KR20110070605A - Method and system of IPTV service using satellite - Google Patents

Abstract

A method and system for minimizing transmission delay in an IPTV service system using a satellite is disclosed. A proxy of an IPTV service system using a satellite includes a clapper for providing an index value of a sub proxy corresponding to a data packet; A manager for generating a sub proxy corresponding to the data packet when there is no sub proxy corresponding to the data packet; A packet policy for identifying a method of processing the data packet; A buffer for storing the data packet; An ACK generator for storing the data packet in the buffer and generating an ACK according to the processing method; And receiving the data packet from a service provider to determine whether there is a sub proxy corresponding to the data packet, and executing the clapper or the manager according to the existence of the sub proxy corresponding to the data packet, and performing the ACK. It includes a proxy main control unit for transmitting the ACK generated by the generator to the terminal.

Description

IPT service method and system using satellite {METHOD AND SYSTEM FOR IPTV SERVICES USING SATELLITE}

The present invention relates to a method and system for minimizing transmission delay in an IPTV service system using satellites.

The services basically provided by the IPTV system have the characteristics of channel service, VoD service, and interactive service.

In this case, when the two-way service of IPTV is to be transmitted through the satellite, it is difficult to provide the service in real time due to the asymmetric bandwidth characteristic having a relatively large transmission delay compared to the satellite terrestrial network.

Therefore, there is a need for a system and method that can provide services with real-time service characteristics, such as IPTV systems, through a satellite network.

One embodiment of the present invention provides a service of a terrestrial network IPTV system by using a satellite by performing retransmission on behalf of the headend block or by using a proxy that transmits an ACK to the headend block on behalf of the terminal block. It provides an IPTV service system that can reduce the transmission delay that occurs in the case.

According to an embodiment of the present invention, a proxy of an IPTV service system using a satellite may include a clapper that provides an index value of a sub proxy corresponding to a data packet; A manager for generating a sub proxy corresponding to the data packet when there is no sub proxy corresponding to the data packet; A packet policy for identifying a method of processing the data packet; A buffer for storing the data packet; An ACK generator for storing the data packet in the buffer and generating an ACK according to the processing method; And receiving the data packet from a service provider to determine whether there is a sub proxy corresponding to the data packet, and executing the clapper or the manager according to the existence of the sub proxy corresponding to the data packet, and performing the ACK. It includes a proxy main control unit for transmitting the ACK generated by the generator to the terminal.

In this case, the proxy of the IPTV service system using a satellite according to an embodiment of the present invention further comprises an ACK processor for deleting a data packet corresponding to the ACK packet transmitted from the terminal in the buffer, the proxy main controller is the When the ACK packet is transmitted from the terminal, the ACK packet may be transmitted to the ACK processor.

One embodiment of the present invention provides a service of a terrestrial network IPTV system by using a satellite by performing retransmission on behalf of the headend block or by using a proxy that transmits an ACK to the headend block on behalf of the terminal block. In this case, it is possible to reduce the transmission delay that occurs.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings and the contents described in the accompanying drawings, but the present invention is not limited or limited to the embodiments.

1 is a diagram illustrating an example of an IPTV service system using a satellite according to an embodiment of the present invention.

IPTV service system using a satellite according to an embodiment of the present invention is composed of a head end block 120, a proxy 130, a satellite gateway 140, and a terminal block 160, as shown in FIG.

The headend block 120 transmits the data packet of the service received from the service provider through the terrestrial network to the proxy 130.

The proxy 130 changes the data packet optimized for the terrestrial network to be optimized for the satellite network and transmits the modified packet to the satellite gateway 140.

At this time, the proxy 130 may minimize the transmission delay due to the bandwidth difference between the terrestrial network and the satellite network.

In more detail, when the proxy 130 receives a duplicate ACK from the user terminal 170 or a timeout occurs, the proxy 130 may perform retransmission on behalf of the headend block 120. For example, the proxy 130 may apply local retransmission so that the headend block 120 does not perform unnecessary congestion control on link loss.

In addition, the proxy 130 transmits an ACK to the headend block 120 on behalf of the terminal block 160, thereby reducing the time taken for the headend block 120 to receive the ACK, thereby including a satellite link having a large RTT. In the network, the transmission rate of the headend block 120 may be increased.

In addition, the proxy 130 stores the data packet transmitted from the headend block 120 in the buffer 243 and immediately transfers the data packet to the terminal block 160 or stores the data packet in the buffer 243 and then, if a predetermined condition is satisfied, delivers the packet. This allows a single TCP connection to occupy the output link continuously for a period of time or to saturate the interface queue. In this case, the proxy 130 may support the output scheduling to improve the traffic distribution of the output packets.

The configuration and detailed operation of the proxy for minimizing transmission delay due to bandwidth difference between heterogeneous networks will be described in detail with reference to FIG. 2.

The satellite gateway 140 transmits the data packet received from the proxy 130 to the terminal block 160 through the satellite 150.

In this case, the satellite gateway 140 may include a transmission data processor and a reception data processor for providing the IPTV service to the satellite.

The terminal block 160 transmits the data packet transmitted through the satellite 150 to the user terminal 170 to provide a service to the user, or the service request transmitted from the user terminal 170 through the terrestrial network. Through the transmission to the headend block 120.

At this time, the terminal block 160 is a satellite gateway 161 for receiving data packets transmitted through the satellite 150 and a proxy 162 for changing the data packets received by the satellite gateway 161 to be optimized for the terrestrial network. It may include. In this case, since the satellite gateway 161 and the proxy 162 perform the same operation in the same configuration as the satellite gateway 140 and the proxy 130, detailed description thereof will be omitted.

2 is a diagram illustrating an example of a proxy according to an embodiment of the present invention.

Proxy 130, 162 of the IPTV service system using a satellite according to an embodiment of the present invention is the proxy main controller 210, the clapper 220, the manager 230, the sub proxy unit as shown in FIG. 240, and a timer 250.

The proxy main controller 210 receives the data packet from the service provider, checks whether there is a sub-proxy corresponding to the received data packet, and determines whether the proxy 220 or the sub-proxy corresponds to the data packet. The manager 230 is executed. In this case, the data packet received by the proxy main controller 210 may be a data packet transmitted from the headend block 120 or a data packet received from the satellite 150 by the satellite gateway 161.

In addition, the proxy main controller 210 may transmit the ACK generated by the ACK generator 242 to the user terminal 170.

When the ACK packet is transmitted from the user terminal 170, the proxy main controller 210 may transmit the received ACK packet to the ACK processor 241.

In more detail, the proxy main controller 210 may branch each received data packet to each module of the proxy. In this case, when the memory buffer is available, the proxy main controller 210 checks whether the data packet is a packet that can be processed at the interface of the user terminal 170, and processes the data packet according to the checked processing method to process the satellite gateway 140. Or it may be transmitted to the user terminal 170.

For example, when the received data packet is a TCP data packet that does not need to apply the spoofing function in the proxy 162, the proxy main controller 210 may not receive the TCP data packet from the satellite 150 and the terminal module without additional operations. It may transmit to the user terminal 170 through the 160.

In addition, when the TCP data packet is transmitted from the user terminal 170, the proxy main controller 210 obtains the sub proxy information for the TCP data packet from the clapper 220, and the manager 230 controls the TCP data packet. Spoof ACK processing and data packet transmission processing can be performed.

When there is a sub proxy corresponding to the data packet, the clapper 220 provides the proxy main control unit 210 with an index value of the sub proxy corresponding to the data packet according to a request of the proxy main control unit 210. .

In more detail, the clapper 220 may obtain an index value of a sub proxy corresponding to a TCP connection of a data packet and provide the index value to the proxy main controller 210.

When there is no sub proxy corresponding to the data packet, the manager 230 generates a sub proxy corresponding to the data packet and provides the sub proxy corresponding to the data packet to the proxy main controller 210 according to a request of the proxy main controller 210. ).

In addition, the manager 230 maintains state information of each TCP connection. In more detail, the manager 230 may create a new sub proxy when a TCP connection is created and delete the corresponding sub proxy when the TCP connection is released. In this case, the manager 230 may change the state of the corresponding sub proxy according to the change of the state of each TCP connection so that the sub proxy unit 240 may perform an appropriate operation.

For example, the manager 230 may generate a new sub proxy when there is no sub proxy for the packet and the received packet is a SYN packet. At this time, the manager 230 may update only the status information without transmitting the data packet to the buffer 2443 until the TCP is connected end-to-end.

In this case, the packet transmitted to the satellite network side after TCP is connected end-to-end may be processed by the ACK generator 242, and the packet transmitted to the user terminal 170 may be processed by the ACK processor 241.

The sub proxy unit 240 temporarily stores and processes data packets using the sub proxy generated by the manager 230.

In this case, the sub proxy unit 240 may include a CK processor 241, an ACK generator 242, a buffer 243, a packet policy 244, and a memory distributor 245.

The ACK processor 241 deletes the data packet corresponding to the ACK packet received by the proxy main controller 210 from the buffer 243. At this time, the proxy main controller 210 transmits the received ACK packet to the clapper 220 to check the subproxy of the ACK packet, and the ACK processor 241 of the sub proxy module 240 corresponding to the identified sub proxy. ACK packet can be transmitted.

In this case, when a duplicate ACK or timeout occurs, the ACK processor 241 may retransmit the corresponding data packet to the user terminal 170.

The ACK generator 242 may store the data packet identified by the packet policy 244 in the buffer 243, generate a spoofing ACK according to the processing method, and transmit the generated packet to the proxy main controller 210.

The buffer 243 may temporarily store a data packet identified by the packet policy 244. In this case, the buffer 243 may be d_buffer.

The packet policy 244 can confirm the processing method of the data packet.

The memory distributor 245 manages the entire system memory and the buffer 243 in which each sub-proxy stores data packets, and may adjust the size according to the system memory state.

The timer 250 may measure a time at a predetermined time to provide a reference for the ACK processor 241 to determine a timeout of the ACK packet.

3 is a flowchart illustrating an IPTV service method using satellites according to an embodiment of the present invention.

In operation S310, the proxy main controller 210 receives the data packet and checks the size of the buffer 243. In more detail, the proxy main controller 210 may check whether there is free space in which the received data packet is stored in the buffer 243.

In operation S320, the proxy main controller 210 may determine whether the data packet received in operation S310 is a packet that can be processed. When the data packet is not a packet that can be processed, the proxy main controller 210 may transmit the packet to the user terminal 170 without converting the packet.

For example, when the data packet received in step S310 is a TCP data packet that does not need to apply the spoofing function in the proxy 162, the proxy main controller 210 may perform operations such as steps S330 to S360. The TCP data packet received without additional operations may be transmitted to the user terminal 170 through the satellite 150 and the terminal module 160.

In step S330, the proxy main controller 210 checks the sub proxy of the data packet received in step S310.

At this time, the proxy main controller 210 checks whether a sub proxy corresponding to the data packet received in step S310 exists, and if there is a corresponding sub proxy, the proxy 220 receives corresponding sub proxy information. If there is no corresponding sub proxy, the manager 230 may execute the manager 230 to generate a sub proxy corresponding to the data packet received in operation S310.

In step S340, the ACK generator 242 executes a process corresponding to the data packet received in step S310.

Specifically, the ACK generator 242 executes a process according to the processing method confirmed by the packet policy 244 to generate a spoofing ACK, and the proxy main controller 210 uses a spoofing ACK generated according to a process corresponding to the data packet. It may transmit to the terminal 170.

In operation S350, the manager 230 checks whether the data packet received in operation S310 is the last packet of the service. In this case, when the data packet is not the last packet, the proxy main controller 210 may repeat step S340 to transmit the data packet and the spoofing ACK to the user terminal 170.

In operation S360, the manager 230 deletes, from the sub-proxy unit 240, the sub proxy corresponding to the data packet identified as the last packet in operation S350.

The IPTV service system using the satellite according to the present invention performs a retransmission on behalf of the headend block, or by using a proxy to transmit an ACK to the headend block on behalf of the terminal block, the service of the terrestrial network IPTV system using the satellite It is possible to reduce the transmission delay incurred in providing and.

As described above, the present invention has been described by way of limited embodiments and drawings, but the present invention is not limited to the above embodiments, and those skilled in the art to which the present invention pertains various modifications and variations from such descriptions. This is possible.

Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined not only by the claims below but also by the equivalents of the claims.

1 is a diagram illustrating an example of an IPTV service system using a satellite according to an embodiment of the present invention.

2 is a diagram illustrating an example of a proxy according to an embodiment of the present invention.

3 is a flowchart illustrating an IPTV service method using satellites according to an embodiment of the present invention.

Claims (1)

A clapper for providing an index value of a sub-proxy corresponding to the data packet; A manager for generating a sub proxy corresponding to the data packet when there is no sub proxy corresponding to the data packet; A packet policy for identifying a method of processing the data packet; A buffer for storing the data packet; An ACK generator for storing the data packet in the buffer and generating an ACK according to the processing method; And Receiving the data packet from the service provider to determine whether there is a sub proxy corresponding to the data packet, and executes the clapper or the manager according to the presence of a sub proxy corresponding to the data packet, the ACK generator Proxy control unit for transmitting the generated ACK to the terminal Proxy of the IPTV service system using a satellite comprising a.

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