KR20120041317A - Delivering contents by using storage of network - Google Patents

Abstract

PURPOSE: A content transfer method and a system thereof using network storage are provided to enable an ISP(Internet Service Provider) to transfer content. CONSTITUTION: An entity includes storages(261, 263). The storages store content. A tracker receives a content request from a terminal user. The tracker directly transfers the content request to a content supplier in case a load which is applied to the content supplier is less than predetermined value by the content request.

Description

Delivering content using network storage {DELIVERING CONTENTS BY USING STORAGE OF NETWORK}

The present invention relates to a method for efficiently delivering content, and more particularly, to a method for delivering content using storage in a network.

In the future Internet environment where user devices that can easily operate various services based on powerful functions such as laptops, netbooks, and smart phones are widely used, contents (for example, video, audio, etc.) services are the most popular services. Is expected. Unlike the early Internet, which was designed assuming 1: 1 communication such as file transfer, the current Internet is mostly used for P2P traffic for downloading content. That is, the actual Internet usage pattern is focused on content acquisition, and the amount of traffic for 1: 1 communication with a specific host, which is the original design of the Internet, is very small. In order to properly reflect the actual Internet usage pattern, studies are being actively conducted to transmit data based on contents or related information of contents rather than existing network address. In addition, the rapid development of user devices will emphasize the importance of content services that can enjoy content anytime, anywhere.

 As such, the most important application of the present and future Internet is content download, and therefore, a technology capable of supporting it efficiently is required. Representative solutions such as P2P and CDN (Content Delivery Network) exist for downloading contents on the Internet. However, in the case of P2P, there is a disadvantage in that an Internet service provider (ISP) cannot control the operation and traffic, and there is a problem in that the validity of contents cannot be guaranteed. In addition, there is a disadvantage in that the network is inefficiently used, such as a duplicate connection is generated to download the same kind of content. On the other hand, in the case of the CDN, the network infrastructure of the P2P can be eliminated because the operator installs the network infrastructure, but it does not support a variety of content, it does not provide a service such as content search itself. Therefore, there is a need for a technology capable of efficiently using network resources such as efficiently arranging and searching contents in response to a user's request and increasing user convenience.

1A illustrates a technique for delivering content from server 220 to terminal users 241-246. In FIG. 1A, a server 220 that stores content is connected to terminal users 241 through 246 via a network 200, the network including a network entity (eg, a router; 201 through 209). It can be seen that. As shown in FIG. 1A, each of the terminal users 241 to 246 acquires the content directly from the server 220 (the arrow in FIG. 1A shows the content movement path from the server to each terminal user). Accordingly, the technique of FIG. 1A has a problem in that a delay occurs in content delivery because each of the terminal users 241 to 246 requests and receives contents from a server located far away, and each of the terminal users 241 to 246 requests the contents. If the content is the same, there is a problem of unnecessarily using the specific links 201, 202, and 205 multiple times to receive the same content.

In order to solve this problem, in FIG. 1B, a CDN server 290 having a copy of the content stored in the server 220 is placed in the network, and the content is obtained from the CDN server 290 (the arrows in FIG. The content movement path from the server to each terminal user). That is, the CDN server 290 is located close to the terminal user, by copying and providing the content provided by the server 220, thereby improving the delay problem of the content delivery technology of Figure 1a, and uses the link efficiently. However, the CDN server 290 is generally expensive, and there is a limit in securing the number of CDN servers 290 to be located close to all terminal users. In addition, the CDN server 290 also has a problem that requires a separate resource in order to maintain its performance.

An object of the present invention is to allow an Internet service provider (hereinafter referred to as "ISP") to deliver content. In addition, an object of the present invention is to reduce the delay caused by content acquisition, and to save the cost and resources required for content acquisition. In addition, an object of the present invention is to provide a content delivery service suitable for each content provider of various sizes having various traffic requirements.

The present invention relates to a method and system for delivering content from a content provider to a terminal user via a network comprising one or more entities for packet routing.

In one embodiment of the present application, the network receives a content request from a terminal user and determines whether there is at least one entity among the one or more entities that stores the requested content, wherein the entity may store the content and the network Depending on the content existence within, the manner of delivering the content to the terminal user is different.

In another embodiment of the present application, a content provider, a terminal user requesting content, a network including one or more entities for packet routing, provided that an entity included in the network includes storage capable of storing content. , Through the network, delivers the content from the content provider to the terminal user.

The present invention provides the effect that the Internet service provider delivers the content. In addition, the present invention provides an effect of reducing the delay caused by content acquisition and saving the cost and resources of content acquisition. In addition, the present invention provides an effect of providing a content delivery service suitable for each content provider of various sizes having various traffic requirements.

1A illustrates a prior art for delivering content from a server to a terminal user.
1B illustrates a prior art for delivering content from a server to a terminal user.
1C illustrates an embodiment of the invention in which content is delivered from a server to a terminal user.
2A to 2C illustrate a process according to a content request of a terminal user.
3 is a flowchart illustrating a process according to a content request of a terminal user.
4A and 4B illustrate a contractual relationship between a content provider and one or more ISPs.
FIG. 5A is a diagram illustrating a state in which content is downloaded to a terminal user between ASs (Autonomous Systems), and both ASs use an ISP-CDN model.
5B to 5D are diagrams illustrating downloading contents to terminal users between ASs, and some ASs use an ISP-CDN model and others do not use an ISP-CDN model.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, the embodiments of the present invention illustrated below may be modified in various other forms. That is, the scope of the present invention is not limited to the embodiments described below, and it should be understood that the present invention includes all the transformations, equivalents, and substitutes included in the spirit and technical scope of the present invention.

1C illustrates an embodiment of the present invention for delivering content from a server to a terminal user. In FIG. 1C, the server 220 that stores content is connected to the terminal users 241-246 via the network 200, and the network 200 includes a network entity that includes or attaches storage (eg, For example, routers 201 to 209 are shown. As shown in FIG. 1C, the content requested by each of the terminal users 241-246 is obtained from storage 261-263 included or attached to a network entity located near each terminal user (arrows in FIG. 1C). The content movement path from the server to each terminal user). In place of the CDN server of FIG. 1B, in FIG. 1C, by placing a copy of the content in storage 261-263 that already exists in the network, the content is placed closer to the user. That is, the storage included in the network provides the service provided by the CDN server of FIG. 1B.

With the recent advances in hardware technology, storage prices have been falling, and storage is often installed in equipment such as routers, so that a network including a plurality of storages has become common. Therefore, by placing a copy of the content in the storage previously included in the network, it is possible to easily obtain the content without the need for additional equipment. In addition, inexpensive storage can be placed throughout the network, allowing content to be placed closer to the terminal user, thereby improving latency and faster content acquisition than using a CDN server. In addition, by using easily available storage, the content received from another ISP can be cached, and the content can be serviced if necessary, thereby reducing the amount of traffic between ISPs. Reducing traffic between ISPs saves the cost of paying other ISPs, and allows even small Internet providers to offer content services.

As such, since the content can be delivered using storage included in the network, the ISP can directly provide the CDN service. In addition, unlike CDNs, ISPs can consider content services and traffic engineering at the same time, providing an optimized solution. Hereinafter, the state in which the ISP provides the CDN service using storage included in the network is referred to as an ISP-CDN model.

As mentioned above, the original function of the network entity including storage may be another function other than content storage, for example packet routing. In this case, it is necessary to reduce the load of the storage when delivering the content, and for this purpose, a swarming technology known in the art may be used. In other words, by simultaneously receiving the content from a plurality of storage that stores a single content it can reduce the load of each storage and improve the transmission performance.

2A and 2B illustrate a state in which an ISP provides a CDN service using storage in a network. In particular, FIG. 2A and FIG. 2B illustrate an operation process when a terminal user who receives a CDN service of an ISP requests content. In FIG. 2A, an ISP (Autonomous System) 300 provided by an ISP, an entity included in the AS 300 (provides a packet routing or content delivery service, and also includes storage and stores content in the storage; 301 to 304) , A content server 320 for providing content, a terminal user 340, a proxy device 350, and a tracker 380 are illustrated. The proxy device 350 is a device for transmitting a content request of a terminal user to another entity, and may be, for example, a terminal router of an ISP or an edge box of the terminal user. Upon receiving the content request from the terminal user, the proxy device 350 may query the tracking device 380 for a copy of the content in the AS to find an entity containing the content. In addition, the proxy apparatus 350 may directly request content from the content server 320. In addition, when the ISP uses a warming technique, the proxy apparatus 350 may deliver the content received from several network entities to the terminal user. If necessary, the proxy apparatus 350 may be handled integrally with the terminal user. Meanwhile, the tracker 380 is a device managed by the ISP and manages content in the AS. That is, the tracking device 380 may determine whether there is a content copy in the AS, and if so, in which entity, and if there is a content copy in the plurality of entities, information about the plurality of entities having the content copy (eg, Addresses of each of the plurality of entities) may be delivered to the proxy apparatus 350 or a content request of the terminal user may be delivered by selecting an optimal entity among a plurality of entities having a content copy. In this case, the optimal entity may be the entity located closest to the terminal user who requested the content, may be an entity having a low load, or an entity having a large storage capacity. The tracking device 380 may also determine to which entity to store the content when new content flows into the AS. The determined entity may be an entity having a large storage capacity or an entity including storage without a hit history for a long time.

An embodiment of an operation when the terminal user 340 requests content in the AS is shown in FIG. 2A. In FIG. 2A, it is assumed that content is included in each of the entities 301 to 304 in the AS. (1) When the terminal user 340 requests the content, (2) The proxy device 350 forwards the request to the tracking device 380 to determine whether the content requested by the terminal user is in the AS 300. do. (3) The tracking device 360 confirms that the content is in the AS 300 and transmits the information about the entities including the content (eg, the address of the entities including the content) to the proxy device 350. To pass. (4) The proxy apparatus 350 requests the content from the optimal entity (for example, an entity close to the terminal user; 301 to 303 in this embodiment) based on the information received from the tracking apparatus 360. (5) The entities receiving the request deliver the content to the proxy device 350, and (6) the proxy device 350 collects the received content and delivers the received content to the terminal user 340.

Meanwhile, another embodiment of another operation when the terminal user 340 requests content in the AS is illustrated in FIG. 2B. In FIG. 2B, it is assumed that each of the entities 301 to 304 in the AS does not include content desired by the terminal user. (1) When the terminal user 340 requests the content, (2) The proxy device 350 transmits the content request of the terminal user 340 to the tracking device 380. (3) The tracking device 380 notifies the proxy device 350 that there is no content because it knows that the requested content is not in an entity in the AS. (4) Accordingly, the proxy apparatus 350 finds the IP of the content server through the DNS resolution, or the border proxy apparatus of the AS in which the content server is included. Can be obtained directly from 320. (6) The proxy device 350 delivers the obtained content to the terminal user 340.

Meanwhile, another embodiment of another operation when the terminal user 340 requests content in the AS is illustrated in FIG. 2C. In FIG. 2C, it is assumed that the content is included in each of the entities 301 to 304 in the AS. In comparison with FIG. 2A, it is assumed that the content is requested from outside the network 305. For example, (1) the terminal user 340 located outside the network 305 forwards the content request to the (2) authoritative DNS server 372 via the local DNS server 371, (3) Based on the response to the request from the authoritative DNS server 372, (4) the content request is forwarded to the appropriate DNS server 373 (ie, DNS resolution). (5) the DNS server 373 forwards the content request to the tracking device 380, and (6) the tracking device 380 responds to the request to the entity containing the requested content (entity in the case of FIG. 2C). 302) (for example, the address of the entity) to DNS server 373. (7) The information is transmitted to the (8) terminal user 340 via the local DNS server 371, and (9) the terminal user 340 is based on the received information, and the corresponding entity (in the case of FIG. 2C). Entity 302 requests content and receives 10.

That is, referring to FIG. 3, briefly summarizing an embodiment of the present invention described above, when a content request is received from a terminal user (step 410), the proxy device (or tracking device) may have content in an AS to which it belongs. (Step 420), if it is determined that the content exists, the proxy device (or terminal user) requests the content from the entity storing the content (step 430) and obtains the content from the entity that is optimal for it ( Step 450). If the proxy device (or tracking device) determines that there is no content in the AS to which the proxy device (or tracking device) belongs, it requests the content to the content server which is the source of the content (step 440) and acquires the content (step 450).

As such, in the ISP-CDN model proposed in the present invention, the content request of the terminal user passes through the tracking device more than once before the content delivery to the terminal user. Therefore, in the present invention, it is possible to reduce the cost of the service for the content request.

In other words, as described above, since the tracking device receives the content request of the terminal user, it is possible to determine in advance the load of the system (for example, the load due to traffic overload) that is expected to obtain the requested content. have. Accordingly, when the tracking device determines that the content server is unable to handle the load, the user selects a method of receiving the content from the entity, and determines that the load is sufficient to handle the content server. By selecting a method of receiving content from a content server, a content service method can be flexibly selected. For example, if the tracking device determines the number of content requests requested by the terminal user to the content server, and determines that the number is greater than a predetermined value, that is, the maximum number of requests that the content server can accommodate, the content server. May determine that an unacceptable load is applied, and select a content service method as a method of receiving content from an entity. That is, in the present invention, it is understood that the traffic requirements may vary depending on the size of the content provider, and to reduce the cost of the service by enabling the content providing service suitable for the various traffic requirements.

In FIG. 4A, in the conventional business model requiring the intervention of the CDN service provider 690, the CDN service provider 690 contracts with the content provider 620 and the ISPs 601-603 to the content provider 620. Was provided to ISPs 601 to 603.

On the other hand, the business model of the present application is that the ISP can contract directly with the content provider 620, excluding the CDN service provider 690, and the ISP (for example, 601) that has contracted with the content provider 620 is the remaining ISP ( For fast content delivery to 602 and 603, i) contract with ISPs 602 and 603, place their servers in the ISP's AS 602 and 603, or ii) allow network virtualization to be supported, And iii) using the virtualized resources of 603), or iii) collecting resources of each ISP 601, 602, 603 to build a virtual CDN server 691, as shown in FIG. 4B, wherein the virtual CDN server provides a CDN service. Do it. That is, although the conventional business model requires the intervention of the CDN service provider 690, the business model of the present invention excludes the CDN service provider 690 and enables ISP-centric content delivery. You can get bigger profits.

5A to 5D illustrate a state in which content is delivered to a terminal user between a plurality of ASs.

FIG. 5A illustrates a method of delivering content to a terminal user between a plurality of ASs using an ISP-CDN model. With reference to FIG. 5A, in the following, there are two AS 710 and 730 for convenience, the content server 720 is located in the AS 730, and the terminal user 741 presets the proxy device 711. Assume that you have done so.

When the terminal user 741 requests the content, the proxy device 711 inquires of a tracking device (not shown) in the AS 710 as to whether the requested content exists in the AS 710, where the content is assigned to the AS 710. ), The proxy device 711 receives the content and delivers the content to the terminal user 741, and if the content is not located in the AS 710, the proxy device 731, that is, the proxy device 731 of the AS 730. ) IP is received. The proxy device 731 queries the tracking device 780 to find the entity where the content is located, and forwards the request of the terminal user 741 to the entity. The entity receiving the request delivers the content to the terminal user 741 via the proxy devices 731 and 711.

On the other hand, when the terminal user 742 requests content from the proxy device 731, the proxy device 731 inquires the tracking device 780 of which entity (or server) of the AS 730 is the requested content. . Since there is a content server 720 in the AS 730, the tracking device 780 can always determine the entity (or server) having the content, and forwards the request to the determined entity (or server) to the terminal user 742. To download the content.

FIG. 5B illustrates a method of delivering content between a plurality of ASs to a terminal user. Some ASs use an ISP-CDN model, and others do not use an ISP-CDN model. With regard to FIG. 5B, hereinafter, for convenience, assume that there are two AS 710 and 730, the AS 710 uses the ISP-CDN model, and the AS 730 does not use the ISP-CDN model. do. In addition, it is assumed that the content server 720 is located in the AS 730, and the terminal user 741 has set the proxy device 711 in advance.

When the terminal user 741 requests the content, the proxy device 711 inquires of a tracking device (not shown) in the AS 710 as to whether or not the content exists in the AS 710, the content being the AS 710. If located within, the proxy device 711 receives the content and delivers the content to the terminal user 741. If the content is not located in the AS 710, the proxy device 711 transmits the content server 720 through DNS resolution. Obtains the IP of the IP and requests the content server 720 for the content. The requested content is delivered to the terminal user 741, and the content may be cached in the proxy device 711 or the entities 712-716 located in the AS 710 as needed.

The terminal user 742 obtains the IP of the content server 720 through DNS resolution, and requests the content to the content server 720 using the obtained IP in order to download the content.

As described above, it can be seen that between the interconnected ASs 710 and 730, only one AS is economical using the ISP-CDN model. When a user of the AS 710 acquires the content of the content server 720, the content is cached in the AS 710, so that if the same content is needed later, the user does not have to request the content from the AS 730. do. This can reduce the traffic between the ASs 710 and 730 and save the cost that the AS 710 pays to the AS 730.

FIG. 5C illustrates the transfer of content to a terminal user between a plurality of ASs. Some ASs use an ISP-CDN model and others do not use an ISP-CDN model. With reference to FIG. 5C, in the following, it is assumed for convenience that there are two AS 710 and 730, the AS 730 uses the ISP-CDN model, and the AS 710 does not use the ISP-CDN model. do. It is also assumed that content server 720 is located in AS 730. In addition, it is assumed that the ISP of the AS 730 does not install a CDN server or the like in the AS 710.

The terminal user 741 performs DNS resolution to obtain the IP of the border proxy apparatus 731 located closest to itself, and forwards the request to the border proxy apparatus 731. When the border proxy apparatus 731 has the content, the content is immediately returned to the terminal user 741. If the border proxy device 731 does not have content, the tracking device 780 queries the entity having the content, forwards the content request to the entity, and the entity forwards the content to the border proxy device 731. do. That is, the content is finally located in the border proxy apparatus 731.

On the other hand, the terminal user 742 requests the content from the proxy device 731, and the proxy device 731 queries the tracking device 780 for the entity having the requested content. The tracking device 780 forwards the request to the entity, which forwards the content to the proxy device 731 so that the terminal user 742 receives the content.

When the terminal user is located outside the AS using the ISP-CDN model as shown in FIG. 5C, in another embodiment other than the above-described embodiment, the terminal user 742 may have the requested content without the border proxy apparatus 731. The entity may be referred to the tracking device 780, and the terminal user 742 may request and receive content from the entity.

FIG. 5D illustrates a method of delivering content to a terminal user between a plurality of ASs. Some ASs use an ISP-CDN model and others do not use an ISP-CDN model. With reference to FIG. 5D, below, assume that for convenience two AS 710 and 730 are present, the AS 730 uses the ISP-CDN model, and the AS 710 does not use the ISP-CDN model. do. It is also assumed that content server 720 is located in AS 730. And assume that VCDN server 790 is located in AS 710. The VCDN server 790 is a CDN server installed in the AS 710 by the ISP of the AS 730, or a virtual server using some of the resources of the AS 710 or the AS 730.

The terminal user 741 performs a DNS resolution and forwards the content request to the VCDN server 790 using the obtained IP address of the VCDN server 790. If the VCDN server 790 has the requested content, the content is returned immediately. On the other hand, when the VCDN server 790 does not have the content, the tracking device 780 requests the search of the entity having the content, receives the content from the entity and delivers the content to the terminal user 741, cache do.

The operation process of the terminal user 742 is the same as that of the terminal user 742 of FIG. 5A.

Although described above with reference to a preferred embodiment of the present invention, those skilled in the art that various modifications of the present invention without departing from the spirit and scope of the invention described in the claims below And can be changed.

200: network
220: content server
201 to 209: Router (or device capable of packet routing)
261 to 263: Storage where content can be stored (attached to or included in 206, 208, 209)
241 to 246: terminal user

Claims (20)

A method for delivering content from a content provider to a terminal user through a network including one or more entities for packet routing, the method comprising:
Receiving, by the network, a content request from the terminal user;
Determining whether there is at least one entity among the one or more entities that stores the requested content; And
In accordance with the determination, delivering the requested content to the terminal user;
And the entity comprises storage capable of storing content. The method of claim 1,
The delivering step includes delivering the content from the at least one entity to the terminal user when it is determined that the at least one entity exists in the determining. The method of claim 2,
Delivering the content from the at least one entity to the terminal user includes delivering the content from an optimal one of the at least one entity to the terminal user. The method of claim 2,
Delivering the content from the at least one entity to the terminal user includes delivering the content from the at least one entity to the terminal user using swarming technology. Way. The method of claim 1,
The delivering step includes requesting content directly from the content provider when it is determined in the determining that there is no entity storing the requested content. The method of claim 1,
Receiving the content request, the content delivery method comprising the step of receiving via a border proxy device of the network. The method of claim 1,
In the determining step, when the determining determines that there is no entity storing the requested content, the delivering step includes delivering content from the border proxy apparatus from the neighboring network to the terminal user. , Content delivery method. The method according to claim 6 or 7,
And the border proxy server caches content requested by the terminal user. The method of claim 1,
The content delivery method is performed when a load to be applied to the content provider due to a content request from the terminal user exceeds a predetermined value. Content provider;
A terminal user requesting content; And
A system for delivering content from the content provider to the terminal user, the network comprising one or more entities for packet routing, the system comprising:
And the entity comprises storage capable of storing content. The method of claim 10,
The content delivery system further includes a tracking device,
When the tracking device receives a content request from the terminal user, and determines that a load to be applied to the content provider due to the content request is equal to or less than a predetermined value, the tracking device directly delivers the content request to the content provider. system. The method of claim 11,
When the tracking device receives a content request from the terminal user, and determines that the load to be applied to the content provider due to the content request exceeds the predetermined value, the tracking device determines whether an entity for storing content exists in the network. Determine, content delivery system. The method of claim 10,
The content delivery system further includes a tracking device,
The tracking device, when receiving a content request from the terminal user, determines whether there is an entity for storing content in the network. The method according to claim 12 or 13,
And the tracking device stores information about the entity storing the content. The method according to claim 12 or 13,
The tracking device, when new content is received in the network, updates information about an entity storing the new content. The method according to claim 12 or 13,
And the tracking device receives a content request from a network neighboring the network. The method according to claim 12 or 13,
Further comprising a proxy device for receiving a content request from the terminal user,
The proxy device forwards the content request to the tracking device. The method of claim 17,
And the proxy device forwards the content request to a border proxy device of a network neighboring the network. The method of claim 17,
The proxy device arranges the content received from the entity storing the content and delivers the content to the terminal user. The method of claim 17,
And the proxy device caches content received from an entity storing the content.

Images