KR101970194B1 - Method and Apparatus for transmitting Multicast Data by Using AP Information - Google Patents

Abstract

In this embodiment, when a packet loss occurs with respect to multicast data, information on the AP currently connected to the terminal is collected, and a loss packet restoration procedure based on the forward error correction technique is adaptively performed for each AP device And more particularly, to a multicast data transmission method using the AP information and an apparatus therefor.

Description

TECHNICAL FIELD The present invention relates to a multicast data transmission method using AP information, and a multicast data transmission method using the AP information.

The present embodiment relates to a multicast data transmission method using AP information and an apparatus therefor.

The following description merely provides background information related to an embodiment of the present invention and does not constitute the prior art.

With the recent introduction of immersive video services, OTT (Over The Top), including three telecom operators, is providing 360 VR (Virtual Reality) video service. However, in the case of 360 VR video service, there is a problem that network load increases and service quality deteriorates due to rapid data consumption compared to existing video service. In reality, there is a deterioration in service quality such as a breakdown when 360 VR images are received by a large number of people in the same space.

360 VR video service has been utilized in education, and more efficient data transmission method is needed to provide services to more than 20 users in a narrow space (classroom / classroom). Therefore, multicast technology is being used as an alternative. Multicast technology requires additional functions in preparation for packet loss. For this purpose, ARQ (Automatic Request for Repetition) and FEC (Forward Error Correction) techniques are utilized. However, in multicast technology, there is a limitation that it is difficult to know which cell / AP coverage is lost in a mobile situation. To overcome this, there is a problem that wireless resources are wasted as additional signaling is required. Moreover, in the case of FEC, the occurrence of additional overhead can be a major factor in traffic growth.

Therefore, a new technology is required to solve the problem of insufficient cell capacity and quality degradation that can occur when utilizing multicast technology, thereby enabling a large-capacity video data to be transmitted more efficiently.

In this embodiment, when a packet loss occurs with respect to multicast data, information on the AP currently connected to the terminal is collected, and a loss packet restoration procedure based on the forward error correction technique is adaptively performed for each AP device So that it is possible to perform more efficient transmission of a large amount of video data.

In the multicast data transmission method of the multicast control server according to the present embodiment, when a retransmission request signal for a lost packet is received from at least one terminal in a multicast group, Performing a restoration procedure; Counting a frequency of occurrence of the lost packet with respect to an AP apparatus to which the terminal is connected based on the retransmission request signal; And a step of adaptively adjusting a forward error correction (FEC) based on a counting result of the counting step so as to perform a restoration procedure using forward error correction (FEC) on terminals connected to the AP apparatus To a multicast data transmission method.

According to another aspect of the present invention, there is provided a mobile terminal comprising: a transmitter for performing a recovery procedure on a lost packet based on the retransmission request signal when a retransmission request signal for a lost packet is received from at least one terminal in a multicast group; And counting a frequency of occurrence of the lost packet with respect to the AP apparatus to which the terminal is connected based on the retransmission request signal, and adaptively applying a forward error correction technique to the terminals connected to the AP apparatus according to the counting result And a coordinating unit for adjusting the utilized restoration procedure to be performed.

According to the present embodiment, when a packet loss occurs with respect to multicast data, information on the AP currently connected to the terminal is collected, and a loss packet restoration procedure based on a forward error correction technique is adaptively So that it is possible to perform more efficient transmission of a large amount of video data.

1 is an exemplary diagram for explaining a multicast transmission system according to the present embodiment.
2 is a block diagram schematically showing a multicast control server according to the present embodiment.
3 is a flowchart illustrating a method of supporting a multicast streaming service according to the present embodiment.
4 is a flowchart for explaining a multicast data transmission method of the multicast control server according to the present embodiment.

Hereinafter, some embodiments of the present invention will be described in detail with reference to exemplary drawings.

1 is an exemplary diagram for explaining a multicast transmission system according to the present embodiment.

The multicast transmission system 100 according to the present embodiment includes a multicast control server 110, an access router apparatus 120, AP apparatuses 130 and 140, and terminals 132 and 142. At this time, the components included in the multicast transmission system according to the present embodiment are not necessarily limited thereto.

The multicast control server 110 refers to a device supporting a multicast streaming service.

The multicast control server 110 performs a function of providing a video source sent from a head end device (not shown) to a user in the form of a streaming service. That is, the multicast control server 110 may receive an image source and may generate streaming data (= multicast data) by transcoding the received image source. The streaming data provided by the multicast control server 110 may include various types of data that can be provided in a streaming form such as text, still images, as well as moving pictures including 360 VR images.

The multicast control server 110 allocates a multicast address for a video source to be transmitted in a multicast manner, and transmits the allocated multicast address to the access router apparatus 120.

In addition, the multicast control server 110 performs a restoration procedure on lost packets in the event of loss of data streamed in the multicasting manner to the terminals 132 and 142.

The multicast control server 110 according to the present embodiment performs recovery procedure on a lost packet by combining Automatic Request for Repetition (ARQ) and Forward Error Correction (FEC) techniques.

First, when the multicast control server 110 receives a retransmission request signal for a lost packet from at least one terminal 132 or 142 in the multicast group, the multicast control server 110 performs a restoration procedure for the lost packet based on the received retransmission request signal .

The multicast control server 110 collects information on the AP apparatus connected to the terminal in which the loss packet is generated and utilizes the collected information to adaptively restore the lost packet based on the forward error correction scheme for each AP apparatus Adjust. That is, the multicast control server 110 determines the state of the wireless network for each AP device based on the information about the collected AP devices, and determines whether the application of the forward error correction technique for each AP device is variable do. More specifically, the multicast control server 110 may adjust the loss packet recovery procedure based on the forward error correction technique adaptively only to the terminals connected to the AP apparatus with poor wireless network status. That is, there is an advantage that the signaling process for detecting a lossy cell / AP coverage in the conventional multicast technology can be omitted, and consequently, waste of radio resources can be reduced.

Concrete operations for the multicast control server 110 to perform the recovery procedure for the lost packet by combining the automatic retransmission request technique and the forward error correction technique will be described in detail with reference to FIGS. 2 and 3 .

The access router apparatus 120 refers to a device that provides a multicast streaming service based on the streaming data and the multicast address received from the multicast control server 110.

In order to support this process, the access router apparatus 120 generates a list for multicast group management using the multicast address received from the multicast control server 110. For example, the access router apparatus 120 may generate a corresponding multicast group for each multicast address and generate a list for management of the multicast group.

The access router apparatus 120 transmits the broadcast signal metadata including the multicast address to the terminals 132 and 142 and transmits the broadcast signal metadata including the multicast address to the terminals 132 and 142 on the basis of a specific broadcast channel, And receives a request message.

The access router apparatus 120 joins the terminals 132 and 142 to a specific multicast group based on the subscription request message transmitted from the terminals 132 and 142, Supports multicast streaming service. Meanwhile, a method of transmitting the streaming data based on the multicasting scheme by the access router apparatus 120 is general in the related field, and a detailed description will be omitted.

In addition, the access router apparatus 120 according to the present embodiment performs a loss packet restoration procedure using a forward error correction scheme only for terminals connected to a specific AP apparatus according to an adjustment signal transmitted from the multicast control server 110 . At this time, it is preferable that the adjustment signal is an FEC packet including information of an AP device as a target target, but it is not limited thereto.

Upon receiving the adjustment signal, the access router apparatus 120 re-establishes a recovery session for recovery of the lost packet between the terminal connected to the specific AP apparatus and the access router apparatus 120 re-establishes a lost packet based on the re- The restoration procedure is performed. For example, the access router apparatus 120 may transmit the streaming data including the FEC packets to the terminals 132 and 142 through the re-established recovery session.

On the other hand, the access router apparatus 120 according to the present embodiment adds the corresponding FEC packet to the I frame of the streaming data and transmits the FEC packet. In this case, there is an advantage that the overhead caused by the Contrast FEC packet can be reduced when the FEC packet is included in all the frames of the streaming data. That is, it is possible to solve the problem of quality deterioration that may occur when transmitting a large amount of data, thereby maximizing transmission efficiency.

The AP devices 130 and 140 are devices for relaying wireless data communication, and are capable of transmitting and receiving data by being connected to the terminals 132 and 142 located in the communication coverage. The AP devices 130 and 140 may be connected to the terminals 132 and 142 using various wireless communication methods such as Wi-Fi communication, LTE, 3G, mobile communication, and Bluetooth communication.

The AP apparatuses 130 and 140 recognize streaming data transmitted based on the multicasting scheme from the access router apparatus 120 and transmit the recognized streaming data to the terminals 132 and 142 through the multicast channel, As shown in FIG.

The terminals 132 and 142 are terminals capable of transmitting and receiving various data by using a communication mediating apparatus including the AP apparatuses 130 and 140 according to a key operation of a user and include a tablet PC, ), A personal computer (PC), a smart phone, a personal digital assistant (PDA), and a mobile communication terminal.

The terminals 132 and 142 according to the present embodiment can use the multicasting type streaming service. That is, the terminals 132 and 142 can subscribe to a specific multicast group based on the multicast address transmitted from the access router apparatus 120, and receive the multicasting streaming service.

In addition, the terminals 132 and 142 according to the present embodiment are able to detect a loss based on the automatic retransmission request technique or the forward error correction technique according to the state of the wireless network of the AP devices 130 and 140 to which the terminals 132 and 142 are connected, The packet restoration procedure can be adaptively supported. To this end, the terminals 132 and 142 further include information on the AP apparatus to which the terminals 132 and 142 are currently connected when transmitting the retransmission request signal for the lost packet. At this time, the information about the AP device is preferably a MAC address address of the AP device, but is not limited thereto.

2 is a block diagram schematically showing a multicast control server according to the present embodiment.

As shown in FIG. 2, the multicast control server 110 according to the present embodiment includes a multicast streaming unit 200 and a packet restoring unit 210.

The multicast streamer unit 200 receives an image source transmitted from a head end apparatus (not shown), and transcodes the received image source to generate streaming data.

The multicast streaming unit 200 allocates a multicast address to an image source to be transmitted in a multicast manner and transmits the multicast address to the access router apparatus 120. That is, the multicast streamer 200 analyzes a video source to generate a channel table classified according to broadcast channels, and allocates a multicast IP address and a port number for each broadcast channel using the generated channel table. For example, channel 1 may use the multicast address of 224.1.1.1, and channel 2 may use the multicast address of 224.2.2.2.

The multicast streaming unit 200 generates broadcast signal metadata including channel table information and mapping information to which a multicast IP address is allocated for each broadcast channel, and transmits the generated metadata to the access router apparatus 120.

The packet recovery unit 210 performs a recovery procedure on the lost packet when the loss occurs in the data streamed by the multicasting method to the terminals 132 and 142.

The packet recovery unit 210 according to the present embodiment determines the state of the wireless network of the AP apparatuses 130 and 140 connected to the terminals 132 and 142 and determines whether the automatic retransmission request scheme or the forward error correction scheme Lt; RTI ID = 0.0 > lossless < / RTI >

The packet recovery unit 210 includes a transmission unit 212 and an adjustment unit 214. [

The transmission unit 212 performs a loss packet recovery procedure based on the automatic retransmission request technique.

When the retransmission request signal for the lost packet is received from at least one terminal (132, 142) in the multicast group, the transmitter 210 performs a recovery procedure for the lost packet based on the received retransmission request signal. For this, the transmission unit 210 may establish a repair session with the terminals 132 and 142 that have been provided with the multicast streaming service in advance

The adjusting unit 214 adjusts the loss packet recovery procedure based on the forward error correction technique to be adaptively performed. The adjusting unit 214 according to the present embodiment performs the adjusting function based on the received retransmission request signal using the transmitting unit 210. [

Hereinafter, a method of the adjustment unit 214 performing the adjustment function based on the retransmission request signal will be described.

When the retransmission request signal is transmitted from at least one terminal 132 or 142 in the multicast group, the control unit 214 extracts the information of the AP device included in the retransmission request signal.

The adjusting unit 214 counts the occurrence frequency of lost packets for the corresponding AP apparatus based on the information of the AP apparatus extracted from the retransmission request signal.

The adjusting unit 214 determines whether the frequency of occurrence of the lost packet exceeds a predetermined threshold for the corresponding AP apparatus according to the counting result. Meanwhile, in this embodiment, the occurrence frequency of the lost packet is used as a reference value for determining the state of the wireless network for the AP apparatus.

If it is confirmed that the occurrence frequency of the lost packet exceeds the predetermined threshold value, the adjustment unit 214 adjusts the loss packet recovery procedure based on the forward error correction technique with respect to the corresponding AP apparatus Adjustment is made so that it can be done in enemy. For example, the coordinator 214 adjusts a lost packet recovery procedure based on a forward error correction technique when a packet loss occurs only in terminals connected to the AP device. In this way, the adjustment unit 214 can manage the application of the forward error correction technique differently for each AP apparatus.

The adjusting unit 214 transmits the FEC packet including the information of the target AP apparatus to the access router apparatus 120 so that the loss packet restoration procedure based on the forward error correction technique can be performed for the AP apparatus. That is, the FEC packet transmitted from the adjustment unit 214 can operate as a kind of trigger signal.

If it is determined that the frequency of occurrence of the lost packet does not exceed the preset threshold value, the adjusting unit 214 performs a restoration procedure of the lost packet based on the automatic retransmission request technique with respect to the corresponding AP apparatus Adjust to keep.

Meanwhile, the adjusting unit 214 according to the present embodiment performs a restoration procedure (hereinafter, referred to as an adjusting AP apparatus) related to an AP apparatus adjusted to perform a loss packet restoration procedure based on the forward error correction scheme (Application).

The adjustment unit 214 continuously monitors the frequency of occurrence of lost packets with respect to the adjustment AP apparatus. To this end, the coordinator 214 may receive loss packet generation information in the case where a lost packet recovery procedure based on the forward error correction technique is performed from terminals connected to the coordination AP apparatus. At this time, the generated packet loss information is used as a reference value for judging the state of the wireless network for the coordinating AP apparatus.

The adjusting unit 214 reaffirms to the adjusting AP apparatus whether or not the frequency of occurrence of the lost packet exceeds a predetermined threshold based on information of occurrence of the lost packet received from the terminals in the monitoring process.

If the frequency of occurrence of the measured loss packet for the adjusted AP apparatus is determined not to exceed the predetermined threshold value for a predetermined time in accordance with the result of the reconfirmation, the adjustment unit 214 performs a restoration procedure process (= forward direction And a loss packet restoration procedure based on the error correction technique) can be rescheduled.

For example, the adjustment unit 214 may adjust the recovery procedure of the lost packet based on the automatic retransmission request technique to be performed again for terminals connected to the adjustment AP apparatus. In this case, the coordinator 214 transmits an adjustment command to the access router apparatus 120 for regression to the restoration procedure based on the retransmission request technique. In addition, the coordinator 214 may re-establish a recovery session with a terminal connected to the coordinating AP device

In another embodiment, the coordinator 214 may re-adjust the size (increase or decrease) of the FEC packet based on the loss packet occurrence information and send it to the access router device 120 based on the rescheduled FEC packet Adjust the loss packet recovery procedure to proceed. In this case, the recovery information indicating the recovery progress of the lost packet, which is performed based on the FEC packet, may be included in the loss packet generation information received from the terminal by the adjustment unit 214. [

3 is a flowchart illustrating a method of supporting a multicast streaming service according to the present embodiment.

As shown in FIG. 3, the method of supporting the multicast streaming service according to the present embodiment includes steps 1 to 12.

(1) The access router apparatus 120 receives the multicast address allocated to the video source from the multicast control server 110, and generates a list for multicast group management using the received multicast address.

(3) The access router apparatus 120 transmits the broadcast signal metadata including the multicast address received in step (1) to the terminals 132 and 142, and transmits the meta data to the terminals 132 and 142 from the terminals 132 and 142 And receives a join request message.

The access router apparatus 120 joins the terminals 132 and 142 to the corresponding multicast group based on the subscription request message transmitted in step 3 and transmits the subscription request message to the corresponding terminals 132 and 142 Supports multicast streaming service.

(6) The multicast control server 110 establishes a recovery session with the terminals 132 and 142 supported by the multicast streaming service.

(7) The multicast control server 110 receives a retransmission request signal for a lost packet from at least one terminal 132 in the multicast group through the recovery session established in step (6). At this time, the re-transmission request signal received by the multicast control server 110 at step 7 includes information on the AP device 130 to which the terminal 132 is connected. Hereinafter, the terminal that has transmitted the retransmission request signal for the lost packet is referred to as the first terminal 130, and the AP apparatus to which the first terminal 130 is connected is exemplified as the first AP apparatus 132.

(8) The multicast control server 110 performs recovery procedure on the lost packet based on the retransmission request signal received in step (7). The restoration procedure for the lost packet performed in step 8) is a restoration procedure based on the automatic retransmission request technique.

(9) The multicast control server 110 counts the frequency of occurrence of lost packets for the first AP device 130 based on the retransmission request signal received in step (7), and the first AP device 130 It is determined whether the occurrence frequency of the lost packet exceeds a predetermined threshold value.

If the frequency of occurrence of the lost packet is found to exceed the preset threshold value, the multicast control server 110 notifies the first AP device 130 of the connection with the first AP device 130 So that the loss packet recovery procedure based on the forward error correction technique can be adjusted adaptively. In step 11, the multicast control server 110 transmits an FEC packet including the information of the first AP device 130 to the access router apparatus 120, thereby to transmit the FEC packet to the access router apparatus 120 based on the forward error correction technique The recovery procedure of the lost packet can be adjusted to be performed. At this time, the FEC packet including the information of the first AP device 130 may operate as a trigger signal to adjust step 11 and step 12 to be performed.

(11) When receiving the FEC packet of step (10), the access router apparatus 120 creates a new multicast group having terminals connected to the first AP apparatus 130 as a group circle. The access router apparatus 120 according to the present embodiment allows the application of the forward error correction scheme to be managed differently for each AP device through the multicast group generation process of step 11).

(12) The access router apparatus 120 re-establishes a recovery session for recovery of the lost packet between the terminals belonging to the multicast group generated in step (11), and uses the forwarded error correction technique Proceed with the restoration procedure.

4 is a flowchart for explaining a multicast data transmission method of the multicast control server according to the present embodiment. 4, a description will be made of a method of performing a recovery procedure for a lost packet among the multicast data transmission method of the multicast control server according to the present embodiment.

The multicast control server 110 checks whether a retransmission request signal for a lost packet is received from at least one terminal 132 in the multicast group (S402).

If the reception of the retransmission request signal is confirmed in step S402, the multicast control server 110 performs a recovery procedure on the lost packet based on the received retransmission request signal (S404).

The multicast control server 110 counts the occurrence frequency of lost packets for the first AP device 130 connected to the first terminal 132 based on the retransmission request signal received in step S402 in step S406. In step S406, when the multicast control server 110 includes information on the first AP device 130 in the retransmission request signal received in step S402, the multicast control server 110 transmits the lost packet To increase the frequency of occurrence. It is preferable that the frequency counting frequency of lost packets generated by the multicast control server 110 for each AP device is initialized at a time point elapsed, but the present invention is not limited thereto.

The multicast control server 110 checks whether the frequency of occurrence of the lost packet with respect to the first AP device 130 exceeds a predetermined threshold according to the count result of step S406 (S408).

The multicast control server 110 determines that the frequency of occurrence of lost packets for the first AP device 130 exceeds the predetermined threshold value and forwards the forward error correction data only to the terminals connected to the first AP device 130, (Step S410) so that a recovery procedure of the lost packet using the technique of FIG. Thereafter, the multicast control server 110 and the access router apparatus 120 may resume the recovery procedure of the lost packet applied to the first AP device 130 according to whether the predetermined condition is satisfied or not. At this time, it is preferable that the predetermined condition is whether or not the wireless network state is changed for the first AP device 130, but the present invention is not limited thereto.

Here, steps S402 to S410 correspond to the operations of the respective components of the multicast control server 110 described above, and thus detailed description will be omitted.

In FIG. 4, it is described that each process is sequentially executed, but the present invention is not limited thereto. In other words, it can be applied to changing the procedure shown in FIG. 4 or executing one or more processes in parallel, so that FIG. 4 is not limited to a time series order.

As described above, the multicast data transmission method described in FIG. 4 can be implemented by a recording medium (CD-ROM, RAM, ROM, memory card, hard disk, magneto-optical disk, storage device Etc.).

The foregoing description is merely illustrative of the technical idea of the present embodiment, and various modifications and changes may be made to those skilled in the art without departing from the essential characteristics of the embodiments. Therefore, the present embodiments are to be construed as illustrative rather than restrictive, and the scope of the technical idea of the present embodiment is not limited by these embodiments. The scope of protection of the present embodiment should be construed according to the following claims, and all technical ideas within the scope of equivalents thereof should be construed as being included in the scope of the present invention.

100: multicast transmission system 110: multicast control server
120: access router apparatus 130, 140: AP apparatus
132, 142: terminal 200: multicast streamer unit
210: packet recovery unit 212:
214:

Claims (7)

A multicast data transmission method of a multicast control server,
When a retransmission request signal for a lost packet including information on an AP apparatus to which the terminal is connected is received from at least one terminal in the multicast group, performs a restoration procedure for the lost packet based on the retransmission request signal step;
Counting a frequency of occurrence of the lost packet with respect to an AP apparatus to which the terminal is connected based on the retransmission request signal; And
Wherein the control unit controls the AP unit to differently apply forward error correction (FEC) according to the counting result of the counting unit, and adjusts the forward error correction (FEC) Transmitting a forward error correction packet including information on the AP apparatus to the access router apparatus so that a restoration procedure using the forward error correction scheme can be adaptively applied to one terminal
And transmitting the multicast data. delete The method according to claim 1,
Wherein the transmitting comprises:
And adjusts the restoration procedure using the forward error correction scheme to be performed when it is determined that the frequency of occurrence of the lost packet with respect to the AP apparatus exceeds a predetermined threshold according to a result of the counting. Way. delete When a retransmission request signal for a lost packet including information on an AP apparatus to which the terminal is connected is received from at least one terminal in the multicast group, performs a restoration procedure for the lost packet based on the retransmission request signal A transmission unit; And
Counts a frequency of occurrence of the lost packet with respect to the AP apparatus connected to the terminal based on the retransmission request signal, differently adjusts whether or not the forward error correction scheme is applied to the AP apparatus according to the counting result, And transmits a forward error correction packet including information on the AP apparatus to the at least one terminal in the multicast group corresponding to the AP apparatus so that a restoration procedure using the forward error correction scheme can be adaptively performed An access router
The multicast control server comprising: delete 6. The method of claim 5,
Wherein,
And transmits an FEC packet including information on the AP to the access router if it is determined that the frequency of occurrence of the lost packet with respect to the AP device exceeds a predetermined threshold according to a result of the counting. Control server.

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