KR20130138531A - Method and apparatus for providing multicast service - Google Patents

Abstract

Method and device for providing a multicast service are disclosed. A method for providing a multicast service according to the present invention includes: a step of configuring an error control policy which is applied to multicast data for a multicast service based on at least one of resource monitoring information of a transmitting terminal and service quality requirement information received from a plurality of receiving terminals; a step of transmitting multicast data to which the error control policy is applied to the plurality of receiving terminals; and a step of receiving feedback information for the muticast data from each of the plurality of receiving terminals and reconfiguring an error control policy based on at least one among the feedback information and resource monitoring information. [Reference numerals] (AA) Start;(BB) End;(S100) Receiving multicast service request information and service quality requirement information from a plurality of receiving terminals;(S110) Permitting multicast service providing for the plurality of receiving terminals;(S120) Configuring an error control policy applied to multicast data based on at least one among resource monitoring information and service quality requirement information of a transmitting terminal;(S130) Transmitting the multicast data to which the error control policy is applied to the plurality of receiving terminals;(S140) Receiving feedback information for the multicast data from each of the plurality of receiving terminals;(S150) Reconfiguring an error control policy based on at least one among the feedback information and resource monitoring information when at least one of the plurality of receiving terminals receives multicast data which does not satisfy the service quality requirement information as a result of analysis on the feedback information

Description

METHOD AND APPARATUS FOR PROVIDING MULTICAST SERVICE}

The present invention relates to a multicast service, and more particularly, to a method and apparatus for providing a multicast service capable of guaranteeing a quality of service (QoS).

As high performance, miniaturization, and low cost of IT resources progress, computing and control not only in the embedded software (SW) area of the existing IT industry, but also in almost all traditional industrial areas such as automotive, shipbuilding, transportation, construction, power, and environment. Increasingly, IT resources such as communication and telecommunications are rapidly progressing.

As such, as the embedding of IT resources in all industries, industries or products having completely different aspects from existing industries or products are emerging. The number of element entities that make up the entire system has grown so rapidly that it cannot be compared with the case of the conventional network, so that the point-to-point communication method becomes impossible from the application point of view.

Therefore, a one-to-many communication method in which data is transmitted to a specific plurality of targets to be transmitted by using a multicast method, which is one of data transmission methods that can efficiently transmit data. This became necessary.

However, the practical application of multicast services in large distributed network environments with complex quality of service (QoS) requirements requires the trade-off of two factors: reliability and real time. There is a need for a way to harmonize properly.

In other words, in order to apply multicast services in a large distributed network environment, first of all, the characteristics of each application service having different requirements and the reliability level and real-time level suitable for the characteristics of each application service can be determined. Is required.

This is because the situation of the network including communication entities is different, and the data to be transmitted have different QoS requirements, so that the range of QoS requirements can be identified by considering loss / delay between end-to-end and required resources (cost). This is because it can only respond to service requirements.

On the other hand, Korean Patent Laid-Open No. 2001-0039241 discloses a method for constructing a tree in a transport layer that constructs a logical tree of multicast group participants in a transport layer to provide reliability of an Internet multicast application service. The technique disclosed in the published patent has a problem in that an optimal multicast method cannot be selected in consideration of the situation of a network and computing resources.

Accordingly, the present invention proposes a multicast method for efficiently transmitting data in consideration of the complicated QoS of the reliability and the real time required by the service.

It is an object of the present invention to provide a multicast service providing method capable of guaranteeing quality of service (QoS) in a multicast service.

It is also an object of the present invention to provide a transmitting terminal for providing a multicast service capable of guaranteeing a quality of service (QoS) in a multicast service.

It is also an object of the present invention to provide a receiving terminal receiving a multicast service capable of guaranteeing quality of service (QoS) in a multicast service.

One embodiment of a multicast service providing method according to the present invention for achieving the above object, in a method for a transmitting terminal to provide a multicast service to a plurality of receiving terminals, the resource monitoring information of the transmitting terminal and the plurality of Setting an error control policy applied to the multicast data for the multicast service based on at least one of the quality of service request information received from a receiving terminal of the receiving terminal, and applying the error control policy to the plurality of receiving terminals. Transmitting multicast data, receiving feedback information on the multicast data from each of the plurality of receiving terminals, and resetting the error control policy based on at least one of the feedback information and the resource monitoring information. It includes.

In this case, receiving the feedback information on the multicast data from each of the plurality of receiving terminals, and resetting the error control policy based on at least one of the feedback information and the resource monitoring information, the feedback information; Resetting the error control policy based on at least one of the feedback information and the resource monitoring information when at least one of the plurality of receiving terminals receives the multicast data that does not satisfy the quality of service request information based on the information; can do.

In this case, the feedback information may include at least one of a reception success rate, a reception failure rate, a deadline missed ratio, a reception delay time, and an average reception delay time of the multicast data. .

In this case, the error control policy may include at least one of an error correction encoding method and a retransmission (ARQ) method of any one of a forward error correction (FEC), a hybrid error correction (HEC), a network coding (NC), and a random linear coding (RLC). It may include one.

In this case, the resource monitoring information may include computer resource information and processing time information required to perform encoding or decoding on the multicast data.

In addition, the multicast service providing method according to another embodiment of the present invention, in the receiving terminal receives a multicast service provided from the transmitting terminal, receiving the multicast data for the multicast service from the transmitting terminal And feedback information including at least one of a reception success rate, a reception failure rate, a deadline missed ratio, a reception delay time, and an average reception delay time of the multicast data to the transmitting terminal. Transmitting a step.

In addition, a transmitting terminal for providing a multicast service according to another embodiment of the present invention, in a transmitting terminal for providing a multicast service to a plurality of receiving terminals, receiving the multicast service from the plurality of receiving terminals The multicast data for receiving the service quality request information required for transmitting the multicast data to which the error control policy is applied to the plurality of receiving terminals, and applying the error control policy from each of the plurality of receiving terminals. A transceiver for receiving feedback information on cast data, an error control policy applied to the multicast data based on at least one of resource monitoring information and service quality request information of the transmitting terminal, the feedback information and At least one of the resource monitoring information On the basis of the or a controller to reset the error control policy.

At this time, the control unit is based on the feedback information, when at least one of the plurality of receiving terminals receives the multicast data that does not satisfy the quality of service request information, at least one of the feedback information and the resource monitoring information The error control policy may be reset based on one.

In this case, the feedback information may include at least one of a reception success rate, a reception failure rate, a deadline missed ratio, a reception delay time, and an average reception delay time of the multicast data. .

In this case, the error control policy may include at least one of an error correction encoding method and a retransmission (ARQ) method of any one of a forward error correction (FEC), a hybrid error correction (HEC), a network coding (NC), and a random linear coding (RLC). It may include one.

In this case, the resource monitoring information may include computer resource information and processing time information required to perform encoding or decoding on the multicast data.

In addition, a receiving terminal provided with a multicast service according to another embodiment of the present invention, in a receiving terminal provided with a multicast service provided from a transmitting terminal, service quality request information required for receiving the multicast service A transmitter / receiver for transmitting the multicast data to the transmitting terminal, receiving multicast data for the multicast service from the transmitting terminal, and transmitting the feedback information for the multicast data to the transmitting terminal, based on the received multicast data. And a controller configured to calculate the feedback information including at least one of a reception success rate, a reception failure rate, a deadline missed ratio, a latency delay, and an average latency of multicast data. .

According to the present invention, in providing a multicast service, by reconstructing the error control policy applied to the multicast data in consideration of networking resources and computing resources in real time, the multicast service can be efficiently multi-considered in consideration of changes in reliability and real-time service quality. It is possible to transmit multicast data for a cast service.

In addition, the present invention proposes a method for providing a multicast service that guarantees quality of service (QoS), thereby providing an environment requiring high reliability and real-time performance, computing and communication functions such as the defense technology field that is evolving into network-centric warfare (NCW). Can greatly contribute to reliable real-time data communication.

In addition, the present invention can be used as a multicast method to guarantee the service quality commonly required for the data exchange of real-time services in the distributed embedded system that is made not only in the defense sector but also in all industries.

1 is a flowchart illustrating a multicast service providing method according to an embodiment of the present invention.
2 is a flowchart illustrating a multicast service providing method according to an embodiment of the present invention.
3 is a block diagram illustrating a configuration of a transmitting terminal for providing a multicast service and a receiving terminal for receiving a multicast service according to an embodiment of the present invention.

The present invention will now be described in detail with reference to the accompanying drawings. Hereinafter, a repeated description, a known function that may obscure the gist of the present invention, and a detailed description of the configuration will be omitted. Embodiments of the present invention are provided to more fully describe the present invention to those skilled in the art. Accordingly, the shapes and sizes of the elements in the drawings and the like can be exaggerated for clarity.

Hereinafter, preferred embodiments according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a flowchart illustrating a multicast service providing method according to an embodiment of the present invention.

Referring to FIG. 1, in the multicast service providing method in which a transmitting terminal provides a multicast service to a plurality of receiving terminals, the multicast service request information and the multicast service requesting the multicast service are received from the plurality of receiving terminals. In order to receive the quality of service request information including the quality of service required for (S100), it is possible to approve the multicast service provision to the receiving terminal (S110).

Specifically, in steps S100 and S110, for example, a plurality of receiving terminals want to receive a multicast service, for example, multicast service request information including information of a subject of interest and the like, and service quality required by the multicast service. The service quality request information may be transmitted to a transmitting terminal, and the transmitting terminal may approve multicast service provision for a plurality of receiving terminals requesting a multicast service, and transmit the same to the plurality of receiving terminals through a message. have.

In addition, the transmitting terminal may group the plurality of receiving terminals that have requested the multicast service, and in this case, may be grouped into a plurality of groups according to the type of service that the receiving terminal wants to receive.

In addition, the transmitting terminal may set an address system for the multicast service, for example, an address and a port number of the multicast group, to provide a multicast service to a plurality of grouped receiving terminals, and the service quality request information. The level of quality of service (QoS) including reliability and real time included in the control layer may be defined as a level that should be supported by the transport layer.

Here, the level of quality of service may mean a result of negotiating each level of quality of service required to receive a multicast service in a plurality of receiving terminals. For example, in each of the plurality of receiving terminals, It may mean the average of the level of quality of service required.

For example, if a multicast service requires high reliability, the level of quality of service can be defined as a reliability level and a behavioral level, the reliability level assuring that data is transmitted reliably. (Reliability) level and Best-effort level that does not guarantee that data is transmitted reliably. In addition, the operational level can be divided into a stateless level and a stateful level.

In addition, when the multicast service requires real-time, the level of quality of service may be defined using quality of service parameters such as deadline, latency, and transport priority.

Next, the transmitting terminal may set an error control policy applied to the multicast data based on at least one of resource monitoring information and service quality request information of the transmitting terminal (S120).

Here, the resource monitoring information may include computer resource information and processing time information required for performing encoding or decoding on multicast data, and specifically, a central processing unit (CPU) of a current transmitting terminal and / or a receiving terminal. ) May refer to information capable of predicting a process capability related to encoding and / or decoding of multicast data at a transmitting terminal and / or a receiving terminal based on usage of a memory, an input / output device (I / O), an application process, and the like. have.

The error control policy also includes forward error correction (FEC), Hybrid Error Correction (HEC), Network Coding (NC) and Random Linear Coding (RLC), which are error recovery algorithms. ) May include at least one of an error correction encoding method and an automatic repeat reQuest (ARQ) method.

Specifically, the ARQ method may satisfy the requirement of reliability, but due to an increase in delay time due to retransmission, the requirement of real time cannot be satisfied. Accordingly, a coding based error control policy can be used, and in this case, a predetermined coding scheme can be applied before transmitting multicast data to satisfy reliability and real-time. However, when applying the coding based error control policy, a separate coding is required to add a packet for the error control policy to the multicast data to be transmitted and to apply the error control policy. In addition, since the receiving terminal receives the multicast data to which the coding based error control policy is applied and decodes the received multicast data, additional receiving time and computing resources for coding and / or decoding may be required. have. Therefore, a proper coordination of retransmission method and coding based error control policy is required.

Next, the transmitting terminal may transmit multicast data to which the error control policy is applied to the plurality of receiving terminals (S130), and receive feedback information on the multicast data from each of the plurality of receiving terminals (S140).

Here, the feedback information may include a quality of service parameter, and the quality of service parameter may include reception success rate, reception failure rate, deadline missed ratio, latency and average reception delay time of multicast data. Latency), and the transmitting terminal may know whether the multicast data has been received without error on the basis of the feedback information received from the plurality of receiving terminals.

Specifically, when the receiving terminal fails to receive the multicast data due to the loss of the multicast data, the receiving terminal may send an ACK or NACK as feedback information to the transmitting terminal and request the transmitting terminal to retransmit the multicast data, which is an error. It may vary depending on the control policy.

Next, the transmitting terminal may reset the error control policy based on at least one of the feedback information and the resource monitoring information, and may update the service quality request information (S150).

In detail, the transmitting terminal analyzes at least one of the feedback information and the resource monitoring information, and when the analysis result receives the multicast data in which at least one of the plurality of receiving terminals does not satisfy the quality of service request information, the feedback information and The error control policy may be reset based on at least one of the resource monitoring information.

For example, when the transmitting terminal encodes the multicast data using the error control policy of A and transmits the multicast data to the plurality of receiving terminals, the feedback information received by the plurality of receiving terminals is analyzed, and as a result of analysis, at least among the plurality of receiving terminals. If one does not satisfy the quality of service request information, the transmitting terminal encodes the multicast data into an error control policy of B, which is more reliable than A, and transmits the multicast data to the plurality of receiving terminals. You can do that.

2 is a flowchart illustrating a multicast service providing method according to an embodiment of the present invention.

Referring to FIG. 2, in a method in which a receiving terminal receives a multicast service provided from a transmitting terminal, multicast service request information requesting a multicast service to the transmitting terminal and a service quality request required to receive the multicast service Information may be transmitted (S200), the multicast data for the multicast service may be received from the transmitting terminal (S210), and the feedback information for the multicast data may be transmitted to the transmitting terminal (S220).

Specifically, in step S200, the receiving terminal wants to receive a multicast service, for example, multicast service request information including information of a subject of interest, etc. and service quality request information requested by the multicast service, to the transmitting terminal. Can transmit

Next, in step S210 and step S220, the receiving terminal may receive the multicast data and transmit feedback information including the quality of service parameter to the transmitting terminal. The quality of service parameter may include at least one of a reception success rate, a reception failure rate, a deadline missed ratio, a latency, and an average latency of the multicast data.

In detail, when the multicast data is lost because the multicast data is not received, the receiving terminal may transmit an ACK or a NACK as feedback information to the transmitting terminal and request the transmitting terminal to retransmit the multicast data, which is an error. It may vary depending on the control policy.

Accordingly, the transmitting terminal can know whether the multicast data has been received without error on the basis of the feedback information received from the plurality of receiving terminals.

3 is a block diagram illustrating a configuration of a transmitting terminal for providing a multicast service and a receiving terminal for receiving a multicast service according to an embodiment of the present invention.

Referring to FIG. 3, a transmitting terminal and a receiving terminal may transmit multicast data through a wired / wireless network. The transmitting terminal 100 providing a multicast service may include a transceiver 110 and a controller 120.

The transceiver 110 receives the multicast service request information for requesting the multicast service from the plurality of receiving terminals and the service quality request information required for receiving the multicast service, and the error control policy is applied to the plurality of receiving terminals. The multicast data for the multicast service may be transmitted, and feedback information for the multicast data to which the error control policy is applied may be received from each of the plurality of receiving terminals.

The control unit 120 approves the multicast service provision to the plurality of receiving terminals, sets an error control policy applied to the multicast data based on at least one of resource monitoring information and service quality request information of the transmitting terminal, and provides feedback. The error control policy may be reset based on at least one of information and resource monitoring information.

Specifically, the controller 120 analyzes the feedback information, and when the analysis result receives the multicast data in which at least one of the plurality of receiving terminals does not satisfy the quality of service request information, the feedback information and the resource monitoring information. The error control policy may be reset based on at least one of the following.

Meanwhile, the controller 120 may analyze the feedback information, and transmit the next multicast data when the analysis result receives the multicast data in which all of the plurality of receiving terminals satisfy the service quality request information.

In addition, the controller 120 may update the service quality request information based on the feedback information.

Here, the feedback information may include at least one of a reception success rate, a reception failure rate, a deadline missed ratio, a reception delay time, and an average reception delay time of the multicast data.

In addition, the error control policy is one of an error correction encoding method and a retransmission (ARQ) method of any one of a forward error correction (FEC), a hybrid error correction (HEC), a network coding (NC), and a random linear coding (RLC). It may include at least one.

In addition, the resource monitoring information may include computer resource information and processing time information required for performing encoding or decoding on the multicast data.

Meanwhile, the receiving terminal 200 provided with the multicast service may include a transceiver 210 and a controller 220.

The transceiver 210 transmits the multicast service request information for requesting the multicast service to the transmitting terminal and the service quality request information required to receive the multicast service, and transmits the multicast data for the multicast service from the transmitting terminal. It can receive and transmit feedback information on the multicast data to the transmitting terminal.

The control unit 220 based on the received multicast data, at least of the success rate of reception, reception failure rate, deadline missed ratio (Deadline missed ratio), latency and average reception delay time (Average Latency) Feedback information including one may be calculated.

As used herein, the transmitting terminal may be a terminal node of a network that provides a multicast service directly with the receiving terminal. In addition, the specific operation described as performed by the transmitting terminal in this specification may be performed by an upper node of the transmitting terminal in some cases. In addition, multicast data transmitted from a lower node of the transmitting terminal may be performed through the transmitting terminal. Also, in the present specification, a transmitting terminal may be replaced with terms such as a base station, a fixed station, a Node B, an eNode B (eNB), an access point, a server, and the like, and the receiving terminal may be a desktop or a mobile terminal ( Mobile Station: MS, User Equipment (UE), Subscriber Station (SS), Mobile Subscriber Station (MSS), and the like, may be replaced with terms. The mobile terminal includes various devices such as a PDA (Personal Digital Assistant), a cellular phone, a Personal Communication Service (PCS) phone, a Global System for Mobile (GSM) phone, a Wideband CDMA (WCDMA) phone, and a Mobile Broadband System (MBS) phone. Can be. Meanwhile, embodiments of the present invention may be implemented by various means such as hardware, firmware, software, or a combination thereof. In the case of a hardware implementation, at least one Application Specific Integrated Circuits (ASICs), Digital Signal Processors (DSPs), Digital Signal Processing Devices (DSPDs), Programmable Logic Devices (PLDs), Field Programmable Gate Arrays (FPGAs), Processors, It may be implemented through a controller, a microcontroller, a microprocessor, or the like. In addition, in the case of the implementation by firmware or software, it may be implemented in the form of a module, a procedure or a function for performing a function or operation, the software code may be executed by a processor stored in the memory device, the memory device may It may be located inside or outside to transmit and receive data with the processor by various means.

As described above, the method and apparatus for providing a multicast service according to the present invention are not limited to the configuration and method of the embodiments described as described above, but the embodiments may be modified in various ways. All or some of the embodiments may be selectively combined.

100: a transmitting terminal providing a multicast service
110: Transmitting /
120:
200: receiving terminal receiving the multicast service
210: Transmitting /
220:

Claims (12)

A method for providing a multicast service to a plurality of receiving terminals by a transmitting terminal, the method comprising:
Setting an error control policy applied to the multicast data for the multicast service based on at least one of resource monitoring information of the transmitting terminal and service quality request information received from the plurality of receiving terminals;
Transmitting the multicast data to which the error control policy is applied to the plurality of receiving terminals; And
Receiving feedback information on the multicast data from each of the plurality of receiving terminals, and resetting the error control policy based on at least one of the feedback information and the resource monitoring information. The method according to claim 1,
Receiving feedback information on the multicast data from each of the plurality of receiving terminals and resetting the error control policy based on at least one of the feedback information and the resource monitoring information,
The error based on at least one of the feedback information and the resource monitoring information when at least one of the plurality of receiving terminals receives the multicast data that does not satisfy the quality of service request information based on the feedback information A method of providing a multicast service, characterized by resetting a control policy. The method according to claim 1,
The feedback information is,
Method for providing a multicast service, characterized in that it comprises at least one of the reception success rate, reception failure rate, deadline missed ratio, delay delay (Latency) and average reception delay (Average Latency) of the multicast data . The method according to claim 1,
The error control policy is,
At least one of an error correction encoding method and a retransmission (ARQ) method of any one of a forward error correction (FEC), a hybrid error correction (HEC), a network coding (NC), and a random linear coding (RLC). How to provide multicast service. The method according to claim 1,
The resource monitoring information,
And computer resource information and processing time information required to perform encoding or decoding on the multicast data. In the receiving terminal receives the multicast service provided from the transmitting terminal,
Receiving multicast data for the multicast service from the transmitting terminal; And
Transmitting feedback information including at least one of a reception success rate, a reception failure rate, a deadline missed ratio, a reception delay time, and an average reception delay time of the multicast data to the transmitting terminal. A method of providing a multicast service comprising the steps. In the transmitting terminal providing a multicast service to a plurality of receiving terminals,
Receive service quality request information required to receive the multicast service from the plurality of receiving terminals, transmit multicast data for the multicast service to which the error control policy is applied, and transmit the multicast data to the plurality of receiving terminals. A transmitter / receiver configured to receive feedback information on the multicast data to which the error control policy is applied from each of receiving terminals of the receiver; And
Set an error control policy applied to the multicast data based on at least one of resource monitoring information and the quality of service request information of the transmitting terminal, and control the error based on at least one of the feedback information and the resource monitoring information. A transmitting terminal providing a multicast service including a control unit for resetting a policy. The method of claim 7,
The control unit,
The error based on at least one of the feedback information and the resource monitoring information when at least one of the plurality of receiving terminals receives the multicast data that does not satisfy the quality of service request information based on the feedback information A transmitting terminal providing a multicast service, characterized by resetting a control policy. The method of claim 7,
The feedback information is,
Provides a multicast service comprising at least one of a reception success rate, a reception failure rate, a deadline missed ratio, a latency delay, and an average latency of the multicast data. The transmitting terminal. The method of claim 7,
The error control policy is,
At least one of an error correction encoding method and a retransmission (ARQ) method of any one of a forward error correction (FEC), a hybrid error correction (HEC), a network coding (NC), and a random linear coding (RLC). A transmitting terminal providing a multicast service. The method of claim 7,
The resource monitoring information,
And a computer resource information and processing time information required to perform encoding or decoding on the multicast data. A receiving terminal receiving a multicast service provided from a transmitting terminal,
Transmitting service quality request information required to receive the multicast service, receiving multicast data for the multicast service from the transmitting terminal, and transmitting feedback information for the multicast data to the transmitting terminal; A transceiver; And
At least one of a reception success rate, a reception failure rate, a deadline missed ratio, a reception delay time, and an average reception delay time of the multicast data based on the received multicast data. Receiving terminal provided with a multicast service including a control unit for calculating the feedback information.

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