KR20130033252A - Method and system for end-to-end qos guaranteed content delivery on service overlay network - Google Patents

Abstract

PURPOSE: An end-to-end QoS(Quality of Service) guaranteed content delivery method in a service overlay network and a system thereof are provided to define the related parameters and explain in detail about the protocols for delivering end-to-end QoS guaranteed evolved contents, thereby guaranteeing the QoS contents delivery. CONSTITUTION: A content delivery requesting unit(31) forwards a content delivery request to a content position searching unit(32). The content position searching unit searches the position of the corresponding content according to the content delivery request from the content delivery requesting unit. The content storing and caching unit(33) stores or caches the corresponding content. A content position update unit(34) updates a content position according to the change of the position of the corresponding content. A QoS requirement delivery unit(35) delivers a QoS requirement to a content delivery channel setting unit(36). The content delivery channel setting unit sets the content delivery channel according to the QoS requirement from the QoS requirement delivery unit. A transport QoS applying unit(37) determines a content delivery path using QoS related delivery information from an underlying network. A content delivery unit(38) delivers contents through the content delivery path determined by the transport QoS applying unit. [Reference numerals] (31) Content delivery requesting unit; (32) Content position searching unit; (33) Content storing and caching unit; (34) Content position update unit; (35) QoS requirement delivery unit; (36) Content delivery channel setting unit; (37) Transport QoS applying unit; (38) Content delivery unit;

Description

Method and system for end-to-end QoS guaranteed content delivery on service overlay network in service overlay network

The present invention relates to a technique used for the purpose of efficiently delivering end-to-end quality of service (QoS) -guaranteed content to a user, and more particularly, end-to-end QoS-guaranteed for end-to-end QoS guaranteed content delivery on a service overlay network. A content delivery method and system thereof.

In general, an overlay network refers to a virtual computer network established on a physical network. Nodes in this overlay network may be connected by virtual, logical links, each link over many physical links within the network but without consideration of the physical link. For example, a peer to peer network may be referred to as an overlay network. This is because it considers only a connection between a peer and a peer without physically considering a transport network. Also, an Internet dial-up network is an overlay network on a telephone network.

Looking at the prior art, when configuring a network for content delivery, regardless of the underlying network (Underlying) network to configure the overlay between the service nodes for the content delivery, and delivered the content via the overlay network. Therefore, there is a problem that it is difficult to quickly respond to sudden network failures such as node failures, link failures, and traffic congestion that occur under an underlying network.

Recently, P4P (Proactive Network Provider Participation for P2P) technology that uses network information for content delivery has emerged, but the situation is being used to deliver content by passively receiving only limited information provided by the network.

Therefore, it is a problem of the present invention to solve the problems of the prior art as described above.

Accordingly, an object of the present invention is to provide an end-to-end QoS guaranteed content delivery method and system for end-to-end QoS guaranteed content delivery in a service overlay network.

To this end, the present invention defines a detailed protocol specification between each functional block and functional blocks for end-to-end QoS guaranteed content delivery on a service overlay network to provide a base technology for implementing a content delivery system.

The objects of the present invention are not limited to the above-mentioned objects, and other objects and advantages of the present invention which are not mentioned can be understood by the following description, and will be more clearly understood by the embodiments of the present invention. It will also be readily apparent that the objects and advantages of the invention may be realized and attained by means of the instrumentalities and combinations particularly pointed out in the appended claims.

In order to achieve the above object, a system of the present invention, in an end-to-end QoS guaranteed content delivery system in a service overlay network, forwards a content delivery request to a content delivery block, and sends QoS requirements (QoS information) to a service policy decision block. A service routing block (SR FE: Service Routing Functional Entity) for delivery; A Service Policy Decision FE (SPD FE) for determining an optimal path of an Underlying Network for end-to-end QoS guarantees; Receives a content location search result by requesting a content location search by a service search and negotiation block, receives and stores the corresponding content, receives a content location update result by requesting a content location update by the service search and negotiation block, A content delivery block (CD FE: Content Delivery FE) for setting a content delivery channel for delivering the corresponding content, and delivering the corresponding content through the determined optimal path; And when the content location search request is received from the content delivery block, search for the location of the corresponding content to deliver a content location search result to the content delivery block. And a Service Discovery & Negotiation FE (SDN FE) for updating and delivering a content location update result to the content delivery block.

In addition, the method of the present invention for achieving the above object, in the end-to-end QoS guaranteed content delivery method in a service overlay network, if the service routing block forwards the content delivery request to the content delivery block, the content delivery block is service discovery. Requesting content location search with a negotiation block; When the service search and negotiation block receives a content location search request from the content delivery block, searching for the location of the corresponding content and delivering a content location search result to the content delivery block; Receiving and storing the corresponding content according to the received content location search result, and requesting the content location update to the service search and negotiation block; When the service search and negotiation block receives a content location update request from the content delivery block, updating the location of the corresponding content and delivering a content location update result to the content delivery block; The service routing block delivering a QoS requirement (QoS information) to a service policy determination block, and the content delivery block establishing a content delivery channel for delivering the corresponding content; And determining, by the service policy decision block, an optimal path of an underlying network to ensure end-to-end QoS, and delivering the corresponding content through the determined optimal path by the content delivery block.

On the other hand, another system of the present invention for achieving the above object is, end-to-end QoS guaranteed content delivery system in a service overlay network, Content delivery request unit for forwarding the content delivery request to the content location search unit; The content location searcher for searching for a location of corresponding content according to a content delivery request from the content delivery request unit; A content storage and caching unit for storing or caching the corresponding content; A content location updater for updating a content location according to a change in the location of the corresponding content; A QoS requirement delivery unit for delivering QoS requirements (QoS information) to the content delivery channel setting unit; The content delivery channel setting unit for setting a content delivery channel according to the QoS requirement from the QoS requirement delivery unit; A transmission QoS application unit for determining an optimal path of an underlying network to guarantee end-to-end QoS; And a content delivery unit for delivering content through the content delivery path determined by the transmission QoS application unit.

In addition, another method of the present invention for achieving the above object, In the end-to-end QoS guaranteed content delivery method in a service overlay network, the content delivery system to search for the location of the content according to the content delivery request; As a result of the search, the content delivery system storing or caching the content as the corresponding content is not in the content delivery system; Updating, by the content delivery system, a content location according to a change in the location of the content according to storage or caching of the corresponding content; A channel setting step of setting, by the content delivery system, a content delivery channel according to a QoS requirement; Determining, by the content delivery system, content delivery paths by receiving delivery information related to QoS from an underlying network to ensure end-to-end QoS; And delivering, by the content delivery system, content through the determined content delivery path.

As such, the present invention is a technology used for efficient end-to-end QoS guaranteed content delivery to a user. A functional block and a functional block constituting each service node essential for end-to-end QoS guaranteed content delivery on a service overlay network are essentially provided. It defines the detailed protocol specification of the protocol and provides the base technology for system implementation.

In other words, the present invention basically defines a network functional block for guaranteeing the delivered QoS in the service overlay network, a detailed protocol between each functional block, and defines a protocol specification and parameters to the actual content delivery system. Provide technical requirements that can be implemented.

The present invention as described above, by combining the service overlay network and the underlying network, it is difficult to quickly respond to sudden network failures such as node failure, link failure, traffic congestion occurring under the underlying network By solving the problem, there is an effect that can guarantee end-to-end QoS in content delivery on the service overlay network.

That is, the present invention may provide an implementation technique for implementing a content delivery system by defining each functional block for end-to-end QoS guaranteed content delivery on a service overlay network and defining detailed protocol specifications between the functional blocks.

In other words, the present invention combines a service overlay network and an underlying network to define a detailed description of a protocol and related parameters for an end-to-end QoS guaranteed evolved content delivery, and to implement the content delivery system. Technology can be provided.

1 is an exemplary diagram of an entire system for end-to-end QoS guaranteed content delivery in a service overlay network to which the present invention is applied;
2 is a diagram illustrating an end-to-end QoS guaranteed content delivery method and a protocol list for a system in a service overlay network according to the present invention;
3 is a block diagram of another embodiment of an end-to-end QoS guaranteed content delivery system in a service overlay network according to the present invention;
4 is a flowchart illustrating a method for end-to-end QoS guaranteed content delivery in a service overlay network according to the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other objects, features and advantages of the present invention will become more apparent from the following detailed description of the present invention when taken in conjunction with the accompanying drawings, It can be easily carried out. In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail. Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

And throughout the specification, when a part is referred to as being "connected" to another part, it includes not only "directly connected" but also "electrically connected" with another part in between. Also, when a component is referred to as " comprising "or" comprising ", it does not exclude other components unless specifically stated to the contrary .

The present invention makes it possible to implement the actual related functions in the device (see Figure 1 below) through the definition of the inter-block protocol specification for end-to-end content delivery in the desired service overlay network.

For example, nodes of a service overlay network consist of functional blocks as shown in Table 1 below.

Function block name Function Block Description Service routing block (SR FE) Receive and deliver content delivery requirements from users, and deliver content services and user information Service Discovery and Negotiation Block (SDN FE) Content location search and content meta information management and provision Content Delivery Block (CD FE) Providing Content Delivery to Services and End Users Service Decision Block (SPD FE) Resource monitoring and end-to-end QoS decision blocks for network and service nodes Service / End User - Underlying Network Transport network

FIG. 1 is an exemplary diagram of an entire system for end-to-end QoS guaranteed content delivery in a service overlay network to which the present invention is applied, and illustrates a correlation for protocol definition between functional blocks of a service overlay network.

Here, the functions of the service routing block, the service discovery and negotiation block, the content delivery block, the service policy decision block, the service / end user, and the underlying network shown in FIG. 1 are shown in [Table 1] and FIG. 2 described below. Corresponding to the function of the block, the operation thereof is also as described above in Table 1, and the other blocks shown in FIG. 1 are not related to the present invention, and thus detailed description thereof will be omitted.

On the other hand, detailed protocol definition required between each component (functional block) of the above [Table 1] for end-to-end QoS guaranteed content delivery is shown in FIG.

2 is a diagram illustrating an exemplary protocol list for an end-to-end QoS guaranteed content delivery method and system in a service overlay network according to the present invention.

Definition of each detailed protocol shown in FIG. 2 is as follows.

1. Content location update process (corresponds to the Content Location Update Protocol of FIG. 2)

The content delivery block (CD FE) requests the service discovery and negotiation block (SDN FE) to update the content location.

The service discovery and negotiation block (SDN FE) has content location search functions, and the service discovery and negotiation block (SDN FE) receives a content location update request from the content delivery block (CD FE) and optimizes content delivery. The content location update information to the content delivery block CD FE.

The content delivery block (CD FE) requests the service discovery and negotiation block (SDN FE) to update the content location when content is added or deleted in its storage or cache.

When the content delivery block (CD FE) finds the location of new content, the content delivery block (CD FE) requests the content location update to the service discovery and negotiation block (SDN FE) to optimize the content delivery.

To manage content location updates, the service discovery and negotiation block (SDN FE) has a content location management database (DB), where the content location management DB has a content ID, a node ID, and content. It consists of a content owner, a content provider, a file type, a file size, and a creation date.

2. Content discovery process (corresponds to the Content Discovery Protocol of FIG. 2)

The content delivery block (CD FE) requests the service search and negotiation block (SDN FE) to search for content.

The service discovery and negotiation block (SDN FE) has content location search functions, and the service discovery and negotiation block (SDN FE) receives content search requests from the content delivery block (CD FE) and optimizes content delivery. Content location search information is delivered to the content delivery block CD FE by searching (searching) the content location.

In the case of retrieving the content location, the content delivery block (CD FE) delivers the content information (content identifier information) such as the content ID to the service discovery and negotiation block (SDN FE) to find the content location.

The service search and negotiation block (SDN FE) retrieves the content location from the content location management DB and delivers the result (content location search information) to the content delivery block (CD FE).

If more than one location of content exists, the content delivery block (CD FE) may select the optimal location of the cache or storage according to the resource state.

3. Content delivery request process (corresponds to the Content Delivery Request Protocol of FIG. 2)

The service routing block (SR FE) forwards the content delivery request from the end user or service to the content delivery block (CD FE).

The service routing block (SR FE) forwards user information, service information (service type, content ID), device information and transport QoS parameters to the content delivery block (CD FE).

4. Content storage and cache management process (corresponds to the Content Storage & Cache Protocol of FIG. 2)

Content Delivery Block (CD FE) maintains information about cached content.

Content Delivery Block (CD FE) provides a mechanism for selecting cache or persistent storage and receiving content from content sources.

Content Delivery Block (CD FE) provides a caching policy for storing or caching content inside the system.

Content Delivery Block (CD FE) provides a mechanism for storing and managing content as files in a local cache or storage.

The Content Delivery Block (CD FE) provides a mechanism for load balancing cache or storage based on resource usage status of Next Generation Service Overlay Network (NGSON) nodes.

The Content Delivery Block (CD FE) provides a mechanism for storing and managing content as chunked files (unit files divided into several partial files).

5. Content Delivery Channel Setup Process (corresponds to the Content Delivery Channel Setup Protocol of FIG. 2)

The content delivery block (CD FE) establishes a content delivery channel between the content delivery block (CD FE) and services / end users.

The content delivery block (CD FE) provides a content delivery service through a content delivery channel between the content delivery block (CD FE) and services / end users.

Ensure end-to-end QoS based on content delivery between content delivery block (CD FE) and service / end user through content delivery channel.

6. Transport QoS requirement forwarding process (corresponds to the Transport QoS Dispatch Protocol in FIG. 2)

The service routing block (SR FE) conveys the requirements for service QoS to the service policy decision block (SPD FE).

- Service Routing Block (SR FE) provides QoS requirements (QoS information) to the Service Policy Decision Block (SPD FE) to deliver the content via the optimal path of the Underlying Network. Here, the QoS requirements may include data loss, latency, blocking, resolution, bandwidth required, and the like.

7. Transport QoS application process (corresponds to the Transport QoS Enforcement Protocol of FIG. 2)

The service policy decision block (SPD FE) receives the delivery information related to QoS from the underlying network to determine the content delivery path.

Service Policy Decision Block (SPD FE) provides a mechanism for monitoring resource status by querying the underlying network or service requirements.

-The service policy decision block (SPD FE) interoperates with the QoS-related entities of the underlying network, thereby transmitting a QoS related mechanism for requesting the underlying network to provide end-to-end QoS. To provide. Here, the QoS-related entities may include routing information, bandwidth, traffic, topology, and so on, so that the Service Policy Decision Block (SPD FE) is an optimal path of the underlying network for providing end-to-end QoS. Serves to determine.

8. Content Delivery Process (corresponds to the Content Delivery Service Protocol of FIG. 2)

Content Delivery Block (CD FE) delivers content between a service and an end user, or between end users, or between services.

The Content Delivery Block (CD FE) combines and synchronizes a plurality of contents (e.g., content chunk files) coming in via the network.

The Content Delivery Block (CD FE) delivers content from the content combining function to the service or end users in a unicast or multicast manner using a content delivery channel.

Content Delivery Block (CD FE) provides a mechanism to support content delivery within or between domains.

Content Delivery Block (CD FE) provides content delivery to ensure transmission QoS with QoS requirements for the service.

Meanwhile, the function operation and protocol specification for each detailed protocol shown in FIG. 2 are as follows.

1. Content location update process (corresponds to the content location update protocol of FIG. 2)

o Function operation

The content delivery block (CD FE) updates the information in the content location management DB of the service discovery and negotiation block (SDN FE) if the content is added or deleted in its storage or cache.

The service discovery and negotiation block (SDN FE) provides current location information on the requested content.

If content location update occurs in the service discovery and negotiation block (SDN FE), the service discovery and negotiation block (SDN FE) shares the content location update information with other service discovery and negotiation blocks (SDN FE). .

o protocol parameters

ContentID: The Content ID is a unique identifier for the content. For example, a Content Resource Indicator (URI), a hash value of the content name, and the like may be used.

nodeID: The node ID is a unique identifier for a node. For example, an IP address, a domain name, etc. may be used.

File name: File name for the content or content chunk

-File directory: full directory path in the file system

-Date and time: Date and time of event occurrence

2. Content search process (corresponds to the content search protocol of FIG. 2)

o Function operation

The Content Delivery Block (CD FE) queries the Content Location for the Content delivered, Content Location by Service Type, and the Service Discovery and Negotiation Block (SDN FE) locates the Content by NodeID, File Name, File Directory, URI, Date and Time. Answer

Service Discovery and Negotiation Block (SDN FE) provides content location information such as the URI or full directory path to a content or content chunk.

The service discovery and negotiation block (SDN FE) provides content location information between domains when necessary.

o protocol parameters

ContentID: The Content ID is a unique identifier for the content. For example, a Content Resource Indicator (URI), a hash value of the content name, and the like may be used.

nodeID: The node ID is a unique identifier for a node. For example, an IP address, a domain name, etc. may be used.

File name: File name for the content or content chunk

-File directory: full directory path in the file system

-Date and time: Date and time of event occurrence

3. Content Delivery Request Process (corresponds to the Content Delivery Request Protocol in FIG. 2)

o Function operation

Service Routing Block (SR FE) includes user information (location, environmental conditions), service information (service QoS, service performance, service type, ContentID), device information (device type, device model, display), transmission QoS parameters (required). Bandwidth, delay, loss) to request the content delivery block (CD FE) content delivery.

o protocol parameters

ContentID: The Content ID is a unique identifier for the content. For example, a Content Resource Indicator (URI), a hash value of the content name, and the like may be used.

-UserID: User ID is a unique identifier for the end user

-Service type: Service type such as HD VoD, HD streaming

-Device type: device type such as PC, phone, pad and TV

Service QoS parameters: service QoS, service performance, service availability, etc.

Here, the protocol parameters may further include transmission QoS parameters such as bandwidth, delay, loss, etc. for the service.

4. Content storage and cache management process (corresponds to the content storage and cache protocol of FIG. 2)

o Function operation

The Content Delivery Block (CD FE) manages content storage to maximize resource utilization of storage and cache.

The Content Delivery Block (CD FE) manages content storage and cache based on content hit rate.

Caching policies, such as Least Recently Used (LRU), are defined by service providers (meaning a service delivery system).

The Content Delivery Block (CD FE) stores and manages content or content chunks as files in the file system.

o protocol parameters

ContentID: The Content ID is a unique identifier for the content. For example, a Content Resource Indicator (URI), a hash value of the content name, and the like may be used.

Caching policy information: Caching algorithm, configuration information for caching policy

Cache hit rate management: Statistics management for cache hits or cache misses

-File List: List of all files

-File directory: the full directory path of the file system

-Date and time: Date and time of event occurrence

5. Content delivery channel setup process (corresponds to the content delivery channel setup protocol of FIG. 2)

o Function operation

The Content Delivery Block (CD FE) provides content delivery channel establishment by connecting a network session between the Content Delivery Block (CD FE) and the service / end user.

The Content Delivery Block (CD FE) negotiates a network session with the service / end user by sending network parameters.

o protocol parameters

-Channel information: add / delete channel, number of connected sessions, session status

Delivery Method: Multicast, Unicast

6. Transmit QoS requirements forwarding process (corresponds to the transmit QoS dispatch protocol in FIG. 2)

o Function operation

The service routing block (SR FE) conveys the requirements for service QoS to the service policy decision block (SPD FE).

The service routing block (SR FE) provides a QoS requirement (QoS information) to the service policy decision block (SPD FE) for delivering content via the optimal path of the underlying network. Here, the QoS requirements may include data loss, latency, blocking, resolution, bandwidth required, and the like.

o protocol parameters

-Transmission QoS parameters: data loss, latency, blocking, resolution, bandwidth required

Routing Path: Provides the best routing path and the alternative routing path of the Underlying Network.

-Traffic Status: Traffic Status of Underlying Network

7. Transmission QoS application process (corresponds to the transmission QoS information protocol of FIG. 2)

o Function operation

Service Policy Decision Block (SPD FE) provides a mechanism for monitoring resource status by querying the underlying network or service requirements.

-The service policy decision block (SPD FE) interoperates with the QoS-related entities of the underlying network, thereby transmitting a QoS related mechanism for requesting the underlying network to provide end-to-end QoS. To provide.

o protocol parameters

-Transmission QoS parameters: data loss, latency, blocking, resolution, bandwidth required

Routing Path: Provides the best routing path and the alternative routing path of the Underlying Network.

-Traffic Status: Traffic Status of Underlying Network

8. Content Delivery Process (corresponds to the Content Delivery Service Protocol of FIG. 2)

o Function operation

Content Delivery Block (CD FE) delivers content between a service and an end user, or between end users, or between services.

The Content Delivery Block (CD FE) combines and synchronizes a plurality of contents (e.g., content chunk files) coming in via the network.

The Content Delivery Block (CD FE) delivers content from the content combining function to the service or end users in a unicast or multicast manner using a content delivery channel.

o protocol parameters

Delivery method: unicast, multicast

-Service type: Service type such as HD VoD, streaming

Content Chunk Information: Mapping information between ContentID and Content-chunkID

Domain Policy: Service Policy for Domain

Termination including content location update process, content search process, content delivery request process, content storage and cache management process, content delivery channel establishment process, delivery QoS requirement delivery process, delivery QoS application process and content delivery process as described above An inter-QoS guaranteed content delivery system can be implemented using one or multiple servers.

3 is a configuration diagram of yet another embodiment of an end-to-end QoS guaranteed content delivery system in a service overlay network according to the present invention. The specific embodiment may be the same in a range corresponding to that described above with reference to FIG. Here, only the technical summary will be briefly described.

As shown in FIG. 3, in the service overlay network according to the present invention, the end-to-end QoS guaranteed content delivery system includes a content delivery request unit 31 for forwarding a content delivery request to a content location search unit 32, and the content. Content location search unit 32 for searching the location of the content according to the content delivery request from the delivery request unit 31, the content storage and caching unit 33 for storing or caching the content, of the content The content position updater 34 for updating the content position according to the position change, the QoS requirement transfer unit 35 for transferring the QoS requirement (QoS information) to the content delivery channel setting unit 36, and the QoS request. The content delivery channel setting unit 36 for setting the content delivery channel according to the QoS requirements from the item delivery unit 35, and the QoS management from the underlying network. A transmission QoS application unit 37 for determining a content delivery path by using the related delivery information, and a content delivery unit 38 for delivering content through the content delivery path determined by the transmission QoS application unit 37. .

The content delivery request unit 31 forwards the content delivery request from the end user or service to the content location search unit 32. [ At this time, the content delivery request unit 31 forwards the user information, service information (service type, content ID), device information, and transmission QoS parameters to the content location search unit 32.

The content location search unit 32 includes a content location search function, and upon receiving a content delivery request (including content identifier information such as content ID) from the content delivery request unit 31, optimize content delivery. To do this, the location of the corresponding content is searched (searched) by using content identifier information such as the content ID. At this time, the content location search unit 32 may search (search) the content location in the content location management DB. The content location search unit 32 may select an optimal location of a cache or storage according to a resource state when one or more locations of searched content exist.

The content storage and caching unit 33 maintains information about cached content. When the content storage and caching unit 33 receives the content from the content sources, the content storage and caching unit 33 selects a cache or permanent storage according to a caching policy for storing or caching the content and stores the file as a file. At this time, the content storage and caching unit 33 may store and manage the content as a chunk file (a unit file divided into several partial files). In addition, the content storage and caching unit 33 performs a function of load balancing the cache or the storage based on the resource usage state of the Next Generation Service Overlay Network (NGSON) nodes.

The content location updater 34 updates the content location to optimize content delivery when content is added or deleted in the storage or cache of the content storage and caching unit 33 or a location of new content is found. In this case, the content location updating unit 34 includes a content location management database (DB), and the content location management DB includes a content ID, a node ID, a content owner, and a content provider ( It consists of fields such as content provider, file type, file size and creation date.

The QoS requirement delivery unit 35 delivers QoS requirements (requirements for service QoS) to the content delivery channel setting unit 36 to deliver content via an optimal path of an underlying network. do. Here, the QoS requirements may include data loss, latency, blocking, resolution, bandwidth required, and the like.

The content delivery channel setting unit 36 sets up a content delivery channel between the content delivery block CD FE and services / end users.

The transmission QoS application unit 37 receives the delivery information related to the QoS from the underlying network to determine the content delivery path. That is, the transmission QoS application unit 37 plays a role of determining an optimal path of the underlying network to provide end-to-end QoS. At this time, the transmission QoS application unit 37 monitors the resource status by querying the underlying network or service requirements. The transport QoS application unit 37 interoperates with QoS-related entities of the underlying network, thereby providing a transport-related QoS enhancement mechanism for requesting the underlying network to provide end-to-end QoS. to provide. Here, the QoS-related entity may include routing information, bandwidth, traffic, topology, and the like.

The content delivery unit 38 delivers the content between the service and the end user, or between the end user, or between services in a unicast or multicast manner using the content delivery channel determined by the delivery QoS application unit 37. At this time, the content delivery unit 38 performs content delivery to guarantee the transmission QoS in accordance with the QoS requirements for the service. In addition, the content delivery unit 38 combines and synchronizes a plurality of contents (for example, a content chunk file) coming through the network. In addition, the content delivery unit 38 supports content delivery within or between domains.

FIG. 4 is a flowchart illustrating an end-to-end QoS guaranteed content delivery method in a service overlay network according to the present invention, and a specific embodiment thereof may be the same as described above with reference to FIG. 2 or 3. Here, only the operation summary will be briefly described.

As shown in FIG. 4, each process of the content delivery method for end-to-end QoS guarantee using each protocol includes protocol parameters.

First, the content delivery request unit 31 forwards the content delivery request to the content location search unit 32 (41). In this process, protocol parameters such as ContentID, UserID, service type, service QoS, and transmission QoS may be used.

Thereafter, the content location search unit 32 searches for the location of the corresponding content according to the content delivery request forwarded from the content delivery request unit 31 (42). In this process, protocol parameters such as ContentID, nodeID, file name, and file directory may be used.

As a result of the search 42, if the content is in the system (i.e., in the content delivery system), the process proceeds directly to "47". If the content is not in the system (43), the content storage and caching unit 33 Store or cache content (44). In this process, protocol parameters such as ContentID, caching policy, cache hit or miss, file list, and file directory may be used.

Thereafter, the content location updating unit 34 updates the content location according to the location change of the content according to the storage or caching of the corresponding content (45). In this process, protocol parameters such as ContentID, nodeID, file name, and file directory may be used.

Meanwhile, the QoS requirement delivery unit 35 transmits the QoS requirement (QoS information) to the content delivery channel setting unit 36 (46). In this process, protocol parameters such as QoS parameters, routing paths, and traffic conditions may be used.

Thereafter, the content delivery channel setting unit 36 sets up the content delivery channel according to the QoS requirement received from the QoS requirement delivery unit 35 (47). In this process, protocol parameters such as channel information and delivery method may be used.

Subsequently, the transmission QoS application unit 37 determines the content delivery path using the QoS related delivery information from the underlying network (48). In this process, protocol parameters such as QoS parameters, routing paths, and traffic conditions may be used.

Thereafter, the content delivery unit 38 delivers the content through the content delivery path determined by the transmission QoS application unit 37 (49). In this process, protocol parameters such as a delivery method, a service type, and a domain policy may be used.

On the other hand, the end-to-end QoS guaranteed content delivery method according to the present invention as described above may be implemented in the form of program instructions that can be executed by various computer means may be recorded on a computer readable medium. The computer readable medium may include program instructions, data files, data structures, etc. alone or in combination. The program instructions recorded on the 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. Examples of computer-readable recording media include magnetic media such as hard disks, floppy disks, and magnetic tape, optical media such as CD-ROMs, DVDs, and magnetic disks, such as floppy disks. Magneto-optical media, and hardware devices specifically configured to store and execute program instructions, such as ROM, RAM, flash memory, and the like. The medium may be a transmission medium such as an optical or metal line, a wave guide, or the like, including a carrier wave for transmitting a signal designating a program command, a data structure, or the like. Examples of program instructions include not only machine code generated by a compiler, but also high-level language code that can be executed by a computer using an interpreter or the like. The hardware device may be configured to operate as one or more software modules to perform the operations of the present invention, and vice versa.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, Various permutations, modifications and variations are possible without departing from the spirit of the invention.

Therefore, the scope of the present invention should not be construed as being limited to the embodiments described, but should be determined by the scope of the appended claims, as well as the appended claims.

31: content delivery request unit 32: content location search unit
33: content storage and caching unit 34: content location update unit
35: QoS requirement delivery unit 36: Content delivery channel setting unit
37: transmission QoS application unit 38: content delivery unit

Claims (16)

An end-to-end QoS guaranteed content delivery system in a service overlay network,
A service routing block (SR FE) for forwarding the content delivery request to the content delivery block, and for forwarding QoS requirements (QoS information) to the service policy decision block;
The service policy decision block (SPD FE) for determining an optimal path of an underlying network for ensuring end-to-end QoS;
Receives a content location search result by requesting a content location search by a service search and negotiation block, receives and stores the corresponding content, receives a content location update result by requesting a content location update by the service search and negotiation block, A content delivery block (CD FE) for setting a content delivery channel for delivering the content, and for delivering the content through the determined optimal path; And
When the content location search request is received from the content delivery block, the location of the corresponding content is searched and the content location search result is transmitted to the content delivery block. When the content location update request is received from the content delivery block, the location of the content is updated. And a service discovery and negotiation block (SDN FE) for delivering a content location update result to the content delivery block.
Content delivery system comprising a.
The method of claim 1,
The service policy decision block,
And receive delivery information related to QoS from the underlying network to determine a content delivery path.
The method of claim 2,
The service policy decision block,
Query the underlying network or service requirements to monitor resource status,
Interworking with a QoS-related entity in the underlying network to perform a transport related QoS enhancement mechanism for requesting the underlying network to provide end-to-end QoS.
The method according to any one of claims 1 to 3,
The content delivery block,
And searching for a content source of an optimal location according to a resource state when one or more locations of the corresponding content exist as a result of the received content location search.
The method according to any one of claims 1 to 3,
The content delivery block,
If content is added to or deleted from its storage or cache, or if a location of new content is found, the service navigation and negotiation block requests a content location update.
The method according to any one of claims 1 to 3,
The service search and negotiation block,
A content location management database (DB) for managing content locations,
The content location management database includes a content ID, a node ID, a content owner, a content provider, a file type, a file size, and a creation. A content delivery system that includes one or more of the creation dates.
The method according to any one of claims 1 to 3,
The QoS requirement (QoS information),
A content delivery system comprising one or more of data loss, latency, blocking, resolution, and bandwidth requirements.
An end-to-end QoS guaranteed content delivery method in a service overlay network,
If the service routing block forwards the content delivery request to the content delivery block, the content delivery block requesting the content location search to the service search and negotiation block;
When the service search and negotiation block receives a content location search request from the content delivery block, searching for the location of the corresponding content and delivering a content location search result to the content delivery block;
Receiving and storing the corresponding content according to the received content location search result, and requesting the content location update to the service search and negotiation block;
When the service search and negotiation block receives a content location update request from the content delivery block, updating the location of the corresponding content and delivering a content location update result to the content delivery block;
The service routing block delivering a QoS requirement (QoS information) to a service policy determination block, and the content delivery block establishing a content delivery channel for delivering the corresponding content; And
Determining, by the service policy decision block, an optimal path of an underlying network to ensure end-to-end QoS, and delivering the corresponding content through the determined optimal path by the content delivery block.
Content delivery method comprising a.
The method of claim 8,
The process of determining the optimal path,
And the service policy decision block receives delivery information related to QoS from the underlying network to determine a content delivery path.
The method of claim 9,
The process of determining the optimal path,
The service policy decision block queries the underlying network or service requirement to monitor resource status,
And the service policy decision block interoperates with a QoS-related entity in the underlying network to perform a transport related QoS enhancement mechanism for requesting the underlying network to provide end-to-end QoS.
11. The method according to any one of claims 8 to 10,
The process of receiving and storing the corresponding content according to the received content location search result,
The content delivery method according to the received content location search result, if there is more than one location of the content, the content delivery block to select and receive and store the content source of the optimal location according to the resource status.
An end-to-end QoS guaranteed content delivery system in a service overlay network,
A content delivery request unit for forwarding the content delivery request to the content location search unit;
The content location searcher for searching for a location of corresponding content according to a content delivery request from the content delivery request unit;
A content storage and caching unit for storing or caching the corresponding content;
A content location updater for updating a content location according to a change in the location of the corresponding content;
A QoS requirement delivery unit for delivering QoS requirements (QoS information) to a content delivery channel setting unit;
The content delivery channel setting unit for setting a content delivery channel according to the QoS requirement from the QoS requirement delivery unit;
A transmission QoS application unit for determining an optimal path of an underlying network to guarantee end-to-end QoS; And
Content delivery unit for delivering content through the content delivery path determined by the transmission QoS application unit
Content delivery system comprising a.
13. The method of claim 12,
The transmission QoS application unit,
And receive delivery information related to QoS from the underlying network to determine a content delivery path.
The method of claim 13,
The transmission QoS application unit,
Query the underlying network or service requirements to monitor resource status,
Interworking with a QoS-related entity in the underlying network to perform a transport related QoS enhancement mechanism for requesting the underlying network to provide end-to-end QoS.
An end-to-end QoS guaranteed content delivery method in a service overlay network,
Searching, by the content delivery system, the location of the corresponding content according to the content delivery request;
As a result of the search, the content delivery system storing or caching the content as the corresponding content is not in the content delivery system;
Updating, by the content delivery system, a content location according to a change in the location of the content according to storage or caching of the corresponding content;
A channel setting step of setting, by the content delivery system, a content delivery channel according to a QoS requirement;
Determining, by the content delivery system, content delivery paths by receiving delivery information related to QoS from an underlying network to ensure end-to-end QoS; And
Delivering, by the content delivery system, content through the determined content delivery path;
Content delivery method comprising a.
The method of claim 15,
If the corresponding content is in the content delivery system, proceeding to the channel setting step;
Content delivery method further comprising.

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