KR101615476B1 - Apparatus and method for providing content delivery network service - Google Patents

Abstract

The present invention relates to an apparatus and a method for providing a content transmission network service. The apparatus for providing a content transmission network service includes: a content request reception unit which receives a request for multimedia content from a user terminal; a content type determination unit which determines a type of the multimedia content; and an encryption unit which uses either a new lightweight seed (NL-SEED) algorithm or a robust gray code scrambling encryption (RE) algorithm to encrypt the multimedia content based on the determined type of the multimedia content.

Description

[0001] APPARATUS AND METHOD FOR PROVIDING CONTENT DELIVERY NETWORK SERVICE [0002]

The present invention relates to an apparatus and a method for providing a content transmission network service, and more particularly, to an NL-SEED (New Weighted SEED) algorithm or a method of encrypting, scrambling, and gray code using a round- And to a content transmission network service providing apparatus and a method thereof using an applied RE (Robust Gray Code Scrambling Encryption) algorithm.

With the development of media transmission technology, various types of streaming services are increasing. Especially, high quality video streaming service is being provided in various ways. Multimedia data transmission has been developed with various performance enhancements due to the improvement of performance of content transmission network and the spread of smart phones and other electronic devices.

In the initial data transmission, there is little consideration of security such as encryption to protect the confidentiality of copyright and data considering speed side first. However, in advanced media service, there is a need to transmit to secure content transmission network . However, since the application of this encryption algorithm should not hinder the provision of fast content transmission service in GCDN (Global Content Delivery Networks), the encryption algorithm which does not affect the speed is most important for implementing LMSPS (Large Media Signal Processing System) Element.

The application of security in multimedia streaming has many limitations due to the problem that encryption is not applied smoothly due to the application of encryption. In particular, if the copyright of the media or the password to provide the confidentiality of the data is applied to the GCDN in order to meet the media transmission rate average of 12 Mbps or more, the service for providing the content may be smooth, There is a problem that it acts as a large vulnerability.

In this connection, Korean Patent Laid-Open Publication No. 2011-0020453 discloses a " content transmission network system and a method for operating the same.

DISCLOSURE 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 content transmission network service providing apparatus capable of providing a content transmission network service at an improved rate without degrading encryption performance by using an optional encryption scheme in the NL- The purpose is to provide.

It is another object of the present invention to provide an apparatus and method for providing a content transmission network service capable of providing a content transmission network service with high speed and proper security by performing encryption using an RE algorithm.

According to another aspect of the present invention, there is provided an apparatus for providing a content transmission network service, including: a content request receiving unit for receiving a request for providing multimedia content received from a user terminal; A content type determination unit for determining a type of the multimedia content requested to be provided; And an encrypting unit encrypting the multimedia content using any one of an NL-SEED (New Lightweight SEED) algorithm and an RE (Robust Gray Code Scrambling Encryption) algorithm according to the type of the determined content.

The content determining unit may determine that the multimedia content is a first content type if the multimedia content is a content requiring security and determine that the multimedia content is a second content type if the multimedia content is content that does not require security. .

The encryption unit may further include: a first encryption unit encrypting the multimedia content using a New Lightweight SEED (NL-SEED) algorithm when it is determined that the first content type is the first content type; And a second encryption unit encrypting the multimedia content using a robust gray code scrambling encryption (RE) algorithm when it is determined that the multimedia content is a second content type.

In addition, the NL-SEED algorithm may encrypt the data block of the multimedia content through eight rounds.

In addition, the RE algorithm is characterized in that encryption of the multimedia content is performed using an encryption key generated by adding an operation based on gray code conversion to the multimedia content, and scrambling.

The content transmitting apparatus may further include a content transmitter for providing the encrypted multimedia content to the user terminal.

According to another aspect of the present invention, there is provided a method of providing a content delivery network service, the method comprising: receiving a request for providing multimedia content received from a user terminal by a content request receiving unit; Determining a type of the multimedia content requested by the content type determination unit; And encrypting the multimedia content using any one of a NL-SEED (New Lightweight SEED) algorithm and an RE (Robust Gray Code Scrambling Encryption) algorithm according to the determined content type by the encryption unit.

The step of determining the type of the multimedia content requested to be provided may include determining that the multimedia content is a first content type if the multimedia content is content requiring security, and if the multimedia content is content that does not require security It is determined that the second type of content is the second type of content.

Also, the step of encrypting the multimedia contents using the NL-SEED (New Lightweight SEED) algorithm or the RE (Robust Gray Code Scrambling Encryption) algorithm according to the judged content type may be judged to be the first content type Encrypting the multimedia content using an NL-SEED algorithm; And encrypting the multimedia content using an RE algorithm when it is determined that the content type is the second content type.

In addition, when it is determined that the multimedia content is a first content type, the step of encrypting the multimedia content using the NL-SEED algorithm is performed such that the NL-SEED algorithm encrypts the data block of the multimedia content through eight rounds .

In addition, when it is determined that the multimedia content is the second type of content, the step of encrypting the multimedia content using the RE algorithm may include a step of adding an operation based on gray code conversion to the multimedia content, And the encryption of the multimedia contents is performed using the encryption key.

After the step of encrypting the multimedia content using any one of NL-SEED (New Lightweight SEED) algorithm and RE (Robust Gray Code Scrambling Encryption) algorithm according to the determined content type, the encrypted multimedia content To the user terminal.

The apparatus and method for providing a content transmission network service according to the present invention having the above-described configuration can be applied to a multimedia content or a fragmentary content, such as a movie, which is important for copyright, based on a result of comparing the speed and security of the NL- The data is encrypted by using the NL-SEED algorithm, and the multimedia contents found by many users like a drama are encrypted by using the RE algorithm, so that the high-speed content transmission function can be performed smoothly, and inefficient network resources It is possible to prevent waste of the battery.

1 is a block diagram illustrating a configuration of a content transmission network service providing apparatus according to the present invention.
2 is a diagram for explaining an NL-SEED algorithm employed in a content transmission network service providing apparatus according to the present invention.
FIG. 3 is a diagram for explaining a result of comparing the encryption speeds of the NL-SEED algorithm and the SEED algorithm according to FIG.
4 is a diagram for explaining an RE algorithm employed in a content transmission network service providing apparatus according to the present invention.
FIG. 5 is a diagram for explaining a result of comparing the encryption speeds of the RE algorithm and the SEED algorithm according to FIG.
6 is a flowchart illustrating a procedure of a content transmission network service providing method according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings in order to facilitate a person skilled in the art to easily carry out the technical idea of the present invention. . First, in adding reference numerals to the constituent elements of the drawings, it should be noted that the same constituent elements are denoted by the same reference numerals whenever possible even if they are displayed on other drawings. In the following description of the present invention, a 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.

The present invention relates to an apparatus and method for providing a content transmission network service using an NL-SEED (New Weighted SEED) algorithm or a RE (Robust Gray Code Scrambling Encryption) algorithm using encryption and scrambling and Gray code, .

Here, SEED is a symmetric key block cipher algorithm that processes messages in blocks developed in Korea to protect data information, and it is a 128-bit block cipher algorithm that processes data by using the same key for encryption / decryption. The plaintext block consists of Feistel (repeated block cipher where the ciphertext is encrypted from the plaintext by repeating substitution and substitution) that is encrypted through 16 rounds. The block encryption algorithm with the Feistel structure is classified according to the characteristics of the F function, and the F function of the SEED is composed of the modified 64 bit Feistel type. The F function processes each 32-bit block (C ', D') in the 64-bit block by inputting the 64-bit round key (= ) To output a 64-bit block. Where i represents the number of rounds.

And the scrambling technology is to provide high-capacity media securely in real time as network performance improves. Scrambling is a technique of transmitting original video data by modifying or encrypting the original video data by a specific key, and allowing only a receiver having a specific key to normally return the video. An unauthorized recipient can protect the right of a legitimate recipient by displaying a distorted image through a scrambling process rather than a moving image, even if the received image is decoded. In particular, encryption of images using encryption algorithms such as SEED or ARIA (Academy, Research Institute, Agency) is applied to the entire image and increases greatly as the amount of computation increases. Therefore, when the multimedia data is encrypted through scrambling, it should be applied to each frame or selectively applied according to image importance.

Gray code was developed for computer use by Frank Gray, a 1941 Bell Labs speaker, to generate a new code by converting a series of consecutive number bits into a single bit, Features and structure. Based on these features and structure, it is used in various fields such as image filtering, compression, recognition, scrambling and watermarking.

Hereinafter, a content transmission network service providing apparatus according to an embodiment of the present invention will be described in detail.

1 is a block diagram illustrating a configuration of a content transmission network service providing apparatus according to the present invention.

1, a content transmission network service providing apparatus 100 according to the present invention includes a content request receiving unit 110, a content type determining unit 120, an encrypting unit 130, and a content transmitting unit 140, .

The content request receiving unit 110 receives a request for providing multimedia content received from the user terminal 10. [

The content type determination unit 120 determines the type of the multimedia content requested to be provided.

The content type determination unit 120 determines that the multimedia content is a first content type if the multimedia content is a content requiring security, and determines that the multimedia content is a second content type if the multimedia content is content that does not require security. In this case, the content requiring security may be a video or a piece of important copyrighted data such as a movie, and a content not requiring security may be a video often found by a plurality of users like a drama.

The encryption unit 130 encrypts the multimedia content using any one of NL-SEED (New Lightweight SEED) algorithm and RE (Robust Gray Code Scrambling Encryption) algorithm according to the type of the determined content.

To this end, the encryption unit 130 includes a first encryption unit 131 and a second encryption unit 132.

If it is determined that the first content type is the first content type, the first encryption unit 131 encrypts the multimedia content using the NL-SEED (New Lightweight SEED) algorithm. At this time, the NL-SEED algorithm is an algorithm for performing encryption through the data block of the multimedia contents through eight rounds.

If the second encryption unit 132 determines that the content type is the second content type, the second encryption unit 132 encrypts the multimedia content using a robust gray code scrambling encryption (RE) algorithm. At this time, the RE algorithm is an algorithm for performing encryption of multimedia contents by adding an operation based on gray code conversion to multimedia contents and using the generated encryption key and scrambling.

The content transmitting unit 140 provides the encrypted multimedia content to the user terminal 10. [

FIG. 2 is a diagram for explaining an NL-SEED algorithm employed in a content transmission network service providing apparatus according to the present invention. FIG. 3 is a diagram illustrating a result of comparing the encryption speeds of the NL- Fig.

Referring to FIG. 2, the NL-SEED algorithm is an algorithm for encrypting data blocks of multimedia contents through eight rounds.

More specifically, the NL-SEED algorithm having the structure as shown in FIG. 2 can improve the rate of cancellation / decryption of multimedia contents by shortening the number of rounds of 16 rounds in the original SEED by eight. That is, as shown in FIG. 3, the rate of encryption / decryption in the NL-SEED algorithm is improved than the rate of encryption / decryption in the SEED.

FIG. 4 is a view for explaining an RE algorithm employed in a content transmission network service providing apparatus according to the present invention, FIG. 5 is a diagram for explaining a result of comparing the encryption speeds of the RE algorithm and the SEED algorithm according to FIG. 4 .

Referring to FIG. 4, the RE algorithm is an algorithm for encrypting multimedia contents using an encryption key generated by adding an operation based on gray code conversion to multimedia contents and scrambling.

In more detail, the RE algorithm is used in the same manner as COES (Content Obfuscation Encryption System), which is one of the existing scrambling schemes. However, the conversion of the encrypted data through the gray code prevents the decryption of data due to leakage of some original . That is, an XOR operation is performed using an encryption key generated by hashing the original multimedia content from a unique key, and then converted through Gray Code Generation Algorithm to obtain an encrypted image. The decoding process of the RE algorithm is performed in the reverse order of the encryption process. As described above, the encryption process of the RE algorithm is slowed down due to the gray code conversion function added to the existing COES, but it can provide more enhanced security. As shown in FIG. 5, the encryption / decryption rate in the RE algorithm is improved rather than the encryption / decryption and speed in the NL-SEED, but the encryption / decryption rate is somewhat inferior in terms of encryption strength.

Hereinafter, a content transmission network providing method according to an embodiment of the present invention will be described in detail.

6 is a flowchart illustrating a procedure of a content transmission network service providing method according to the present invention.

Referring to FIG. 6, the content transmission network service providing method according to the present invention uses the above-described content transmission network service providing apparatus, and a duplicated description will be omitted.

First, a request for providing multimedia contents received from a user terminal is received (S100).

Next, the type of the multimedia content requested to be provided is determined (S200). In step S200, it is determined that the multimedia content is a first content type if the multimedia content is a content requiring security, and the second content type if the multimedia content is content that does not require security. In this case, the content requiring security may be a video or a piece of important copyrighted data such as a movie, and a content not requiring security may be a video often found by a plurality of users like a drama.

Next, if it is determined to be the first content type, the multimedia content is encrypted using the NL-SEED (New Lightweight SEED) algorithm (S300). In step S300, the NL-SEED algorithm is an algorithm for encrypting the data block of the multimedia contents through eight rounds.

Next, if it is determined that the content type is the second content type, the multimedia content is encrypted using a robust gray code scrambling encryption (RE) algorithm (S400). In step S400, the RE algorithm is an algorithm for encrypting the multimedia contents by using an encryption key generated by adding an operation based on gray code conversion to the multimedia contents and scrambling.

Finally, the encrypted multimedia content is provided to the user terminal (S500).

As described above, the apparatus and method for providing a content transmission network service according to the present invention are based on a result of comparing the speed and security of the NL-SEED algorithm and the RE algorithm, and the NL- And the RE algorithm encrypts and transmits the multimedia contents frequently found by a large number of users such as a drama, so that the high-speed content transmission function can be performed smoothly and the inefficient network resources are wasted. .

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but many variations and modifications may be made without departing from the scope of the present invention. It will be understood that the invention may be practiced.

100: Content transmission network service provider
110: Content request receiver
120: content type determination unit
130: first encryption unit
140: second encryption unit
150:

Claims (12)

A content request receiving unit for receiving a request for providing multimedia content from a user terminal;
A content type determination unit for determining a type of the multimedia content; And
And an encryption unit encrypting the multimedia content using any one of an NL-SEED (New Lightweight SEED) algorithm and a RE (Robust Gray Code Scrambling Encryption) algorithm according to a type of the determined content,
Wherein the content type determination unit determines that the multimedia content is a first content type if the multimedia content is a content requiring security and determines that the content is a second content type if the multimedia content is content requiring an increase in encryption speed rather than security ,
The encryption unit,
A first encryption unit encrypting the multimedia content using a NL-SEED (New Lightweight SEED) algorithm when it is determined that the multimedia content is a first content type; And
A second encryption unit encrypting the multimedia content using a robust gray code scrambling encryption (RE) algorithm when it is determined to be the second type of content;
The content delivery network service providing apparatus comprising: delete delete The method according to claim 1,
Wherein the NL-SEED algorithm encrypts the data block of the multimedia content through eight rounds. The method according to claim 1,
Wherein the RE algorithm encrypts the multimedia content using an encryption key generated by adding an operation based on gray code conversion to the multimedia content, and scrambling. The method according to claim 1,
Further comprising a content transmission unit for providing the encrypted multimedia content to the user terminal. Receiving, by the content request receiving unit, a request for providing the multimedia content from the user terminal;
Determining a type of the multimedia content by a content type determination unit; And
Encrypting the multimedia content using any one of an NL-SEED (New Lightweight SEED) algorithm and an RE (Robust Gray Code Scrambling Encryption) algorithm according to the determined content type by an encryption unit,
The step of determining the type of the multimedia content requested to be provided comprises:
Judges that the multimedia content is a first content type if the multimedia content is a content requiring security and determines that the content is a second content type if the multimedia content requires a higher encryption processing speed than security,
The step of encrypting the multimedia contents using the NL-SEED (New Lightweight SEED) algorithm or the RE (Robust Gray Code Scrambling Encryption)
Encrypting the multimedia content using an NL-SEED algorithm if it is determined to be a first content type; And
Encrypting the multimedia content using an RE algorithm if it is determined to be the second type of content;
Wherein the content delivery network service is a content delivery service. delete delete 8. The method of claim 7,
Wherein the step of encrypting the multimedia content using the NL-SEED algorithm comprises the steps of:
Wherein the NL-SEED algorithm encrypts the data block of the multimedia content through eight rounds. 8. The method of claim 7,
Wherein the step of encrypting the multimedia content using the RE algorithm comprises the steps of:
Wherein the RE algorithm encrypts the multimedia content by using an encryption key generated by adding an operation based on gray code conversion to the multimedia content and scrambling the encrypted content. 8. The method of claim 7,
After the step of encrypting the multimedia content using any one of NL-SEED (New Lightweight SEED) algorithm and RE (Robust Gray Code Scrambling Encryption) algorithm according to the determined content type,
And providing the encrypted multimedia content to the user terminal. ≪ Desc / Clms Page number 19 >

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