KR20150053217A - Method for transmitting packet of real-time streaming service in content centric network - Google Patents

Abstract

The present invention relates to a method for transmitting a packet in a content centric network. More specifically, the method for transmitting a packet in a content centric network confirms a data packet whether the data packet is a data packet of a service continuously transmitting and receiving a data packet of a specific channel such as real-time streaming data by using a data type identifier, generates, when the data packet is the data packet of the real-time streaming data, a streaming information table having a stored terminal requesting a data packet for each specific channel and a stored timer allocated to each terminal, transmits the data packet to a terminal at real-time even if not receiving a content requesting message until the timer is expired, and transmits the content requesting message before the timer is expired in the case to continuously receive the data packet at real-time so as to initialize the timer into a set value. Accordingly, transmitting and receiving the content requesting message repeatedly whenever requesting a data packet can be prevented. In addition, when a data packet is real-time streaming data, the data packet is not stored and registered in a routing path of the data packet.

Description

TECHNICAL FIELD [0001] The present invention relates to a method for transmitting a real-time streaming service in a content-based network,

The present invention relates to a method for transmitting a packet in a content-based network, more specifically, by confirming a data packet of a service for continuously transmitting and receiving a data packet of a specific channel such as real-time streaming data using a data type identifier, Service data packet, a streaming information table storing a terminal for requesting a data packet for each channel and a timer allocated to each terminal is generated and the data packet is transmitted in real time even if the content request message is not received until the timer expires. If the data packet is to be continuously received in real time, the content request message is transmitted before the timer expires and the timer is reset to the set value again. And a method for transmitting a packet in a content-based network in which a data packet is not stored and registered in a routing cache but is simply transmitted to a lower terminal of a routing path when the data packet is real-time streaming data.

The Internet, which has been widely used so far, is a structure in which a service is requested and provided with a 1: 1 structure between a sender and a receiver using an IP address. However, in the reality that various fields and uses such as Internet high-definition TV, Internet voice / Mars communication, Internet remote control, Internet of Things (IoT) have been continuously developed and used, It has limitations in terms of scalability, security, and service quality due to exhaustion.

Future Internet research is under way to overcome limitations of the Internet. Future research on the Internet may have an evolutionary approach and a revoultionary approach. The gradual approach is to maintain the basic characteristics of the current Internet, while at the same time ensuring the continuity of services and seeking improvement. On the other hand, an innovative approach is to create network technologies that are not currently bound or bound to Internet technologies and that can fully meet the needs of future societies.

Among the innovative approaches, Content Centric Network (CCN) is a structure that requests and provides a service based on a content name instead of a structure for requesting and providing a service with a 1: 1 structure using a conventional IP address.

The content-centric network comprises a network having a plurality of routers, a user terminal connected to the network, and a content providing server. The user terminal is connected to any one of a plurality of routers provided in the network and transmits a content request message to the router. The router extracts the requested content identifier from the content request message and determines whether the requested content is stored and registered in the router based on the requested content identifier. If the requested content does not exist in the router, the router transmits the content request message to the neighbor router of the network in a flooding manner, and transmits the request to the neighboring router or the content server that provides the requested content The connected source routers provide the requested content to the mobile terminal in the reverse order of the order in which the content request message was received.

FIG. 1 and FIG. 2 are views for explaining a process of transmitting and receiving contents in a conventional content-centric network.

1, the user terminal 1 transmits, to the access router A, a content request message (CR) having information on the requested content, if the requested content exists. The access router A compares the requested content identifier with the registered content list stored in the access router A and determines whether the requested content exists in the access router A or not. When the requested content does not exist in the access router A, the access router A transmits a content request message to the neighboring router B, and in the neighbor router B, similarly to the access router A, B and if the requested content does not exist in the neighboring router B, the content request message is transmitted to the neighboring router C of the neighboring router B, , The neighboring router C transmits the content request message to the neighboring router D of the neighboring router C again. The neighbor router D is a source router to which the content server 30 providing the requested content is connected and the source router D is a content response message CP having the requested content in response to the content request message CR, To the reverse path of the reception path of the content request message (CR). That is, the content response message is transmitted from the source router D to the peripheral router C, the peripheral router B, and the access router A. At this time, the routers B, C, and D located in the transmission path of the content response message (CP) register and store the requested content stored in the content response message in their respective routers.

As shown in FIG. 2, when there is a request for the same content from another user terminal 4, the requested content is not received from the server 3 storing the requested content, By receiving the requested content directly from the neighboring router (C), the requested content can be quickly provided.

The requested content is divided into a plurality of data packets and transmitted to the user terminal. The router confirms the packet identifier included in the received content request message and transmits a data packet corresponding to the packet identifier to the user terminal based on the packet identifier . That is, when the user terminal desires to receive the data packet of the requested content, the user terminal transmits a content request message having a packet identifier corresponding to each data packet to the router each time, and the router confirms the content request message, And transmits the packet data to the user terminal.

When a content-based network is applied to a real-time streaming service that continuously transmits data packets in real-time, such as real-time IPTV, a content request message corresponding to each data packet is generated for each data packet to be transmitted to a router , Which causes a traffic load to be generated. In addition, unlike general contents, the real-time streaming service has a problem in that it does not need to register and store the requested contents in the router cache of the routing path, but wastes storage resources of the cache by storing data packets of the real-time streaming service in the router cache .

SUMMARY OF THE INVENTION The present invention has been made in order to solve the problems of the packet transmission method of the conventional content-based network described above, and it is an object of the present invention to provide a content-based network in which a data type identifier is added to a data packet, And to prevent a content request message from being transmitted and received for each data packet.

Another object of the present invention is to provide a method of transmitting a packet for transmitting a data packet to a user terminal without storing a data packet in a router cache of a routing path when a data packet is real-time streaming data in a content-based network.

It is another object of the present invention to provide a method of transmitting a packet for generating a streaming information table in each router and simultaneously transmitting a real-time streaming data packet to a plurality of user terminals.

According to an aspect of the present invention, there is provided a method of transmitting a packet in a content-based network, the method comprising: determining whether data of a received packet is live streaming data based on a data type identifier of the received packet; Determining whether a channel identifier of the received packet is registered in the streaming information table when the data of the received packet is real-time streaming data; determining whether or not the channel identifier of the received packet is registered in the streaming information table, The method comprising the steps of: transmitting a packet to a terminal mapped to a channel identifier; and decreasing a timer value mapped to the terminal in a streaming information table when transmitting a packet to the terminal, Terminal request to request packet When receiving the message is characterized in that the reset to the predetermined value.

Here, the streaming information table includes a channel ID, an outgoing face requesting a packet with a channel identifier, and a timer value mapped to each terminal.

Wherein when the timer value expires, the terminal identifier having the expired timer value is deleted from the streaming information table.

Herein, when there is no terminal mapped to the channel identifier, the channel identifier that does not exist in the terminal mapped in the streaming information table is deleted.

In the streaming information table, at least one terminal mapped to a channel identifier and requesting a packet having a channel identifier is registered, and a corresponding timer value is mapped to the terminal.

A method of transmitting a packet in a content-based network includes: determining whether a channel timer value for a channel identifier has expired in a streaming information table; determining whether a channel mapped to a channel identifier exists if the channel timer value has expired; And transmitting a router request message for requesting a packet having a channel identifier to an upper router storing a packet having a channel identifier if the terminal is mapped to the channel identifier.

Here, the timer value or the channel timer value is initialized to the number of packets of the set channel identifier, and is sequentially decremented each time a packet of a channel identifier or a packet of a channel identifier is transmitted.

Herein, even if a terminal request message is not received from the terminal until the timer value expires, the packet is continuously transmitted to the terminal.

Herein, even if the router request message is not transmitted to the upper router until the channel timer value expires, the router continuously receives the packet of the channel identifier from the upper router.

In another aspect of the present invention, there is provided a method of transmitting a packet in a content-based network, comprising: determining whether data of a received packet is real-time streaming data based on a data type identifier of the received packet; Determining whether a channel identifier of a received packet is registered in a streaming information table when the received streaming data is a streaming data stream and determining whether a channel identifier of the received packet is registered in a streaming information table; Wherein the timer value mapped to and stored in the terminal in the streaming information table is sequentially decremented with a lapse of time, and the timer value indicates a terminal request message for requesting a packet of the channel identifier from the terminal Set value That is initialized with features.

Wherein the timer value or the channel timer value is initialized to a predetermined time.

The packet transmission method of the content-based network according to the present invention has the following various effects.

First, the packet transmission method of the content-based network according to the present invention adds a data type identifier to a data packet to confirm that the data packet is real-time streaming data, thereby preventing transmission / reception of a content request message for each data packet in case of real- The traffic load can be reduced and data packets can be transmitted in real time.

Second, the packet transmission method of the content-based network according to the present invention can save the storage resources of the router cache by not confirming that the data packet is real-time streaming data and storing it in the router cache of the routing path in case of real-time streaming data.

Third, in the packet transmission method of the content-based network according to the present invention, a streaming information table is created in each router and a data packet is transmitted to a user terminal registered in the streaming information table, Transmission control can be performed.

FIG. 1 and FIG. 2 are views for explaining a process of transmitting and receiving contents in a conventional content-centric network.
3 is a functional block diagram illustrating a router for transmitting and receiving data packets in a content-based network according to the present invention.
4 is a flowchart illustrating a packet transmission method of a content-based network according to the present invention.
5 is a diagram for explaining an example of a method of managing a timer of a lower terminal in a packet transmission method of a content-based network according to the present invention.
6 is a diagram for explaining a timer update state of the streaming information table according to the present invention.
7 is a flowchart illustrating an example of a method of registering a subordinate terminal and initializing a timer in a packet transmission method of a content-based network according to the present invention.
FIG. 8 is a view for explaining a registering and initializing state of a lower terminal of the streaming information table according to the present invention.
FIG. 9 is a flowchart illustrating an example of a method of requesting a data packet from an upper router in a packet transmission method of a content-based network according to the present invention.
FIG. 10 is a diagram for explaining a transmission state of a router request message according to the present invention.

Hereinafter, a packet transmission method of a content-based network according to the present invention will be described in detail with reference to the accompanying drawings.

3 is a functional block diagram illustrating a router for transmitting and receiving data packets in a content-based network according to the present invention.

3, the transmitting / receiving unit 110 receives a data packet from an upper router, receives a content request message from a lower router or a user terminal, and transmits a data packet to a lower router or a user terminal. When receiving a content request message from a lower router or a user terminal, the router transmits a packet of content corresponding to the content request message to a lower router or a user terminal of the routing path. Hereinafter, a lower router or user terminal of the routing path is referred to as a lower- .

 When receiving the data packet of the requested content from the upper router through the transmitting and receiving unit 110, the packet identifying unit 120 extracts the data type identifier stored in the data packet, and based on the data type identifier, It is determined whether the data is streaming data. In the data packet according to the present invention, a field for storing a data type identifier is added. When an identifier indicating that the data packet is real-time streaming data exists in the data type identifier field, the packet identification unit 120 transmits the data packet in real- Data.

If the received data packet is real-time streaming data, the registration determination unit 130 determines whether the received packet is a real-time streaming data packet based on the channel identifier registered in the streaming information table of the information table database 150 and the channel identifier of the data packet stored in the data packet. Is a channel registered in the streaming information table.

When the channel of the received packet is a channel registered in the streaming information table, the transmission / reception control unit 140 controls the transmission / reception unit 110 to transmit the data packet to the lower-level terminal mapped to the registered channel of the streaming information table. On the other hand, the information table control unit 160 updates the streaming information table by decreasing the timer of each sub-terminal mapped to the channel identifier of the streaming information table when the data packet controls transmission to the lower level through the transmission / reception control unit 140 , And stores and updates the updated streaming information table in the information table database.

4 is a flowchart illustrating a packet transmission method of a content-based network according to the present invention.

More specifically, referring to FIG. 4, a data packet for the requested content is received from an upper router in the routing path (S110). In operation S120, it is determined whether the received data packet is live streaming data based on the data type identifier stored in the data type identifier field of the received data packet.

If the received data packet is real-time streaming data, it compares the channel identifier stored in the received data packet with the channel identifier registered in the streaming information table, and determines whether the channel of the received data packet is registered in the streaming information table S130).

If the channel of the received data packet is registered in the streaming information table, the UE determines a child terminal mapped to the channel identifier of the streaming information table, and transmits the data packet to the child terminal mapped to the channel identifier (S140).

Here, each of the lower terminals mapped to the channel identifier registered in the streaming information table has a timer, and the timer is initialized to the set time or the set number of transmissions. The timer of each subordinate terminal decreases sequentially with time or decreases each time the data packet is transmitted to the subordinate terminal. Even if the content request message is not separately received from the lower-level terminal until the timer of the lower-level terminal expires based on the streaming information table, the terminal receives the real-time streaming data packet of the registered channel from the upper router, .

5 is a diagram for explaining an example of a method of managing a timer of a lower terminal in a packet transmission method of a content-based network according to the present invention.

Referring to FIG. 5, it is determined whether the timer expires based on the timer of the lower-level terminal mapped in each stream of the streaming information table (S211). If there is a lower-level terminal whose timer has expired, the lower-level terminal whose timer has expired is deleted from the streaming information table (S217).

However, if the timer of the lower terminal does not expire, the timer is decremented every time the data packet is transmitted to the lower terminal (S213), and the timer is renewed and stored in the timer of the lower terminal in the streaming information table (S215).

According to the field to which the present invention is applied, when a timer of a lower terminal is not expired, a timer for transmitting a data packet to a lower terminal decreases with time regardless of whether a packet is transmitted or not, Lt; / RTI >

6 is a diagram for explaining a timer update state of the streaming information table according to the present invention.

As shown in FIG. 6A, the streaming information table includes a channel identifier for providing real-time streaming data requested by a lower terminal, an upper router identifier for transmitting a data packet to a router located in a routing path, A sub-terminal identifier for transmitting a packet and a timer mapped to each sub-terminal identifier are stored.

For example, when real-time streaming data is transmitted from the channel 0011 to the lower terminals 5, 6 and 7, even if the content request message is not received from the lower terminal until the timer expires, .

As shown in FIG. 6 (b), the lower terminal does not transmit a content request message to the router every time a data packet is requested, and the router sequentially decrements the timer each time the data packet is transmitted to the lower terminal. According to the field to which the present invention is applied, the timer can be reduced according to the passage of time regardless of whether the data packet is transmitted to the lower terminal.

7 is a flowchart illustrating an example of a method of registering a subordinate terminal and initializing a timer in a packet transmission method of a content-based network according to the present invention.

Referring to FIG. 7, the content request message is received from the lower terminal (S221). The content request message received from the lower terminal is hereinafter referred to as a terminal request message.

The lower terminal identifier is mapped to the channel identifier of the streaming information table based on the lower terminal identifier stored in the terminal request message, the channel identifier of the content requested by the lower terminal, and the registered lower terminal identifier of each stream in the streaming information table of the router And determines whether it is a registered lower-level device identifier (S223). If the child terminal identifier is not mapped to the channel identifier of the streaming information table and is not registered, the child terminal is registered and stored in the streaming information table by mapping to the channel identifier (S225). In this case, the timer of the subordinate terminal registered by mapping to the channel identifier of the streaming information table is initialized (S227).

However, when the lower terminal identifier is mapped to the channel identifier of the streaming information table and is registered, the timer of the lower terminal of the streaming information table is reinitialized to a set value every time the terminal request message is received from the lower terminal. Preferably, the period for receiving the terminal request message is set to be received before the timer of the lower terminal is terminated.

FIG. 8 is a view for explaining a registering and initializing state of a lower terminal of the streaming information table according to the present invention.

As shown in FIG. 8 (a), when the terminal request message is not received from the lower terminal 7 while the live stream data is transmitted from the channel 0011 to the lower terminals 5, 6 and 7, the timer of the lower terminal 7 expires The lower terminal 7 whose timer has expired is deleted from the streaming information table. On the other hand, when transmitting the real-time streaming data from the channel 0012 to the child terminal 8, when the terminal request message is received from the child terminal 8 before the timer of the child terminal 8 expires, the timer of the child terminal 8 is initialized to a set value.

On the other hand, as shown in FIG. 8 (b), when the terminal request message is received from the lower terminal 9, since the lower terminal 9 is a lower terminal that is mapped to the channel 0011 and is not registered, And if the new terminal is mapped by mapping the lower terminal 9 to the channel 0011, the timer is initialized to the set value.

FIG. 9 is a flowchart illustrating an example of a method of requesting a data packet from an upper router in a packet transmission method of a content-based network according to the present invention.

More specifically, referring to FIG. 9, the router does not receive a terminal request message every time a data packet is requested from a lower terminal, and the router does not transmit a content request message every time a data packet is requested to an upper terminal .

The router determines whether the channel timer for the channel identifier has expired (S231). If the channel timer value has expired, it is determined whether there is a lower terminal mapped to the channel identifier in the streaming information table (S233). If there is a sub-terminal mapped to the channel identifier, the content request message for requesting the packet of the channel identifier is transmitted to the upper router that stores the data packet of the channel identifier (S235). Hereinafter, a request content message transmitted from a router to request a data packet from an upper router is referred to as a router request message.

In the present invention, instead of transmitting a router request message every time a router sets a channel timer and requests a data packet to an upper router, the router transmits a router request message to an upper router only when a set channel timer expires. If it is determined that there is a sub-terminal that requests real-time streaming data from the channel only when there is a sub-terminal mapped to the channel identifier based on the streaming information table, and there is no sub-terminal mapped to the channel identifier And no longer sends a Router Solicitation message to the upper router.

FIG. 10 is a diagram for explaining a transmission state of a router request message according to the present invention.

Referring to FIG. 10, the sub-terminals 5, 6 and 9 are mapped to the channel identifier 0011, and the sub-terminals mapped to the channel identifier 0012 do not exist. That is, from the channel 0011, the lower terminals 5, 6, and 9 continuously request real-time streaming data, and from the channel 0012, it can be determined that the lower terminals do not request the real-time streaming data.

Thus, if the channel timer expires, it sends a Router Solicitation message to upper router 2 to request a data packet of channel 0011, while it does not send a Router Solicitation message to upper router 3 to request a data packet of channel 0012 .

The above-described embodiments of the present invention can be embodied in a general-purpose digital computer that can be embodied as a program that can be executed by a computer and operates the program using a computer-readable recording medium.

The computer-readable recording medium may be an electrically or magnetic storage medium such as a ROM, a floppy disk, a hard disk, etc., an optical reading medium such as a CD-ROM or a DVD and a carrier wave, , Transmission over the Internet).

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

110: Transmitting / receiving unit 120: Packet identifier
130 registration determination unit 140 transmission /
150: information table DB 160: information table control section

Claims (18)

Determining whether the data of the received packet is real-time streaming data based on a data type identifier of the received packet;
Determining whether a channel identifier of the received packet is registered in a streaming information table when the data of the received packet is real-time streaming data;
Transmitting the packet to a terminal mapped to a channel identifier in the streaming information table when the channel identifier of the received packet is registered in the streaming information table; And
When the packet is transmitted to the terminal, decreasing the timer value mapped to the terminal in the streaming information table,
Wherein the timer value is initialized to a value set when receiving a terminal request message for requesting a packet of the channel identifier from the terminal. The method of claim 1, wherein the streaming information table
And a timer value (timer) mapped to each terminal, wherein the channel identifier, the terminal identifier for requesting a packet of the channel identifier, Transmission method. 3. The method of claim 2,
Wherein when the timer value expires, the terminal identifier having the expired timer value is deleted from the streaming information table. The method of claim 3, wherein if the terminal mapped to the channel identifier does not exist, the channel identifier having no mapped terminal is deleted from the streaming information table. Way. The method according to claim 3, wherein the streaming information table
At least one terminal mapped to the channel identifier and requesting a packet of the channel identifier is registered,
Wherein a timer value is mapped to each of the terminals. The method of claim 3,
Determining whether a channel timer value for the channel identifier has expired in the streaming information table;
Determining whether a terminal mapped to the channel identifier exists if the channel timer value has expired; And
Further comprising the step of transmitting a router request message for requesting a packet of the channel identifier to an upper router storing the packet of the channel identifier if the terminal is mapped to the channel identifier, Based network. 7. The method of claim 6, wherein the timer value or the channel timer value
Initialized to the number of packets of the set channel identifier,
Wherein the packet identifier is sequentially decremented each time a packet of the channel identifier is received or a packet of the channel identifier is transmitted. 8. The method according to any one of claims 1 to 7,
Wherein the terminal transmits a packet continuously received even if the terminal does not receive the terminal request message from the terminal until the timer expires. 8. The method according to any one of claims 1 to 7,
And continuously receives the packet of the channel identifier from the upper router even if the router request message is not transmitted to the upper router until the channel timer value expires. Determining whether the data of the received packet is real-time streaming data based on a data type identifier of the received packet;
Determining whether a channel identifier of the received packet is registered in a streaming information table when the data of the received packet is real-time streaming data; And
And transmitting the packet to a terminal mapped to the channel identifier in the streaming information table when the channel identifier of the received packet is registered in the streaming information table,
Wherein the timer value mapped to the terminal in the streaming information table sequentially decreases with time,
Wherein the timer value is initialized to a value set when receiving a terminal request message for requesting a packet of the channel identifier from the terminal. The method according to claim 10, wherein the streaming information table
And a timer value (timer) mapped to each terminal, wherein the channel identifier, the terminal identifier for requesting a packet of the channel identifier, Transmission method. 12. The method of claim 11,
Wherein when the timer value expires, the terminal identifier having the expired timer value is deleted from the streaming information table. 13. The method of claim 12, wherein, in a case where a terminal mapped to the channel identifier does not exist, the channel identifier having no mapped terminal is deleted from the streaming information table. Way. 13. The method according to claim 12, wherein the streaming information table
At least one terminal mapped to the channel identifier and requesting a packet of the channel identifier is registered,
Wherein a timer value is mapped to each of the terminals. 13. The method of claim 12,
Determining whether a channel timer value for the channel identifier has expired in the streaming information table;
Determining whether a terminal mapped to the channel identifier exists if the channel timer value has expired; And
Further comprising the step of transmitting a router request message for requesting a packet of the channel identifier to an upper router storing the packet of the channel identifier if the terminal is mapped to the channel identifier, Based network. 16. The method of claim 15, wherein the timer value or the channel timer value is
Wherein the initialization time is set to a predetermined time. 17. The method according to any one of claims 10 to 16,
Wherein the terminal transmits a packet continuously received even if the terminal does not receive the terminal request message from the terminal until the timer expires. 17. The method according to any one of claims 10 to 16,
And continuously receives the packet of the channel identifier from the upper router even if the router request message is not transmitted to the upper router until the channel timer value expires.

Images