KR101744851B1 - Method for transceiving file based on inaudible frequency signal broadcasting scheme, and system thereof - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method and system for transmitting and receiving a file based on a non-audible frequency signal broadcasting scheme. According to the present invention, an authentication number (index) is received according to a query to the mediating server according to a file upload to the mediating server, and then an authentication number is generated as a non-audible frequency signal and broadcasting is performed to the receiving terminal A transmission terminal; And a receiving terminal for converting an authentication number (index) corresponding to the received non-audible frequency signal into a file address of the mediating server and downloading a file corresponding to the file address from the mediating server; And a control unit.
Thus, it is possible to transmit the file without limitation of the number of persons at a distance that can detect the non-audible frequency at a close range without inconvenience to the user by utilizing the non-audible frequency band instead of the audible frequency band.
In addition, the present invention provides an effect that a file and information desired by the user can be transmitted without forming a special group to a large number of users at a close distance.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method and system for transmitting and receiving a file based on a non-audible frequency signal broadcasting scheme,

The present invention relates to a method and system for transmitting and receiving a file based on an audiovisual frequency signal broadcasting method. More particularly, the present invention relates to a method and system for transmitting and receiving a file on a non-audible frequency And more particularly, to a method and system for transmitting and receiving a file based on a signal broadcasting scheme.

As the number of smartphone users increases, more and more files are stored on the smartphone and transmitted to the smartphone. In addition to photographs taken on smart phones, there are many cases where files of various formats, such as document files or PPT files, are stored, and there is a growing need to share them.

 Conventionally, in order to transmit a file from a smart phone, existing users transmit the file using a chat application, a 1: 1 matching and transmitting application, a bluetooth or a Wi-Fi direct transmission method .

 However, each of these conventional techniques has limitations or inconveniences.

That is, the chat application needs a process for transferring a file to an unspecified number or for grouping to transfer a file to a large number of people, and a short-distance communication such as bluetooth or Wi-Fi direct is limited to a maximum number of pairing do.

Accordingly, there is a need in the art to develop a technique for easily transferring files to more users in order to overcome the drawbacks of the related art.

Korean Patent Registration No. 10-1335366 entitled "Apparatus and method for transmitting and receiving data through non-audible frequency, apparatus and method for providing audio data using auditory frequency" Korean Patent Registration No. 10-1122043 "Acoustic Transmitting / Receiving Device and Method for Transmitting / Korean Patent Registration No. 10-1034693 entitled " Data Transmission and Reception System and Method in an Audible Frequency Band " Korean Patent Registration No. 10-1432099 entitled " System and Method for Data Transmission and Reception in Acoustic Frequency Communication, and Apparatus Applied to It "

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a method and apparatus for generating a non- And to provide a method and system for transmitting and receiving a file based on an audiovisual frequency signal broadcasting scheme for providing a new type of near field data communication.

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

In order to achieve the above object, according to an exemplary embodiment of the present invention, a system for transmitting / receiving a file based on a non-audible frequency signal broadcasting method receives an authentication number (index) according to a query to the mediating server upon file upload to a mediating server A transmitting terminal for generating an unauthenticated frequency signal as an authentication number and broadcasting an audible frequency signal to a receiving terminal; And a receiving terminal for converting an authentication number (index) corresponding to the received non-audible frequency signal into a file address of the mediating server and downloading a file corresponding to the file address from the mediating server; .

In this case, the band used for the non-audible frequency communication is 19000 Hz to 24000 Hz, and the section is divided every 100 Hz to have a total of 50 zones. Ten frequencies are expressed as binary values in each zone, It is preferable that the binary values are matched and used.

In addition, the transmission terminal determines whether frequency of each zone is used when generating a frequency for file transmission by checking through a microphone (MIC) and determines a vacant zone and generates a frequency corresponding to a vacant zone A non-audible frequency generator; .

In addition, it is preferable that the non-audible frequency generator uses a decibel (dB) value of 19000 to 24000 Hz through FFT conversion of the sound input through the microphone (MIC) before generating the audible frequency.

According to another aspect of the present invention, there is provided a method for transmitting and receiving a file based on a non-audible frequency signal broadcasting method, the method comprising: transmitting, by a transmitting terminal, ); ≪ / RTI > A second step in which the transmitting terminal generates an authentication number as an audible frequency signal and broadcasts an audible frequency signal to the receiving terminal; A third step of the receiving terminal converting an authentication number (index) corresponding to the received audible frequency signal into a file address of the mediating server; And a fourth step in which the receiving terminal downloads a file corresponding to the file address from the mediating server; .

A method and system for transmitting and receiving a file based on a non-audible frequency signal broadcasting scheme according to an embodiment of the present invention can detect a non-audible frequency in a short distance without inconveniencing the user by utilizing an in- Provides the ability to transfer files without the limit of the number of people on the street.

In addition, according to another embodiment of the present invention, there is provided a method and system for transmitting / receiving a file based on a non-audible frequency signal broadcasting scheme, which can transmit a file and information desired by the user, Effect.

In other words, it is possible to generate a non-audible frequency through a speaker in a small space such as a classroom, so that a professor can transmit a desired file to dozens of students in a classroom. In addition, It is possible to transmit a file to a user who watches the Internet media at a long distance. Also, it is possible to send notices to specific people inside the space used by many people such as KTX, shopping mall, etc. through a speaker by using a desired picture file at a non-audible frequency, .

1 is a diagram illustrating a file transmission / reception system based on a non-audible frequency signal broadcasting scheme according to an embodiment of the present invention.
FIG. 2 is a diagram showing a frequency matching to binary table used in a file transmission / reception system based on the audiovisual frequency signal broadcasting scheme of FIG. 1; FIG.
3 is a schematic diagram illustrating a file input / output module structure and a file transmission / reception flow in a file transmission / reception system based on the non-audible frequency signal broadcasting scheme of FIG.
4 is a diagram illustrating an HTTP protocol header used between a file input / output module and a mediation server in the present invention;
5 is a flowchart illustrating a method for transmitting and receiving a file based on a non-audible frequency signal broadcasting scheme according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a detailed description of preferred embodiments of the present invention will be given with reference to the accompanying drawings. In the following description of the present invention, detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

In the present specification, when any one element 'transmits' data or signals to another element, the element can transmit the data or signal directly to the other element, and through at least one other element Data or signal can be transmitted to another component.

1 is a diagram illustrating a file transmission / reception system based on a non-audible frequency signal broadcasting scheme according to an embodiment of the present invention. Referring to FIG. 1, a file transmission / reception system based on a non-audible frequency signal broadcasting scheme includes a transmission terminal 10, a mediation server 20, and a reception terminal 20. The transmitting terminal 10 and the receiving terminal 20 may be a smart phone, a smart tablet, or a mobile device having other computing functions. The transmitting terminal 10, the intermediate server 20 and the receiving terminal 20 Mutual short-range wireless communication can be performed.

Herein, the transmitting terminal 10, which intends to transmit a file based on the non-audible frequency signal, uploads an initial file to the intermediary server 20 and receives an index corresponding to the authentication number of the uploaded file from the intermediary server 20 . The transmitting terminal 10 generates an audible frequency signal using the authentication number.

The generated non-audible frequency signal is transmitted as a non-audible frequency signal to the receiving terminal 30 to be transmitted to the surrounding, and the receiving terminal 30 sends a request to the mediating server 20 for the authentication number corresponding to the non- The download address of the file of the request authentication number is returned from the mediation server 20.

Accordingly, the receiving terminal 30 can request download of the file to the mediation server 20 using the download address of the file, and download the file.

As for the inaudible frequency used in the present invention, the band used for the non-audible frequency communication ranges from 19000 Hz to 24000 Hz, and a section is divided every 100 Hz to have a total of 50 zones. The reason for dividing the area is to prevent confusion of the non-audible frequencies in the same place, and the ten frequencies are expressed as binary values in each area, and the frequencies and binary values are matched and used.

In other words, because multiple people can generate audible signals for file transfer even in the same place, it is divided into 50 zones so that multiple people can send and receive different files even in the same place, The bands of the 50 zones are shown in the diagram of Fig.

Referring to FIG. 2, it can be seen that the frequency bandwidth that can be used in each zone is determined, and that the zone is divided into a total of 50 zones. Each of the 50 zones has 50 unobstructed bands And 50 people in the same place generate the audible frequency for file transmission, but they do not cause interference because the bands are different from each other.

On the other hand, 10 frequencies given in each section represent frequency corresponding to 2 ⁰ ~ 2 ⁹ , through which a total of 1024 numbers from 0 to 1023 can be expressed. When a value of an index is received, The corresponding value is represented by the frequency.

For example, when the transmitting terminal 10 receives the index 386 from the intermediary server 20, since the number 386 is '0110000010' in binary number, 19010Hz, 19070Hz, and 19080Hz can be generated at the corresponding frequencies.

In this way, the transmission terminal 10 can create an index corresponding to 1024 pieces in total, and can generate 51,200 frequencies at the same time because it can have 50 zones. This allows the file transmission system to simultaneously transmit 51,200 files through the file transmission system You can create different frequencies for each, and you can transfer files over this frequency.

Next, each component of the transmission terminal 10 will be described in detail. The transmitting terminal 10 includes an inaudible frequency generator 11, a file uploader 12 and a query receiver 13 as shown in FIG. First, the non-audible frequency generator 11 will be described.

The non-audible frequency generator 11 checks whether the frequency of each zone is first used when generating a non-audible frequency for file transmission, in order, by measuring by a microphone (not shown) And generates a corresponding frequency.

For a more detailed example, the non-audible frequency generator 11 will bring the sound collected by the microphone (MIC) to a decibel (dB) value of 19000 to 24000 Hz through the FFT transform before generating the audible frequency .

The non-audible frequency generator 11 checks frequencies at which dB (decibels) higher than the average dB (decibel) value of a total of 400 frequencies (19000Hz, 19020Hz, 19030Hz, ..., 23970Hz, 23980Hz, 23990Hz) (19000Hz ~ 19090Hz) and 19th band (20800Hz ~ 20890Hz), the frequencies of the 1st zone and 19th zone The frequency band of " 1 " In this case, the non-audible frequency generator 11 generates a frequency corresponding to the index in the areas excluding the first zone and the nineteenth zone to avoid frequency interference.

In the meantime, the non-audible frequency generator 11 uses the 'encryption mode', which is advantageous in that it can send a file to many persons presently close to the transmission method at the same time. However, in case of an important file, And the receiving terminal 30 can input a password to download the file.

Next, the file uploader 12 and the query receiver 13 'file upload' to the intermediary server 20 will be described in detail.

When a file to be sent on the transmission terminal 10 is selected and a file transmission button is pressed, it is firstly checked whether a non-audible frequency is generated for each zone before the file is transmitted to the mediation server 20.

The reason for confirming whether or not the non-audible frequency is generated in the vicinity is that if the non-audible frequency is generated in order to transmit the file in the same frequency band, the frequencies may overlap with each other, It is possible to cause an error in the part where the data is recognized and received.

The query receiver 13 requests the index of the section first, according to the start of uploading the file to the mediation server 20, in order for the file uploader 12 to use the index of one of the sections not in use.

Accordingly, the mediating server 20 finds a table corresponding to the requested section in the 50 index tables, sends a usable index to the query receiver 13, and the query receiver 13 transmits the index to the non-audible frequency generator 11 ), The non-audible frequency generator 11 reproduces the frequency of the index value in the section through the non-audible frequency transmitting module.

Next, with reference to FIG. 3, the structure of the file input / output module 40 in the intermediary server 20 and the flow of sending and receiving files will be described.

The file input / output module 40 may be provided in the transmission terminal 10 and the reception terminal 20 by designing the file input / output function as a module and making it easy to use. The configuration of the file input / output module 40 includes functions of uploading, downloading, and obtaining file information, and connects to the intermediary server 20 to perform a function of inputting and outputting files.

The file input / output module 40 performs communication with the intermediary server 20 by using a widely used HTTP protocol. The HTTP protocol is based on the TCP protocol of the transport layer of the ISO 7 layer and is a simple and easy application layer protocol.

4 is a diagram illustrating an HTTP protocol header used between the file input / output module 40 and the intermediary server 20 in the present invention.

4, when a file is uploaded to the mediation server 20 by the transmission terminal 10, the file input / output module 40 modifies the Content-Type to multipart / form-data, And can be uploaded to the mediation server 20 only by inputting the address of the mediation server 20 and the file to be uploaded.

The mediation server 20 received from the file input / output module 40 stores the file storage address in the database (DB) 20a of the corresponding zone (1 to 50), and when the file transfer is completed, It does.

Meanwhile, the receiving terminal 20 must know the address and the file name of the file uploaded to the mediating server 20 before performing the file download through the file input / output module 40. Therefore, the information of the file is requested to the intermediary server 20 using the file address obtained through the non-audible frequency. Accordingly, the mediation server 20 searches the requested file address, converts the information of the file, etc. into a JSON format string, and responds. Then, the file input / output module 40 of the receiving terminal 20 inputs the address of the file and the file name and the address of the mediating server 20 in the case of file download and requests the mediating server 20 for the file, The file input / output module 40 generates a new empty file of the input file name.

Upon receiving the request, the mediation server 20 responds to the binarized codes of the requested file, and the received file input / output module 40 inputs the binary code to the generated empty file. The file input / output module 40 stores the created file in the storage device when the input of the file is completed.

Next, the components of the receiving terminal 30 will be described in detail. The receiving terminal 30 comprises an inaudible frequency listener 31, a query requester 32 and a file downloader 33. [

First, in the non-audible frequency listener 31, the sound of the non-audible frequency band is recognized through the microphone (MIC) of the receiving terminal 30, Area.

The non-audible frequency listener 31 filters only the domains of 19000 Hz to 24000 Hz among the converted frequency domains and divides the frequencies within the range into blocks of 10 Hz units to generate a total of 500 blocks. In that block, the dB (decibel) value of each frequency is stored.

The non-audible frequency listener 31 obtains an average dB (decibel) value by averaging the stored 500 dB (decibel) values and a frequency signal corresponding to the block whose value is 5 dB (decibel) higher than the average If so, a check is made to determine the zone corresponding to that frequency and the binary value in that zone.

For example, if the average dB (decibel) is 5dB (decibel) and 1 block out of 500 blocks (decibel value of 19000Hz) and block 5 (decibel value of 19400Hz) is 10dB Blocks 1 and 5 are checked, and this block corresponds to block 1, and when converted to binary, it becomes 0000010001 (17 in decimal). Thus, it can be seen that the file corresponding to No. 17 of No. 1 is listened to the non-audible frequency signal.

Next, the file downloading process by the query requester 32 and the file downloader 33 will be described.

The user who wants to download the file uses the non-audible frequency receiving module 30a through the application. The non-audible frequency receiving module 30a divides the 19000 to 23990 Hz band into 50 zones and recognizes the index value for each zone. For example, if you want to receive frequencies of 22620Hz, 22640Hz, 22720Hz, 23160Hz, 23180Hz, then 22620Hz, 22640Hz is 2 ² , 2 ⁴ (0000010100) and 22720Hz in section 37 are 2 ² (0000000100), 23160Hz, 23180Hz It corresponds to 2 ⁶ , 2 ⁸ (0101000000) of section 42. Thus, the recognized index value is the index 20 in section 37, the index 4 in section 38, and the index 320 in section 42. The recognized index values are transmitted to the mediation server 20, and the file information corresponding to the index of the corresponding zone is inquired from the table and sent to the user. The user selectively downloads the file from the file list received from the mediation server 20. [

5 is a flowchart illustrating a method for transmitting and receiving a file based on a non-audible frequency signal broadcasting scheme according to an embodiment of the present invention. Referring to FIG. 5, the transmitting terminal 10 receives an authentication number (index) according to a query to the mediation server 20 according to a file upload to the mediation server 20 (S100).

After step S100, the transmitting terminal 10 generates an unauthenticated frequency signal as an authentication number and broadcasts an audible frequency signal to the receiving terminal 30 (S200).

After step S200, the receiving terminal 30 converts the authentication number (index) corresponding to the received non-audible frequency signal to the file address of the mediating server 20 (S300).

After step S300, the receiving terminal 30 downloads the file corresponding to the file address from the intermediary server 20 (S400).

In this way, a method of transmitting a file using a sound that can not be heard by a person, that is, a non-audible frequency is provided. Uploads its own file to an empty index in the intermediary server 20, converts the index value into an audible frequency, and broadcasts the index value to its nearest users by using this signal as an authentication number.

The receiving terminal 30 receiving the signal can receive the file of the index. The non-audible frequency has a frequency of 19000 Hz to 24000 Hz band which can not be heard by human beings but can be generated from a speaker of a smartphone such as the transmission terminal 10 and the reception terminal 30, . It can transmit a certain signal by using sound, and it can control the sensitivity of signal according to the strength of sound, so that it is possible to transmit the file by short distance communication.

The present invention can also be embodied as computer-readable codes on a computer-readable recording medium. A computer-readable recording medium includes all kinds of recording apparatuses in which data that can be read by a computer system is stored.

Examples of the computer-readable recording medium include a ROM, a RAM, a CD-ROM, a magnetic tape, a floppy disk, an optical data storage device and the like, and also implemented in the form of a carrier wave (for example, transmission over the Internet) .

The computer readable recording medium may also be distributed over a networked computer system so that computer readable code can be stored and executed in a distributed manner. And functional programs, codes, and code segments for implementing the present invention can be easily inferred by programmers skilled in the art to which the present invention pertains.

As described above, preferred embodiments of the present invention have been disclosed in the present specification and drawings, and although specific terms have been used, they have been used only in a general sense to easily describe the technical contents of the present invention and to facilitate understanding of the invention , And are not intended to limit the scope of the present invention. It is to be understood by those skilled in the art that other modifications based on the technical idea of the present invention are possible in addition to the embodiments disclosed herein.

10 transmission terminal 11 non-audible frequency generator
12: File Uploader 13: Query Receiver
20: mediation server 20a: database (DB)
30: Receiving terminal 31: Non-audible frequency listener
32: Query requester 33: File downloader
40: File I / O module

Claims (5)

A transmitting terminal for receiving an authentication number (index) according to a query to the mediating server according to a file upload to the mediating server, generating an authentication number as an audible frequency signal, and broadcasting the audiovisual frequency signal to the receiving terminal; And
A receiving terminal for converting an authentication number (index) corresponding to the received non-audible frequency signal into a file address of the mediating server and then downloading a file corresponding to the file address from the mediating server; ≪ / RTI >
The band used for non-audible frequency communication is from 19000Hz to 24000Hz, and each section has a section divided by every 100Hz, and has a total of 50 zones. Ten frequencies are expressed as binary values in each zone, and each frequency and binary value Wherein the first and second wavelengths are matched with each other.
delete The mobile communication terminal of claim 1,
A non-audible frequency generator for checking whether a frequency of each zone is used when generating a frequency for file transmission by checking through a microphone (MIC) to determine a vacant zone and generating a frequency corresponding to an empty zone; And a file transmission / reception system based on the non-audible frequency signal broadcasting scheme.
4. The non-audible frequency generator of claim 3,
Wherein the sound introduced through the microphone (MIC) is fetched in decibels (dB) of 19000 to 24000 Hz through FFT conversion before generating the non-audible frequency.
A first step in which a transmitting terminal receives an authentication number (index) according to a query to the mediating server according to a file upload to the mediating server;
A second step in which the transmitting terminal generates an authentication number as an audible frequency signal and broadcasts an audible frequency signal to the receiving terminal;
A third step of the receiving terminal converting an authentication number (index) corresponding to the received audible frequency signal into a file address of the mediating server; And
A fourth step in which the receiving terminal downloads a file corresponding to the file address from the intermediary server; , ≪ / RTI &
The band used for non-audible frequency communication is from 19000Hz to 24000Hz, and each section has a section divided by every 100Hz, and has a total of 50 zones. Ten frequencies are expressed as binary values in each zone, and each frequency and binary value Wherein the first and the second subframes are matched with each other.

Images