KR20160074915A - A sound source copyright protection system using a frequency hopping - Google Patents

Abstract

The present invention relates to a sound source copyright protection system by using frequency hopping. According to the present invention, when a sound source is leaked, the system may find a first distributor through a sound source investigation by allowing a user identification code and a purchase code to be included in a downloaded sound source. The system comprises: a database; an interface module; an analysis unit; a modification unit; a composing unit; and a transmission unit.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a sound source copyright protection system using frequency hopping,

The present invention relates to a sound source copyright protection system, and more particularly, to a sound source copyright protection system, in which a frequency hopping that allows a user to identify an original distributor through a sound source when a sound source is leaked is included in a downloaded sound source The present invention relates to a sound source copyright protection system.

As the development of IT technology and the use of the Internet and computers are rapidly increasing, the use of digital multimedia data is becoming common.

The conventional analog method has a disadvantage in that it is accompanied by troublesome reproduction process and quality deterioration. However, recently used digital method has a relatively simple replication, and quality is the same as that of the genuine product. .

In addition, users copying or downloading a copyrighted sound source must pay royalties to the owner of the copyright, but in the current usage environment where the sound source is easily copied into digital data, the copyright and the rights Because it is very difficult to prevent violations or identify those who violate those rights, measures have been actively pursued to protect the copyright and ownership of authors who prevent illegal reproduction of sound sources and produce multimedia contents.

There is a data encryption method as a typical sound source protection method widely used so far. Such a data encryption method can not access the data without knowing the cipher, but once the cipher is decrypted, it can be illegally copied and distributed without any sanction, and there is a problem that it causes a lot of inconvenience to the user.

Therefore, there has been an attempt to insert a copyright information into a sound source so as to minimize the inconvenience of the user, thereby requesting royalties on the use of the music data in a reliable manner. However, There is no way to easily insert information for copyright protection.

Korean Registered Patent No. 10-0918081 (September 22, 2009 announcement)

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and it is an object of the present invention to provide a frequency hopping method capable of minimizing a loss of a sound source by distributing information capable of identifying a buyer in a sound source, A sound source copyright protection system using the sound source.

According to another aspect of the present invention, there is provided a sound source copyright protection system for converting an identification code for a user to be downloaded into a marker and synthesizing the same into a sound source, the system comprising: a database storing a digital sound source; An interface module for receiving an identification code for a user and a download request signal for a digital sound source stored in the database; An analyzer for converting a digital sound source requested to be downloaded into a frequency component using a fast Fourier transform to determine a plurality of marker insertion positions and measuring a volume with respect to the insertion position; A modulator for converting the identification code into a marker, which is an acoustic signal, using a frequency displacement method, and dividing the marker by reflecting an audible threshold value for the insertion position; A synthesizer for synthesizing the segmented and formed markers into the insertion position through a frequency hopping method and reconstructing them into a digital sound source form; A transmitting unit for transmitting the synthesized digital sound source to a terminal designated by the user; .

At this time, the combining unit forms a sync code indicating a position at which the marker is inserted on the sound source, and inserts the sync code into the marker.

A search unit for searching for a marker having a low information density by converting a digital sound source synthesized by the marker into a frequency component through fast Fourier transform; A demodulator for combining the searched markers and converting them into digital data; .

The present invention enables buyers of sound sources to pay a fair fee, correcting erroneous perceptions about the illegal distribution of sound sources, and instilling awareness of correct copyright protection due to eradication of illegal sound sources.

In addition, it is possible to receive a fair evaluation of the sound source resulting from the efforts of the sound source copyright holder through the sale of the sound source, thereby enhancing the rights and self-esteem as a copyright owner, enabling synergy that can produce better music and deliver good music to the public Effect can also be obtained.

In addition, it is possible to automate the management of illegal sound recording works, track down illegal sound distributors at low cost, and trace the initial spread of illegally shared works, thus expecting a fundamental blockage of illegal sharing of works. In addition, it is possible to track distribution channels of works so that distribution channel management can be efficiently performed.

1 is a conceptual diagram showing a concept according to a preferred embodiment of the present invention;
2 is a block diagram illustrating a configuration and a connection relationship according to a preferred embodiment of the present invention.
3 is a block diagram illustrating a configuration and a connection relationship according to another embodiment of the present invention;
4 is a graph illustrating a principle of a sound source analysis performed through the analyzing unit of the present invention.

Hereinafter, the structure of a sound source copyright protection system using frequency hopping according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a conceptual diagram illustrating a concept according to a preferred embodiment of the present invention. The present invention inserts a buyer's information, a distribution route, and user information into a digital content, Markers for user identification such as the ID and purchase number of the user who purchased and downloaded the sound source are inserted into the sound source by introducing the concept of the forensic marking used in the sound source. At this time, the divided markers are divided into sound sources and hidden by the frequency hopping method.

FIG. 2 is a block diagram illustrating a configuration and connection relationship according to a preferred embodiment of the present invention. To implement the above description, the present invention basically comprises a database 110, an interface module 120, 130, a modulating unit 140, a combining unit 150, and a transmitting unit 160.

The database 110 stores various copyrighted digital sound sources. In the present invention, it is assumed that a user purchases and downloads such a digital sound source on-line, and the user basically selects a proper amount Is provided to the sound source purchasing company having the database 110. [

The interface module 120 basically provides the user with a search function for the sound source stored in the database 110 and receives a download request signal for the sound source stored in the database 110 and an identification code for the user to be. In this case, the identification code is information constituting a marker to be described later in detail, and it is preferable that the identification number includes a purchase number given according to the purchase of a sound source based on the ID of the user requesting the download, It is possible to trace whether it is one.

The analysis unit 130 is configured to convert a digital sound source requested to be downloaded into a frequency component using Fast Fourier Transform (FFT) to determine a position where a marker is to be inserted on a sound source. Since the conversion is used, the execution speed can be made quickly.

That is, the analyzing unit is implemented by a fast Fourier transform circuit or a fast Fourier transform program module. When the fast Fourier transform is performed, a frequency spectrum of a specific pattern is obtained. At this time, by analyzing the obtained spectrum, And then the volume of the inserted position is measured.

FIG. 4 is a graph showing a principle of a sound source analysis performed through the analysis unit of the present invention, which is a graph of water-fall used in acoustics, wherein the vertical axis represents time, the horizontal axis represents frequency and color represents volume. Here, as the vertical axis increases, the sound that was input in the past, and the color becomes a portion where the volume becomes smaller as the color becomes blue according to the visible ray spectrum, and the volume becomes larger as the color becomes redder.

For reference, in FIG. 4, a data density is low by directly inputting a sound source without amplification. However, when applied to the present invention, it is amplified by about 4 dB from 2 dB to obtain a sufficient density, Corresponds to the insertion position.

The modulation unit 140 may be configured to convert a user identification code input through the interface unit into a marker, which is an acoustic signal, using a frequency displacement method. The modulation unit 140 may reflect an audible threshold value for an insertion position derived through the analysis unit, The marker is divided so as to have a sound pressure level of the non-auditory range corresponding to the audible range below the minimum audible limit curve.

Threshold of earing (Threshold in earnest) is a frequency-dependent minimum sound intensity level. If the threshold is less than the threshold, the person can not hear the ear. That is, even if the sound intensity is the same, the intensity felt in the ear becomes different if the frequency is different. Therefore, the marker is formed so as to have a sound pressure level lower than the minimum audible threshold value reflecting the frequency of the insertion position.

If the marker is not heard by moving the frequency, it is easy. However, the conventional speech loss compression algorithm reduces the size of data by filtering information of high frequency band that human beings can not hear well. If you look at the data collected in real life, There is a definite limit to this approach, as markers may be deleted because the data is filtered.

Then, the combining unit 150 combines the divided and formed markers with the insertion position through a frequency hopping method.

The frequency hopping method is a method in which communication is performed by moving a plurality of frequency bands by a predetermined function without constantly maintaining the communication frequency during radio communication. In this method, a hopping table synchronized in the transmitting / receiving device is generated, And transmitting and receiving in Hopping Code format.

However, in the preferred embodiment of the present invention, a method of inserting a sync code into the marker itself is employed. By using the frequency hopping, the position and volume of each of the divided markers can be individually It is possible to dramatically improve the concealment of the marker while minimizing the increase in information entropy of the sound source. In this case, each of the divided markers or nodes includes a sink code including link information indicating a temporal position for a previous node and a subsequent node, and verification information for the current node.

The transmitter 160 transmits the digital sound source synthesized with the markers to a terminal designated by the user, that is, a terminal connected to the current user, so that the download is performed according to the purchase of the sound source.

FIG. 3 is a block diagram illustrating a configuration and a connection relationship according to another embodiment of the present invention. In FIG. 3, a search unit 170 and a demodulation unit 180 are provided for searching for a marker in circulation. When it is recognized, it is possible to identify the original diffuser by reversing the marker contained in the source. In the following description, detailed description of the same components as those of the preferred embodiment of the present invention will be omitted.

The search unit 170 converts the sound source synthesized by the markers into frequency components through Fast Fourier Transform to select locations with low information density and search for the markers. As described above, the search unit 170 searches through the fast Fourier transform By analyzing the spectrum, the frequency of the carrier wave is shifted by 1 Hz and the marker is searched.

The demodulator 180 combines the retrieved markers and converts them into digital data. The decoder 170 performs FSK demodulation to convert the extracted markers into string data.

In this case, if a part of the marker is damaged, the node searching before / after the marker is searched to recover the node, and if the node link information is damaged, searching for the entire sound source, searching for the next node, and restoring the marker are performed .

It is to be understood that the invention is not limited to the disclosed embodiment, but is capable of many modifications and variations within the scope of the appended claims. It is self-evident.

110: Database 120: Interface module
130: Analysis section 140: Modulation section
150: combiner 160:
170: searching unit 180: demodulating unit

Claims (3)

A sound source copyright protection system for converting an identification code for a user to be downloaded into a marker and synthesizing the same into a sound source,
A database 110 in which a digital sound source is stored;
An interface module 120 receiving an identification code for a user and a download request signal for a digital sound source stored in the database 110;
An analyzer 130 for converting a digital sound source requested to be downloaded into a frequency component using a fast Fourier transform to determine a plurality of marker insertion positions and measuring a volume of the inserted sound source;
A modulator 140 for converting the identification code into a marker, which is an acoustic signal, using a frequency displacement method, and dividing the marker by reflecting an audible threshold value for the insertion position;
A synthesizer 150 for synthesizing the segmented and formed markers into the insertion position through a frequency hopping method and reconstructing them into a digital sound source form;
A transmitter 160 for transmitting the synthesized digital sound source to a terminal designated by the user; And a sound source copyright protection system using frequency hopping.
The method according to claim 1,
Wherein the synthesizer (150) forms a sync code indicating a position at which the marker is inserted on the sound source and inserts the sync code into the marker.
3. The method of claim 2,
A search unit 170 for converting a digital sound source synthesized by the marker into a frequency component through fast Fourier transform to select a position having a low information density and searching for a marker;
A demodulator 180 for combining the detected markers and converting the combined markers into digital data; Wherein the sound source copyright protection system uses frequency hopping.

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