KR101407934B1 - System for distributing a content, method and apparatus thereof - Google Patents

Abstract

The present invention relates to a content transmission system, a method and an apparatus for the same, and more particularly, to a content transmission system, a content distribution system, and a content distribution system, which are distributedly arranged in a mobile network including at least one radio access network, store a part or all of one or more contents, Receiving at least one local cache for transmitting to the terminal through the access network and a content request from the terminal to identify a local cache for providing content to the terminal from the at least one local cache, And a mobile CDN controller for transmitting the flow information related to the transmission and controlling the local cache to transmit the contents to the terminal.

Description

TECHNICAL FIELD [0001] The present invention relates to a content transmission system, and more particularly,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a content transmission system, and more particularly, to a content transmission system capable of minimizing content duplication in providing content to a terminal via a mobile network, ≪ / RTI >

The contents described in this section merely provide background information on the present embodiment and do not constitute the prior art.

2. Description of the Related Art [0002] In recent years, according to the performance enhancement of a mobile terminal and the development of a mobile communication technology, a user uses a mobile terminal (e.g., a smart phone) to download various contents such as web, video, audio, It is available. In addition, the frequency of using contents through a mobile network (for example, a mobile communication network) in which the movement of the user is guaranteed over a wired network in a modern living pattern is continuously increasing.

However, the most important issue when downloading content using mobile networks is download speed. Although LTE (Long Term Evolution) has improved the download speed of content in the mobile network, it is still difficult to guarantee QoS defined by LTE for peak times such as commute time.

Particularly, redundant transmission of the same contents in the mobile network causes unnecessary traffic increase in the mobile network, and such traffic increase makes it difficult to guarantee QoS for providing contents.

The present invention relates to a content transmission system capable of reducing traffic redundancy and service quality by minimizing traffic redundancy transmission using a local cache distributed to an edge of a mobile network when content is provided to a terminal through a mobile network, And a method and an apparatus therefor.

Other objects of the present invention will become readily apparent from the following description of the embodiments.

According to an aspect of the present invention, there is provided a content transmission system, which is distributed on a mobile network including at least one radio access network, stores a part or all of one or more contents, One or more local caches for transmitting data to the terminal via the radio access network; And receiving a content request from the terminal to identify a local cache to provide content to the terminal from the one or more local caches and to transmit flow information associated with the content request to an identified local cache, And a mobile CDN (Content Delivery Network) controller for controlling the content to be transmitted to the terminal.

According to another aspect of the present invention, there is provided a mobile terminal comprising: a terminal determination unit for determining whether the terminal is a terminal connected to a mobile network upon receiving a content request from the terminal; And a DNS processor for providing the address of the mobile CDN controller to the terminal in response to the content request so that the content request can be transmitted to the mobile CDN controller when it is determined that the terminal is connected to the mobile network And provides a GLB server as a feature.

Another aspect of the present invention is to provide a mobile terminal that receives a content request from a terminal connected to a mobile network including at least one radio access network and transmits the content request to at least one local cache distributed to the mobile network, A cache selection unit for selecting a local cache for transmitting contents; And a flow information providing unit for transmitting the flow information related to the transmission of the requested content to the local cache selected by the cache selecting unit and controlling the local cache to transmit the content to the terminal. Controller.

In the mobile CDN controller, the cache selection unit may identify a radio access network to which the terminal is connected, and select a local cache connected to the identified radio access network as a local cache for transmitting contents to the terminal.

In the mobile CDN controller, the flow information may include at least one of an IP address and content related information of the terminal.

Wherein the mobile CDN controller selects content to be stored in the one or more local caches according to a predetermined distribution policy and controls content to be delivered from the origin server providing the content to be stored in the one or more local caches And a dispersion unit.

According to another aspect of the present invention, there is provided an information processing apparatus comprising: a content storage unit for storing a part or all of one or more contents; And receiving, from the mobile CDN controller, flow information related to a content request of a terminal connected to a specific radio access network of the mobile network, and transmitting the content stored in the content storage unit to the terminal through the radio access network And a content providing unit for transmitting the content.

In the local cache, the content providing unit identifies the tunneling identification information of the terminal, refers to the confirmed tunneling identification information, and configures the content data as a mobile packet to be transmitted to the terminal through a tunneling technique, To the radio access network.

Wherein the local cache further comprises a mirroring unit for copying and delivering a packet transmitted through the radio access network, extracting a packet of the terminal from among the packets copied through the mirroring unit, and extracting the tunneling identification information from the packet of the terminal .

The local cache is connected between a base station of the radio access network and a service gateway of the core network through a router.

In the local cache, the content providing unit may receive the content from the origin server providing the content and provide the content to the terminal when the flow information of the content not stored in the content storage unit is received.

The local cache may further include a cache management unit for copying content transferred from the origin server according to a predetermined policy and storing the copied content in the content storage unit.

The present invention further provides a mobile CDN controller for receiving a content request from a terminal connected to a mobile network including at least one radio access network; The mobile CDN controller selecting a local cache to transmit content to the terminal from one or more local caches connected to any one of the one or more radio access networks; And controlling the mobile CDN controller to transmit the flow information related to the transmission of the requested content to the selected local cache so that the local cache transmits the content to the terminal. do.

According to another aspect of the present invention, there is provided a method of transmitting content in a local cache, the method comprising: receiving, from the mobile CDN controller, flow information related to a content request of the terminal; Identifying tunneling identification information allocated to the terminal based on the flow information; And transmitting the requested content data to the terminal through the radio access network using the identified tunneling identification information.

Wherein the content transmission method comprises: checking whether content requested by the terminal is stored based on the flow information; And receiving the content from the origin server providing the content and storing the content if the content is not stored.

The present invention distributes a local cache at the edge of a mobile network, more specifically, at an edge of a core network connecting a radio access network, and provides content to terminals connected to each radio access network through the distributed local cache It is possible to minimize the transmission of the contents redundancy in the mobile network, and by this, it is possible to guarantee the quality of service (QoS) when providing the contents through the mobile network by inducing traffic reduction.

Particularly, the present invention distributes and stores contents with a high frequency of request in a local cache distributed in units of a radio access network, and when the contents are requested from a terminal connected to each radio access network, a corresponding local cache provides the contents , It is possible to more efficiently transmit content requested by the user within a certain coverage within a certain number of times.

1 is a schematic view showing a structure of a content transmission system based on a conventional wired network.
2 is a schematic diagram illustrating a content transmission system based on a mobile network according to the present invention.
3 is a block diagram illustrating a configuration of a GLB (Global Load Balance) server in a content transmission system according to the present invention.
4 is a block diagram showing a configuration of a mobile CDN controller in a content transmission system according to the present invention.
5 is a block diagram showing a configuration of a local cache in a content transmission system according to the present invention.
6 is a ladder chart illustrating a content transmission method according to a preferred embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description and the accompanying drawings, detailed description of well-known functions or constructions that may obscure the subject matter of the present invention will be omitted. It should be noted that the same constituent elements are denoted by the same reference numerals as possible throughout the drawings.

The terms and words used in the present specification and claims should not be construed to be limited to ordinary or dictionary meanings and the inventor is not limited to the concept of terminology for describing his or her invention in the best way. It should be interpreted as meaning and concept consistent with the technical idea of the present invention. Therefore, the embodiments described in the present specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention, and not all of the technical ideas of the present invention are described. Therefore, It is to be understood that equivalents and modifications are possible.

First, a general content transmission system will be described with reference to FIG. 1 is a schematic diagram showing a general CDN.

Referring to FIG. 1, a content transmission system basically includes a global load balancing (GLB) server 10, local caches 20a, 20b, and 20c, and a terminal 30.

The content registered by the content provider (CP) is distributed to a plurality of local caches 20a (20a, 20b) distributed on the network according to a content distribution policy set in advance through a separate distribution device, for example, , 20b, 20c. The distribution policy may be set differently according to a CDN (Contents Delivery Network) provider. In this manner, the local caches 20a, 20b, and 20c receive and store the mirrored traffic in addition to the method of distributing the content of the content provider to the plurality of local caches 20a, 20b, and 20c through the content management apparatus 40 A caching scheme may be used in which the mirroring method or the content requested by the local cache 20a, 20b, 20c in the terminal 30 is stored according to a preset cache policy.

Thus, in an environment where predetermined contents are stored in the local caches 20a, 20b, and 20c, the terminal 30 can access the GLB server 10 to obtain the address of the local cache to provide the contents. At this time, the terminal 30 obtains the address of the GLB server 10 via a local DNS (Domain Name System) server (not shown) set in the terminal 30, and uses the address of the GLB server 10 10). ≪ / RTI > At this time, the GLB server 10 selects a local cache (for example, 20b) best suited for transmitting contents among the plurality of local caches 20a, 20b and 20c to the terminal 30, To the terminal 30. The IP address Here, the best fit can be determined in consideration of at least one of the number of hops between the terminal and the local cache, the load of the local cache, and whether or not the local cache stores the requested content. At this time, the terminal 30 can obtain the content by accessing the local cache 20b using the IP address of the local cache 20b. As described above, in a general content transmission system based on a wired network, a content requested by the terminal 30 is transmitted by a local cache rather than an origin server. At this time, among the plurality of local caches distributed on the network, A suitable local cache transfers the content.

When content is transmitted to a terminal connected to the mobile network through a content transmission system based on the general wired network, an appropriate local cache among the local caches 20a, 20b and 20c distributed on the wired network is used The content transmitted from the selected local cache 20b must be transmitted to the mobile network connected to the wired network and then transmitted through the mobile network. Therefore, there is still a problem of content duplication and traffic increase on the mobile network.

2, the present invention proposes a content transmission system suitable for a mobile network, as shown in FIG. 2, in order to solve the problem of content duplication transmission and traffic increase in a mobile network. A content transmission system in a network will be described. The content transmission system according to the present invention can be applied to various communication networks including a mobile communication network such as Wibro and LTE as well as a wireless access network such as Wi-Fi. Hereinafter, for convenience of description, LTE is used as a reference, but the contents transmission system according to the present invention can be applied to any other mobile network in the same concept.

2, the contents transmission system according to the present invention includes a plurality of radio access networks 1000, and a core network 2000 connecting the plurality of radio access networks 1000. [ A plurality of local caches 700 distributed on the edge of the core network 2000 to which the radio access network 1000 is connected and a mobile CDN controller 700 controlling the content transmission process of the plurality of local caches 700 And a GLB server 500 for providing an IP address of the mobile CDN controller 600 in response to a DNS query for requesting a content of the terminal 100.

First, a mobile network composed of the radio access network 1000 and the core network 2000 will be schematically described. The abbreviations used here follow the definitions defined in the LTE standard.

In a mobile network, a terminal 100 is connected to a base station 200 of a radio access network 1000 in a wireless manner, and is connected to the service gateway 300 of a base station 200, a core network 2000, a packet data network (PDN) The gateway 400, the GLB server 500, the mobile CDN controller 600, and the local cache 700 may be connected to an IP-based wired network (IP network). The present invention does not limit the communication standard used in the radio access network.

The terminal 100 refers to a terminal capable of transmitting and receiving various data via the wireless access network 1000 according to a key operation of a user and includes a tablet PC, a laptop, a personal computer ), A smart phone, a personal digital assistant (PDA), and a mobile communication terminal. In addition, the terminal 100 may be a cloud computing terminal that supports cloud computing that can use services such as data reading, writing, storing, network, and content usage through the wireless access network 1000. That is, the terminal 100 is a terminal that performs voice or data communication using the radio access network 1000, and is a terminal for communicating with the outside via the radio access network 1000, a memory for storing programs and protocols, And a microprocessor for executing and controlling operations and controls. That is, the terminal 100 can be any terminal as long as it can perform wireless communication, and is a broad concept including all communication computing devices such as a notebook computer, a mobile communication terminal, and a PDA. The terminal 100 may transmit an Internet Protocol (IP) packet to an arbitrary device (e.g., a server or another terminal) connected to a packet-based network (e.g., the Internet) through the radio access network 1000. The IP packet may include a destination IP address (= an IP address corresponding to a URL to which the terminal 100 desires to access) and a source IP address (= the IP address of the terminal 100). The IP address of the terminal 100 may be allocated by the PDN gateway 400 when the terminal 100 first accesses the mobile network.

The base station 200 is located between the terminal 100 and the core network 2000 and can provide a wireless connection between the terminal 100 and the core network 2000. The base station 200 may be an evolved Node B (eNB) in the network architecture on LTE. The IP packets transmitted and received by the terminal 100 on the LTE are transmitted through a GTP (GPRS Tunneling Protocol) tunnel. Upon receiving the IP packet from the terminal 100, the base station 200 attaches a GTP header, a UDP header, and an IP header for GTP tunneling to the IP packet, and transmits the packet to the core network 2000. The GTP header may include a tunneling end point ID (TEID) assigned to the terminal 100. The IP header for GTP tunneling is for transmitting the corresponding IP packet from the base station 200 to the PDN gateway 400 via the service gateway 300. The source IP address is an IP address of the base station 200, The address is set to the IP address of the service gateway 300. Here, the tunneling identification information is a value for identifying a GTP tunnel allocated to the terminal 100 among the GTP tunnels between the base station 200 and the service gateway 300, and is differently assigned to each terminal 100. Therefore, the terminal 100 can be identified using the IP address of the terminal 100 as well as the tunneling identification information. At this time, if there is a routing network between the base station 200 and the service gateway 300, the routing network performs routing based on the destination IP address of the IP header for GTP tunneling of the packet, The packet may be delivered to the service gateway 300. Then, the base station 200 removes all the IP header, the UDP header, and the GTP header for GTP tunneling from the packet received from the service gateway 300, and transmits the same to the terminal 100.

The service gateway 300 means an S-GW (Serving gateway) of LTE. The service gateway 300 transmits a packet received from the base station 200 to the PDN gateway 400. At this time, according to the tunneling technique, the GTP tunneling Changes the source IP address to its own IP address, changes the destination IP address to the IP address of the PDN gateway 400, and transmits the tunneling identification information of the GTP header to the service gateway 300 and the PDN gateway 400, To the tunneling identification information allocated to the tunneling interval between the base station and the base station. When there is an IP routing network between the service gateway 300 and the PDN gateway 400, the routing network performs routing based on the destination IP address of the IP header for GTP tunneling of the packet, .

When the packet is transmitted from the PDN gateway 400 to the service gateway 300, the packet is processed in a similar manner as described above.

The PDN gateway 400 is connected to an external packet data network (for example, the Internet). In the packet transmitted from the service gateway 300, an IP header for GTP tunneling, a UDP Header, and GTP header, and transmits the IP packet sent from the original terminal 100 to the Internet. Thereby, the IP packet can reach the destination requested by the terminal 100 by routing on the TCP / IP. In addition, the PDN gateway 400 may assign an IP address to be used on the mobile terminal 100 to the terminal 100 when the terminal 100 is initially connected. The IP address of the terminal 100 allocated by the PDN gateway 400 may be a private IP available only in the mobile network. In this case, the IP address of the IP packet transmitted from the PDN gateway 400 to the Internet network (= The IP address of the terminal 100) may be converted to a public IP address available on the Internet through a NAT (Network Address Translator). When the PDN gateway 400 receives a packet from the Internet, the PDN gateway 400 adds an IP header, a UDP header, and a GTP header for GTP tunneling set as a destination to the received packet, and transmits the packet to the service gateway 300 .

In the mobile network having such a structure, the local cache 700 according to the present invention is allocated in units of the radio access network 1000 and connected to the edge of the core network 2000 to which the radio access network 1000 is connected through a router . When the terminal 100 stores content requested by the terminal 100 connected to the radio access network 1000, the terminal 100 directly transmits the stored content to the terminal 100 through the radio access network 1000. According to this, it is possible to reduce the content duplication transmission on the core network 2000.

In addition, the mobile CDN controller 600 according to the present invention manages a plurality of local caches 700 distributed on the edge of the core network 2000, and when there is a content request from the terminal 100, The local cache 700 controls the local cache 700 so that the requested content can be transmitted to the terminal 100. [

The GLB server 500 further includes a mobile CDN controller 700 for controlling the local cache 700 so that contents can be delivered through the local cache 700 when content is requested from the terminal 100 connected to the mobile network 600 to the terminal 100. When the mobile terminal 100 requests content from the mobile CND controller 600 based on the IP address provided by the GLB server 500, the mobile CDN controller 600 transmits the content to the mobile terminal 100 The local cache 700 to be provided may be selected to control the content to be transmitted.

At this time, the provision of the contents can be transmitted in units of chunks. To this end, the mobile CDN controller 700 transmits identification information (for example, object information) about contents to be transmitted by the local cache 700, And the identification information of the chunk to be transferred to the local cache 700. [

1, the GLB server 500 is connected to a mobile network, more specifically, a core network 2000 of a mobile network. However, the GLB server 500 may be connected to the Internet outside the mobile network It is possible.

The detailed configuration and operation of the GLB server 500, the mobile CDN controller 600, and the local cache 700, which are the main components of the present invention, will be described in more detail with reference to FIGS. 2 to 5. FIG. FIG. 3 is a block diagram illustrating a configuration of the GLB server 500, FIG. 4 is a block diagram illustrating a configuration of a mobile CDN controller 600, and FIG. 5 is a block diagram illustrating a configuration of a local cache 700. Referring to FIG.

Referring to FIG. 3, the GLB server 500 may include a terminal determination unit 510 and a DNS processing unit 520.

Upon receiving a content request from the terminal 100, the terminal determination unit 510 can determine whether the terminal 100 requesting the content is a terminal connected to a wired network (Internet network) or a terminal connected to the mobile network. In other words, when receiving the content request, the terminal determination unit 510 may determine whether to transmit content to the terminal 100 by wire or wirelessly. Here, the terminal determination unit 510 may determine whether the terminal 100 requesting the content is connected to the mobile network or connected to the Internet based on a source IP address of a packet sent from the terminal 100. To this end, the PDN gateway 400 may retain information on the IP address assigned to the wireless terminal. If the source IP address of the IP packet received in association with the content request is an IP address assigned to the stored wireless terminal, the terminal that transmitted the IP packet can be recognized as a terminal connected to the mobile network. When the source IP address of the received IP packet is not for the wireless terminal or for the wired terminal, the terminal that transmitted the IP packet can be recognized as a wired terminal. On the other hand, when the GLB server 500 is connected to the Internet network and the address conversion is performed between the core network 2000 and the Internet network by the NAT server, the terminal determination unit 510 determines Stores information on the IP address of the converted terminal 100 and determines whether the received content request is transmitted from the terminal 100 connected to the mobile network.

The DNS processor 520 may select a local cache to provide the content and provide the IP address of the selected local cache to the terminal 100 in response to the content request based on the determination of the terminal determination unit 510 have. If the terminal 100 requesting the content is a mobile terminal connected to the mobile network, the DNS processor 520 may provide the IP address of the device providing the requested content as a mobile CDN The controller 600 may transmit the IP address of the controller 600 to the terminal 100. The IP address forwarding of the mobile CDN controller 600 may be implemented in a variety of well-known ways such as, for example, an HTTP redirecting function. At this time, the terminal 100 can access the mobile CDN controller 600 using the IP address of the mobile CDN controller 600 received from the GLB server 500. Meanwhile, the DNS processor 520 may directly forward the content request of the terminal 100 to the mobile CDN controller 600.

4, the mobile CDN controller 600 may include a content distribution unit 610, a cache selection unit 620, and a flow information providing unit 630.

The content distribution unit 610 may distribute the content of the content provider to a plurality of local caches 700 distributed on the edge of the mobile network according to a preset distribution policy. For example, the content distribution unit 610 may distribute the content according to the popularity. That is, the distribution process is controlled so that a predetermined number of contents having a high number of content requests are stored in the local cache 700. At this time, the distribution of the content may be performed before or simultaneously with the provision of the content. In addition, the content distribution unit 610 can further manage information of content distributed and distributed to a plurality of local caches 700 distributed on the edge of the mobile network.

Upon receiving the content request of the terminal 100, the cache selection unit 620 may select a local cache for transmitting the content to the terminal 100. [ At this time, the local cache 700 can be selected based on the IP address of the terminal 100. To this end, when the PDN gateway 400 allocates an IP address to the terminal 100, the cache selection unit 620 receives the IP address allocated to the terminal 100 and the location of the corresponding terminal 100 At this time, the location of the terminal 100 can be identified based on the base station 200 to which the terminal 100 is connected. That is, in the preferred embodiment of the present invention, the cache selection unit 620 checks the location of the terminal 100 based on the IP address of the terminal 100 requesting the content, You can select the local cache that is deployed. The cache selection unit 620 may set the local cache 700 in units of the radio access network 1000 and may determine that the terminal 100 is connected to the base station 100 based on the IP address of the terminal 100 And can select the local cache 700 allocated to the connected radio access network 1000.

The flow information providing unit 630 instructs the content transmission to the terminal 100 to the local cache 700 selected by the cache selecting unit 620 and transmits the content requested by the terminal 100 to the terminal 100. [ Together with flow information for transmission to the base station. Here, the flow information is information necessary for transferring the contents from the local cache 700 to the terminal 100. The flow information includes content related information (for example, content URL) requested by the terminal 100, A source IP address of a content request), QoS information, and chunk identification information for transmitting contents in units of chunks. The content-related information is not limited as long as the local cache 700 can identify the content requested by the terminal 100.

The selected local cache 700 transmits data of the stored contents to the terminal 100 according to the control operation of the mobile CDN controller 600 configured as described above. Referring to FIG. 5, the local cache 700 May include a cache management unit 710, a content providing unit 720, a mirroring unit 730, and a content storage unit 740.

The cache management unit 710 manages contents stored in the local cache 700. In addition, the cache management unit 710 can manage content storage according to a preset policy. At this time, the preset policy may include at least one of a cache synchronization method and a method of caching contents. The cache management unit 710 copies and caches content of the content provider according to the set policy. Alternatively, the GLB server 500 may distribute content to the local cache.

The content providing unit 720 may provide the content to the terminal 100 based on the flow information when the content providing instruction and the flow information are received from the mobile CDN controller 600. At this time, the content providing unit 720 monitors mobile traffic based on the IP address of the terminal 100 included in the flow information, more specifically, traffic between the base station 200 and the service gateway 300, And can extract the tunneling identification information (TEID) allocated for the downlink transmission to the terminal 100. The monitoring of the traffic may be performed by copying the traffic transmitted through the router R through a mirroring technique or a redirection technique, and analyzing the IP header of the copied traffic. Using the IP address and tunneling identification information (TEID) of the terminal 100, content data is generated as a mobile packet transmitted from the content provider to the terminal 100, and the generated mobile packet is transmitted to the router R, To the terminal 100 via the Internet. The mobile packet is transmitted through the GTP tunnel between the base station 200 and the service gateway 300. As described above, the mobile packet is transmitted to the terminal 100 through the GTP tunnel, A UDP header including the tunneling identification information, a UDP header, and an IP header for GTP tunneling between the base station 200 and the service gateway 300.

 At this time, the base station 200 receiving the mobile packet for the content data transmitted from the local cache 700 transmits the tunnel ID information (TEID) recorded in the GTP header of the received mobile packet to the terminal 100 ), And may transmit, to the identified terminal 100, an IP packet in which the GTP header, the UDP header, and the IP header for GTP tunneling are removed from the received mobile packet.

When the local cache 700 stores the content requested by the terminal 100, the content stored in the local cache 700 can be directly provided to the terminal 100 by processing as described above, The local cache 700 requests content from the origin server (content provider server of the content provider) prior to the above-described processing, and transmits the content received from the origin server to the terminal 100). At this time, the content received from the origin server is cached so that the content can be provided later when requested by another terminal.

The mirroring unit 730 is for monitoring a mobile packet transmitted between the base station 200 and the service gateway 300. In particular, the mirroring unit 730 monitors a mobile packet transmitted between the base station 200 and the service gateway 300 using a mirroring technique of replicating traffic directly transmitted through the router R. Through the mirroring unit 730, the local cache 700 can capture the content request message transmitted from the terminal 1000. Then, the mirroring unit 730 extracts the tunneling identification information allocated to the terminal 100 and the IP address (= originating IP address) of the terminal from the captured content request message, and maps and stores the extracted tunneling identification information. The stored information is obtained by checking the tunneling identification information for the terminal 100 corresponding to the IP address of the terminal on the flow information by the content providing unit 720 receiving the flow information and converting the requested content into a mobile packet .

The content storage unit 740 stores the content provided by the content providing unit 720 and stores a part or all of one or more content selected according to a predetermined distribution policy or a caching policy.

The content stored in the content storage unit 740 may be managed by the cache management unit 710 or may be managed by the content distribution unit 610 of the mobile CDN controller 600.

Hereinafter, a content transmission method according to a preferred embodiment of the present invention will be described with reference to FIGS. 1 to 6. FIG. 6 is a ladder chart illustrating a content transmission method according to a preferred embodiment of the present invention. Hereinafter, the description of the elements that are the same as those described above will be omitted or simplified. The configuration of the content transmission system according to the present invention can be made clearer from the following description.

Referring to FIG. 6, a request for content provided by a specific content provider is transmitted from the terminal 100, and the content request is transmitted to the GLB server 500 for distributing a load according to content transmission (S601 ). More specifically, the content request transmitted from the terminal 100 is transmitted to the server of the specific content provider through the base station 200, the service gateway 300, and the PDN gateway 400 according to a known method. And may be transmitted back to the GLB server 500 in accordance with the redirection technique at the known CDN. Alternatively, a local DNS (Domain Name System) server (not shown) may redirect a domain name query message related to a content request or a content request from the terminal 100 to the GLB server 500 according to a predetermined policy Lt; / RTI > In addition, the process of transmitting the transmitted content request from the terminal 100 to the GLB server 500 can use known technologies in the existing CDN technology.

The GLB server 500 is a device for selecting a local cache for providing content in order to distribute a load according to content provision. In the present invention, the GLB server 500 receiving a content request of the terminal 100 In operation S602, it is determined whether the received content request is transmitted by a terminal connected to the mobile network. More specifically, when the terminal determination unit 510 of the GLB server 500 receives a content request from the terminal 100, the terminal 100 requesting the content may determine whether the terminal is connected to a wired network, . At this time, the terminal determination unit 510 determines whether the terminal 100 is a terminal connected to the mobile network or a terminal connected to the wired network, using the source IP address of the IP packet (message related to the content request) received from the terminal 100 It can be judged. To this end, the terminal determination unit 510 stores information on an IP address assigned to the terminal 100 by the PDN gateway 400, compares the IP address of the received IP packet with the stored IP addresses , And determines whether the terminal 100 requesting the content is a terminal connected to the mobile network. If it is determined in step S602 that the terminal 100 is connected to the wired network, it performs processing corresponding to the content request according to the wired network-based CDN method (S603). At this time, the wired CDN scheme can adopt any of the known CDN schemes. Here, the wired CDN scheme may be any one of a method of selecting a local cache optimal for the MS 100, a forward proxy, a transparent proxy scheme, and a reverse proxy.

Alternatively, if it is determined in operation S602 that the terminal 100 is connected to the mobile network, the GLB server 500 transmits the address of the mobile CDN controller 600 to the terminal 100 (S604). At this time, the address of the mobile CDN controller 600 may be provided to the terminal 100 in the form of a URL (Uniform Resource Locator) or an IP address. When the terminal 100 is provided in the URL format, In order to obtain an IP address, a domain name query procedure may be further performed.

The terminal 100 requests the mobile CDN controller 600 for the contents using the URL or IP address of the mobile CDN controller 600 received from the GLB server 500 in operation S605.

The mobile CDN controller 600 receiving the content request from the terminal 100 selects the local cache in step S606 and transmits the flow information 600 to the selected local cache 700 to provide content to the terminal 100 (S607). More specifically, the cache selection unit 620 of the mobile CDN controller 600 may select a local cache for providing content to the terminal 100 based on the IP address of the terminal 100. That is, the cache selector 620 can identify the base station 200 connected to the terminal 100 by using the IP address of the terminal and select the local cache 700 connected to the base station 200.

Here, the flow information may include at least one of content related information requested by the terminal 100 (e.g., a content URL, an object ID of the content, an IP address of the terminal, QoS information, The content related information is not limited as long as the local cache 700 can identify the content requested by the terminal 100. [

Upon receipt of the flow information, the local cache 700 determines whether the content requested by the terminal 100 is cached based on the received flow information (S608).

If it is determined in step S608 that the local cache 700 does not store the content requested by the terminal 100, the local cache 700 requests content from the origin server (not shown) The terminal 100 may be provided with the content (S608). In another embodiment of the present invention, the local cache 700 may obtain the content from another local cache or client that is adjacent. In step S608, the local cache 700 may determine whether content is stored in a predetermined unit, for example, a chunk unit. When the local cache 700 streams video content to the terminal 100, the local cache 700 transmits content stored in the local cache 700 to the terminal 100 according to the playback order, Or may receive the next data of the content from the origin server (not shown) and continuously provide the streaming service.

As a result of the determination in S608, if it is determined that the local cache 700 stores all or a part of the contents requested by the terminal 100, the local cache 700 transmits the contents to the terminal 100 through the base station 200 (S610). The local cache 700 may use the tunneling identification information (TEID) for the terminal 100 when the local cache 700 transmits the content to the terminal 100 through the base station 200. [ Here, the tunneling identification information (TEID) may be a packet that the terminal 100 requests to the mobile CDN controller 600 through the mirroring unit 730 of the local cache 700. The local cache 700 converts the content data into a mobile packet including a GTP header, a UDP header, and an IP header for GTP tunneling using the tunneling identification information and transmits the converted data to the base station 200. At this time, the base station 200 identifies the terminal 100 using the TEID on the packet received from the local cache 700, removes the GTP header, UDP header, and IP header for GTP tunneling from the received packet, To the identified terminal 100 (S611).

The content requested by the mobile terminal 100 connected to the mobile access network 1000 is transmitted to the terminal 100 through the local cache 700 connected to the radio access network 1000. [ 100), it is possible to transmit contents more quickly, and redundant transmission of unnecessary contents in the mobile network, especially in the core network 2000, can be minimized.

The content transmission method of FIG. 6 may be implemented as a whole or a part thereof. For example, if the operator of the GLB server 500, the mobile CDN controller 600 and the local cache 700 are different, the GLB server 500 operator may perform only steps S601 through S604, The operator can perform only S605 and S606, and the operator of the local cache 700 can perform only S606 to S609.

The content transmission method according to the present invention may be implemented in a form of software readable by various computer means and recorded in a computer-readable recording medium. Here, the recording medium may include program commands, data files, data structures, and the like, alone or in combination. Program instructions to be recorded on a recording medium may be those specially designed and constructed for the present invention or may be available to those skilled in the art of computer software. For example, the recording medium may be an optical recording medium such as a magnetic medium such as a hard disk, a floppy disk and a magnetic tape, a compact disk read only memory (CD-ROM), a digital video disk (DVD) Includes a hardware device that is specially configured to store and execute program instructions such as a magneto-optical medium such as a floppy disk and a ROM, a random access memory (RAM), a flash memory, do. Examples of program instructions may include machine language code such as those generated by a compiler, as well as high-level language code that may be executed by a computer using an interpreter or the like. Such a hardware device may be configured to operate as one or more software modules to perform the operations of the present invention, and vice versa.

It should be noted that the embodiments of the present invention disclosed in the present specification and drawings are only illustrative of specific examples for the purpose of understanding and are not intended to limit the scope of the present invention. It will be apparent to those skilled in the art that other modifications based on the technical idea of the present invention are possible in addition to the embodiments disclosed herein.

INDUSTRIAL APPLICABILITY As described above, the present invention is applicable to contents transmission, particularly, when content is transmitted through a mobile network, thereby providing a mobile user with a high download speed.

More particularly, the present invention relates to a method and system for distributing a local cache to an edge of a mobile network, more specifically, to an edge of a core network connecting a radio access network, and to a terminal connected to each radio access network through the distributed local cache By performing the content provisioning, it is possible to minimize the duplicated contents transmission in the mobile network, and it is possible to guarantee quality of service (QoS) when providing contents through the mobile network by inducing traffic reduction.

100: terminal 200: base station 300: service gateway
400: PDN gateway 500: GLB server 510:
520 DNS processor 600 Mobile CDN controller
610: Content distribution unit 630: Flow information providing unit
700: local cache 710: cache management unit 720:
730: Mirroring unit 740: Content storage unit 1000: Wireless access network
2000: wired network

Claims (7)

A content storage unit for storing part or all of one or more contents; And
Receiving flow information related to a content request of a terminal connected to a specific radio access network of a mobile network from a mobile CDN controller, confirming tunneling identification information allocated to the terminal, and transmitting data of the requested content using the tunneling identification information And transmitting the content to the terminal through a radio access network,
Further comprising a mirroring unit for copying and delivering a packet transmitted through the wireless access network,
The content providing apparatus,
Extracts a packet of the terminal from the packets copied through the mirroring unit, and confirms the tunneling identification information based on the packet and the flow information of the terminal. delete The method according to claim 1,
Wherein the local cache is connected via a router between a base station of the radio access network and a service gateway of the core network. A content storage unit for storing part or all of one or more contents; And
Receiving flow information related to a content request of a terminal connected to a specific radio access network of a mobile network from a mobile CDN controller, and if the flow information is flow information of a content not stored in the content storage unit, And a content provider for receiving the content from an Origin Server and providing the received content to the terminal through the wireless access network based on the flow information. 5. The method of claim 4,
Further comprising a cache management unit for copying the content transmitted from the origin server according to a predetermined policy and storing the copied content in the content storage unit. A method of transmitting a content in a local cache,
Receiving the flow information related to the content request of the terminal from the mobile CDN controller;
Confirming the tunneling identification information allocated to the terminal based on the packet of the terminal and the flow information extracted from the copied packets of the packet transmitted through the radio access network; And
And transmitting the requested content data to the terminal through the radio access network using the tunneling identification information. The method according to claim 6,
Confirming whether content requested by the terminal is stored based on the flow information; And
If the content is not stored, receiving the content from an origin server providing the content and storing the content.

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