an embodiment of the present invention. 7, the terminals 200 and 300 of the in-ship broadcasting person and the remote broadcasting person in charge include a storage unit 210, an input unit 220, an output unit 230, a power unit 240, a communication unit 250, ). ≪ / RTI >

The storage unit 210 stores various data and applications necessary for the operations of the terminal devices 200 and 300. [ In particular, the storage unit 210 may store an application for controlling the voice alarm device 150 of the ship.

Herein, the storage unit 210 may be implemented as a random access memory (RAM), a flash memory, a ROM (Read Only Memory), an EPROM (Erasable Programmable ROM), an EEPROM (Electronically Erasable and Programmable ROM) Card, a Universal Subscriber Identity Module (USIM), or the like, as well as a detachable type storage device such as a USB memory.

The input unit 220 converts a physical input from the outside of the terminal devices 200 and 300 into a specific electric signal. In particular, the input unit 220 may receive a user input for selecting one of a manual broadcasting mode, an automatic broadcasting mode, and a remote broadcasting mode by an alarm method of the voice alarm device 150 of the ship.

Here, the input unit 220 may include all or some of the user input unit 221 and the microphone unit 223.

The user input unit 221 can receive user inputs such as touch, push operation, and the like. The user input unit 221 may be implemented using at least one of various types of buttons, a touch sensor for receiving a touch input, and a proximity sensor for receiving an approaching motion, or may be implemented using an external input device such as a keyboard, a mouse, or the like.

The microphone unit 223 can receive an alarm sound of the person in charge in the remote broadcasting mode.

The output unit 230 is a device for outputting data of the terminal devices 200 and 300. Here, the output unit 230 may include all or some of the display unit 231 and the audio output unit 233.

The display unit 231 can output data that the terminal devices 200 and 300 can visually recognize.

Here, the display unit 231 may be a liquid crystal display, a thin film transistor-liquid crystal display, an organic light-emitting diode, a flexible display, A display (3D display), a transparent display, a head up display (HUD), a head mounted display (HMD), and a prism projection display.

The audio output unit 233 is a device for outputting data that can be audibly recognized by the terminal apparatuses 200 and 300. The audio output unit 233 may be implemented as a speaker for expressing sound data to be notified to the user of the terminal devices 200 and 300.

The power supply unit 240 is a device for supplying power necessary for operation of the terminal devices 200 and 300. The power supply unit 240 may be a battery built in the terminal devices 200 and 300. Also, the power supply unit 240 may be implemented as a wired communication module according to the type of the power supply, or may be implemented as a wirelessly supplied device.

The communication unit 250 may be provided for the terminal devices 200 and 300 to communicate with other devices. In particular, the terminal apparatuses 200 and 300 can communicate with the voice alarm apparatus 150 using the communication unit 250.

The control unit 260 controls the overall operation of the terminal device 200. The control unit 260 may include a storage unit 210, an input unit 220, an output unit 230, a power unit 240, a communication unit 250, Various embodiments of the present invention may be implemented by controlling all or a part of the present invention.

In particular, when the communication unit 250 is notified of occurrence of an accident-related event of the ship, the control unit 260 executes an application for controlling the voice alarm apparatus 150 of the ship and displays a control screen on the display unit 231 .

Referring to FIG. 8, the voice alarm device control screen of the ship includes a UI (User Interface) area 701 for selecting an alarm method of the ship's voice alarm device as a manual broadcast mode, a UI area 702, a UI area 703 for selecting a remote broadcast mode, and a UI area 704 for viewing an on-board shot image.

When the UI area 701 for selecting the passive broadcast mode is selected in the terminal devices 200 and 300, the control signal corresponding thereto is transmitted to the voice alarm device 150, and the voice alarm device 150 transmits the control signal to the voice alarm device 150, The audio alarm can be performed through the speaker 120 on the basis of the voice of the in-board broadcast person inputted through the microphone 130 provided in the in-

Alternatively, if the UI area 702 for selecting the automatic broadcasting mode is selected in the terminal devices 200 and 300, the control signal corresponding thereto is transmitted to the voice alarm device 150, and the voice alarm device 150 It is possible to generate a voice using the pre-stored data, and to perform a voice alarm through the speaker 120 based on the generated voice.

Alternatively, if the UI area 703 for selecting the remote broadcasting mode is selected in the terminal devices 200 and 300, the control signal corresponding thereto and the data corresponding to the voice input from the terminal devices 200 and 300 are transmitted to the voice alarm device 150 And the voice alarm device 150 can perform a voice alarm using the speaker 120 based on the received data.

On the other hand, when the UI area 704 for viewing the in-ship photographed image is selected from the terminal devices 200 and 300, the control signal corresponding to the selected UI area 704 is transmitted to the voice alarm device 150. The terminal devices 200, Images can be received and displayed.

In this case, the display unit 231 can display not only the real-time shot image 801 inside the ship, but also various information 802 such as the position information of the ship, the name of the ship, etc. as shown in FIG.

Meanwhile, the control method according to various embodiments of the present invention described above can be implemented by a program and provided to a server or devices. Accordingly, each device can access the server or the device in which the program is stored, and download the program.

In addition, the control method according to various embodiments of the present invention described above can be implemented as a program and stored in various non-transitory computer readable media. A non-transitory readable medium is a medium that stores data for a short period of time, such as a register, cache, memory, etc., but semi-permanently stores data and is readable by the apparatus. In particular, the various applications or programs described above may be stored on non-volatile readable media such as CD, DVD, hard disk, Blu-ray disk, USB, memory card, ROM,

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the present invention.

Claims (12)

A method for controlling a voice alarm apparatus,
Analyzing a signal detected by at least one sensor provided on the ship to determine whether an event related to the accident of the ship is generated;
Determining, when the event occurs, any one of a plurality of broadcast modes previously set for the generated event; And
And performing a voice alarm using at least one speaker provided on the ship according to the determined broadcasting mode,
The broadcast mode of the voice alarm includes:
An automatic broadcasting mode in which a voice alarm is performed on the basis of data stored in a storage unit of the ship, and an automatic broadcasting mode in which a voice is input from a remote terminal device And a remote broadcasting mode in which a voice alarm is performed based on the voice. The method according to claim 1,
And notifying occurrence of the event to the in-ship broadcasting person in charge of the ship when the event occurs,
Wherein the determining comprises:
Wherein the controller determines the broadcasting method of the voice alarm to the remote broadcasting mode when the broadcasting manager does not perform alarm broadcasting within a predetermined time from the time of the notification or when the broadcasting mode is set to the remote broadcasting mode . 3. The method of claim 2,
Further comprising the step of notifying the terminal of the person in charge of performing remote broadcasting of the occurrence of the event and communicating with the terminal device of the person in charge if it is determined in the remote broadcasting mode,
Wherein performing the voice alert comprises:
Wherein the voice alarm is performed based on the voice input from the terminal device of the person in charge of performing the remote broadcasting. The method of claim 3,
Further comprising the step of, when the communication is established, transmitting a photographed image photographed by at least one camera provided on the ship to a terminal of a person in charge of performing the remote broadcasting. The method according to claim 1,
And displaying a screen for setting at least one of the sensitivity of the sensor and the display of the voice alarm through a display device provided on the ship . The method of claim 3,
Further comprising: allocating and storing a communication connection priority order for each of the persons responsible for performing the remote broadcasting,
Wherein the communication connection step requests a communication connection to the terminal device of the contact person on the basis of the stored priority and controls only the communication terminal device to perform the remote broadcasting. In a voice alarm device,
An event determination unit for analyzing a signal detected by at least one sensor provided on the ship to determine whether an event related to the accident of the ship is generated; And
A controller for determining one of a plurality of preset events for the generated event in the plurality of broadcasting modes and performing a voice alarm using at least one speaker provided in the ship in accordance with the determined broadcasting mode, Lt; / RTI >
The broadcast mode of the voice alarm includes:
An automatic broadcasting mode in which a voice alarm is performed on the basis of data stored in a storage unit of the ship, and an automatic broadcasting mode in which a voice is input from a remote terminal device And a remote broadcasting mode in which a voice alarm is performed based on the voice. 8. The method of claim 7,
And a communication unit for notifying occurrence of the event to the in-ship broadcasting person in charge of the ship when the event occurs,
Wherein,
Wherein the voice alarm broadcasting method is determined to be a remote broadcasting mode when the broadcasting manager does not perform alarm broadcasting within a predetermined time from the time of the notification or when the broadcasting mode is set to the remote broadcasting mode, Device. 9. The method of claim 8,
Wherein,
And a controller for notifying a person responsible for remote broadcasting of the ship of the occurrence of the event if the remote broadcast mode is determined and communicating with a terminal device of a person in charge of performing the remote broadcasting,
Wherein,
Wherein the controller controls the voice alarm to be performed using the speaker based on the voice input from the terminal device of the person in charge of performing the remote broadcasting. 10. The method of claim 9,
Wherein,
And transmits the photographed image photographed by at least one camera provided on the ship to the terminal device of the person in charge of performing the remote broadcasting when the communication is established. 8. The method of claim 7,
Wherein,
Characterized by displaying a screen for setting at least one of a sensitivity of the sensor, a broadcasting method of the voice alarm, a person in charge of performing onboard broadcasting, a person in charge of performing remote broadcasting, and a sensitivity of the sensor through a display device provided on the ship Alarm device. 10. The method of claim 9,
Wherein,
Assigning a communication connection priority to each of the persons responsible for performing the remote broadcasting,
Wherein,
If the remote broadcasting mode is determined, the remote broadcasting mode is determined, and when a communication connection with the terminal device of the contact person is required, a communication connection is requested to the terminal device of the contact person based on the stored priority, Wherein the control unit controls only the remote broadcasting unit to perform the remote broadcasting.

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