KR20100034167A - Method for adapting layered coding technique in next generation wireless network and transmitting real-time data using rtps service flow - Google Patents

Abstract

PURPOSE: A method for adapting a layered coding technique in a next generation wireless network and transmitting real-time data using a rtPS(real-time Polling Service) flow are provided to define a new artPS(advanced real-time Polling Service) class to support an rtPS(real-time Polling Service) using a layered coding technique. CONSTITUTION: In a wireless communications system, QoS(Quality of Service) parameter values of a base layer and a enhancement layer are differently set through layered coding. Bit streams of the base layer and the enhancement layer are distinguished. The wireless communication system transmits the bit stream using an rtPS flow. The wireless communication system treats at least two rtPS classes, including the base layer and the enhancement layer, as one class.

Description

Method for adapting layered coding technique in next generation wireless network and transmitting real-time data using rtPS service flow}

The present invention relates to a method of applying a hierarchical coding scheme in a wireless communication system and a method of transmitting using an rtPS service flow. More specifically, in the next generation wireless communication standards such as WiBro / Mobile WiMAX systems, hierarchical by defining a new artPS service class to support rtPS using the hierarchical coding scheme defined in the H.264 / AVC or SVC standard. The coding scheme can be applied to the next generation wireless communication standard, and the backward data compatibility with the existing system can be satisfied by following the standard data format without adding additional data unit to define the artPS class, and generated through hierarchical coding. Because it is possible to distinguish the base layer and the high layer, the method of applying the hierarchical encoding technique in the wireless communication system that can be used for radio resource management methods such as priority control or flow control in the MAC or physical layer and using the rtPS service flow Relates to a method of transmission.

Layered coding decomposes video data into a base layer, which is important data, and an enhancement layer, which is less important data, so that the capacity of a transport channel meets a target rate. If it does not, it is a video coding technique that allows priority processing of only relatively important data. The criteria for dividing importance include spatial scalability, temporal scalability, and quality scalability.

Spatial scalability encodes high-quality images by prediction from low-resolution images and prediction between high-quality image groups. Temporal scalability is used to efficiently send things with the same spatial resolution but different frames per second. Quality scalability is used to efficiently send two different video sequences simultaneously. These technologies are one of the core technologies of H.264 / AVC or SVC that are adopted as the standard of video coding in the 3rd generation wireless communication standard.

Meanwhile, in next-generation mobile communication technology, WiBro / Mobile WiMAX system is expected to be a platform of broadband OFDMA technology capable of supporting various multimedia services. WiBro / Mobile WiMAX system supports not only voice calls but also IP-based packet services such as Voice over IP (VoIP), Streaming Video or Music, or Video on Demand (VOD) and Music on Demand (MoD). In the future, the wireless communication method will be developed based on such video-based service support. In OFDMA-based broadband mobile technologies such as WiBro / Mobile WiMAX, unsolicited grant service (UGS), real-time polling service (rtPS), extended real-time polling service (ertPS), non real-time polling service (nrtPS), And various service flows such as BE (Best Effort).

The UGS method supports a real-time service that periodically generates a fixed size packet. This is suitable for services such as voice calls because it can reduce latency because an operation for requesting polling is unnecessary. The rtPS scheme supports a service flow similar to that of UGS, except that the rtPS scheme supports a service flow having a variable packet size. The rtPS method informs the base station (BS) of the changing packet size and the changed information acts as an additional overhead, resulting in more overhead and delay than the UGS. Because of this property, services such as streaming video are classified as rtPS service flows. The ertPS method creates a real-time service flow based on a packet of variable size periodically, but it is a service method that combines the advantages of UGS, which is a waste of resources, and rtPS with a complex configuration. Suitable. The nrtPS method is a delay-sensitive service flow that can support Internet services such as FTP (File Transfer Protocol) or HTTP (HyperText Transfer Protocol). The BE approach supports service flows with no minimum service requirements, and supports services such as email where performance or delay is not critical.

Such a service flow has a Quality of Service (QoS) parameter commonly called a service flow encoding. In the case of an uplink, a service that a mobile station ("MS") tries to send to a BS The QoS parameter of the flow is informed, and in case of downlink, the BS informs the MS of the QoS parameter of the service flow. 1 is a table summarizing the list of such QoS parameters in service flow encoding. For example, the QoS parameter set includes a Minimum Reserved Traffic Rate (defined as Type 9), Maximum Latency (defined as Type 14), Maximum Sustained Traffic Rate (defined as Type 7), Traffic Priority (defined as Type 6), and the like. These values are used as a basis for resource allocation by the scheduler of the wireless communication system.

2 is a diagram illustrating a method of transmitting an rtPS service flow in a downlink situation.

In a wireless communication system, bitstream information generated through the hierarchical coding scheme defined in the H.264 / AVC or Scalable Video Coding (SVC) standard is classified as a service flow of rtPS. In the downlink, if the BS has rtPS data to send to the MS, it first sends a DSA (Dynamic Service Addition) -REQ (Request) message, which contains a service flow parameter. This indicates that rtPS (value = 4) will be transmitted through a service flow scheduling type (Type 11) value among the parameters. The MS then sends a DSA-RSP (Response) message to the BS indicating that it is ready to receive it. When the BS informs the MS which subframe is used to transmit rtPS data in the transmission frame through DSA-ACK (Acknowledgement) and DL (Downlink) -MAP Information Element (IE), the preparation for rtPS transmission is completed. During the data transmission, the MS periodically transmits a channel quality index channel (CQICH) to inform the state of the transmission channel with the BS.If the state of the transmission channel changes, the BS transmits a DSC (Dynamic Service Change) -REQ message to provide QoS parameters of the rtPS. You will tell the MS by modifying.

3 is a diagram for describing a method of transmitting an rtPS service flow in an uplink situation.

The uplink signal flow is similar to the downlink situation in FIG. 2 except that the subject that sends the message is changed and additional messages such as DSX-RVD are sent.

FIG. 4 is a diagram for describing a situation in which a rtPS service flow is divided into a base layer and a high layer through hierarchical encoding in a downlink situation.

The base and senior layers are created through hierarchical encoding in the application layer. As such, the base layer information and the high layer information generated by using hierarchical encoding in the application layer are added with a header while passing through a transport layer, a network layer, and the like. When processing in the (Physical layer), there is a problem in that it is not possible to distinguish which is information about the base layer and which is information about the higher layer. That is, in FIG. 4, even though the BS sends a message to the MS, the MS has no way of knowing that the two rtPS data transmitted are divided through hierarchical coding in one original video data.

FIG. 5 is a diagram for describing a situation in which an rtPS service flow is divided into a base layer and a higher layer and transmitted through hierarchical encoding in an uplink situation.

Similarly, even in the uplink situation of FIG. 5, even when the MS sends a message to the BS, there is a problem in that the BS cannot distinguish between the base layer and the high layer among the rtPS data transmitted.

The present invention has been made to solve the above problems, and in particular, the hierarchical coding scheme can be applied to the next generation wireless communication standard, can meet backward compatibility with existing systems, and is generated through hierarchical coding. Since the base layer and the high layer can be distinguished, a method of applying a hierarchical coding scheme in a wireless communication system that can be used for a radio resource management method such as priority control or flow control in a MAC or physical layer and transmitting using a rtPS service flow The purpose is to provide a way to.

In order to achieve the above object, a method of applying a hierarchical coding scheme in a wireless communication system according to the present invention includes a quality of QoS of a base layer and an enhancement layer generated through hierarchical coding. Service) by differently setting the value of the parameter is characterized in that the bitstream of the base layer and the higher layer to distinguish from each other.

The wireless communication system may be an orthogonal frequency division multiple access (OFDMA) system.

In addition, the wireless communication system may be a WiBro or mobile WiMAX system.

In addition, the wireless communication system may transmit the bitstream in a real-time polling service (rtPS) service flow, and may treat at least two rtPS classes including the base layer and the higher layer as one class. .

In addition, it is possible to recognize that the hierarchical coding scheme is applied in the wireless communication system by defining a value of the service flow scheduling type among the QoS parameters as a specific value.

In addition, the value of the Service Flow Scheduling Type may be set to 7.

In addition, the bitstreams of the base layer and the higher layer may be distinguished from each other by defining values of Traffic Priority among the QoS parameters as different values for the base layer and the higher layer.

In addition, the Traffic Priority value may be 0 for the base layer and 1 to 7 for the higher layer.

In a downlink situation of a wireless communication system according to the present invention, a method for transmitting using a rtPS service flow includes (a) a quality of service (QoS) parameter value set differently when each BS has rtPS data to transmit to an MS. The BS sequentially transmitting a Dynamic Service Addition (DSA) -REQ (Request) message of a base layer and a DSA-REQ message of a higher layer to the MS; (b) the MS notifying the BS that it is ready to receive by sending a DSA-RSP (Response) message; And (c) notifying, by the BS, which subframe is used to transmit the rtPS data in a transmission frame through a DSA-ACK (Acknowledgement) and a DL (Downlink) -MAP Information Element (IE). It is characterized by.

In the transmission method, the hierarchical coding scheme may be recognized by defining a value of a service flow scheduling type among QoS parameters as a specific value in step (a).

In the transmitting method, the bitstreams of the base layer and the higher layer may be distinguished from each other by defining values of Traffic Priority among the QoS parameters as different values in the base layer and the higher layer in the step (a). have.

The method may further include (d) transmitting, by the BS, the rtPS data to the MS; (e) during the step (d), the MS may periodically transmit a channel quality index channel (CQICH) to the BS to inform the transport channel status.

In the uplink situation of the wireless communication system according to the present invention, a method for transmitting using the rtPS service flow includes (a) a quality of service (QoS) parameter value set differently when the MS has rtPS data to transmit to the BS. Sequentially transmitting, by the MS, the BS to the BS a Dynamic Service Addition (DSA) -REQ (Request) message and a DSA-REQ message of a higher layer to the BS; (b) the BS sending a DSX-RVD (Received) message and a DSA-RSP (Response) message to the MS; (c) the MS sending an DSA-ACK (Acknowledgement) to the BS; And (d) the BS assigning polling for the rtPS data to be transmitted by the MS.

In the transmission method, the hierarchical coding scheme may be recognized by defining a value of a service flow scheduling type among QoS parameters as a specific value in step (a).

In the transmitting method, the bitstreams of the base layer and the higher layer may be distinguished from each other by defining values of Traffic Priority among the QoS parameters as different values in the base layer and the higher layer in the step (a). have.

The method may further include (e) informing the BS of a bandwidth required by the MS through a bandwidth request header; (f) The BS may further include informing the MS which subframe in the transmission frame is used to transmit the rtPS data through a UL (Uplink) -MAP IE.

According to the present invention, by defining a new artPS service class to support rtPS using the hierarchical coding scheme defined in the H.264 / AVC or SVC standard in a next generation wireless communication standard such as a WiBro / Mobile WiMAX system, There is an effect that the coding scheme can be applied to the next generation wireless communication standard.

In addition, according to the present invention, it is possible to satisfy backward compatibility with existing systems by following a standard data format without adding additional data units to define the artPS class.

In addition, according to the present invention, since the base layer and the high layer generated through hierarchical encoding can be distinguished, there is an effect that the MAC or physical layer can be used for radio resource management methods such as priority control and flow control.

In order to solve the problem posed by the background art, the present invention defines an advanced real-time polling service (artPS) as a new service flow that can represent an rtPS service flow to which hierarchical coding is applied.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. First, in adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are assigned to the same components as much as possible, even if shown on different drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. In addition, the following will describe a preferred embodiment of the present invention, but the technical idea of the present invention is not limited thereto and may be variously modified and modified by those skilled in the art.

6 is a view for explaining the concept of artPS service flow according to a preferred embodiment of the present invention. In FIG. 6, the left side represents a single layer rtPS class without using hierarchical coding, the center portion represents the rtPS class using hierarchical coding, and the right side represents the artPS class using hierarchical coding.

In the rtPS service flow, two layers (base layer and high layer) divided by hierarchical encoding are divided into different rtPS service flows. In practice, the two service flows are treated independently of each other even though they are closely related to each other. In this conventional method, it is impossible to distinguish which service flow represents a base layer or a high layer.

In contrast, the artPS service flow combines two layers into one artPS class. That is, the artPS service flow is composed of two or more rtPS that are closely related to each other. In this way, a specific parameter among QoS parameters can be used to distinguish a base layer and a high layer.

An important difference between the rtPS class and the artPS class is that the flow control algorithm is applied to two service flows with different priorities. Even if priority control is applied to each bitstream, the base layer and the senior layer are grouped into one service class. In the artPS class, as in the case of the rtPS class, two SFIDs (Service Flow IDentifiers) are created, but the two bitstreams are controlled in association through common flow control and priority control.

When the connection to the artPS class is established, two SFIDs are generated in the MAC Common Part Sublayer (CPS). Since two service flows are supplied to the scheduler, it is necessary to distinguish which flow belongs to which layer for priority control and flow control. In the present invention, a type 6 parameter "Traffic Priority" is used to indicate the layer of each bitstream.

In general, the Traffic Priority parameter indicates a priority assigned to a service flow. When all other QoS parameters are the same, the Traffic Priority parameter is used as a parameter for ordering resource management. That is, if two given service flows have the same QoS parameter value other than priority, the service flow with higher priority will have lower delay and higher buffering performance. In the uplink service flow, the BS has a Traffic Priority value of 0-7. However, the situation in which all the QoS parameters have the same value does not occur frequently, so the Traffic Priority parameter is rarely used in the existing system.

In the present invention, Traffic Priority is used to distinguish a base layer and a high layer in artPS. In this case, the smaller the Traffic Priority value means a higher priority. For example, when the traffic priority value of the base layer is 0, the traffic priority value of the higher layer may be 1 to 7. In artPS of the present invention, when the Traffic Priority value is 0, it is defined as a base layer, and when it is 1 or more, it is defined as sequentially indicating a higher layer. The scheduler refers to these values to distinguish bitstreams belonging to the base layer or the higher layer.

In the present invention, the Service Flow Scheduling Type value is newly adjusted among the QoS parameters of FIG. 1. Originally, Service Flow Scheduling Type is a parameter indicating whether Service Flow is UGS, rtPS, ertPS, nrtPS, or BE. In the present invention, when the Service Flow Scheduling Type value indicates a specific value, for example, 7, it is defined as indicating that Service Flow is artPS. As such, the Service Flow Scheduling Type value is defined so that the BS or the MS can recognize the service flow using the hierarchical encoding.

FIG. 7 illustrates a situation in which an artPS service flow is divided into a base layer and a high layer through hierarchical encoding in a downlink situation, and FIG. 8 illustrates an artPS service flow through hierarchical coding in an uplink situation. A diagram for describing a situation in which the base layer and the high layer are transmitted.

Unlike the case of FIGS. 4 and 5, in FIG. 7 and FIG. 8, Traffic Priority is used as an index for distinguishing the type of hierarchical coding. In other words, if this value is 0, it corresponds to the base layer, and if it is 1, it corresponds to the higher layer. In addition, the Service Flow Scheduling Type indicates that the current service belongs to the artPS class.

Through this, the scheduler first recognizes that the class type is artPS and can perform priority control with reference to Traffic Priority.

9 is a diagram for describing priority control of a scheduler in an rtPS class and an artPS class.

The scheduler of the Common Part Sublayer (CPS) accepts various types of artPS data and performs priority control. First, the scheduler checks the traffic priority value of the bitstream. At this time, the scheduling mechanism for the base layer is the same as the conventional method for the single layer. That is, the lower the Traffic Priority value, the higher the priority assigned to the bitstream.

9 (a) shows a case of rtPS, a single layer video bitstream of the rtPS class waits before being scheduled. These bitstreams are indicated by rtPS classes # 1, # 2, and # 3, and bold numbers on the bitstream indicate the priority of each bitstream. The rtPS data is processed in the order of rtPS # 2, # 3, and # 1 according to the priority. If the channel capacity is not sufficient, the data from rtPS # 4 is dropped by the scheduler, which causes a serious deterioration of quality due to the loss of visually important data.

9 (b) shows video bitstreams of two layers in the artPS class. These bitstreams are denoted by artPS classes # 1, # 2, and # 3, where the priority of # 1 is (3, 6) in order of (base layer, senior layer), and the priority of # 2 is ( 1, 4), and # 3 has a priority of (2, 5). The scheduler sends the base layer in order of artPS # 2, # 3, and # 1 before the higher layers. After sending the base layer, higher layers are sent in the order of # 2, # 3, # 1 according to their rank. As such, artPS boosts the throughput of the base layer to maintain higher QoS in comparison with the rtPS class even in a poor wireless channel environment.

The artPS service flow defined as above has the following characteristics.

① Adaptive to hierarchical coding

It is assumed that two rtPS classes, A and B, exist and the A class includes two types of bitstreams consisting of Ab and Ae. Where Ab is the base layer and Ae is the higher layer. In the current WiBro / Mobile WiMAX system, the two rtPS classes, A and B, are not treated as independent service flows. However, in the case of the Ab and Ae bitstreams of the rtPS A class, since the MAC layer or the physical layer does not consider the distinction of each bitstream, flow control and priority control are not performed.

On the other hand, in the case of artPS, it is assumed that two rtPS classes Ab and Ae are set as independent service flows from the beginning, so Ab and Ae are treated independently without considering correlation, and Ab and Ae are treated as one class. By distinguishing between them, flow control and priority control are possible.

② backward compatibility with existing systems

To define the artPS class, we followed the standard data format without adding additional data units. Based on the standard format, you define new parameters so that you can use the artPS class. For example, referring to FIG. 1, even if a new Service Flow Scheduling Type is added to type 11, the standard format is maintained, and backward compatibility may be maintained even when a bitstream of another layer is applied.

③ Flow control and priority control

According to the artPS service flow, the base layer and the high layer can be distinguished from the MAC layer or the physical layer, so that even if multiple bitstreams are multiplexed, the scheduler can efficiently control multiple bitstreams through flow control and priority control. Can be. Since the base layer is more important than the higher layer, it is preferable that the scheduling order of the base layer precedes the higher layer.

The above description is merely illustrative of the technical idea of the present invention, and various modifications, changes, and substitutions may be made by those skilled in the art without departing from the essential characteristics of the present invention. will be. Accordingly, the embodiments disclosed in the present invention and the accompanying drawings are not intended to limit the technical spirit of the present invention, but to describe the present invention, and the scope of the technical idea of the present invention is limited by the embodiments and the accompanying drawings. no. The protection scope of the present invention should be interpreted by the following claims, and all technical ideas within the equivalent scope should be interpreted as being included in the scope of the present invention.

The present invention can be applied to a wide range of applications using hierarchical coding techniques or wireless communication fields supporting such applications.

1 is a table summarizing these QoS parameters in service flow encoding;

2 is a view for explaining a method of transmitting a rtPS service flow in a downlink situation;

3 is a view for explaining a method of transmitting an rtPS service flow in an uplink situation;

4 is a diagram for explaining a situation in which a rtPS service flow is divided into a base layer and a high layer through hierarchical encoding in a downlink situation;

FIG. 5 is a diagram for explaining a situation in which an rtPS service flow is divided into a base layer and a high layer through hierarchical encoding in an uplink situation; FIG.

6 is a view for explaining the concept of artPS service flow according to a preferred embodiment of the present invention;

FIG. 7 illustrates a situation in which an artPS service flow is divided into a base layer and a high layer through hierarchical encoding in a downlink situation;

FIG. 8 is a diagram for explaining a situation in which an artPS service flow is divided into a base layer and a high layer through hierarchical encoding in an uplink situation; FIG.

9 is a diagram for describing priority control of a scheduler in an rtPS class and an artPS class.

Claims (16)

As a method for applying a layered coding technique in the operation of a wireless communication system, Distinguishing the bitstreams of the base layer and the higher layer from each other by differently setting a Quality of Service (QoS) parameter value of the base layer and the enhancement layer generated through the hierarchical encoding. A method of applying a hierarchical coding technique in a wireless communication system. The method of claim 1, And wherein the wireless communication system is an orthogonal frequency division multiple access (OFDMA) system. The method of claim 2, The wireless communication system is a WiBro or Mobile WiMAX (Mobile WiMAX) system, characterized in that for applying a hierarchical coding scheme in a wireless communication system. The method of claim 1, The wireless communication system transmits the bitstream in a real-time polling service (rtPS) service flow, and treats at least two rtPS classes including the base layer and the higher layer as one class. A method of applying hierarchical coding scheme in communication system. The method of claim 4, wherein A method of applying a hierarchical coding scheme in a wireless communication system, characterized in that the hierarchical coding scheme is recognized in the wireless communication system by defining a value of a service flow scheduling type among the QoS parameters. The method of claim 5, The service flow scheduling type has a value of 7, the method of applying a hierarchical coding scheme in a wireless communication system. The method of claim 1, The hierarchical coding scheme in the wireless communication system is characterized by distinguishing the bitstreams of the base layer and the higher layer from each other by defining values of Traffic Priority among the QoS parameters as different values for the base layer and the higher layer. How to apply. The method of claim 7, wherein The Traffic Priority value is 0 for the base layer and 1 to 7 for the higher layer. (a) When there is rtPS data to be transmitted from the base station to the mobile station, the DSA (Request for Dynamic Service Addition) -REQ of the base layer, which includes different Quality of Service (QoS) parameter values, respectively. ) Sequentially transmitting, by the base station, to the mobile station a message and a higher layer DSA-REQ message; (b) the mobile station sending a DSA-RSP (Response) message to the base station to indicate that the mobile station is ready for transmission; And (c) the base station notifying the mobile station of which subframe is transmitted in a transmission frame through a DSA-ACK (Acknowledgement) and a DL (Downlink) -MAP Information Element (IE); Method of transmitting using the rtPS service flow in the downlink situation of the wireless communication system comprising a. 10. The method of claim 9, In the step (a), by using the rtPS service flow in a downlink situation of a wireless communication system, the hierarchical coding scheme is applied by defining a value of a service flow scheduling type among QoS parameters as a specific value. Way. 10. The method of claim 9, In the step (a), by defining a value of Traffic Priority among the QoS parameters as different values for the base layer and the senior layer, the wireless communication system distinguishes the bitstreams of the base layer and the senior layer from each other. Method of transmitting using the rtPS service flow in the downlink situation of the. 10. The method of claim 9, (d) the base station transmitting the rtPS data to the mobile station; (e) the mobile station periodically transmitting a channel quality index channel (CQICH) to the base station to inform the transmission channel state during step (d); The transmission method using the rtPS service flow in the downlink situation of the wireless communication system further comprising. (a) When there is rtPS data to be transmitted to the base station by the mobile station, the DSA (Request for Dynamic Service Addition) -REQ of the base layer including different Quality of Service (QoS) parameter values respectively set (B) sequentially transmitting, by the mobile station, to the base station a message and a DSA-REQ message of a higher layer; (b) the base station sending a DSX-RVD (Received) message and a DSA-RSP (Response) message to the mobile station; (c) the mobile station sending a DSA-ACK (Acknowledgement) to the base station; And (d) the base station assigning polling for the rtPS data to be transmitted by the mobile station; Method of transmitting using the rtPS service flow in an uplink situation of a wireless communication system comprising a. The method of claim 13, In the step (a), by using the rtPS service flow in an uplink situation of a wireless communication system, the hierarchical coding scheme is applied by defining a value of a service flow scheduling type among QoS parameters as a specific value. Way. The method of claim 13, In the step (a), by defining a value of Traffic Priority among the QoS parameters as different values for the base layer and the senior layer, the wireless communication system distinguishes the bitstreams of the base layer and the senior layer from each other. Method of transmitting using the rtPS service flow in the uplink situation of the. The method of claim 13, (e) the mobile station notifying the base station of a required bandwidth through a bandwidth request header; (f) the base station notifying the mobile station of which subframe is transmitted in the transmission frame through an uplink (UL) -MAP IE; The transmission method using the rtPS service flow in an uplink situation of a wireless communication system, further comprising a.

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