KR20220042784A - Wearable communication device to prepare for maritime distress and communication method using the same - Google Patents

Abstract

The present invention relates to a detachable communication device for disaster preparedness and a communication method using the same. In particular, the detachable communication device for disaster preparedness is worn on a life jacket when boarding a ship to notify one's identity and a current location in an event of a sea distress, generate an alarm signal at the same time to request rescue, and generate a sound wave signal to handle a body in an event of death. The detachable communication device for disaster preparedness comprises a water pressure sensing unit; a control unit; an RFID tag; a GPS receiving unit; an alarm signal generating unit; and a wireless communication unit.

Description

A detachable communication device for disaster preparedness and a communication method using the same

The present invention relates to a detachable communication device for preparedness for distress and a communication method using the same, and in particular, when worn on a life jacket when on board, notifying one's identity information and current location in case of sea distress and generating an alarm signal at the same time to make a rescue request, , It relates to a detachable communication device for disaster preparedness that generates a sound wave signal to deal with it in case of death, and a communication method using the same.

In general, shipwreck accidents of small ships are directly related to human safety and require quick rescue. However, since an automatic rescue transmission system such as EPIRB is not installed, rapid rescue can be expected due to difficulties in understanding the facts of distress and locating the location of the distress. there is no situation. In addition, since it is not possible to confirm not only small ships but also the crashes of occupants on board the ships, it is difficult to search for the missing occupants in the event of a ship accident.

In the case of a maritime disaster, the prompt location of the survivors is the most important factor in search and rescue activities. Existing search and rescue activities are carried out in anticipation of a rescue point based on the location confirmed when a person in distress requests a rescue or when a distress witness reports a distress. However, if a long time has elapsed to move to the reported distress point, there is a technical difficulty in accurately estimating the location of the distressed person due to the influence of currents or currents.

In the Korean Patent Publication No. 2011-0125332 (hereinafter referred to as “prior literature”), power is applied to the distress signal generator to operate the distress signal generator when water is detected by the detector, and then water is not detected by the detector. Disclosed is a distress signal generator comprising a power control unit that continuously applies the power of the power supply to the distress signal generator so that the distress signal generator can continue to operate even when the distress signal generator is not in operation.

However, since such a conventional distress signal generating device has a configuration that generates only location information when floating on the sea, it is impossible to grasp the personal information of the person in distress. There was a problem that it was impossible to determine the location.

Domestic Patent Publication No. 2017-0111523 (published on October 12, 2017)

Therefore, the present invention has been made to solve the above problems, and an object of the present invention is to inform the personal information of the distressed person in case of sea distress, and to inform the current location of the distressed person even when floating or sinking in the sea. An object of the present invention is to provide a communication device for disaster preparedness and a communication method using the same.

In order to achieve the above object, a detachable communication device for disaster preparedness according to an embodiment of the present invention includes a water pressure sensing unit configured to sense water pressure; a control unit that detects water pressure through the water pressure sensing unit, determines whether a person in distress is floating on the sea or sank in the water, and outputs a corresponding control signal; an RFID tag configured to provide a personally identifiable information signal when in proximity to the RFID reader (R) and to be activated by the control unit to generate a personally identifiable information signal; a GPS receiver activated by the controller and configured to generate a location information signal; an alarm signal generator configured to be activated by the controller to generate an alarm signal; and a wireless communication unit configured to receive and transmit the personal information signal, the location information signal, and the alarm signal from the RFID tag, the GPS receiver, and the alarm signal generator.

The detachable communication device for disaster preparedness according to the embodiment further comprises a sound wave signal generator configured to be activated by the control unit to generate a sound wave signal, and the wireless communication unit receives and transmits the sound wave signal from the sound wave signal generator can do.

In the detachable distress preparedness communication device according to the embodiment, the control unit detects water pressure through the water pressure sensing unit to determine whether the sensed water pressure is greater than or equal to a first set value and less than a second set value, and If the detected water pressure is greater than or equal to the first set value and less than the second set value, the RFID tag, the GPS receiver, and the alarm signal generator can be activated to generate the personal information signal, the location information signal, and the alarm signal there is.

In the detachable distress preparedness communication device according to the embodiment, the control unit detects water pressure through the water pressure sensing unit to determine whether the sensed water pressure is greater than or equal to a first set value and less than a second set value, and Activating the RFID tag, the GPS receiver and the alarm signal generator so that the personal information signal, the location information signal, and the alarm signal are generated when the detected water pressure is greater than or equal to the first set value and less than the second set value; When water pressure is sensed through the water pressure sensor and the detected water pressure is equal to or greater than a third set value, the sound wave signal generator may be activated to generate the sound wave signal.

In order to achieve the above object, a communication method using a detachable communication device for disaster preparedness according to another embodiment of the present invention includes: providing a personal information signal from an RFID tag to an RFID reader when boarding a ship; providing personal information from the RFID reader to a maritime traffic control center computer; detecting water pressure by the water pressure sensing unit and inputting a detection signal to the control unit; receiving, by the control unit, a detection signal and determining whether the detected water pressure is greater than or equal to a first set value and less than a second set value; and when the sensed water pressure is greater than or equal to the first set value and less than the second set value, the control unit activates the RFID tag, the GPS receiver, and the alarm signal generator to generate a personal information signal, a current location information signal, and an alarm signal and modulating and transmitting the modulated data through the wireless communication unit 400 .

In the communication method using a detachable communication device for preparing for distress according to another embodiment, the communication device for preparing for distress further comprises a sound wave signal generator configured to be activated by the control unit to generate a sound wave signal, the communication method includes the When the sensed water pressure is equal to or greater than the third set value, the control unit activates the sound wave signal generator to generate a sound wave signal, and modulates and transmits the sound wave signal through the wireless communication unit.

According to the detachable communication device for preparing for distress and the communication method using the same according to embodiments of the present invention, when the water pressure sensed by sensing water pressure is greater than or equal to the first set value and less than the second set value, RFID tag, GPS receiver and By activating the alarm signal generator, a personal information signal, a current location information signal, and an alarm signal are generated and modulated and transmitted through the wireless communication unit. On the other hand, if the detected water pressure is greater than or equal to the third set value, the sound wave signal generator is activated to generate a sound wave signal By generating and transmitting by modulating through the wireless communication unit, it is possible to inform the personal information of the person in distress in case of sea distress, and there is an excellent effect of being able to inform the current location of the person in distress even when floating or sinking in the sea.

1 is a block diagram of a detachable communication device for disaster preparedness according to an embodiment of the present invention.
2A and 2B are flowcharts of a communication method using the detachable communication device for disaster preparedness of FIG. 1 .
Figure 3 is a view in which the detachable communication device for disaster preparedness of Figure 1 is mounted on the existing life jacket.

In describing the embodiments of the present invention, if it is determined that a detailed description of a known technology related to the present invention may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted. And, the terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to intentions or customs of users and operators. Therefore, the definition should be made based on the content throughout this specification. The terminology used in the detailed description is for the purpose of describing embodiments of the present invention only, and should in no way be construed as limiting. Unless explicitly used otherwise, expressions in the singular include the meaning of the plural. In this description, expressions such as “comprising” or “comprising” are intended to indicate certain features, numbers, steps, acts, elements, some or a combination thereof, one or more other than those described. It should not be construed as excluding the existence or possibility of other features, numbers, steps, acts, elements, or any part or combination thereof.

In each system shown in the figures, elements in some instances may each have the same reference number or different reference numbers to suggest that the represented elements may be different or similar. However, elements may have different implementations and work with some or all of the systems shown or described herein. The various elements shown in the drawings may be the same or different. Which one is referred to as the first element and which is referred to as the second element is arbitrary.

In this specification, when any one component 'transmits', 'transfers' or 'provides' data or signal to another component, one component directly transmits data or signal to another component, of course, and transmitting data or signals to the other component via at least one other component.

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

1 is a block diagram of a detachable communication device for disaster preparedness according to an embodiment of the present invention, and FIG. 3 is a view in which the detachable communication device for disaster preparedness of FIG. 1 is mounted on an existing life jacket.

As shown in FIG. 1 , the detachable communication device 10 for preparing for distress according to an embodiment of the present invention includes a water pressure sensing unit 100 , a control unit 200 , an RFID tag 300 , and a GPS receiving unit 310 . , an alarm signal generating unit 320 , a sound wave signal generating unit 330 , and a wireless communication unit 400 .

Looking at the external structure of the detachable communication device for disaster preparedness 10 of the present invention, as shown in FIG. 3, the upper part of the life jacket is wrapped in a wrist watch shape and fixed to the body 10a and the belt of the life jacket. It consists of an auxiliary part 10b fixed in the form of a clothespin, and the main body 10a and the auxiliary part 10b are connected by a wire L made of a stretchable material.

A control unit 200 , an RFID tag 300 , a GPS receiver 310 , an alarm signal generator 320 , and a wireless communication unit 400 are disposed in the main body 10a .

A water pressure sensing unit 100 and a sound wave signal generating unit 330 are disposed in the auxiliary unit 10b. For example, the water pressure sensing unit 100 may be disposed above the auxiliary unit 10b , while the sound wave signal generating unit 330 may be disposed below the water pressure sensing unit 100 .

The water pressure sensing unit 100 is a sensor that detects water pressure and provides a detection signal to the control unit 200. Compared to when a person in distress is floating on the water, when the person sinks into the water and moves to a deeper place, the water pressure gradually increases. do. As shown in Fig. 3, the water pressure sensing unit 100 is a pressure sensor built into the auxiliary unit 10b fixed to the belt of the life jacket in the form of a clothespin. Therefore, it detects water pressure above the first set value (approximately, 10mb) and less than the second set value (approximately, 100mb), while at the same time, when the life jacket performance deteriorates or sinks into the water due to climate influences, the third set value (approximately, 200mb) or more will be sensed.

The control unit 200 is a microprocessor that controls all the components of the present invention, and detects the water pressure through the water pressure sensing unit 100 to determine whether the person in distress is floating on the sea or sank in the water, and sends a corresponding control signal to the RFID It outputs to the tag 300 , the GPS receiver 310 , the alarm signal generator 320 , and the sound wave signal generator 330 to activate or deactivate it.

The control unit 200 detects the water pressure through the water pressure sensing unit 100 and determines whether the sensed water pressure is greater than or equal to a first set value (approximately, 10mb) and less than a second set value (approximately, 100mb), and the sensed When the water pressure is higher than the first set value and less than the second set value (a state in which the survivor is floating on the water), the RFID tag 300, the GPS receiver 310 and the alarm signal generator 310 are activated to signal a personal information , to generate a current location information signal and an alarm signal.

The control unit 200 detects the water pressure through the water pressure sensor 100, and when the detected water pressure is higher than the third set value (approximately, 200mb) (a state in which the distressed person is submerged in the water), the sound wave signal generating unit 330 Activate to generate a sonic signal.

The RFID tag 300 provides a personally identifiable information signal when in proximity to the RFID reader R, and transmits it from the RFID reader R to the maritime traffic control center computer M to register personal information, and then to marine traffic When the control center computer (M) later receives the personal information signal, it is compared with the registered personal information to quickly and accurately grasp the personal information of the distressed person. For personal information, the information on the boarding list created at the time of boarding is used, and blood type, gender, etc. can be added with the consent of the boarder.

Furthermore, the RFID tag 300 is activated by the control unit 200 to generate a personally identifiable information signal. This personal information signal is transmitted through the wireless communication unit 400 so that the maritime traffic control center computer (M) can grasp the personal information of the distressed. In an embodiment, the wireless communication unit 400 may transmit the personal information signal by modulating it to be encrypted.

The GPS receiver 310 is activated by the controller 200 to receive radio waves from GPS satellites and generate a location information signal. The location information signal may include location information of the current communication device for disaster preparedness. Accordingly, the communication device for disaster preparedness may acquire the location information of the rescuer wearing a life jacket coupled with the communication device for disaster preparedness. The location information signal is transmitted through the wireless communication unit 400 so that the maritime traffic control center computer (M) can grasp the location of the person in distress. In an embodiment, the wireless communication unit may modulate and transmit the location information signal.

The alarm signal generator 320 is activated by the controller 200 to generate an alarm signal (ie, a rescue request signal). This alarm signal is transmitted through the wireless communication unit 400, so that the maritime traffic control center computer (M) can check the emergency situation of the survivor and direct the rescue operation accordingly. In an embodiment, the wireless communication unit 400 may modulate and transmit an alarm signal.

The sound wave signal generator 330 is activated by the controller 200 to generate a sound wave signal at a set period. The reason why it occurs in a set cycle is to prevent battery consumption. In an embodiment, the sound wave signal generator 330 may make the sound wave signal generation period longer as time goes by in order to minimize battery consumption and increase the sound wave signal transmission time. This sound wave signal is transmitted through the wireless communication unit 400 to facilitate signal transmission even if a person in distress is submerged in water to facilitate rescue work or post-processing work.

The wireless communication unit 400 inputs a personal information signal, a location information signal, an alarm signal and a sound wave signal from the RFID tag 300 , the GPS receiver 310 , the alarm signal generator 320 , and the sound wave signal generator 330 , respectively. It receives, modulates, and transmits. In an embodiment, the wireless communication unit 400 may transmit the received signal by modulating it using encryption or the like.

Hereinafter, a communication method using a detachable distress preparedness communication device according to an embodiment of the present invention configured as above will be described.

2A and 2B are flowcharts of a communication method using the detachable communication device for disaster preparedness of FIG. 1, where S means a step.

First, a personal information signal is provided from the RFID tag 300 to the RFID reader (R) when boarding through a boarding site such as a passenger terminal in a state in which the detachable communication device for preparedness for distress 10 of the present invention is worn on a life jacket. do (S10).

Next, personal information is provided from the RFID reader (R) to the maritime traffic control center computer (M) (S20), which is later used to identify the personal information of the survivor.

Subsequently, the water pressure is sensed by the water pressure sensing unit 100 and a detection signal is input to the control unit 200 (S40), and the control unit 200 receives the detection signal so that the detected water pressure is equal to or greater than the first set value and the second It is determined whether it is less than a set value (S40).

If, in step S40, the detected water pressure is greater than or equal to the first set value and less than the second set value (Y) (that is, if the current distressed person is floating on the water), the control unit 200 controls the RFID tag 300 ), by activating the GPS receiver 310 and the alarm signal generator 320 (S50) to generate a personal information signal, a current location information signal, and an alarm signal, modulate and transmit it through the wireless communication unit 400 (S60) .

Then, by receiving the modulated signal from the maritime traffic control center computer (M), the identity of the person on board is quickly and accurately identified by comparing the personal information of the person in distress with the personal information of the passenger registered at the time of boarding, and after confirming the current location information, The rescue boat is dispatched to the location (S70).

On the other hand, in step S40, if the sensed water pressure is greater than or equal to the first set value and does not fall within the range less than the second set value (N), the control unit 200 determines whether the sensed water pressure is equal to or greater than the third set value It is decided (S80).

If the water pressure sensed in step S80 is equal to or greater than the third set value (Y) (that is, if the shipwreck is submerged in the water), the control unit 200 activates the sound wave signal generator 330 to generate a sound wave signal. By generating, modulating and transmitting through the wireless communication unit 400 (S90), the rescue worker can grasp the location of the distressed person in the water, so that the post recovery process can be smooth.

On the other hand, if the water pressure sensed in the step (S80) is less than the third set value (N), the process proceeds to the step (S30).

On the other hand, in the above embodiment, when a person in distress is floating on the water, the RFID tag 300, the GPS receiver 310, and the alarm signal generator 320 are activated to generate a personal information signal, a current location information signal, and an alarm signal. On the other hand, when a person in distress is submerged in water, only the sound wave signal generator 330 is activated to generate a sound wave signal as an example. , a current location information signal, an alarm signal, and a sound wave signal may be generated together.

On the other hand, although it is exemplified that the GPS receiver 310 is activated only when the person in distress is floating on the water, the GPS receiver 310 is always activated so that the maritime traffic control center computer M can continuously grasp the movement of the passengers. may be

According to the detachable communication device for distress preparedness according to an embodiment of the present invention and a communication method using the same, when the water pressure sensed by sensing the water pressure is greater than or equal to the first set value and less than the second set value, the RFID tag, the GPS receiver and the alarm Activate the signal generator to generate a personal information signal, a current location information signal, and an alarm signal, modulate and transmit it through the wireless communication unit, while if the detected water pressure is greater than or equal to the third set value, activate the sound wave signal generator to generate a sound wave signal By being generated and configured to modulate and transmit through the wireless communication unit, it is possible to inform the personal information of the person in distress in case of sea distress, and it is possible to inform the current location of the person in distress even when floating or sinking in the sea.

In the drawings and specification, an optimal embodiment is disclosed, and specific terms are used, but these are used only for the purpose of describing the embodiments of the present invention, and are used to limit the meaning or limit the scope of the present invention described in the claims it didn't happen Therefore, it will be understood by those of ordinary skill in the art that various modifications and equivalent other embodiments are possible therefrom. Therefore, the true technical protection scope of the present invention should be determined by the technical spirit of the appended claims.

10: Distress Preparedness Communication Device
10a: body
10b: auxiliary
L: wire
100: water pressure sensing unit
200: control unit
300: RFID tag
310: GPS receiver
320: alarm signal generator
330: sound wave signal generator
400: wireless communication unit
M: Maritime traffic control center computer
R: RFID reader

Claims (6)

a water pressure sensing unit configured to sense water pressure;
a control unit that detects water pressure through the water pressure sensing unit, determines whether a person in distress is floating on the sea or sank in the water, and outputs a corresponding control signal;
an RFID tag configured to provide a personally identifiable information signal when in proximity to the RFID reader (R) and to be activated by the control unit to generate a personally identifiable information signal;
a GPS receiver activated by the controller and configured to generate a location information signal;
an alarm signal generating unit configured to be activated by the control unit to generate an alarm signal; and
A detachable communication device for disaster preparedness comprising a; a wireless communication unit configured to receive and transmit the personal information signal, the location information signal, and the alarm signal from the RFID tag, the GPS receiver, and the alarm signal generator.
The method of claim 1,
Further comprising a sound wave signal generator configured to be activated by the control unit to generate a sound wave signal,
The wireless communication unit is a detachable communication device for preparing for distress that receives and transmits the sound wave signal from the sound wave signal generator.
The method of claim 1,
the control unit
Determining whether the detected water pressure is greater than or equal to a first set value and less than a second set value by detecting the water pressure through the water pressure sensing unit,
Activating the RFID tag, the GPS receiver and the alarm signal generator so that the personal information signal, the location information signal, and the alarm signal are generated when the sensed water pressure is greater than the first set value and less than the second set value , a detachable communication device for disaster preparedness.
3. The method of claim 2,
the control unit
Determining whether the detected water pressure is greater than or equal to a first set value and less than a second set value by detecting the water pressure through the water pressure sensing unit,
When the sensed water pressure is equal to or greater than the first set value and less than the second set value, the RFID tag, the GPS receiver, and the alarm signal generator are activated to generate the personal information signal, the location information signal, and the alarm signal, ,
A detachable communication device for distress preparedness that detects water pressure through the water pressure sensing unit and activates the sound wave signal generator to generate the sound wave signal when the detected water pressure is equal to or greater than a third set value.
As a communication method using the detachable communication device for disaster preparedness according to claim 1,
providing a personally identifiable information signal from the RFID tag 300 to the RFID reader (R) upon boarding;
providing personal information from the RFID reader to the maritime traffic control center computer (M);
detecting water pressure by the water pressure sensing unit and inputting a detection signal to the control unit 200;
receiving, by the control unit, a detection signal and determining whether the detected water pressure is greater than or equal to a first set value and less than a second set value; and
When the sensed water pressure is greater than or equal to the first set value and less than the second set value, the control unit activates the RFID tag, the GPS receiver 0) and the alarm signal generator 320 to obtain a personal information signal, current location A communication method comprising a; generating an information signal and an alarm signal, modulating the transmission through the wireless communication unit (400).
6. The method of claim 5,
The communication device for preparing for distress further comprises a sound wave signal generator configured to be activated by the control unit to generate a sound wave signal,
The communication method further includes; when the sensed water pressure is equal to or greater than a third set value, the control unit activates the sound wave signal generator to generate a sound wave signal, modulates the sound wave signal and transmits the modulated signal through the wireless communication unit.

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