KR102077784B1 - Methods for processing a buffer status report for next-generation mobile communication And Apparatuses thereof - Google Patents

Abstract

The present disclosure relates to a technology for transmitting and receiving a buffer status report in a new radio access network (NR). According to an embodiment of the present invention, a method of transmitting a buffer status report (BSR) by a terminal and monitoring a trigger of a regular buffer status report (Regular BSR) or a periodic buffer status report (Periodic BSR) and at least one logic If there is available data for uplink transmission in the Logical Channel Group (LCG), determining the buffer status reporting format as Long BSR, and if the regular buffer status report or periodic buffer status report is triggered, the Long BSR The present invention provides a method and apparatus comprising transmitting a buffer status report for all logical channel groups having data available for uplink transmission in a format to a base station.

Description

Method for processing a buffer status report for next-generation mobile communication and its device {Methods for processing a buffer status report for next-generation mobile communication And Apparatuses

The present disclosure relates to a technology for transmitting and receiving a buffer status report in a new radio access network (NR). More particularly, the present invention relates to a method and apparatus for efficiently transmitting a buffer status report for a plurality of logical channel groups to a base station.

3GPP recently approved a study item "Study on New Radio Access Technology" for the study of next-generation / 5G radio access technology, and based on this, the RAN WG1 frame structure, channel coding and modulation for NR (New Radio) respectively. Discussions are being made on waveforms and multiple access schemes. NR is required to be designed to meet various requirements required for each segmented and detailed usage scenario as well as improved data rate in preparation for LTE / LTE-Advanced.

As representative usage scenarios for NR, enhancement Mobile BroadBand (eMBB), massive machine type communication (MMTC), and Ultra Reliable and Low Latency Communications (URLLC) have been raised, and LTE / LTE-Advanced preparation to meet the needs of each usage scenario. Flexible frame structure design is required.

As such, NR needs to provide services such as eMBB, mMTC, which require high-speed, high-capacity data processing, and URLLC, which requires high-speed data processing, and requires efficient scheduling considering various traffic types.

However, in the prior art, only the information on the buffer status for four logical channel groups can be transmitted in the buffer status report, which effectively limits scheduling. In order to solve this problem, when the buffer status report is transmitted by simply increasing the number of logical channel groups, the overhead of the entire system is increased, resulting in a waste of radio resources.

Therefore, for efficient scheduling, it is necessary to develop a technique for transmitting buffer status information for a plurality of logical channel groups at once, but minimizing overhead.

In the foregoing background, the present disclosure proposes a method and apparatus for transmitting a buffer status report for a plurality of logical channel groups while minimizing an increase in radio resource overhead.

In order to solve the above problems, an embodiment of the present invention provides a method of transmitting a buffer status report (Buffer Status Report (BSR)) of a regular buffer status report (Regular BSR) or periodic buffer status report (Periodic BSR) Monitoring the trigger, and if there is available data for uplink transmission in one or more Logical Channel Groups (LCGs), determining the buffer status reporting format as Long BSR, and reporting regular buffer status or periodically When the buffer status report is triggered, the method includes transmitting a buffer status report for all logical channel groups having data available for uplink transmission configured in a long BSR format to a base station.

In addition, according to an embodiment of the present invention, a base station receives a buffer status report (BSR) for uplink transmission configured in a long BSR format according to a trigger of a regular buffer status report or a periodic buffer status report of a terminal. Receiving a buffer status report for all logical channel groups (LCGs) having available data and verifying buffer size information for each logical channel group based on the buffer status report. to provide.

In addition, an embodiment monitors a trigger of a regular BSR or a periodic BSR in a terminal transmitting a buffer status report (BSR) and at least one logical channel group. If there is available data for uplink transmission in the (Logical Channel Group, LCG), the controller determines the buffer status reporting format as the Long BSR, and when the regular buffer status report or the periodic buffer status report is triggered, the long BSR format is used. Provided is a terminal apparatus including a transmitter for transmitting a buffer status report for all logical channel groups having data available for uplink transmission to a base station.

In addition, an embodiment is available for uplink transmission configured in a long BSR format according to a trigger of a regular buffer status report or a periodic buffer status report of a terminal in a base station receiving a buffer status report (BSR). Provides a base station apparatus including a receiver for receiving a buffer status report for all logical channel groups (LCG) having data and a controller for checking buffer size information for each logical channel group of the terminal based on the buffer status report do.

According to the present embodiments, a buffer status report is transmitted for a plurality of logical channel groups, and the base station can efficiently perform uplink resource allocation by minimizing radio resource overhead.

1 is a diagram illustrating an example of a layer 2 structure for a new radio access technology (New RAT).
2 illustrates a Short BSR format according to the prior art.
3 is a diagram illustrating a Long BSR format according to the prior art.
4 is a diagram illustrating an operation of a terminal according to an exemplary embodiment.
5 is a diagram for describing an operation of a base station according to an exemplary embodiment.
6 is a diagram illustrating a Long BSR format according to an embodiment.
7 is a diagram illustrating a Long BSR format according to another embodiment by way of example.
8 exemplarily illustrates a Long BSR format according to another embodiment.
9 is a diagram illustrating a table for generating index information included in a buffer size field according to an embodiment.
FIG. 10 is a diagram illustrating a Short BSR format set to a designated size according to an embodiment.
FIG. 11 is a diagram illustrating a Long BSR format set to a designated size according to an embodiment.
12 is a diagram illustrating a BSR format for designating a number of logical channel groups through a BSR according to an embodiment.
FIG. 13 is a diagram illustrating a BSR format using an extension field according to an embodiment.
14 is a diagram illustrating a terminal configuration according to an embodiment.
15 illustrates a configuration of a base station according to an embodiment.

Hereinafter, some embodiments of the present invention will be described in detail through exemplary drawings. In adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are used to refer to the same components as much as possible, even if displayed on different drawings. In addition, in describing the present invention, if it is determined that the detailed description of the related well-known configuration or function may obscure the gist of the present invention, the detailed description thereof will be omitted.

In the present specification, the wireless communication system refers to a system for providing various communication services such as voice and packet data. The wireless communication system includes a user equipment (UE) and a base station (BS).

A user terminal is a comprehensive concept of a terminal in a wireless communication, and includes a user equipment (UE) in WCDMA, LTE, HSPA, and IMT-2020 (5G or New Radio), as well as a mobile station (MS) and a UT in GSM. It should be interpreted as a concept that includes a user terminal, a subscriber station (SS), and a wireless device.

A base station or cell generally refers to a station for communicating with a user terminal, and includes a Node-B, an evolved Node-B, an eNB, a gNode-B, and a Low Power Node. ), Sector, site, various types of antenna, base transceiver system (BTS), access point, access point (for example, transmission point, reception point, transmission / reception point), relay node ( It is meant to encompass various coverage areas such as relay nodes, mega cells, macro cells, micro cells, pico cells, femto cells, remote radio heads (RRHs), radio units (RUs), and small cells.

Since the various cells listed above have a base station for controlling each cell, the base station may be interpreted in two meanings. 1) the device providing the mega cell, the macro cell, the micro cell, the pico cell, the femto cell, the small cell in relation to the radio area, or 2) the radio area itself. In 1) all devices that provide a given wireless area are controlled by the same entity or interact with each other to cooperatively configure the wireless area to the base station. According to the configuration of the wireless area, a point, a transmission point, a transmission point, a reception point, and the like become one embodiment of a base station. In 2), the base station may indicate the radio area itself that receives or transmits a signal from a viewpoint of a user terminal or a neighboring base station.

In the present specification, a cell refers to a component carrier having coverage of a signal transmitted from a transmission / reception point or a signal transmitted from a transmission point or a transmission / reception point, and the transmission / reception point itself. Can be.

In the present specification, the user terminal and the base station are used in a comprehensive sense as two entities (uplink or downlink) transmitting and receiving subjects used to implement the technology or technical idea described in the present invention, and are not limited by the terms or words specifically referred to. Do not.

Here, the uplink (Uplink, UL, or uplink) refers to a method for transmitting and receiving data to the base station by the user terminal, the downlink (Downlink, DL, or downlink) means to transmit and receive data to the user terminal by the base station It means the way.

The uplink transmission and the downlink transmission may use a time division duplex (TDD) scheme that is transmitted using different times, and a frequency division duplex (FDD) scheme, a TDD scheme and a FDD scheme, which are transmitted using different frequencies. Mixed mode may be used.

In addition, in a wireless communication system, uplink and downlink are configured based on one carrier or a pair of carriers to configure a standard.

The uplink and the downlink transmit control information through a control channel such as a physical downlink control channel (PDCCH), a physical uplink control channel (PUCCH), a physical downlink shared channel (PDSCH), a physical uplink shared channel (PUSCH), and the like. It is composed of the same data channel to transmit data.

Downlink (downlink) may mean a communication or communication path from the multiple transmission and reception points to the terminal, uplink (uplink) may mean a communication or communication path from the terminal to the multiple transmission and reception points. In this case, in the downlink, the transmitter may be part of multiple transmission / reception points, and the receiver may be part of the terminal. In addition, in uplink, a transmitter may be part of a terminal, and a receiver may be part of multiple transmission / reception points.

Hereinafter, a situation in which a signal is transmitted and received through a channel such as a PUCCH, a PUSCH, a PDCCH, and a PDSCH may be described in the form of 'sending and receiving a PUCCH, a PUSCH, a PDCCH, and a PDSCH.'

Meanwhile, high layer signaling described below includes RRC signaling for transmitting RRC information including an RRC parameter.

The base station performs downlink transmission to the terminals. The base station transmits downlink control information such as scheduling required for reception of a downlink data channel, which is a main physical channel for unicast transmission, and a physical downlink for transmitting scheduling grant information for transmission on an uplink data channel. The control channel can be transmitted. Hereinafter, the transmission and reception of signals through each channel will be described in the form of transmission and reception of the corresponding channel.

There is no limitation on the multiple access scheme applied in the wireless communication system. Time Division Multiple Access (TDMA), Frequency Division Multiple Access (FDMA), Code Division Multiple Access (CDMA), Orthogonal Frequency Division Multiple Access (OFDMA), Non-Orthogonal Multiple Access (NOMA), OFDM-TDMA, OFDM-FDMA, Various multiple access techniques such as OFDM-CDMA can be used. Here, the NOMA includes a sparse code multiple access (SCMA) and a low density spreading (LDS).

One embodiment of the present invention is for asynchronous radio communication evolving to LTE / LTE-Advanced, IMT-2020 via GSM, WCDMA, HSPA, and synchronous radio communication evolving to CDMA, CDMA-2000 and UMB. Can be applied.

In the present specification, a MTC terminal may mean a terminal supporting low cost (or low complexity) or a terminal supporting coverage enhancement. Alternatively, in the present specification, the MTC terminal may mean a terminal defined in a specific category for supporting low cost (or low complexity) and / or coverage enhancement.

In other words, in the present specification, the MTC terminal may mean a newly defined 3GPP Release-13 low cost (or low complexity) UE category / type for performing LTE-based MTC related operations. Alternatively, in the present specification, the MTC terminal supports enhanced coverage compared to the existing LTE coverage, or UE category / type defined in the existing 3GPP Release-12 or less, or newly defined Release-13 low cost (or supporting low power consumption). low complexity) can mean UE category / type. Or, it may mean a further Enhanced MTC terminal defined in Release-14.

In the present specification, a NB-IoT (NarrowBand Internet of Things) terminal refers to a terminal that supports radio access for cellular IoT. The objectives of the NB-IoT technology include improved indoor coverage, support for large scale low speed terminals, low sensitivity, low cost terminal cost, low power consumption, and optimized network architecture.

As a typical usage scenario in New Radio (NR), which is recently discussed in 3GPP, enhanced Mobile BroadBand (eMBB), Massive Machine Type Communication (MMTC), and Ultra Reliable and Low Latency Communication (URLLC) are being raised.

In this specification, frequencies, frames, subframes, resources, resource blocks, regions, bands, subbands, control channels, data channels, synchronization signals, various reference signals, various signals, and various messages related to NR (New Radio). May be interpreted as meaning used in the past or present, or various meanings used in the future.

For example, in the present specification, LTE and NR mean different radio access technologies, and a new radio access technology under discussion in Release-15 of 3GPP will be described using NR. NR may include various differences from LTE to other frame structures, channels, and core network technologies, and may add various functions for high-bandwidth wireless transmission, high speed, and large data transmission.

Hereinafter, for convenience of understanding, a conventional radio access technology will be described in LTE, and a new radio access technology discussed in 3GPP will be described in NR. In addition, the base station may be an eNB using the LTE technology, may be a gNB using the NR technology, and will be described separately as necessary.

In addition, a cell in the present specification is used as a term encompassing a radio path, a radio link, a carrier, and the like for transmitting data, and one base station can transmit and receive data through a plurality of cells. Alternatively, the terminal may transmit and receive data using a plurality of cells through a cell controlled by two base stations. As will be described below, the description will be made by describing carrier aggregation when one base station controls a plurality of cells, and described as dual connectivity when using a plurality of cells controlled by two or more base stations.

NR (New Radio)

3GPP is working on a next generation / 5G radio access technology (hereinafter referred to as NR for convenience of explanation). NR provides a new AS sublayer on top of PDCP to provide flow-based QoS.

1 is a diagram illustrating an example of a layer 2 structure for a new radio access technology (New RAT).

As shown in FIG. 1, the main services and functions of the new AS sublayer are as follows.

-Mapping between a QoS flow and a data radio bearer;

Marking QoS flow ID in both DL and UL packets.

In addition, the new user plane protocol layer can be applied to the connection to the next generation core. The new user plane protocol layer is applicable for connections to the NextGen Core.A single protocol entity of the new user plane protocol layer is configured for each individual PDU session.).

Buffer status reporting procedure

The buffer status reporting procedure is a procedure used to provide the serving base station with information about data available for transmission in uplink (UL) buffers associated with the MAC entity. RRC objects are three timers (e.g., periodicBSR -Timer, retxBSR-Timer and logicalChannelSR - ProhibitTimer) a configuration, via signaling to assign the logical channel to logical channel group for each logical channel buffer status report (Buffer Control Status Repot (BSR) transmission.

The buffer status report should be triggered when the following event occurs:

Uplink data is available for one logical channel belonging to one logical channel group (LCG) for transmission from a Radio Link Control (RLC) entity or a Packet Data Convergence Protocol (PDCP) entity. Lose. And that the data belongs to one logical channel group belonging to any logical channel group and having a higher priority than the priority of the logical channels for the already available data, or among the logical channels belonging to one logical channel group. No data is available for anything. In this case, buffer status reporting is called “regular BSR” (UL data, for a logical channel which belongs to a LCG, becomes available for transmission in the RLC entity or in the PDCP entity (the definition of what data shall be considered as available for transmission is specified in [3] and [4] respectively) and either the data belongs to a logical channel with higher priority than the priorities of the logical channels which belong to any LCG and for which data is already available for transmission, or there is no data available for transmission for any of the logical channels which belong to a LCG, in which case the BSR is referred below to as "Regular BSR)

-When uplink resources are allocated and the number of padding bits is equal to or larger than the size of the MAC control element plus its subheader, the buffer status report is called "padding BSR."

The buffer status report when the retransmission BSR timer (retxBSR-Timer) expires and the terminal has available data for transmission to any of the logical channels belonging to the LCG is also referred to as a "regular BSR".

-The buffer status report when the periodic BSR-Timer expires is called "Periodic BSR".

In addition, the buffer status report together with the above-described classification according to the BSR trigger type may be classified into short BSR, Truncated BSR and Long BSR according to the format.

2 is a diagram illustrating a short BSR format according to the prior art, and FIG. 3 is a diagram showing a long BSR format according to the prior art.

For Regular BSR and Periodic BSR, if one or more LCGs have data available for transmission in the Transmission Time Interval (TTI) where the BSR is transmitted, send a Long BSR (if more than one LCG has data available for transmission). in the TTI where the BSR is transmitted: report Long BSR). Otherwise, send a short BSR.

For a Padding BSR, the number of padding bits is equal to or greater than the Short BSR plus its subheader, but less than the Long BSR plus its subheader, and if more than one LCG is sent to the TTI to which the BSR is sent, If there is data available, transmit the Truncated BSR of the LCG with the highest priority logical channel with the available data for transmission (if the number of padding bits is equal to or larger than the size of the Short BSR plus its subheader but smaller than the size of the Long BSR plus its subheader: if more than one LCG has data available for transmission in the TTI where the BSR is transmitted: report Truncated BSR of the LCG with the highest priority logical channel with data available for transmission;). Otherwise, send a short BSR.

Otherwise, if the number of padding bits is equal to or greater than the length of the Long BSR plus the subheader, the Long BSR is transmitted.

As shown in FIG. 2, the short BSR and the truncated BSR include logical channel group ID information and buffer size information. As shown in FIG. 3, the Long BSR sequentially includes buffer size information for four LCGs.

The BSR is transmitted to a MAC Control Element (MAC CE), and one MAC Protocol Data Unit (PDU) may include at most one MAC BSR control element.

If one BSR is included in one MAC PDU for transmission, all triggered BSRs are canceled.

The MAC entity should transmit at most one Regular / Periodic BSR within one Transmission Time Interval (TTI).

All BSRs sent in one TTI always indicate the buffer status after all MAC PDUs have been created for this TTI. Each logical channel group must transmit at most one buffer status value per TTI. This value must be transmitted in all BSRs that carry the buffer status for this logical channel group.

Available Amount of data (data available for transmission or data volume)

For the purpose of reporting the buffer status of the MAC layer, the UE should consider the following as the amount of data available in the RLC layer.

RLC SDUs, or segments, not yet contained within the RLC data PDU

RLC data PDUs pending for retransmission (RLC AM)

RLC data PDUs pending for initial transmission

For the purpose of reporting the buffer status of the MAC layer, the UE shall consider PDCP control PDUs and the following as the amount of data available in the PDCP layer.

For SDUs with no PDUs submitted to lower layers,

If there is an SDU that has not yet been processed by PDCP, the SDU itself

PDU if there is an SDU processed by PDCP

Except for SDUs that indicate successful delivery by the PDCP status report, start with the first SDU for delivery of those PDUs not identified by the lower layer, and then submit those PDUs to the lower layer just prior to PDCP reset. For SDUs,

If there is an SDU that has not yet been processed by PDCP, the SDU itself

PDU if there is an SDU processed by PDCP

As described above, two types of BSR formats (Short BSR and Long BSR) are supported in the conventional LTE technology. Only 4 logical channel groups could be included for Long BSR. In addition to the eMBB service, NR can provide services such as massive MTC service or URLLC service, and efficient scheduling considering various traffic types can be considered. To support this, it is necessary to increase the number of LCGs currently limited to four. However, in this case, the overhead for transmitting the buffer status report for the increased LCG could be increased.

The present disclosure devised to solve this problem is to provide a method and apparatus for providing an efficient buffer status report transmission for the case of increasing the number of LCGs currently limited to four.

Meanwhile, the present disclosure may be applied to any radio access (eg, LTE) network / terminal as well as next generation mobile communication (5G mobile / NR) terminal. For convenience of description, the base station may refer to an eNodeB and an LTE base station of the LTE / E-UTRAN, NR node, gNB, and gNB-CU in a 5G wireless network in which a central unit (CU) and a distribution unit (DU) are separated. , gNB-DU, or may represent a gNodeB, an NR base station in which a CU and a DU are implemented as one logical entity. Hereinafter, for convenience of description, the base station is represented, but all the aforementioned entities may be included in the scope of the term.

Hereinafter, various BSR formats for transmitting buffer status reports for more than four logical channel groups in one BSR in order to transmit efficient buffer status information will be described with reference to each embodiment. For convenience of explanation, the case where there are eight logical channel groups will be described as an example. However, the number of logical channel groups is not limited thereto. In addition, in the following embodiments, the BSR format for dividing the buffer size in logical channel group units is illustrated, but the BSR format for dividing the buffer size in logical channel units is included in the scope of the present disclosure.

In addition, although the subject for transmitting the buffer status report in the present specification is described as an example, at least one of trigger monitoring, BSR format determination, and transmission of the buffer status report may be performed in the MAC entity of the terminal. Therefore, the terminal in the following should be interpreted as meaning including the MAC entity of the terminal, it may be interpreted as a MAC entity, MAC layer and the like.

Each embodiment described below may be applied individually or used in combination with each other.

First embodiment: A method of indicating a BSR by defining a field indicating whether each logical channel group is included.

4 is a diagram illustrating an operation of a terminal according to an exemplary embodiment.

Referring to FIG. 4, a terminal (or MAC entity of a terminal, denoted as a terminal for convenience of description, but may mean a MAC entity of a terminal processing a BSR operation) may be a regular buffer status report (Regular BSR) or Monitoring of the trigger of the periodic buffer status report (Periodic BSR) may be performed (S410). For example, the terminal may monitor whether the trigger status report triggers. As described above, the UE configures three timers (for example, periodicBSR-Timer, retxBSR-Timer and logicalChannelSR-ProhibitTimer) and monitors whether or not the trigger is performed using a periodic BSR timer and a retransmission BSR timer. In addition, by monitoring the occurrence of the BSR event described above, it is possible to determine whether the buffer status report is triggered and whether the buffer status report to be transmitted is a regular buffer status report or a periodic buffer status report. In addition, the UE may monitor the padding BSR as needed.

When there is available data for uplink transmission in one or more logical channel groups (LCGs), the terminal may perform the step of determining the buffer status report format as Long BSR (S420). The terminal may determine the BSR format for the buffer status report. For example, when there is data available for uplink transmission in one or more logical channel groups in one transmission time unit (TTI), the terminal may determine a BSR format as a long BSR to transmit it. The above-described transmission time unit (TTI) may mean any physical layer transmission time unit defined in NR. For example, one subframe, one slot, one minislot, n minislot, nslot, nsymbol (where n is a natural number) may be configured in the terminal through an RRC message by the base station. For another example, when the BSR is transmitted, the UE may determine the BSR format as Long BSR to transmit the available data for uplink transmission in one or more logical channel groups. For another example, when the BSR is triggered, when the available data for uplink transmission exists in one or more logical channel groups, the terminal may determine the BSR format as a long BSR to transmit the same.

Thereafter, when the regular buffer status report or the periodic buffer status report is triggered, the UE may perform a step of transmitting a buffer status report for all logical channel groups having data available for uplink transmission configured in a long BSR format to the base station. It may be (S430). When there is data available for uplink transmission in one or more logical channel groups when a BSR is transmitted, the base station reports buffer status reports for all logical channel groups with data available for regular buffer status reporting or periodic buffer status reporting. To send.

For example, the terminal may inform the base station of the buffer status information of the terminal by transmitting a buffer status report of the Long BSR format to the base station in a regular BSR or a periodic BSR.

For example, a buffer status report configured in a long BSR format may include a logical channel group indication field and a buffer size field. In this case, the logical channel group indication field includes information indicating whether a buffer size field exists for each logical channel group in the buffer status report. In addition, the logical channel group indication field may consist of an 8-bit bitmap to indicate whether a buffer size field exists for each logical channel group.

In addition, the logical channel group indication field indicates whether a buffer size field exists for each logical channel group for eight logical channel groups, but the buffer size field indicates only the buffer size information for the logical channel group having available data in ascending order. May include according to.

The buffer size field is composed of 8 bits for each logical channel group, and includes index information set according to buffer size information of each logical channel group. The index information is mapped according to a range of buffer size information and determined according to a preset table. Can be.

As described above, in order to minimize the overhead when the UE sets the long BSR format to transmit the buffer status report including buffer status information of all logical channel groups in which data is available, the logical channel group indication field and The Long BSR format may be configured by including a buffer size field in which buffer status information exists.

5 is a diagram illustrating an operation of a base station according to an embodiment.

Referring to FIG. 5, the base station according to a trigger of a regular buffer status report or a periodic buffer status report of a terminal, all logical channel groups (LCGs) having data available for uplink transmission configured in a long BSR format. Receiving a buffer status report for may be performed (S510).

For example, a buffer status report configured in a long BSR format may include a logical channel group indication field and a buffer size field. In this case, the logical channel group indication field includes information indicating whether a buffer size field exists for each logical channel group in the buffer status report. In addition, the logical channel group indication field may consist of an 8-bit bitmap to indicate whether a buffer size field exists for each logical channel group.

In addition, the logical channel group indication field indicates whether a buffer size field exists for each logical channel group for eight logical channel groups, but the buffer size field indicates only the buffer size information for the logical channel group having available data in ascending order. May include according to.

The buffer size field is composed of 8 bits for each logical channel group, and includes index information set according to buffer size information of each logical channel group. The index information is mapped according to a range of buffer size information and determined according to a preset table. Can be.

As such, the base station may receive from the terminal a buffer status report in Long BSR format including a logical channel group indication field and a buffer size field in which buffer status information exists.

The base station may perform the step of checking buffer size information for each logical channel group of the terminal based on the buffer status report (S520). For example, the base station can check the information of the logical channel group indication field included in the buffer status report, and can check the information of the logical channel group including the buffer status information. In addition, the base station may obtain information about the buffer size for each logical channel group through the information in the buffer size field.

The base station may set uplink radio resources of the terminal using the obtained buffer state information and transmit the uplink radio resource to the terminal.

Hereinafter, the Long BSR format according to the above-described operations of the terminal and the base station will be described in more detail with reference to the accompanying drawings.

As described above, the terminal may determine the format of the buffer status report in the Long BSR format. In this case, the long BSR format may include a logical channel group indication field and a buffer size field.

For example, if a UE has data available for transmission in a TTI to which a buffer status report is transmitted, the UE includes a logical channel group indication field indicating whether to include each logical channel group. Report can be sent.

In another example, the UE reports a buffer status to a TTI to which a BSR is transmitted, including a logical channel group indication field indicating whether to include each logical channel group if one or more LCGs have data available for transmission. Can transmit

6 is a diagram illustrating a Long BSR format according to an embodiment.

Referring to FIG. 6, the long BSR format may include a logical channel group indication field 610 and buffer size fields 620 and 630. As described above, the logical channel group indication field 610 may indicate whether the buffer status report includes buffer size information for the logical channel group.

For example, the logical channel group indication field 610 and the buffer size fields 620 and 630 may be composed of 8 bits, respectively, and the logical channel group indication field 610 is available as 1 bit for each logical channel group. The case with and without uplink data may be set to 1 and 0 (or 0 and 1). For example, 1 indicates that buffer size information for the logical channel group is reported, and 0 indicates that buffer size information for the logical channel group is not reported. That is, when the value of the logical channel group indication field 610 is set to "01010100", it may indicate that buffer size information for logical channel groups 2, 4, and 6 is included in the corresponding buffer status report.

Through this, it is possible to inform the base station whether there are available uplink data for each of the eight logical channel groups through eight bits.

The buffer size field is composed of 8 bits and may include buffer size information for up to eight logical channel groups.

7 is a diagram illustrating a Long BSR format according to another embodiment by way of example.

Referring to FIG. 7, the logical channel group index of the logical channel group indication field may be set to be included in ascending order unlike FIG. 6. Therefore, in this case, when the value of the logical channel group indication field is set to "01010100", it may indicate that buffer size information for logical channel groups 1, 3, and 5 is included in the corresponding buffer status report unlike FIG. .

8 exemplarily illustrates a Long BSR format according to another embodiment.

Referring to FIG. 8, the long BSR may include a logical channel group indication field and a buffer size (B / S) field indicating whether to include each logical channel group. The buffer size field may also consist of 8 bits, and may include only buffer size information for the logical channel group indicated in the logical channel group indication field.

For example, the buffer size field may include only a buffer size of available uplink data of a logical channel group having available uplink data. For example, as shown in FIG. 6, when eight bits of the logical channel group indication field are "01010100" (when the second, fourth, and sixth logical channel groups have available uplink data), the second, Only the buffer size of each of the fourth and sixth logical channel groups may be included. In this case, the buffer size field may be included according to ascending priority. For example, as shown in FIG. 8, buffer size information for the second and fourth sixth logical channel groups may be sequentially included. Alternatively, the buffer size field may be included in the same order as the logical channel group indication field. For example, buffer size information for the sixth, fourth, and second logical channel groups may be sequentially included.

As another example, the buffer size field may include a buffer size of available uplink data of all logical channel groups.

As another example, the buffer size of the data included in the logical channel group may be included according to the priority.

Meanwhile, the value included in the buffer size field may be index information corresponding to buffer size information of each logical channel group. 9 is a diagram illustrating a table for generating index information included in a buffer size field according to an embodiment.

Referring to FIG. 9, the buffer size field may include buffer size information of each logical channel group by converting the buffer size information into index information using a preset table. For example, when the buffer size value of the specific logical channel group is 120, the terminal may include 41, which is an index value corresponding to the corresponding buffer size value (BS value), in the corresponding buffer size field. Through this, the UE can deliver buffer size information of various sizes using an 8-bit buffer size field.

The preset table may be configured in advance by the terminal and the base station to check the range of the buffer size information through the index information. Through this, the base station may allocate an uplink radio resource corresponding to the corresponding buffer size information to the terminal.

The above-described table is an example, and table values may be changed according to a setting.

As described above, the terminal transmits buffer size information for eight logical channel groups to a base station using one long BSR format, thereby minimizing radio resource overhead and providing buffer size information for multiple logical channel groups. This enables fast and efficient radio resource scheduling.

Second Embodiment: Short BSR , Long On BSR  Plus additional with specified size BSR  How to use the format

FIG. 10 is a diagram illustrating a Short BSR format set to a designated size according to an embodiment, and FIG. 11 is a diagram illustrating a Long BSR format set to a designated size according to an embodiment.

For example, if one LCG has data available for transmission, the UE may transmit a short BSR as shown in FIG. 10 in the TTI in which the BSR is transmitted.

For another example, the UE may transmit Long BSR as shown in FIG. 11 if one or more LCGs have available data for transmission in the TTI in which the BSR is transmitted.

For another example, the UE may report a long BSR as shown in FIG. 11 if one or more LCGs have available data for transmission to the TTI in which the BSR is transmitted.

For another example, the UE may transmit a BSR having a specific size if the one or more LCGs have available data for transmission in the TTI in which the BSR is transmitted. The BSR may include one or more fields of a Logical Channel Group ID (LCG ID) field and a Buffer Size field. The above-described specific size may indicate the number of logical channel groups having available uplink data included in the BSR. This may be indicated to the terminal by the base station. For example, it may be indicated to the terminal through RRC signaling. For another example, the terminal may be instructed through the MAC CE, and a LCID (Logical Channel ID) for the MAC CE may be designated.

As another example, a BSR with a specified size can be defined and used as a Truncated BSR. Alternatively, a BSR with a specified size can be used as a new BSR that is distinguished from a Truncated BSR.

Here, the buffer size field indicates the total amount of data available through one logical channel group after all MAC PDUs are created in the corresponding TTI. The data amount is indicated by the number of bytes. This may include all data available for transmission at the RLC layer and PDCP layer (or RLC layer, PDCP layer, and New AS sublayer) (the Buffer Size field identifies the total amount of data available across all logical channels of a logical channel group after all MAC PDUs for the TTI have been built.The amount of data is indicated in number of bytes.It shall include all data that is available for transmission in the RLC layer and in the PDCP layer). As an example, the RLC and MAC headers are not considered in calculating the buffer size. As another example, the MAC header is not considered in the buffer size calculation, but the RLC header may be considered (included) in the buffer size calculation. This is because the RLC header can be made through preprocessing by removing the concatenation function from the RLC layer, so it may be desirable to include it in the calculation for accurate buffer size calculation. The above definition of the buffer size field may be applied to other embodiments. As another example, the MAC header and the RLC header may be considered (included) in calculating the buffer size. This is possible when considering new header processing different from LTE.

Third embodiment: the number of logical channel groups with available data for transmission BSR  How to instruct

12 is a diagram illustrating a BSR format for designating a number of logical channel groups through a BSR according to an embodiment.

For example, if one LCG has data available for transmission, the UE may transmit a BSR including the number of logical channel groups in the TTI in which the BSR is transmitted.

For another example, the UE may transmit the BSR including the number of logical channel groups if one or more LCGs have available data for transmission in the TTI in which the BSR is transmitted.

The BSR is the number of logical channel groups having available data for transmission (denoted by the length of FIG. 12, which is for convenience of explanation, other terms may be used), and the logical channel group ID (LCG ID) field. It can have a buffer size field. The above specific size indicates the number of logical channel groups included in the BSR.

If there are eight (all) LCGs having data available for transmission, the LCG ID field may be omitted and the buffer status report may be generated only with the buffer size field.

Fourth Embodiment: Method for Indicating Total Buffer Size of Logical Channel Group With Available Data for Transmission

For example, the UE reports the BSR by adding the buffer sizes of the entire logical channel group having the available data for transmission to the TTI to which the BSR is transmitted, if one or more LCGs have available data for transmission. can do.

That is, the terminal may transmit the buffer status report to the base station by including information on all available data as one buffer size information, rather than dividing the buffer size information for each logical channel group.

Fifth Embodiment: Method of Indicating Buffer Size That Sums Available Data for Transfer of Remaining Logical Channel Group

For example, if one or more LCGs have available data for transmission in the TTI to which the BSR is transmitted, the UE may include a logical channel group ID for the LCG having the highest priority and a buffer size for the LCG ID. The BSR may indicate the buffer size of the available data for the LCG ID with the available data for the rest of the transmission.

For another example, if the UE has one or more LCGs available for transmission in the TTI to which the BSR is transmitted, the UE sends a logical channel group ID for the specific number of LCGs, a buffer size for the LCG ID, and the remaining transmissions. The BSR may indicate the buffer size of the available data for the LCG ID having the available data. In this case, logical channel group IDs for a specific number of LCGs may be included in order of priority. The specific number may be preconfigured in the terminal or indicated by the base station. For example, a specific number may be indicated to the terminal through RRC signaling. For another example, a specific number may be indicated to the terminal via the MAC CE, and LCID for the MAC CE may be specified. In another example, a specific number may be included in the BSR and transmitted.

Embodiment 6: By defining an extension field On BSR  How to indicate if there is a logical channel to be added

For example, the UE may transmit an BSR by defining an extension field if one LCG has data available for transmission in a TTI in which the BSR is transmitted.

For another example, the UE may transmit an BSR by defining an extension field if one or more LCGs have available data for transmission in the TTI in which the BSR is transmitted.

The BSR may include a buffer size for each logical channel group according to the priority of the logical channel group having the available data for transmission. The BSR may include information of one or more of an LCG ID field, a buffer size field, and an extension field.

The extended field is a flag (1 and 0 (or 0 and 1) to indicate whether there is an additional logical channel group with available data after that logical channel group (if more LCG (s) is / are present). Indicates the field).

For convenience of description, the corresponding field is indicated as an extension field (E in FIG. 13). This is merely for convenience of description and may use any other name.

FIG. 13 is a diagram illustrating a BSR format using an extension field according to an embodiment.

Referring to FIG. 13, when the highest priority LCG ID is LCG ID 1, LCG ID 1 is included first. In the case where there is data available for LCG ID 1 and LCG ID 2, the extended field indicates 1 that there is an additional logical channel group with available data. In FIG. 13, the first E is 1 and the second E is 1 third. E is set to zero.

Seventh Embodiment: Truncated On BSR  Plural LCG  How to Instruct

For a Padding BSR, the number of padding bits is equal to or greater than the Short BSR plus its subheader, but less than the Long BSR plus its subheader, and if one or more LCGs are sent for If there is data available, it transmits the Truncated BSR of the LCG with the highest priority logical channel with the data available for transmission. In the conventional LTE technology, the Padding BSR or Truncated BSR only transmits a buffer size for one logical channel having the highest priority. In NR, one or more LCG buffer sizes may be transmitted to a padding BSR or a truncated BSR. For example, the above-described methods may be used individually or in combination. As another example, buffer sizes may be transmitted in order of priority for as many logical channel groups as possible within the number of padding bits.

Eighth Embodiment: Integrated BSR  How to use the format

For example, one of the aforementioned methods may be used to perform buffer status transfer using one unified BSR format.

For another example, buffer status transmission may be performed using an integrated BSR format for a triggered BSR or a triggered logical channel group after defining a specific trigger criterion or according to an existing trigger criterion.

As described above, according to the present disclosure, the terminal may transmit buffer state information for the logical channel group of more than the number of logical channel groups transmitted in the related art to the base station while minimizing radio resource overhead.

The configuration of a terminal and a base station capable of performing some or all of the above described embodiments will be described once again with reference to the drawings.

14 is a diagram illustrating a terminal configuration according to an embodiment.

Referring to FIG. 14, the terminal 1400 monitors a trigger of a regular buffer status report (Regular BSR) or a periodic buffer status report (Periodic BSR), and transmits an uplink to at least one logical channel group (LCG). If there is available data for the controller, the control unit 1410 for determining the buffer status reporting format as the Long BSR, and when the regular buffer status reporting or the periodic buffer status reporting is triggered, available for uplink transmission configured in the Long BSR format. The transmitter 1420 may transmit a buffer status report for all logical channel groups having data to the base station.

The controller 1410 may monitor whether the buffer status report is triggered. In addition, the controller 1410 may configure three timers (for example, periodicBSR-Timer, retxBSR-Timer and logicalChannelSR-ProhibitTimer) and monitor whether or not the trigger is performed using a periodic BSR timer and a retransmission BSR timer. In addition, the controller 1410 may monitor whether the above-mentioned BSR event occurs to determine whether the buffer status report is triggered and whether the buffer status report to be transmitted is a regular buffer status report or a periodic buffer status report. In addition, the controller 1410 may monitor whether the padding BSR, if necessary.

Meanwhile, the controller 1410 may determine the BSR format for reporting the buffer status. For example, the controller 1410 may determine a BSR format as a long BSR in order to transmit data available for uplink transmission in one or more logical channel groups in one transmission time unit (TTI). .

For example, a buffer status report configured in a long BSR format may include a logical channel group indication field and a buffer size field. In this case, the logical channel group indication field includes information indicating whether a buffer size field exists for each logical channel group in the buffer status report. In addition, the logical channel group indication field may consist of an 8-bit bitmap to indicate whether a buffer size field exists for each logical channel group.

In addition, the logical channel group indication field indicates whether a buffer size field exists for each logical channel group for eight logical channel groups, but the buffer size field indicates only the buffer size information for the logical channel group having available data in ascending order. May include according to.

The buffer size field is composed of 8 bits for each logical channel group, and includes index information set according to buffer size information of each logical channel group. The index information is mapped according to a range of buffer size information and determined according to a preset table. Can be.

The transmitter 1420 may inform the base station of the buffer status information of the terminal by transmitting a long BSR format buffer status report to the base station in a regular BSR or a periodic BSR.

In addition, the controller 1410 determines the BSR format required to perform the above-described embodiments and controls the overall operation of the terminal 1400 according to the transmission of the BSR format to the base station.

In addition, the transmitter 1420 and the receiver 1430 are used to transmit and receive signals, messages, and data necessary for performing the above-described embodiments with the base station.

15 illustrates a configuration of a base station according to an embodiment.

Referring to FIG. 15, in response to a trigger of a regular buffer status report or a periodic buffer status report of a terminal, the base station 1500 includes all logical channel groups having data available for uplink transmission configured in a long BSR format. And a receiver 1510 for receiving a buffer status report for the LCG) and a controller 1520 for checking buffer size information for each logical channel group of the terminal based on the buffer status report.

As described above, the buffer status report configured in the Long BSR format may include a logical channel group indication field and a buffer size field. In this case, the logical channel group indication field includes information indicating whether a buffer size field exists for each logical channel group in the buffer status report. In addition, the logical channel group indication field may consist of an 8-bit bitmap to indicate whether a buffer size field exists for each logical channel group.

In addition, the logical channel group indication field indicates whether a buffer size field exists for each logical channel group for eight logical channel groups, but the buffer size field indicates only the buffer size information for the logical channel group having available data in ascending order. May include according to.

The buffer size field is composed of 8 bits for each logical channel group, and includes index information set according to buffer size information of each logical channel group. The index information is mapped according to a range of buffer size information and determined according to a preset table. Can be.

As such, the receiver 1510 may receive a buffer status report in a long BSR format including a logical channel group indication field and a buffer size field in which buffer status information exists.

The controller 1520 may check the information of the logical channel group indication field included in the buffer status report and check the information of the logical channel group including the buffer status information. In addition, the base station may obtain information about the buffer size for each logical channel group through the information in the buffer size field.

Meanwhile, the transmitter 1530 may transmit the uplink radio resource of the allocated terminal using the obtained buffer state information.

In addition, the receiver 1510 receives uplink control information, data, and a message from a terminal through a corresponding channel.

In addition, the controller 1520 controls the operation of the base station 1500 according to the BSR format setting for reporting the buffer state and the terminal setting for the next generation mobile communication network (NR) required to perform the above-described embodiments. .

The transmitter 1530 transmits downlink control information, data, and a message to a terminal through a corresponding channel.

The standard contents or standard documents mentioned in the above embodiments are omitted to simplify the description of the specification and form a part of the present specification. Therefore, the addition of the contents of the above standards and some of the standard documents to the specification or the claims should be construed as falling within the scope of the present invention.

The above description is merely illustrative of the technical spirit of the present disclosure, and those skilled in the art may make various modifications and changes without departing from the essential characteristics of the present disclosure. Therefore, the present embodiments are not intended to limit the technical idea, but to describe, and the scope of the technical idea of the present disclosure is not limited by these embodiments. The protection scope of the present disclosure should be interpreted by the following claims, and all technical ideas within the scope equivalent thereto shall be interpreted as being included in the scope of the present disclosure.

Claims (20)

In the method for the terminal to send a buffer status report (Buffer Status Report, BSR),
Monitoring a trigger of a regular buffer status report (Regular BSR) or periodic buffer status report (Periodic BSR) or padding buffer status report;
Determining buffer status report format when there is available data for uplink transmission in at least one Logical Channel Group (LCG); And
If the regular buffer status report or the periodic buffer status report is triggered, transmitting a buffer status report for all logical channel groups having data available for the uplink transmission configured in a long BSR format to a base station,
The determining of the buffer status report format may include:
When the number of padding bits according to data transmission using an uplink resource is greater than or equal to the sum of the size of the short BSR and the size of the short BSR subheader, and less than the sum of the size of the long BSR and the size of the long BSR subheader
If there is available data for uplink transmission in one or more logical channel groups, it triggers a Truncated BSR,
The step of transmitting the buffer status report to the base station,
If the Truncated BSR is triggered and available data for the uplink transmission exists in two or more logical channel groups, including the buffer status report for as many logical channel groups as possible within the number of padding bits in the Truncated BSR. Send,
The Truncated BSR including the buffer status report for the at least two logical channel groups includes a logical channel group indication field and a buffer size field.
The logical channel group indication field is
Indicates whether there is available data for each of the two or more logical channel groups,
The buffer size field is
And buffer size information for each logical channel group that may be included in priority order within the number of padding bits. The method of claim 1,
The buffer status report configured in the Long BSR format includes the logical channel group indication field and the buffer size field.
The logical channel group indication field indicates whether a buffer size field exists for each logical channel group in the buffer status report. The method of claim 2,
The logical channel group indication field is
8-bit bitmap, indicating whether a buffer size field exists for each logical channel group. The method of claim 2,
The logical channel group indication field is
Indicate whether a buffer size field exists for each logical channel group for eight logical channel groups, wherein the buffer size field includes only buffer size information for a logical channel group having available data in ascending order. How to. The method of claim 2,
The buffer size field is
Each of the logical channel group is composed of 8 bits, and includes index information set according to the buffer size information of each logical channel group,
And the index information is mapped according to a range of buffer size information and determined according to a preset table. In the method of receiving a buffer status report (Buffer Status Report, BSR),
Buffer for all Logical Channel Groups (LCGs) with data available for uplink transmission configured in Long BSR format according to the regular buffer status report or periodic buffer status report or padding buffer status report of UE. Receiving a status report; And
Confirming buffer size information for each logical channel group of the terminal based on the buffer status report;
The terminal,
When the number of padding bits according to data transmission using an uplink resource is greater than or equal to the sum of the size of the short BSR and the size of the short BSR subheader, and less than the sum of the size of the long BSR and the size of the long BSR subheader
If there is available data for uplink transmission in one or more logical channel groups, it triggers a Truncated BSR,
Receiving the buffer status report,
If the Truncated BSR is triggered and available data for the uplink transmission exists in two or more logical channel groups, including the buffer status report for as many logical channel groups as possible within the number of padding bits in the Truncated BSR. Receive,
The Truncated BSR including the buffer status report for the at least two logical channel groups includes a logical channel group indication field and a buffer size field.
The logical channel group indication field is
Indicates whether there is available data for each of the two or more logical channel groups,
The buffer size field is
And buffer size information for each logical channel group that may be included in priority order within the number of padding bits. The method of claim 6,
The buffer status report configured in the Long BSR format includes the logical channel group indication field and the buffer size field.
The logical channel group indication field indicates whether a buffer size field exists for each logical channel group in the buffer status report. The method of claim 7, wherein
The logical channel group indication field is
8-bit bitmap, indicating whether a buffer size field exists for each logical channel group. The method of claim 7, wherein
The logical channel group indication field is
Indicate whether a buffer size field exists for each logical channel group for eight logical channel groups, wherein the buffer size field includes only buffer size information for a logical channel group having available data in ascending order. How to. The method of claim 7, wherein
The buffer size field is
Each of the logical channel group is composed of 8 bits, and includes index information set according to the buffer size information of each logical channel group,
And the index information is mapped according to a range of buffer size information and determined according to a preset table. In the terminal for transmitting a Buffer Status Report (BSR),
Monitor triggers for Regular BSR or Periodic BSR or Padding Buffer Status reporting,
A control unit for determining a buffer status report format when available data for uplink transmission exists in at least one logical channel group (LCG); And
When the regular buffer status report or the periodic buffer status report is triggered, including a transmitter for transmitting a buffer status report for all logical channel groups having data available for the uplink transmission configured in Long BSR format to a base station,
The determining of the buffer status report format may include:
When the number of padding bits according to data transmission using an uplink resource is greater than or equal to the sum of the size of the short BSR and the size of the short BSR subheader, and less than the sum of the size of the long BSR and the size of the long BSR subheader
If there is available data for uplink transmission in one or more logical channel groups, it triggers a Truncated BSR,
The step of transmitting the buffer status report to the base station,
If the Truncated BSR is triggered and available data for the uplink transmission exists in two or more logical channel groups, including the buffer status report for as many logical channel groups as possible within the number of padding bits in the Truncated BSR. Send,
The Truncated BSR including the buffer status report for the at least two logical channel groups includes a logical channel group indication field and a buffer size field.
The logical channel group indication field is
Indicates whether there is available data for each of the two or more logical channel groups,
The buffer size field is
Terminal including buffer size information for each logical channel group that may be included in the order of priority within the number of padding bits. The method of claim 11,
The buffer status report configured in the Long BSR format includes the logical channel group indication field and the buffer size field.
The logical channel group indication field indicates whether a buffer size field exists for each logical channel group in the buffer status report. The method of claim 12,
The logical channel group indication field is
A terminal comprising an 8-bit bitmap to indicate whether a buffer size field exists for each logical channel group. The method of claim 12,
The logical channel group indication field is
Indicate whether a buffer size field exists for each logical channel group for eight logical channel groups, wherein the buffer size field includes only buffer size information for a logical channel group having available data in ascending order. Terminal. The method of claim 12,
The buffer size field is
Each of the logical channel group is composed of 8 bits, and includes index information set according to the buffer size information of each logical channel group,
And the index information is mapped according to a range of buffer size information and determined according to a preset table. In the base station receiving the Buffer Status Report (BSR),
Buffer for all Logical Channel Groups (LCGs) with data available for uplink transmission configured in Long BSR format according to the regular buffer status report or periodic buffer status report or padding buffer status report of UE. Receiving unit for receiving a status report; And
And a controller for checking buffer size information for each logical channel group of the terminal based on the buffer status report.
The terminal,
When the number of padding bits according to data transmission using an uplink resource is greater than or equal to the sum of the size of the short BSR and the size of the short BSR subheader, and is less than the sum of the size of the long BSR and the length of the long BSR subheader,
If there is available data for uplink transmission in one or more logical channel groups, it triggers a Truncated BSR,
Receiving the buffer status report,
If the Truncated BSR is triggered and available data for the uplink transmission exists in more than one logical channel group, including the buffer status report for as many logical channel groups as possible within the number of padding bits in the Truncated BSR. Receive,
The Truncated BSR including the buffer status report for the at least two logical channel groups includes a logical channel group indication field and a buffer size field.
The logical channel group indication field is
Indicates whether there is available data for each of the two or more logical channel groups,
The buffer size field is
And a buffer size information for each logical channel group that may be included in priority order within the number of padding bits. The method of claim 16,
The buffer status report configured in the Long BSR format includes the logical channel group indication field and the buffer size field.
The logical channel group indication field indicates whether a buffer size field exists for each logical channel group in the buffer status report. The method of claim 17,
The logical channel group indication field is
A base station comprising 8-bit bitmaps to indicate the presence or absence of a buffer size field for each logical channel group. The method of claim 17,
The logical channel group indication field is
Indicate whether a buffer size field exists for each logical channel group for eight logical channel groups, wherein the buffer size field includes only buffer size information for a logical channel group having available data in ascending order. Base station. The method of claim 17,
The buffer size field is
Each of the logical channel group is composed of 8 bits, and includes index information set according to the buffer size information of each logical channel group,
And the index information is mapped according to a range of buffer size information and determined according to a preset table.

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