KR20110066072A - Apparatus for managing network based sub-flow - Google Patents

Abstract

PURPOSE: An apparatus for managing a network based sub-flow is provided to manage the network by dividing the packet of a media traffic into sub-flows considering environment of the network and a user. CONSTITUTION: Sub-flow transmission units(200a) classify a flow included in the packet of a media traffic which is delivered through the same session. The sub-flow transmission units deliver the classified sub-flow to a user. A sub-flow controller(100) collects network information which is necessary for transferring the media traffic to the user. The sub-flow controller controls the sub-flow transmission units to classify the media traffic as one sub-flow by the network information.

Description

A device for managing a network based on a subflow {APPARATUS FOR MANAGING NETWORK BASED SUB-FLOW}

The present invention relates to an apparatus for managing a network based on a subflow, and more particularly, to an apparatus for managing a network by classifying media traffic into sub-flows.

The present invention is derived from a study conducted as part of the IT source technology development project of the Ministry of Knowledge Economy [Task management number: 2006-S-064-04, task name: BcN network engineering technology research].

Recently, with the increase of multimedia traffic, the importance of guaranteeing quality of service (QoS), guaranteeing quality of experience (QoE) and bandwidth guarantee in the network are increasing. . QoS / QoE in the network has been made in such a way as to guarantee the bandwidth required by the multimedia session by adjusting the bandwidth of the traffic on a multimedia session basis. In IP-based networks, multimedia sessions have been defined based on IP flows, and IP flows are defined in 5-tuple (source address, destination address, source port, destination port, destination port) defined in the IP packet header and the L4 layer (TCP or UDP) header. protocol has been defined as a combination of TOS (Type of Service) fields used as Differentiated Services Code Points (DSCP).

On the other hand, with the advent of high-definition multimedia, there has been an increasing interest in a technology for efficiently encoding a large amount of media traffic. Accordingly, multimedia traffic is encoded in various ways, and the encoded information is classified and packetized according to importance for effective information transmission. For example, in the case of scalable video coding (SVC), additional information necessary for a video having a basic resolution and a high quality video is encoded in a different tier and transmitted. The moving picture information of a fixed time of the MPEG (Moving Picture Experts Group) file is separately transmitted to a B frame and a P frame by moving a moving vector representing an amount of change from a still picture in an I frame.

As such, the media delivery technology in the conventional network controls traffic based on flow. However, realistically, in order to transmit high quality traffic, it is difficult to control QoS / QoE in consideration of the flow based on only the header of the flow-based packet because subflows exist according to the characteristics of the media in the same flow.

Therefore, an embodiment of the present invention requires a technique for controlling a network based on session-defined subflows regardless of the nature of media traffic.

The present invention is directed to an apparatus for managing a network by subdividing packets of media traffic into subflows in consideration of the network environment and the user environment.

In the sub-flow management apparatus for delivering media traffic to the user through a network according to a feature of the present invention for achieving the above object,

A sub flow transfer unit for identifying characteristics of the media traffic and classifying a flow included in the packet of the media traffic transmitted through the same session into at least one sub flow and delivering the media traffic to the user; and transmitting the media traffic to the user. And a sub flow controller configured to collect information of the network necessary to transmit the information to the network, and to control the sub flow transfer unit to classify the media traffic into the at least one sub flow according to the information of the network.

In addition, in the sub-flow management apparatus for delivering media traffic to the user through a network according to another aspect of the present invention,

An entry delivery control unit located at a boundary point at which the media traffic is delivered to the network, identifying characteristics of the media traffic, analyzing packets of the media traffic, and determining the priority of the media traffic; An outgoing forwarding control unit located at a boundary point delivered to the network and classifying the flow of the packet delivered through the inlet forwarding control unit into at least one subflow, and information of the network required to deliver the media traffic to the user; And a subflow control unit configured to control the entry delivery control unit and the exit delivery control unit so that the media traffic can be classified into the at least one subflow according to the information of the network. Control It receives media traffic which is transmitted directly without passing through the classified into at least one sub-flow.

In addition, in the sub-flow management apparatus for delivering media traffic to the user through a network according to another aspect of the present invention,

A sub-flow switch unit which delivers a result of subdividing the media traffic to the user in consideration of the environment of the network and the environment of the user, and collects information of the network, wherein the media traffic is determined according to the information of the network. And a sub flow control unit for controlling the sub flow switch unit to be classified into a predetermined sub flow, wherein the sub flow switch unit classifies the media traffic into the predetermined sub flow according to characteristics of an application layer. A multimedia contentware processing engine for generating a group subflow using the predetermined subflow according to a user group having similar conditions, and the group subflow to the user in consideration of the environment of the network and the environment of the user. And a sub-traffic flow control unit for transmission.

According to an embodiment of the present invention, according to the characteristics of the media on the network, the packet of the media flow is divided into sub-flows and transferred in consideration of the network situation and the user's situation. You can improve your quality of experience.

1 is a diagram illustrating a network to which an apparatus for managing sub flows according to an embodiment of the present invention is applied.
FIG. 2 is a diagram illustrating an example of subdividing packets of media traffic by the subflow delivery unit of the subflow management apparatus shown in FIG. 1.
3 is a diagram illustrating an example of a network to which a subflow transfer unit of the subflow management apparatus illustrated in FIG. 1 is applied.
4 is a diagram illustrating another example of a network to which a subflow transfer unit of the subflow management apparatus shown in FIG. 1 is applied.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. As those skilled in the art would realize, the described embodiments may be modified in various different ways, all without departing from the spirit or scope of the present invention. In the drawings, parts irrelevant to the description are omitted in order to clearly describe the present invention, and like reference numerals designate like parts throughout the specification.

Throughout the specification, when a part is said to "include" a certain component, it means that it can further include other components, without excluding other components unless specifically stated otherwise.

1 is a diagram illustrating a network to which an apparatus for managing sub flows according to an embodiment of the present invention is applied. FIG. 2 is a diagram illustrating an example of subdividing packets of media traffic by the subflow delivery unit of the subflow management apparatus shown in FIG. 1.

As shown in FIG. 1, the subflow management apparatus 10 for managing a network based on a subflow according to an exemplary embodiment of the present invention subdivides media traffic on a network, thereby subscribing the media flow to a media characteristic. Control your network by subdividing it into sub-flows. The sub flow management apparatus 10 includes a sub flow controller 100 and a sub flow transfer unit 200a-200b. In the exemplary embodiment of the present invention, the sub flow transfer unit is illustrated as two, but the present invention is not limited thereto and at least one sub flow transfer unit may be formed on a network.

The subflow control unit 100 may include a plurality of servers, and performs an information collection function of collecting information of a network in order to effectively deliver media traffic and determine a state of the network. That is, the subflow control unit 100 collects network performance information and network configuration information for each section in order to perform the information collection function. The network performance information is used to determine the current network situation by the Quality of Service ("QoS"), including the delay, loss, and jitter that media traffic experiences on the path. It is used to The network configuration information indicates the configuration of the network on the path of the network. In addition, the subflow control unit 100 controls the subflow transfer units 200a-200b to perform an equipment control function for changing media traffic.

The sub-flow transmitters 200a to 200b grasp the characteristics of the media traffic at the boundary of the network, classify the packet flows delivered through the same session into multiple sub-flows, and subdivide them according to the network situation. Then, the subflows subdivided according to the user group having similar conditions among the users are combined to generate the group subflows and deliver them to the user. In this case, the packets transmitted through the same session may include various types of packets. For example, I, B, and P frames of media traffic and control traffic, MPEG video media traffic, and media traffic are scalable video coding. , When referred to as “SVC”), may include malicious traffic transmitted under the same session as information and media traffic of each layer.

For example, as illustrated in FIG. 2, the sub flow transfer units 200a to 200b use the conventional 5-tuple in the same flow with media traffic of all packets divided into flows 300. According to the characteristics of the application layer, the data is divided into different types of sub-flows (400). Here, 5-tuple includes a source address, a destination address, a source port, a destination port, and a protocol. Then, the subflow transfer unit 200a-200b generates a grouped sub-flow 500 that combines these subflows 400 according to a user group having similar conditions among users and configures necessary information. Pass it to the user. The mapping to the group subflow 500 using the subflow 400 according to an embodiment of the present invention is performed by the policy of the network operator, and the user takes into consideration the characteristics of the terminal and the state of the network. The determined optimized group subflow 500 is delivered.

Hereinafter, a sub flow transfer unit according to an exemplary embodiment of the present invention will be described in detail with reference to FIGS. 3 and 4.

3 is a diagram illustrating an example of a network to which a subflow transfer unit of the subflow management apparatus illustrated in FIG. 1 is applied.

As shown in FIG. 3, the sub-flow transfer units 200a-200b according to an embodiment of the present invention each include an ingress transport control (hereinafter referred to as "ITC") 210 located at a boundary point of a network. Or it may be formed as an egress transport control (hereinafter referred to as "ETC") 220.

The ITC 210 is located at the boundary point where media traffic enters the network through the media server 600. The ITC 210 analyzes the packet contents of the media traffic delivered to the same media, and classifies the media traffic according to the priority and delivers the media traffic to the network. At this time, an example of dividing the priority of the sub-flow in the flow in the ITC 210 is shown in Table 1 and can be changed according to the policy of the network operator. In the embodiment of the present invention, as shown in Table 1, the priority of the media traffic may be set to be higher than the priority of the control traffic, but the priority of the traffic and the control traffic may be changed according to the policy of the operator. It may be extended to stages. In this case, the priority may be distinguished using a differentiated services code point (DSCP) field of the IP header or other fields, and indicates a dropping priority. That is, if congestion is detected above a predetermined standard during network delivery, packets with a low drop rank are dropped first.

The ETC 220 is located at the boundary point where the media traffic passes through the core and is delivered to the access network where the users are located. The ETC 220 controls the traffic in the process of outputting the media traffic from the core network to the access network, classifies the media traffic into subflows according to the state of the access network, and delivers the media traffic to the user. The ETC 220 handles both the traffic delivered through the ITC 210 and the traffic delivered directly without passing through the ITC 210. That is, when traffic is passed through the ITC 210, the ETC 220 selectively drops packets according to the priority specified in the ITC 210. When direct traffic is directly transmitted without passing through the ITC 210, the ETC 220 analyzes the contents of the traffic and divides the traffic into subflows, and drops them for each subflow if necessary.

In addition, the ETC 220 performs multicasting on a sub-flow basis. For example, when the ETC 220 is located at a boundary node shared with wired / wireless access and delivers media traffic to all access networks in a multicasting form, the ETC 220 discriminates and delivers media traffic according to the state of each access section. That is, the ETC 220 delivers only a high priority sub-flow to the user in the resource-free wireless section with a minimum bandwidth, and provides all sub-resources to a wired access user with rich resource state. Pass the flow.

As such, the subflow transfer units 200a-200b according to the embodiment of the present invention may be formed of the ITC 210 and the ETC 220 and implemented in a router or may be implemented as a subflow switch unit separately. Hereinafter, the subflow transfer unit formed of the subflow switch unit will be described in detail with reference to FIG. 4.

4 is a diagram illustrating another example of a network to which a subflow transfer unit of the subflow management apparatus shown in FIG. 1 is applied.

As shown in FIG. 4, the subflow transfer units 200a-200b may be formed as subflow switch units 230, respectively, and the subflow switch unit 230 may include a session. After receiving the traffic and classifying it into subflows, the subflow is transmitted in unicast or multicast format according to the current network situation.

The sub flow switch unit 230 includes a multimedia flow management unit 231, a sub flow group management unit 232, and a multimedia content aware process engine 233. And a sub-flow traffic control 234.

The multimedia flow management unit 231 stores the information of the session of the media delivered through the sub flow switch unit 230, and manages the priority according to the current state of the media traffic. The multimedia flow management unit 231 receives a state change request signal from a multimedia policy management system (not shown), and transmits the state change request signal to the multimedia content wear processing engine 233 so that the received state change request signal can be applied to a subflow. That is, when it is determined by the multimedia policy manager that the state of a certain flow needs to be changed, the multimedia flow management unit 231 receives a state change request signal from a multimedia policy management system (not shown) and receives the multimedia contentware processing engine. Forward to (233).

The subflow group manager 232 multicasts media traffic in units of subflows. When the subflow group manager 232 performs multicasting on media traffic divided into several subflows, the subflow group manager 232 limits the reception bandwidth of the user according to the performance of the user terminal and the network environment. In this case, multicasting is performed by managing users who can receive media of similar bands into a group. For example, when processing SVC traffic having different resolutions according to the capability of the terminal, the subflow group manager 232 delivers media traffic having a resolution suitable for the environment of the terminal group having the same capability.

The multimedia contentware processing engine 233 is defined as the same flow and subdivides the incoming media traffic into subflows according to the characteristics of the application layer, and combines the subflows to generate a group subflow. In this case, the multimedia content aware processing engine 233 receives an application profile and a network policy that can recognize the application layer from the multimedia flow manager 231 in order to determine the characteristics of the application layer.

The subflow traffic control unit 234 receives the group subflow from the multimedia contentware processing engine 233 and delivers the group subflow to the user according to the network situation and the user's situation. That is, the subflow traffic controller 234 delivers the group subflow to the user by performing functions such as scheduling, marking, and shaping according to the network condition and the user's condition.

As such, the subflow management apparatus 10 according to the embodiment of the present invention divides the media flow into subflows according to the characteristics of the media on the network, and delivers the media flow in consideration of the network situation and the user's situation. Improve the quality of service and user experience.

The embodiments of the present invention described above are not only implemented through the apparatus and the method, but may be implemented through a program for realizing a function corresponding to the configuration of the embodiments of the present invention or a recording medium on which the program is recorded.

Although the embodiments of the present invention have been described in detail above, the scope of the present invention is not limited thereto, and various modifications and improvements of those skilled in the art using the basic concepts of the present invention defined in the following claims are also provided. It belongs to the scope of rights.

Claims (18)

A subflow management apparatus for delivering media traffic to a user through a network, the apparatus comprising:
A sub flow transfer unit for identifying characteristics of the media traffic and classifying a flow included in the packet of the media traffic transmitted through the same session into at least one sub flow and delivering the same to the user; and
A subflow control unit which collects information of the network required to deliver the media traffic to the user, and controls the subflow delivery unit to classify the media traffic into the at least one subflow according to the information of the network
Sub flow management device comprising a. The method of claim 1,
The sub flow transfer unit,
A sub-generation is generated by using the at least one sub-flow according to a user group having similar conditions among the users, and the sub-sub is transmitted to the user in consideration of the environment of the network and the environment of the user. Flow management device. The method of claim 2,
The sub flow transfer unit,
And an entry delivery control unit located at a boundary point where the media traffic is delivered to the network, or an exit delivery control unit located at a boundary point where the media traffic is delivered to the user. The method of claim 3,
When the sub flow transfer unit is the entry transfer control unit,
And the entry delivery control unit analyzes the packet of the media traffic to determine the priority of the media traffic. The method of claim 4, wherein
The entry delivery control unit,
And if the congestion of the network is detected to be higher than a criterion, first dropping the packet of the media traffic having the lower priority. The method of claim 3,
When the sub flow transfer unit is the advance transfer control unit,
The outgoing delivery control unit receives each of the media traffic delivered through the inbound delivery control unit and the media traffic delivered directly without passing through the inbound delivery control unit, and classifies and processes each media traffic into the at least one subflow. Subflow management device. The method of claim 6,
The advance delivery control unit,
And when the media traffic is transmitted through the entry delivery control unit, dropping the packet of the media traffic according to a priority determined by the entry delivery control unit. The method of claim 6,
The advance delivery control unit,
When the media traffic is directly delivered instead of being passed through the ingress delivery control unit, the flow included in the packet of the media traffic is analyzed and divided into the at least one subflows, and the packet is dropped for each subflow if necessary. Subflow management device. The method of claim 3,
The sub flow transfer unit,
And a sub flow switch unit configured to perform the functions of the entry delivery control unit and the entry delivery control unit. 10. The method of claim 9,
The sub flow switch unit,
A multimedia flow management unit for storing information of a session of the media traffic and determining a priority according to a current state of the media traffic;
When performing multicasting using the group subflow, the sub-flow group management unit for controlling the reception bandwidth of the user according to the environment of the network and the user,
And classifying the media traffic into the at least one subflow according to the characteristics of an application layer, and generating a group subflow using the at least one subflow.
A subflow traffic controller configured to deliver the group subflow to the user in consideration of the environment of the network and the environment of the user
Sub flow management device comprising a. A subflow management apparatus for delivering media traffic to a user through a network, the apparatus comprising:
An entry delivery control unit located at a boundary point at which the media traffic is delivered to the network, identifying characteristics of the media traffic, and analyzing packets of the media traffic to determine priority of the media traffic;
An outgoing delivery control unit located at a boundary point at which the media traffic is delivered to the user, and classifying a flow of the packet delivered through the entry delivery control unit into at least one subflow; and
Collecting information of the network required to deliver the media traffic to the user, and controlling the ingress delivery controller and the outbound delivery controller so that the media traffic can be classified into the at least one subflow according to the information of the network. A sub flow control unit,
The advance delivery control unit,
And a sub flow management apparatus that receives the media traffic directly delivered without passing through the entry delivery control unit and classifies the media traffic into the at least one sub flow. The method of claim 11,
The advance delivery control unit,
Generate a group subflow using the at least one subflow according to a user group having similar conditions among the users, and deliver the group subflow to the user in consideration of the environment of the network and the environment of the user. Subflow management device that performs casting. The method of claim 11,
And the network information includes network performance information and network configuration information. The method of claim 13,
The network performance information indicates a quality of service including at least one of delay, loss, and jitter.
And the network configuration information indicates a configuration on a route for each section of the network. A subflow management apparatus for delivering media traffic to a user through a network, the apparatus comprising:
A sub-flow switch unit which delivers a result of subdividing the media traffic to the user in consideration of the environment of the network and the environment of the user, and
A sub flow control unit which collects information of the network and controls the sub flow switch unit to classify the media traffic into the predetermined sub flow according to the information of the network,
The sub flow switch unit,
A multimedia contentware processing engine that classifies the media traffic into the predetermined subflows according to characteristics of an application layer, and generates a group subflow using the predetermined subflows according to a user group having similar conditions among the users; And
A subflow traffic controller configured to deliver the group subflow to the user in consideration of the environment of the network and the environment of the user
Sub flow management device comprising a. 16. The method of claim 15,
The sub flow switch unit,
A multimedia flow management unit for storing information of the session of the media traffic and determining the priority according to the current state of the media traffic; and
And performing a multicasting using the group subflows, including a subflow group manager configured to control a reception bandwidth of the user according to an environment of the network and an environment of the user. The method of claim 16,
The multimedia content aware processing engine,
And a sub flow management device receiving an application profile capable of recognizing the application layer and a policy of the network from the multimedia flow manager to determine the characteristics of the application layer. 16. The method of claim 15,
The sub flow traffic control unit,
And transmitting the group subflow by performing at least one of scheduling, marking, and shaping according to an environment of the network and an environment of the user.

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