KR20220062873A - Method for providing advertisement using sound waves - Google Patents

Abstract

Disclosed is a method for providing an advertisement using sound waves, which is a method for operating an image platform relay device operated by at least one processor. The method of the present invention comprises the steps of: receiving broadcasting data including image data and audio data; receiving advertisement data corresponding to an advertisement-scheduled time of the broadcasting data from an advertisement server; generating the advertisement data into advertisement sound wave data; generating opposite sound wave data symmetrical to the generated advertisement sound wave data; generating broadcasting sound wave data obtained by mixing the audio data, the advertisement sound wave data, and the opposite sound wave data; and transmitting a broadcasting signal obtained by encoding the image data and the broadcasting sound wave data. The advertisement sound wave data is separated through the demuxing in a terminal receiving the broadcasting sound wave data. Therefore, data can be transmitted more accurately than the conventional invention.

Description

Method of providing advertisements using sound waves

The present invention relates to a method of providing advertisements using sound waves.

Since the audible frequency band may be an unpleasant noise to people, in general, in sound wave communication, data is transmitted using an inaudible frequency band.

Conventionally, there has been a method of transmitting advertisement data on a broadcast using inaudible frequency. may cause abnormal behavior.

In the case of broadcast transmission, it is impossible to transmit other images to a specific customer due to the nature of the broadcast transmission, so it is not possible to select whether to use or not use sound wave communication. Therefore, the application of the service to the prior art is limited.

The task to be solved is to generate a sound wave that is symmetrical to the data sound wave by focusing on the ANC (Active Noise Cancellation) technology being used, and transmit the data in the audible and inaudible frequency bands to cancel the sound wave in the desired band. It is to provide a method for providing advertisements used.

According to one aspect, there is provided a method of operating a broadcast platform relay device operated by at least one processor, the method comprising: receiving broadcast data composed of image data and audio data; Receiving from a server, generating the advertisement data as advertisement sound wave data, generating opposite sound wave data symmetric to the generated advertisement sound wave data, mixing the audio data, the advertisement sound wave data and the opposite sound wave data Generating one broadcast sound wave data, and transmitting the video data and broadcast data encoding the broadcast sound wave data, wherein the advertisement sound wave data is demuxed in the terminal receiving the broadcast sound wave data are separated

The advertisement sound wave data may be generated using an inaudible frequency band having little interference with the audio data.

The advertisement sound wave data may be advertisement key data for the terminal to obtain advertisement content from the advertisement server as sound waves.

The broadcast signal includes a symmetric point between the advertisement sound wave data and the opposite sound wave data in advertisement header information, and the symmetry point is used to demux the advertisement sound wave data and the opposite sound wave data from the broadcast sound wave data in the terminal it may be

According to another feature, there is provided a method of operating an advertisement receiving terminal operated by at least one processor, the method comprising: receiving, by the broadcasting receiving terminal, broadcasting sound wave data received and output from a broadcasting platform relay device through a microphone; Demuxing the advertisement sound wave data and extracting the opposite sound wave data symmetric to the advertisement sound wave data, and extracting and playing advertisement data from the advertisement sound wave data, wherein the advertisement sound wave data and the opposite sound wave data are , are mixed in the inaudible frequency band.

In the reproducing, an advertisement key obtained by decoding the advertisement sound wave data may be transmitted to an advertisement server, and advertisement data corresponding to the advertisement key may be received and output.

After the extracting and before the reproducing, re-inverting the opposite sound wave data to generate re-inversion sound wave data of the same frequency band as the advertisement sound wave data, the re-inversion sound wave data and the advertisement sound wave data The method may further include the steps of comparing whether or not matching, restoring the inconsistent section, and extracting advertisement data from the restored advertisement sound wave data.

After the restoring step and before the extracting step, duplicating the restored sound wave data, shifting the duplicated sound wave data to generate a phase difference between the restored sound wave data and the duplicated sound wave data and modulating a frequency band of the same waveform section as the lost section to restore the lost data, wherein the advertisement data may be extracted from the restored sound wave data.

The broadcast sound wave data may include a symmetric point between the advertisement sound wave data and the opposite sound wave data, and the extracting may include demuxing using the symmetric point.

According to an embodiment, a sound wave symmetrical to a data sound wave may be generated with attention to an active noise cancellation (ANC) technology, and data may be transmitted in audible and inaudible frequency bands.

In addition, it is not limited to the receiving target (animal, human) in the space because it can utilize the frequencies of various bands that have been limited in use, and data correction using the counter sound wave in the receiver can deliver data more accurately than the prior art.

In addition, since the range of a usable frequency band is widened, a larger amount of data can be transmitted, so that it is easy to extend to other services in the future.

1 illustrates a communication environment that provides an advertisement using sound waves according to an embodiment.
2 is a flowchart illustrating an advertisement sound wave providing procedure according to an embodiment.
3 is a flowchart illustrating an operation of a broadcast relay platform apparatus according to an embodiment.
4 is a flowchart illustrating in detail S211 of FIG. 3 .
5A and 5B illustrate an example of generating advertisement sound wave data according to an embodiment.
6 illustrates a structure of a broadcast data frame transmitted by a broadcast relay platform device according to an embodiment.
7 is a view for explaining an operation of an advertisement receiving terminal according to an embodiment.
FIG. 8 is a view for explaining in detail S403 of FIG. 6 .
9 illustrates a process of restoring lost advertisement sound wave data according to an embodiment.

Hereinafter, with reference to the accompanying drawings, embodiments of the present invention will be described in detail so that those of ordinary skill in the art can easily carry out the present invention. However, the present invention may be embodied in various different forms and is not limited to the embodiments described herein. And in order to clearly explain the present invention in the drawings, parts irrelevant to the description are omitted, and similar reference numerals are attached to similar parts throughout the specification.

Throughout the specification, when a part "includes" a certain element, it means that other elements may be further included, rather than excluding other elements, unless otherwise stated.

In addition, terms such as “…unit”, “…group”, “…module”, etc. described in the specification mean a unit that processes at least one function or operation, which may be implemented by hardware or software or a combination of hardware and software. can

The devices described in the present invention are composed of hardware including at least one processor, a memory device, a communication device, and the like, and a program to be executed in combination with the hardware is stored in a designated place. The hardware has the configuration and capability to implement the method of the present invention. The program includes instructions for implementing the method of operation of the present invention described with reference to the drawings, and is combined with hardware such as a processor and a memory device to execute the present invention.

As used herein, "transmission or provision" may include not only direct transmission or provision, but also transmission or provision indirectly through another device or using a detour path.

In this specification, expressions described in the singular may be construed in the singular or plural unless an explicit expression such as “a” or “single” is used.

In this specification, regardless of the drawings, the same reference numbers refer to the same components, and "and/or" includes each and every combination of one or more of the referenced components.

In this specification, terms including an ordinal number such as first, second, etc. may be used to describe various elements, but the elements are not limited by the terms. The above terms are used only for the purpose of distinguishing one component from another. For example, without departing from the scope of the present disclosure, a first component may be referred to as a second component, and similarly, a second component may also be referred to as a first component.

In the flowchart described with reference to the drawings in this specification, the order of operations may be changed, several operations may be merged, some operations may be divided, and specific operations may not be performed.

1 illustrates a communication environment that provides an advertisement using sound waves according to an embodiment.

Referring to FIG. 1 , the broadcast relay platform device 100 transmits broadcast data in which advertisement sound wave data is mixed. The broadcast relay platform apparatus 100 is connected to the image server 200 , the broadcast programming information providing server 300 , and the advertisement server 400 , and may be connected through a separate dedicated line independent of the network 500 . The broadcast relay platform device 100 may be a local broadcasting station, a cable service provider server, a VOD service provider server, or the like.

The video server 200 transmits broadcast data in which video data and audio data are encoded to the broadcast relay platform device 100 . Since the audio data is generated as a broadcast sound wave in an audible frequency band, it may be referred to as broadcast sound wave data.

The video server 200 stores original broadcast data to be output by the broadcast relay platform device 100 .

The broadcast programming information providing server 300 is a server that stores broadcast programming information provided by each broadcasting company. The broadcast programming information providing server 300 provides broadcast/advertisement schedule data related to broadcast data provided through the image server 200 , that is, broadcast channel programming information. In this case, the broadcast schedule information includes advertisement schedule information.

The advertisement server 400 provides advertisement data to be transmitted at the advertisement programming time provided by the broadcast programming information providing server 300 . The advertisement server 400 may provide a key value of advertisement content, that is, advertisement key data, to the broadcast relay platform device 100 .

In this case, the broadcast relay platform device 100 checks the broadcast schedule, requests advertisement data to be transmitted in the next broadcast, obtains key data of the corresponding advertisement, and generates advertisement key data as advertisement sound wave data in the main frequency band. . As the main frequency, an inaudible frequency band having the least interference between broadcast sound wave data and advertisement sound wave data is selected. In this selected frequency band, advertisement sound wave data and broadcast sound wave data are mixed. The advertisement key data is a unique key of the advertisement data, and is used to obtain the advertisement data.

The broadcast relay platform device 100 is connected to the broadcast reception terminal 600 through the network 500 . The broadcast relay platform device 100 receives broadcast data, broadcast programming data, and advertisement data, and generates a broadcast signal obtained by mixing broadcast data and advertisement data based on advertisement schedule data of the broadcast programming data. In this case, the broadcast data includes image data and audio data. Since the audio data is generated as a broadcast sound wave in an audible frequency band, it may be referred to as broadcast sound wave data.

The broadcast relay platform device 100 transmits broadcast data to the broadcast reception terminal 600 through the network 500 .

In this way, the broadcast relay platform device 100 generates and transmits symmetric sound wave data that is precisely symmetrical with the advertisement sound wave data to be transmitted, and transmits the sound waves before the sound waves reach the subject who feels the noise, that is, people, companion animals, etc. offset Although the advertisement sound wave data offset by the symmetric sound wave data are inaudible to the ears of animals and humans, they are all received by the advertisement receiving terminal 700 and can be used as data.

The network 500 may include a broadcasting network capable of unidirectional communication or a communication network capable of bidirectional communication.

The broadcast receiving terminal 600 receives broadcast data from the broadcast relay platform device 100, processes it and reproduces the broadcast data. The broadcast reception terminal 600 may include an Internet Protocol Television (IPTV), a set-top box, and the like.

The broadcast reception terminal 600 decodes broadcast data to extract broadcast image data and broadcast sound wave data. The broadcast reception terminal 600 outputs broadcast image data to the screen, and outputs broadcast sound wave data through a speaker.

The advertisement receiving terminal 700 receives the broadcast sound wave data output through the speaker of the broadcast receiving terminal 600 through a microphone, and extracts the advertisement sound wave data of the inaudible frequency band included in the broadcast sound wave data to receive the advertisement sound wave data. The advertisement content obtained from the advertisement server 400 is reproduced or output through the advertisement server 400 . The advertisement receiving terminal 700 may be a mobile device.

The advertisement receiving terminal 700 may include a dedicated application for extracting advertisement data of an inaudible sound wave band from broadcast sound wave data, demuxing the advertisement data, and processing the same. The dedicated application may be an app traded through an app store, etc., or may be built into the terminal itself.

The advertisement receiving terminal 700 may be a dedicated terminal that outputs only advertisement data, for example, an advertisement kiosk.

The advertisement receiving terminal 700 demuxes the broadcast sound wave data to separate the broadcast sound wave data, the advertisement sound wave data, and the opposite sound wave data.

The advertisement receiving terminal 700 restores the lost sound wave data of the advertisement sound wave data using the advertisement sound wave data and the opposite sound wave data, and requests the advertisement data from the advertisement server 400 based on the advertisement key obtained from the restored advertisement sound wave data to receive The advertisement data may include product information and purchase information, and types of advertisement data may be various. That is, the type of advertisement data may be various, such as text data, still image data, moving picture data, and image data.

At this time, although a technology for canceling sound waves is used focusing on ANC (Active Noise Cancellation) technology, an opposite sound wave is generated in advance in the broadcast relay platform apparatus 100 without requiring a separate device in the advertisement receiving terminal 700 . By doing so, the ANC function is implemented. That is, the broadcast receiving terminal 600 outputs both the advertisement data sound wave and the symmetric sound wave data of the inaudible frequency band, and the advertisement receiving terminal 700 receives both the advertisement data sound wave and the symmetric sound wave data, but animals, humans, etc. The sound wave in the inaudible frequency band cannot be received due to the effect of canceling the advertisement data sound wave and the symmetric sound wave data.

A series of procedures in which the broadcast relay platform device 100 provides sound waves for advertisements using the ANC function may be as shown in FIG. 2 .

2 is a flowchart illustrating an advertisement sound wave providing procedure according to an embodiment.

Referring to FIG. 2 , the broadcast relay platform device 100 generates advertisement data as advertisement sound wave data ( S101 ).

The broadcast relay platform device 100 generates opposite sound wave data to offset the advertisement sound wave data generated in S101 (S103).

The broadcast relay platform apparatus 100 mixes the advertisement sound wave data generated in S101 and the opposite sound wave data generated in S103 with the audio data of the broadcast data to be transmitted through the broadcast channel (S105).

The broadcast relay platform apparatus 100 generates broadcast data obtained by encoding video data and mixed audio data of the broadcast data (S107).

The broadcast relay platform device 100 transmits the broadcast data encoded in S107 through the network 500 (S109).

The broadcast receiving terminal 600 decodes the broadcast data received in S109 to extract image data and broadcast sound wave data (S111), and outputs the broadcast sound wave data to the speaker of the broadcast receiving terminal 600 (S113). In this case, broadcast sound wave data is mixed with advertisement sound wave data and opposite sound wave data.

The advertisement receiving terminal 700 extracts the advertisement sound wave data by demuxing the broadcast sound wave data received in S113 (S115).

The advertisement receiving terminal 700 receives and reproduces or outputs advertisement content corresponding to the advertisement key data from the advertisement server 400 based on the advertisement key data obtained from the advertisement sound wave data (S117). The advertisement content may include advertisement product information and URL information for moving to a site where the advertisement product can be purchased.

3 is a flowchart illustrating an operation of a broadcast relay platform apparatus according to an embodiment, and processes S101 to S109 in FIG. 2 will be described in detail.

Referring to FIG. 3 , the broadcast relay platform device 100 checks broadcast/advertisement schedule data from the broadcast programming information providing server 300 ( S201 ). Through S201, the broadcast relay platform device 100 may check a broadcast schedule, bring a list of advertisements to be transmitted in the future according to the broadcast schedule, and generate advertisement sound wave data in advance.

The broadcast relay platform device 100 requests, from the advertisement server 400, advertisement data to be inserted at the next advertisement programming time based on the advertisement schedule data according to the broadcast programming, and receives (S203).

In S203, the broadcast relay platform device 100 obtains advertisement key data, and generates advertisement key data as advertisement sound wave data in a main frequency band, that is, an inaudible frequency band (S205).

The broadcast relay platform apparatus 100 generates opposite sound wave data in which the phase of the advertisement sound wave data generated in S205 is inverted (S207).

The broadcast relay platform device 100 requests and receives broadcast data composed of broadcast image data and broadcast sound wave data of an audible frequency band from the video server 200, and loads it (S209).

The broadcast relay platform apparatus 100 mixes the advertisement sound wave data generated in S205 and the opposite sound wave data generated in S207 with the broadcast sound wave data loaded in S209 (S211).

The broadcast relay platform device 100 encodes the broadcast sound wave data in which the image data loaded in S209 and the advertisement sound wave data and the opposite sound wave data are mixed in S211, generates broadcast data, and transmits this broadcast data through the network 500 and transmit (S213).

4 is a flowchart illustrating in detail S211 of FIG. 3 , and FIGS. 5A and 5B describe an example of generating advertisement sound wave data according to an embodiment.

4, the broadcast relay platform apparatus 100 compares the advertisement sound wave data generated in S205, the opposite sound wave data generated in S207, and the broadcast sound wave data loaded in S209 to determine whether there is a section with mutual interference ( S301). In this case, the presence or absence of interference can be known through the process of checking whether there is an overlapping sound wave data area among the sound wave data areas.

When the mutual interference is confirmed in S301, the broadcast relay platform device 100 regenerates the advertisement sound wave data and the opposite sound wave data by avoiding the interference occurrence section, that is, the interference occurrence frequency section (S303).

5A and 5B , an audible frequency band in which broadcast sound wave data is generated may be 0hz to ahz, and an inaudible frequency band in which advertisement sound wave data and opposite sound wave data are generated may be ahz to bhz. In this case, in the case of broadcast sound wave data, the interference section P0 of the inaudible band may be generated at the location where the picture was taken or due to other reasons. In this case, when the broadcast relay platform device 100 generates sound wave data opposite to the advertisement sound wave data in an inaudible frequency band, as shown in FIG. 5A , the advertisement sound wave data and the opposite sound wave data interfere with the broadcast sound wave data, As shown in Figure 5b, it is possible to regenerate the sound wave data opposite to the advertisement sound wave data by avoiding the interference section P0.

The broadcast relay platform apparatus 100 mixes the advertisement sound wave data regenerated in S303, the opposite sound wave data, and the audio data (S305). At this time, the advertisement sound wave data and the opposite sound wave data generated in S303 may not be symmetric with respect to 0 Hz. Therefore, the two sound wave data generated in the actual non-interference band, that is, the advertisement sound wave data and the opposite sound wave data, are symmetrical points. It can be inserted into header information of sound wave data. Here, the symmetry point refers to an intermediate point or an intermediate frequency band between the advertisement sound wave data and the opposite sound wave data.

6 illustrates a structure of a broadcast data frame transmitted by a broadcast relay platform device according to an embodiment.

Referring to FIG. 6 , a broadcast data frame 800 includes a broadcast header field 801 , a broadcast image field 803 , a broadcast sound wave field 805 , an advertisement header field 807 , an advertisement sound wave field 809 , and a reverse sound wave field 811 . In this way, the broadcast data frame 800 is a form in which advertisement sound wave data and opposite sound wave data are mixed, and information on a symmetry point between the advertisement sound wave and the opposite sound wave is recorded in the advertisement header field 807 .

In the advertisement receiving terminal 700 , the broadcast sound wave data including the broadcast sound wave field 805 , the advertisement header field 807 , the advertisement sound wave field 809 and the opposite sound wave field 811 are output from the speaker of the broadcast receiving terminal 600 . , and based on the symmetry point information obtained from the advertisement header field 807, the advertisement sound wave data and the opposite sound wave data may be demuxed from the broadcast sound wave data.

7 is a view for explaining an operation of an advertisement receiving terminal according to an embodiment.

Referring to FIG. 7 , the advertisement receiving terminal 700 receives broadcast sound wave data transmitted through a speaker from the broadcast receiving terminal 600 ( S401 ).

The advertisement receiving terminal 700 demuxes the broadcast sound wave data to extract the broadcast sound wave data, the advertisement sound wave data, and the opposite sound wave data (S403). At this time, the advertisement receiving terminal 700 is included in the header information of the broadcast sound wave data. The symmetric point can be used to demux the advertisement sonic data and the counter sonic data.

The advertisement receiving terminal 700 requests and receives advertisement content corresponding to the advertisement key from the advertisement server 400 by using the advertisement key obtained from the advertisement sound wave data extracted in S403 (S405).

The advertisement receiving terminal 700 reproduces and outputs the advertisement data received in S405 (S407).

FIG. 8 is a view for explaining in detail S403 of FIG. 7 .

Referring to FIG. 8 , the advertisement receiving terminal 700 demuxes the broadcast sound wave data to separate and extract the advertisement sound wave data, the opposite sound wave data, and the broadcast sound wave data ( S501 ).

The advertisement receiving terminal 700 inverts the phase of the opposite sound wave data separated in S501 to generate a sound wave of the same frequency band as that of the advertisement sound wave data (S503), and compares the inverted sound wave data and the advertisement sound wave data with each other and the lost section Check whether there is (S505, S507). The lost section can be found by re-inverting the opposite sound wave data, moving it to a frequency band overlapping with the advertisement sound wave data, and checking whether there is a missing section.

If it is determined that there is a lost part in S507, the advertisement receiving terminal 700 shifts the opposite sound wave data reversed in S503 to match the advertisement sound wave data, so that the advertisement sound wave in the lost section using the shifted opposite sound wave data The data is restored (S509).

The advertisement receiving terminal 700 obtains an advertisement key from the restored advertisement sound wave data (S511).

Depending on the surrounding environment, noise may occur and interference with the received sound wave may occur, which may affect the actual data. Therefore, if there is an area that cannot be restored among the lost or interfered sound wave data, the primary restored sound wave data is duplicated, the duplicate sound wave data is shifted, and a phase difference is generated between the original sound wave data and the duplicate sound wave data. It is possible to search for the same waveform section as the searched section, and to restore the lost original data area by modulating the frequency band of the searched section. This will be described as shown in FIG. 9 .

9 illustrates a process of restoring lost advertisement sound wave data according to an embodiment.

Referring to FIG. 9 , the advertisement receiving terminal 700 demuxes a sound wave P1 in which the advertisement sound wave data and the opposite sound wave data are muxed and separates them (P3 and P5), respectively. The advertisement receiving terminal 700 inverts the phase of the demuxed opposite sound wave (P7). There may be a loss section between the demuxed advertisement sound wave P9 and the inverted opposite sound wave P7. The advertisement receiving terminal 700 is restored by mixing the demuxed advertisement sound wave P9 and the inverted opposite sound wave P7. Then, most of the lost section can be restored. That is, the lost section of the advertisement sound wave P9 may be restored (P13) to the normal section of the inverted opposite sound wave P7. Nevertheless, if there is still a loss section in which restoration of the advertisement sound wave P9 is impossible, the advertisement receiving terminal 700 duplicates the restored advertisement sound wave P13 (P15). The advertisement receiving terminal 700 shifts the duplicated sound wave P15, for example, it may shift to the left. When the advertisement receiving terminal 700 mixes the shifted duplicated sound wave P17 and the restored sound wave P13, it is possible to restore (P19) a lost section in which restoration was impossible. That is, the lost section that is not restored in the restored sound wave P13 may be restored to the normal section of the shifted duplicate sound wave P17.

The embodiment of the present invention described above is not implemented only through the apparatus and method, and may be implemented through a program for realizing a function corresponding to the configuration of the embodiment of the present invention or a recording medium in which the program is recorded.

Although the embodiments of the present invention have been described in detail above, the scope of the present invention is not limited thereto. is within the scope of the right.

Claims (9)

A method of operating a broadcast platform relay device operated by at least one processor, the method comprising:
Receiving broadcast data consisting of image data and audio data;
Receiving advertisement data corresponding to an advertisement programming time of the broadcast data from an advertisement server;
generating the advertisement data as advertisement sound wave data;
generating opposite sound wave data symmetric to the generated advertisement sound wave data;
generating broadcast sound wave data obtained by mixing the audio data, the advertisement sound wave data, and the opposite sound wave data; and
Transmitting the encoded broadcast data of the video data and the broadcast sound wave data,
The advertisement sound wave data,
Separated through demuxing in the terminal receiving the broadcast sound wave data, the method. In claim 1,
The advertisement sound wave data,
The method of claim 1, wherein interference with the audio data is generated using an inaudible frequency band. In claim 1,
The advertisement sound wave data,
Advertisement key data for the terminal to obtain advertisement content from the advertisement server is generated by sound waves. In claim 1,
The broadcast signal is
Including a symmetric point between the advertisement sound wave data and the opposite sound wave data in advertisement header information,
The symmetry point is
Used to demux the advertisement sound wave data and the opposite sound wave data from the broadcast sound wave data in the terminal. A method of operating an advertisement receiving terminal operated by at least one processor, the method comprising:
Receiving, by the broadcast receiving terminal, broadcast sound wave data that is received and output from the broadcast platform relay device through a microphone;
Demuxing the broadcast sound wave data to extract advertisement sound wave data and sound wave data opposite to the advertisement sound wave data; and
Extracting and playing advertisement data from the advertisement sound wave data,
The advertisement sound wave data and the opposite sound wave data are,
mixing in an inaudible frequency band. In claim 5,
The playing step is
A method of transmitting an advertisement key obtained by decrypting the advertisement sound wave data to an advertisement server, and receiving and outputting advertisement data corresponding to the advertisement key. In claim 5,
After the extracting step and before the regenerating step,
Re-inverting the opposite sound wave data to generate re-inverted sound wave data of the same frequency band as the advertisement sound wave data;
Comparing whether the re-inversion sound wave data and the advertisement sound wave data match, and restoring the inconsistent section, and
Step of extracting advertisement data from the restored advertisement sound wave data
A method further comprising: In claim 7,
After the restoring step and before the extracting step,
Replicating the restored advertisement sound wave data;
Shifting the duplicated sound wave data to generate a phase difference between the restored sound wave data and the duplicate sound wave data;
Further comprising the step of restoring lost data by modulating a frequency band of the same waveform section as the lost section,
The advertisement data is
Extracted from the restored advertising sound wave data, the method. In claim 5,
The broadcast sound wave data,
Containing a symmetry point between the advertisement sound wave data and the opposite sound wave data,
The extracting step is
The demux using the symmetry point, the method.

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