KR101971663B1 - Distress rescue system using sound wave - Google Patents

Abstract

The present invention relates to a distress rescue system using sound waves, which comprises: a transmitting device for generating and transmitting rescue sound waves through a speaker in a shaded area; a portable probe device for receiving the rescue sound waves, digitizing the rescue sound waves to store the sound waves as survivor information; and a location checking device for receiving the survivor information and predicting the location of the survivor. The location of the survivor is quickly detected in an area, thereby carrying out a rapid distress rescue.

Description

[0001] DISTRESS RESCUE SYSTEM USING SOUND WAVE [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a distress rescue system using a sound wave, and more particularly, to a distress rescue system using a sound wave capable of rescuing a distresser using a sound wave in a shaded area outside a mobile communication network.

In general, a distress accident means an accident where the safety of life or body of a passenger is not guaranteed due to sinking, stranding, overturning, collision, or falling of a ship or an aircraft. These distress accidents happen regardless of time and place, and they come without warning and fear the mind and body that can not be expressed to the person who has suffered a distress accident. Therefore, the distress and rescue system to rescue the victims in the event of a distress accident is a subject that must be constantly researched and developed as a minimum technology to protect the nation.

On the other hand, in the modern society, cell phones are classified as necessities of life, and their usage rate and penetration rate are very high. It is very common for mobile phones to communicate with other users anywhere in the area where the mobile communication network is established. However, cell phones are useless in the shaded areas beyond the mobile communication network, especially in the global positioning system (GPS).

A system and method for tracking an ultrasound and wireless signal-based navigation system using a wireless transmission / reception system for tracking a location of a safety event through a wireless transmission / reception system, the system comprising: And a second receiver for performing ultrasonic communication based on the acquired data obtained by acquiring the peripheral information in accordance with the ultrasonic signal. The receiving unit includes a first receiving unit for performing real- ; A transmitting unit provided in a passenger, a victim, a major asset of a ship, etc. installed on a ship and continuously and periodically transmitting coordinates and pressure to a current location by radio transmission / reception and ultrasonic transmission / reception so that an emergency can be responded quickly; And a monitoring center which receives and transmits to and from the receiving unit and emits an alarm when an emergency occurs or displays the final position so as to grasp the exact location and identification information of the victim even in the nighttime and the bad weather, Lt; / RTI >

The ultrasound and wireless signal based maritime positioning systems and methods disclosed herein can be used to detect and respond immediately to a surveillance center in the event of a disaster or major asset departing from a ship or an emergency occurring due to water ingestion, It is possible to minimize the damage to the human life, and it is possible to grasp the exact position and identification information of the victim even in the nighttime and the bad weather by grasping the position of the signal of the detected victim and the position of the signal by the emergency call button.

However, the above technology is applicable when a distress accident occurs in an area in which a mobile communication network is established to transmit information related to the victims, and a GPS is installed to transmit distress location information. In other words, it is impossible to communicate the information of the victim and the location of the victim in the shaded area deviated from the mobile communication network and the GPS, so it is impossible to apply the technology to the distress incident in the shadow area.

(Document 1) Korean Patent Laid-Open Publication No. 2012-0077400 (Jul. 10, 2012)

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and it is an object of the present invention to provide a distress rescue system capable of performing rescue operations using sound waves in a distress incident in a shaded area.

In addition, the present invention provides a distress rescue system using sound waves capable of extracting structure information of a victim by transmitting structured sound waves in a predetermined area at a location of the victim, receiving and storing the sound waves in a corresponding area, There are other purposes to provide.

In addition, the present invention can transmit the structural sound waves of the victim through the intermediate medium, and in particular, in case of using a mobile phone, it is possible to transmit a structural sound wave transmitted by the victim to the distress center without any additional equipment There is another purpose to provide.

It is another object of the present invention to provide a distress rescue system using a sound wave that can transmit a structural sound wave farther through the portable radio wave transducer.

The present invention has been made in view of the above problems, and it is an object of the present invention to provide an apparatus and method for controlling the same.

According to an aspect of the present invention, there is provided a method of generating a sound wave in a shaded area, the method comprising: transmitting a structural sound wave through a speaker in a shaded area; A portable probe device located in the sound wave transmission area within a predetermined range from the transmission device and receiving the structural sound wave to digitize and store the sound wave as destructor information; And a position grasping device for receiving the distress information stored in the mobile probe device in the communicable area and estimating a position of the distressed person.

In the present invention, the transmitting apparatus may include: a detecting unit detecting a surrounding environment of the victim and outputting a detection signal; A generator for generating and controlling a sound property of the structural sound wave in response to the detection signal; And a transmitting unit for transmitting the structured sound waves in a sound wave transmitting manner using the speaker.

In the present invention, it is preferable that the generator controls at least one of amplitude, frequency, and waveform of the structural sound wave in response to the detection signal.

In the present invention, a setting unit for setting the transmitting apparatus to the normal mode or the distress mode; And a control unit for controlling the amount of the structure information of the destructor encoded in the structured sound wave according to the battery capacity of the transmission apparatus in response to the mode selection signal output from the setting unit.

In the present invention, the mobile probe apparatus may further include: a receiving unit for receiving the structural sound waves; A storage unit for converting the structured sound waves into the destructor information and storing the converted destructor information; And a transmitter for transmitting the destructor information stored in the storage unit in the communicable area to the localization apparatus through a data communication scheme.

The present invention may further include a notification unit for informing a user of the mobile probe apparatus that the destructor information is stored in the storage unit.

In the present invention, it is preferable that the mobile probe apparatus includes a general channel for communicating data desired by the user and a public channel for communicating the structured sound wave.

In the present invention, it is preferable that the mobile probe apparatus open the open channel in the shadow area, and automatically transmit the victim information to the position grasping device in the communicable area.

In the present invention, it is preferable that the transmitting apparatus further includes a display unit for indicating that the structural sound waves are transmitted.

It is preferable that the present invention further includes a sound wave converting device coupled to the transmitting device and connected to the speaker formed in the transmitting device to convert the sound wave into a structural wave.

In the present invention, the sound wave converting apparatus may include: a hollow body having a converting unit for converting the sound wave into the structural wave; A cap formed on one side of the body; And an engaging member formed on the other side of the body and corresponding to an outer surface of the speaker.

According to another aspect of the present invention, there is provided a method for generating a structured sound wave by encoding structural information of a victim, Transmitting the structured sound wave to a mobile medium by a sound wave transmission method; Digitizing the structured sound waves and storing them as destructor information; Transferring the victim information to a final destination in a data communication manner; And decoding the victim information to extract the structure information of the victim. The method of driving a distress system using a sound wave is also provided.

Determining whether the mobile medium enters the shadow area according to the present invention; And opening the public channel of the mobile medium in response to the determining.

In the present invention, it is preferable to further include notifying the user of the mobile medium whether the mobile medium is stored in response to the storing step.

In the present invention, in the step of delivering to the final destination, when the mobile medium enters the communicable area, the destructor information stored in the storing step is automatically transferred to the final destination.

In the present invention, it is preferable that the step of generating the structured sound waves adjusts the amount of the structural information of the victim to be encoded according to the capacity of the battery.

The sound disturbance rescue system according to the present invention provides the following effects.

Since the present invention uses a structural sound wave transmitted from a victim, it is possible to quickly detect the position of a victim in a shaded area, thereby achieving a rapid distress structure.

The present invention has the effect of minimizing the cost of the distress structure by acquiring the location information of the victim without any additional equipment or addition of rescue personnel.

The present invention has an effect that it is possible to increase the time that the disaster can be rescued by changing the type of rescue sound waves and sending the rescue sound waves farther and longer.

The present invention has the effect of increasing the probability that a disaster can be found by easily converting a structural sound wave through a sound wave converting device which is portable in an emergency, and transmitting the sound wave farther.

The effects of the present invention are not limited to those mentioned above, and other effects not mentioned can be clearly understood by those skilled in the art from the following description.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a diagram for explaining an overall structure of a distress system using a sound wave according to an embodiment of the present invention; FIG.
FIG. 2 is a block diagram for explaining a transmitting apparatus and a mobile probe apparatus of FIG. 1; FIG.
FIG. 3 is a diagram for explaining the amount of structure information encoded according to the battery capacity of the transmitting apparatus of FIG. 1; FIG.
Fig. 4 is a diagram for explaining a further configuration that can be carried by the transmission apparatus 100 of Fig. 1; Fig.

The description of the present invention is merely an example for structural or functional explanation, and the scope of the present invention should not be construed as being limited by the embodiments described in the text. That is, the embodiments are to be construed as being variously embodied and having various forms, so that the scope of the present invention should be understood to include equivalents capable of realizing technical ideas. Also, the purpose or effect of the present invention should not be construed as limiting the scope of the present invention, since it does not mean that a specific embodiment should include all or only such effect.

Meanwhile, the meaning of the terms described in the present application should be understood as follows.

The terms " first ", " second ", and the like are intended to distinguish one element from another, and the scope of the right should not be limited by these terms. For example, the first component may be referred to as a second component, and similarly, the second component may also be referred to as a first component.

It is to be understood that when an element is referred to as being "connected" to another element, it may be directly connected to the other element, but there may be other elements in between. On the other hand, when an element is referred to as being "directly connected" to another element, it should be understood that there are no other elements in between. On the other hand, other expressions that describe the relationship between components, such as "between" and "between" or "neighboring to" and "directly adjacent to" should be interpreted as well.

It is to be understood that the singular " include " or " have ", as used herein, is intended to encompass a plurality of expressions, unless the context clearly dictates otherwise, It is to be understood that the combination is intended to specify that it does not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, or combinations thereof.

In each step, the identification code (e.g., a, b, c, etc.) is used for convenience of explanation, the identification code does not describe the order of each step, Unless otherwise stated, it may occur differently from the stated order. That is, each step may occur in the same order as described, may be performed substantially concurrently, or may be performed in reverse order.

All terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs, unless otherwise defined. Commonly used predefined terms should be interpreted to be consistent with the meanings in the context of the related art and can not be interpreted as having ideal or overly formal meaning unless explicitly defined in the present application.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a sound disturbance system using a sound wave according to a preferred embodiment of the present invention will be described in detail with reference to the drawings.

FIG. 1 is a diagram for explaining an overall structure of a distress system using a sound wave according to an embodiment of the present invention. Referring to FIG.

1, the sound disturbance rescue system according to the present invention is installed in a distress AP and includes a transmitter 100 for generating and sending a rescue sound wave SW through a speaker in a shaded area DA ); A mobile probe device 200 located in the sound wave transmission area MA within a predetermined range from the transmission device 100 to receive and digitize the sound waves SW as constellation information; And a location determination device 300 for receiving the distress information stored in the mobile probe device 200 in the communicable area CE to predict the location of the distress AP.

First, the transmission apparatus 100 is a structure for generating a structural sound wave SW through a predetermined mechanical operation by a victim of a distress accident. The structural sound wave SW is provided with information related to the victim, such as human information, The structure information of the same victim (AP) is encoded. 2, a speaker capable of transmitting a sound wave is mounted on the transmission apparatus 100, and a structural sound wave (SW) in which the structure information of the destructor (AP) is encoded is transmitted through the speaker at 90 dB It is possible to send out the sound above.

The transmitting apparatus 100 may have various configurations according to the design, but can be replaced with a necessity of a mobile phone these days. That is, when the victim AP is disturbed in the shadow area DA, it is possible to set the mobile phone to the rescue mode and to control the rescue sound wave SW to be sent out through the speaker mounted on the mobile phone.

Here, the structural sound wave (SW) transmitted through the speaker mounted on the mobile phone has a limited distance to be transmitted at the maximum, and the aggregated area of the range of distances that can be transmitted is referred to as a sound wave transmission area (MA).

The range of the sound wave transmitting area MA can be varied depending on the amplitude, frequency, and waveform of the sound. Even if the sound quality is the same, the range of the sound wave transmitting area MA can be changed depending on the surrounding environment such as weather, atmosphere, As will be described later, the sound disturbance rescue system using the sound wave according to the embodiment of the present invention can change the sound property of the structural sound wave SW in order to maximize the sound wave transmission area MA according to the surrounding environment of the victim. This will be described again in the operation description of FIG.

Subsequently, the mobile probe apparatus 200 may be a mobile phone as an example of a configuration for digitizing a structural sound wave (SW) transmitted from the transmission apparatus 100 and storing the digitized sound as victim information. That is, the transmitting apparatus 100 may be a mobile phone possessed by a victim (AP), and the mobile probe apparatus 200 may be a mobile phone possessed by a rescuer (SN).

As already explained above, if the victim (AP) is distressed in the shadow area (DA), the cell phone becomes useless. However, in the embodiment of the present invention, the mobile phone corresponding to the transmitting apparatus 100 transmits the structured sound wave SW in which the structure information of the destructor (AP) is encoded through the speaker in the shaded area DA, 200 receives the structured sound wave SW, digitizes and stores the structural sound wave, and the structure information of the victim is transmitted from the transmission apparatus 100 to the mobile probe apparatus 200 in a sound wave transmission mode.

Since the structural sound wave SW is transmitted through the speaker of the transmission apparatus 100, the movable probe apparatus 200 should be located in the sound wave transmission area MA, which is a range through which the structural sound wave SW is transmitted, The structural sound wave SW transmitted from the transmission apparatus 100 can be transmitted to the mobile probe apparatus 200 and stored.

Meanwhile, the mobile probe device 200 according to the embodiment of the present invention includes a cell phone of a rescuer (SN), and may correspond to a cell phone of a third person who has nothing to do with the victim, such as a climber (SN) have.

In detail, a mobile phone corresponding to the mobile probe device 200 has a public channel for receiving a structural sound wave (SW) without any restrictions. Here, the public channel is a common data communication method Means a channel separate from the general channel used. That is, when the rescuer or mountain climber SN enters the sound wave transmitting area MA, the sound wave SW is transmitted to the resident's mobile phone or the mobile phone of the climber SN by a sound wave transmitting method, And stored in the mobile phone of the rescuer or hiker (SN). That is, the structural sound wave (SW) uses the mobile phone of the rescuer or the climber (SN) as a mobile medium through the public channel of the corresponding mobile phone. The description of the public channel will be described in more detail with reference to FIG.

Then, the structured sound wave SW is stored in the portable probe device 200 in order to facilitate data transfer. In this case, the structured sound wave SW is digitized and stored . Hereinafter, for convenience of description, the structural sound wave SW digitized and stored in the mobile probe apparatus 200 will be referred to as " destructor information ".

Finally, the location grasping device 300 receives the destructor information stored in the mobile probe device 200 in the communicable area CE and analyzes it to obtain structural information of the destructor (AP), that is, Information and location information. The location grasping apparatus 300 may be provided in, for example, a rescue headquarters for a victim structure or a hospital.

Here, the communicable area CE is a communication area defined by the base station GG in a cell form. That is, the communicable area CE is an area where data exchange is performed by a general data communication method, and means an area other than the shadow area DA.

In other words, the destructor information transmitted from the mobile probe apparatus 200 to the position determination apparatus 300 is transmitted in the communicable area CE defined by the base station GG, and the position determination apparatus 300 transmits the destructor information It is possible to extract human information or location information of the victim (AP) and provide it to be utilized in the rescue activities.

In the distress rescue system using the sound wave according to the embodiment of the present invention, when a distressed person who has suffered a distress accident in the shaded area DA transmits a structural sound wave SW using the transmission apparatus 100, The mobile probe device 200 of the rescuer approaching to the sound wave transmitting area MA or the mobile SN of the climber SN stores the structured sound wave SW as the destructor information and stores the stored destructor information in the communicable area CE When the information is transmitted to the grasping apparatus 300, the position grasping apparatus 300 analyzes the information to extract personal information or location information of the victim AP and provides the information to the rescuer. As a result, the distressed (AP) who is distressed in the shadow area (DA) can be structured smoothly by the sound disturbance system using sound waves according to the embodiment of the present invention.

2 is a block diagram for explaining the transmitting apparatus 100 and the mobile probe apparatus 200 of FIG.

1 and 2, a transmitting apparatus 100 includes a detecting unit 110 detecting a surrounding environment of the victim AP and outputting a detection signal D; A generating unit 120 for controlling the sound characteristics of the structured sound wave SW according to the detection signal D; A setting unit 140 for setting the transmitting apparatus 100 to a normal mode or a distress mode, and a sending unit 130 for sending the structured sound wave SW in a sound wave transmitting manner using the speaker. And controlling the amount of structure information of the destructor (AP) encoded in the structured sound wave (SW) according to the battery capacity of the transmitting apparatus (100) in response to the mode selection signal (S) output from the setting unit And a control unit 150 for controlling the apparatus.

First, the detection unit 110 is configured to detect the surrounding environment of the victim AP and generate the detection signal D.

As described above, although the sound wave transmitting area MA is varied depending on the sound properties of the structural sound wave SW, the sound wave transmission area MA may vary depending on the weather, the atmospheric state, the type of the earth, and obstacles in the same sound property. Therefore, in order to maximize the sound wave transmitting area MA of the structural sound wave SW, the surroundings such as the weather, the atmospheric condition, the type of the earth, the obstacle, etc. around the distress AP must be considered. For this, (AP), and generates a detection signal (D) corresponding thereto.

The detection unit 110 may correspond to a configuration capable of detecting and analyzing the humidity or temperature of the surrounding environment in order to detect, for example, a gas phase, an atmospheric state, or the like. And a configuration that can be analyzed.

Next, the generation unit 120 is configured to control the sound properties of the structural sound wave SW in response to the detection signal D. Since the detection signal D generated by the detection unit 110 has information corresponding to the surrounding environment of the victim AP, the generation unit 120 calculates the sound property of the structural sound wave SW in accordance with the detection signal D Control means that the sound quality of the structural sound wave (SW) is controlled according to the surrounding environment of the victim (AP).

In other words, the generating unit 120 adjusts at least one of the amplitude, the frequency, and the waveform, which are the sound properties of the structural sound wave SW, according to the detection signal D so that the structural sound wave SW can be transmitted the farthest, It is possible to maximize the sound wave transmitting area MA.

Next, the sending unit 130 is configured to send the structured sound wave SW to the outside, and may correspond to a speaker mounted on a mobile phone, for example. The speaker can transmit the structural sound wave SW to the sound wave transmission area MA through the sound wave transmission system.

Although not shown in the drawing, the transmitting apparatus 100 may further include a display unit (not shown) for displaying the structured sound wave SW while the sound wave is being transmitted. The display unit is configured to allow a victim (AP) to recognize that a structural sound wave (SW) such as a time or an auditory is continuously transmitted. For example, when an anomaly occurs in the hearing of an escapee (AP) SW) is sent out, it is possible to induce the victim (AP) to know that the rescue operation is continuously carried out, thereby inducing the stability of the mind.

The setting unit 140 is for setting the operation mode of the transmitting apparatus 100. The setting unit 140 allows the transmitting apparatus 100 to set the normal mode and the distress mode. Herein, the normal mode refers to an operation mode commonly used when the transmitting apparatus 100 is a mobile phone, and the distress mode refers to an operation mode for transmitting a structured sound wave SW through a speaker mounted on a mobile phone.

The control unit 150 generates a control signal C corresponding to the battery capacity of the transmitting apparatus 100 in response to the mode selection signal S output from the setting unit 140. [ In other words, the control unit 150 can detect the battery capacity of the transmitting apparatus 100 in the distress mode and generate the control signal C corresponding thereto.

The generating unit 120 encodes the personal information and the positional information of the victim to generate a structured sound wave SW and adjusts the amount of the structure information encoded in the structured sound wave SW in response to the control signal C It is possible. Hereinafter, a more detailed description will be given with reference to FIG.

FIG. 3 is a diagram for explaining the amount of structure information encoded according to the battery capacity of the transmitting apparatus 100 of FIG.

3 shows an example in which the battery capacity of the transmitter 100 is 100% and the battery capacity is 50%.

First, when the battery capacity of the transmitting apparatus 100 is 100%, the structure information corresponding to the data start, the coin registration number, the key, the weight, the final GPS position, and the data end is encoded into the structural sound wave SW, ) Is 50%, the structure information corresponding to data start, final GPS position, and data end is encoded in the structural sound wave SW.

Here, the data length DL1 when the battery capacity of the transmitter 100 is 100% is longer than the data length DL2 when the battery capacity is 50%, because the battery capacity of the transmitter 100 is 100% , The amount of data to be encoded means that the amount of data to be encoded is larger than the amount of data to be encoded when the battery capacity is 50%.

More specifically, when the battery capacity of the transmitting apparatus 100 is large at the time of disturbance, if the personal information and the position information are all encoded to generate the structured sound wave SW, Since it is possible to acquire all of the position information, more accurate structural activities can be achieved. If the battery capacity of the transmitter 100 is relatively small, the structure sound wave SW can be generated by encoding only the more important information among the human information and the position information. The probability can be increased.

For this reason, it is the worst case that the battery of the transmitting apparatus 100 is exhausted and the structured sound wave SW can not be transmitted. Therefore, even if the information encoded in the structured sound wave SW is minimized, As shown in Fig.

2, the control unit 150 generates a control signal C corresponding to the battery capacity of the transmitting apparatus 100 in response to the selection signal S activated in the distress mode, ) Adjusts the amount of structure information of the destructor (AP) encoded in the structured sound wave (SW) in response to the corresponding control signal (C), thereby allowing the transmission apparatus 100 to transmit more definite structure information more consistently It is possible.

Next, the mobile probe apparatus 200 includes a receiving unit 210 for receiving the structured sound wave SW; A storage unit 220 for converting the structured sound wave SW to the destructor information and storing the destructor information; And a transmitting unit 230 for transmitting the destructor information stored in the storage unit 220 in the communicable area CE to the localization apparatus 300 through a data communication scheme, And a notification unit 240 for informing the user of the mobile probe apparatus 200 that the victim information is stored in the portable probe apparatus 200. [

The receiving unit 210 is configured to receive a structural sound wave SW transmitted to the sound wave transmitting area MA in the shade area DA and may correspond to a microphone mounted on a mobile phone, for example. For reference, in a mobile phone, a channel for communicating a structured sound wave (SW) through a microphone corresponds to a public channel, and a channel for communicating data through an antenna corresponds to a general channel.

The storage unit 220 is configured to convert the structured sound wave SW into digital type destructor information and store the converted sound wave. Although not shown in the figure, the storage unit 220 includes a storage unit 220, A conversion circuit and a storage circuit for storing the conversion circuit.

Lastly, the transmitter 230 is configured to transmit the victim information to the location determination device 300, and may correspond to a transmission circuit mounted on a mobile phone, for example. The transmitting unit 230 can transmit the destructor information stored in the storage unit 220 from the communicable area CE to the localization apparatus 300 of FIG.

As a result, when a distress accident occurs in the shadow area DA, the distressing rescue system using the sound wave according to the embodiment of the present invention generates a structural sound wave SW using the transmitter 100, The structural sound wave SW can be transmitted to the position sensing device 300 using the mobile probe device 200 including a cell phone of a rescue person or a hiker SN as a mobile medium.

Meanwhile, a method of driving a distress system using a sound wave according to an exemplary embodiment of the present invention includes: generating a structural sound wave (SW) by encoding structure information of a destructor (AP); Transmitting the structural sound wave (SW) as a moving medium in a sound wave transmission mode; Digitizing the structured sound wave (SW) and storing it as destructor information; Transferring the victim information to a final destination in a data communication manner; And decoding the victim information to extract the structure information of the victim.

1 and 2, the transmitting apparatus 100 encodes the structure information of the victim AP to generate a structured sound wave SW, and transmits the structured sound wave SW to the sound wave transmitting region MA). This is transmitted to the mobile probe device 200 as a mobile medium, digitized in the mobile probe device 200, and stored as destructor information. Then, the destructor information is transmitted from the communicable area CE to the final destination 300, which is a data communication method, in which the destructor information is decoded to extract the destructor's structure information.

On the other hand, in the case of a mobile phone, communication with the GPS is performed at regular intervals, and it is possible to define that the mobile phone enters the shadow area (DA) when communication with the GPS is not possible.

Therefore, the transmitter 230 according to the embodiment of the present invention automatically opens the open channel when the mobile phone, which is the mobile probe device 200, enters the shadow area DA according to the GPS communication, It is possible to automatically transmit the destructor information stored in the storage unit 220 to the location determination device 300 when the cellular phone enters the communicable area CE.

Such a function can automatically store the structure information of the victim AP in the mobile phone of the climber who unintentionally entered the sound wave transmitting area MA of the victim AP and when the climber enters the communicable area CE It is intended to provide an environment in which the structure information of the stored victims (AP) can be automatically transmitted to hospitals and the like.

Meanwhile, the notification unit 240 provided in the mobile probe apparatus 200 is configured to notify the user of the destructor (AP) information stored in the storage unit 220 when the information is stored. Since the climber SN does not know whether or not a distress accident occurs, even if the structure information of the distressor (AP) is stored in the storage unit 220 through the open channel, it can not be grasped. Accordingly, the notification unit 240 can detect this and notify the climber SN of the presence of a distresser (AP).

In summary, the sound disturbance rescue system using the sound wave according to the embodiment of the present invention is structured such that the structural sound wave (SW) sent by the victim (AP) of the shaded area (DA) And can be transmitted to the grasping apparatus 300 through which a stable rescue operation can be performed on the victim AP in the shadow area DA.

4 is a diagram for explaining an additional configuration that can be carried by the transmission apparatus 100 of FIG.

Referring to FIG. 4, a distress structure system using a sound wave is attached to the transmission apparatus 100 as an accessory, and is connected to a speaker SR formed on the transmission apparatus 100 to transmit the structural sound wave SW to a structural propagation path And a sound wave converting apparatus 100A for converting the sound wave. Here, the sound wave converting device 110A may be an accessory connected to a mobile phone, and is preferably designed to use a connecting member capable of connecting with a mobile phone or an accessory coupling structure through a direct binding structure with a mobile phone.

The sound wave inverter 110A is connected to the speaker SR of the transmitter 100 in the event of a distress accident and can convert the sound wave SW into a structural wave to be transmitted. As an example. In this attachment structure, the sound wave inverter 110A includes a hollow body BD having a conversion unit (not shown) for converting the structural sound wave SW into the structural wave, A cap (DD) formed on one side of the body (BD); And a coupling member JD formed on the other side of the body BD and coupled to an outer surface of the speaker SR. Here, in the case of the coupling member JD, the coupling member JD may have a circular ring structure corresponding to the outer surface of the speaker SR, and may have a structure that is formed of an adhesive material or can be attached to or attached to a mobile phone.

The sound wave converting apparatus 110A may be designed in various forms and may be designed in various forms such as a speaker or the like that is easily acquired by a victim in a distress accident and attached to or bonded to the outer surface of a speaker SR formed in the receiving apparatus 100, It is desirable that the structure is designed so as to be capable of converting the structural sound wave SW into a structural wave.

Referring to FIG. 1 again, the structural propagation can be transmitted to a wider area than the sound wave transmitting area MA, which means that the probability that the AP can be found by the rescuer (SN) can be increased . For reference, in this case, it is preferable that a movable channel for communicating a structural radio wave is formed in the movable probe apparatus 200 of the rescuer SN.

The embodiments and the accompanying drawings described in the present specification are merely illustrative of some of the technical ideas included in the present invention. Therefore, it is to be understood that the embodiments disclosed herein are not for purposes of limiting the technical idea of the present invention, but rather are not intended to limit the scope of the technical idea of the present invention. It will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

100: transmitting apparatus 200: movable probe apparatus
300: Positioning device
DA: shaded area MA: sound wave transmitting area
SW: Structural sound wave AP: The evil
SN: rescuer CE: communicable area
GG: base station

Claims (16)

A transmitting device mounted on the victim and for generating and transmitting a structural sound wave through a speaker in a shaded area;
A portable probe device located in the sound wave transmission area within a predetermined range from the transmission device and receiving the structural sound wave to digitize and store the sound wave as destructor information;
A position grasping device for receiving the destructor information stored in the portable probe device in the communicable area to predict the position of the victim; And
And a sound wave converting device attached to the transmitting device and connected to the speaker formed on the transmitting device for converting the sound wave into a structural wave
Disturbance rescue system using sound waves.
The method according to claim 1,
The transmitting apparatus includes:
A detector for detecting a surrounding environment of the victim and outputting a detection signal;
A generator for generating and controlling sound characteristics of the structural sound wave according to the detection signal; And
And a transmitting unit for transmitting the structured sound wave in a sound wave transmitting manner using the speaker
Disturbance rescue system using sound waves.
3. The method of claim 2,
Wherein the generation unit controls at least one of an amplitude, a frequency, and a waveform of the structural sound wave in response to the detection signal
Disturbance rescue system using sound waves.
3. The method of claim 2,
A setting unit for setting the transmitting apparatus to a normal mode or a distress mode; And
And a control unit for controlling the amount of the structural information of the victim encoded in the structured sound wave according to the battery capacity of the transmission apparatus in response to the mode selection signal outputted from the setting unit
Disturbance rescue system using sound waves.
The method according to claim 1,
Wherein the movable probe apparatus comprises:
A receiving unit for receiving the structural sound waves;
A storage unit for converting the structured sound waves into the destructor information and storing the converted destructor information; And
And a transmitter for transmitting the destructor information stored in the storage unit in the communicable area through the data communication system
Disturbance rescue system using sound waves.
6. The method of claim 5,
And a notification unit for informing a user of the mobile probe apparatus that the victim information is stored in the storage unit
Disturbance rescue system using sound waves.
6. The method of claim 5,
Wherein the mobile probe apparatus has a general channel for communicating data desired by a user and a public channel for communicating the structured sound wave
Disturbance rescue system using sound waves.
8. The method of claim 7,
The mobile probe device
Opening the open channel in the shadow area,
And automatically transmits the victim information to the localization apparatus in the communicable area
Disturbance rescue system using sound waves.
The method according to claim 1,
The transmitting apparatus may further include a display unit for indicating that the structured sound wave is transmitted
Disturbance rescue system using sound waves.
delete The method according to claim 1,
The sound wave converting apparatus includes:
A hollow body mounted with a conversion unit for converting the structural sound wave into the structural electric wave;
A cap formed on one side of the body; And
And an engaging member formed on the other side of the body and coupled to an outer surface of the speaker
Disturbance rescue system using sound waves.
A method of driving a distress system using sound waves according to claim 1,
Generating a structural sound wave by encoding the destructor structural information;
Transmitting the structured sound wave to a mobile medium by a sound wave transmission method;
Digitizing the structured sound waves and storing them as destructor information;
Transferring the victim information to a final destination in a data communication manner; And
And decoding the victim information to extract the structure information of the victim
A method of driving a distress system using sound waves.
13. The method of claim 12,
Determining that the mobile medium enters a shadow area; And
And opening the public channel of the mobile medium in response to the determining
A method of driving a distress system using sound waves.
13. The method of claim 12,
Further comprising the step of informing the user of the mobile medium whether or not to store the response in response to the storing step
A method of driving a distress system using sound waves.
13. The method of claim 12,
Wherein the delivering to the final destination automatically transfers the destructor information stored in the storing step to the final destination when the mobile medium enters the communicable area
A method of driving a distress system using sound waves.
13. The method of claim 12,
Wherein the step of generating the structured sound waves adjusts the amount of the structural information of the victim to be encoded according to the capacity of the battery
A method of driving a distress system using sound waves.

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