JP6658784B2 - Buffer status report reporting method, acquisition method, terminal, base station, and communication system - Google Patents

Description

  The present invention relates to the field of communications, and more particularly, to a method for reporting a buffer status report (BSR) of a terminal, a method for acquiring a BSR in a base station, and related terminals, a base station, and a communication system.

  In the Long Term Evolution (LTE) project, which is a technology related to the Universal Mobile Telecommunications System (UMTS), in order to help a base station perform resource scheduling with higher efficiency, a terminal needs to have several services. It is necessary to report uplink scheduling information, for example, a terminal buffer status report, that is, a so-called BSR, to the base station.

  In LTE systems, BSR is used to indicate the amount of data (size) in the terminal buffer allowed by the terminal. According to the rules of the LTE project, the maximum buffer data amount that the terminal can support is 150K. In the LTE system, BSRs usually have three types: a long BSR, a shot BSR, and a shortened BSR. The long BSR may report the buffer status of four logic channel groups.

  In order to transmit the BSR between the base station and the terminal, both the base station and the terminal are provided with a BSR index table (also referred to as a “buffer status report table”). In the BSR index table, the section from 0 to 150K is divided into a plurality of small sections according to the method of Non-Patent Document 1 (3GPP RAN2 Document, R2-083101, “Buffer Size Levels for BSR in E-UTRA Uplink”). The index of each small section corresponds to one range of the data amount (size) in the buffer. Here, the entire contents of Non-Patent Document 1 are incorporated herein by reference. Therefore, the terminal and the base station can report and acquire the range of the data amount (size) in the buffer (that is, the BSR) by the method of transmitting the above-mentioned index.

  Specifically, the terminal finds an index from the BSR index table based on the amount of data (size) in its own buffer, and reports this index to the base station. Based on the BSR index table, a range of the data amount (size) in the buffer (ie, BSR) is obtained.

  The LTE project stipulates that the above-mentioned index be reported using a six-digit codeword. Therefore, in this case, according to the method of Non-Patent Document 1, the section from 0 to 150K is divided into 64 small sections, and the index of each small section and the range of the buffer data amount (size) corresponding thereto are set. , And a BSR index table can be formed.

  FIG. 10 shows an example of a BSR index table in a conventional LTE system. As can be clearly seen from FIG. 10, when the maximum buffer data amount in the buffer exceeds 150K, this BSR index table can only indicate that the current data amount has exceeded 150K, and is more specific. A numerical value or numerical value range cannot be specified.

  With the end of the LTE project, technology research and development for the fourth generation mobile communication system (LTE-Advanced; LTE-A) is now being performed. In the LTE-A system, there is a demand for a higher data rate, for example, a demand for a higher data rate of 1 Gbps for the downlink and 500 MGbps for the uplink.

  With the development of LTE-A technology and the further increase of data rate, the maximum amount of buffered data that a terminal can support can be well over 150K, for example, reaching 1200K or 1500K. In this way, the BSR index table in the conventional LTE technology can no longer support the maximum buffer data amount that the terminal can report. Therefore, the BSR index table needs to be improved to accommodate the new maximum buffer data amount.

  One solution is to increase the size of the BSR index table. For example, the index is represented by using a seven-digit codeword, and in this case, the number of sections in the BSR index table can reach 128.

  Another type of solution is to extend to the maximum amount of buffer data in the BSR index table. For example, in the technical proposal provided in Non-Patent Document 2 (3GPP RAN2 Document, R2-102987, “REL-10 BSR format and buffer size field”), the maximum buffer data amount in the conventional BSR index table is increased to 1200K or 1500K. Direct expansion is performed, and then a plurality of small sections are divided in the range from 0 to 1200K or from 0 to 1500K by the method of Non-Patent Document 1. FIG. 11 shows a BSR index table according to the technical solution of Non-Patent Document 2. In the BSR index table shown in FIG. 11, the maximum buffer data amount is 1200K. In the technical solution of Non-Patent Document 2, this extended BSR index table is used instead of the conventional BSR index table.

  The following is a brief overview of the invention, which provides a basic understanding of some aspects of the invention. It is to be understood that this overview is not an exhaustive description of the invention, and is not intended to determine key points or important aspects of the invention, nor to limit the scope of the invention. Absent. Also, the purpose of this review is merely to present some concepts in a simplified form, and this review is intended as a prelude to the further description below.

  It is an object of the present invention to extend the BSR index table to accommodate a new maximum buffer data amount (eg, but not limited to 1200K or 1500K). According to the present invention, at least one extended BSR index table is further added in addition to the conventional BSR index table. A further object of the present invention is to provide a BSR reporting method, an acquisition method, and a correlated base station, terminal, and communication system when an extended BSR index table is added.

  According to one aspect of the present invention, a terminal is provided. The terminal comprises: a buffer status index table; at least one extended buffer status index table; an index table selection unit for selecting one of the buffer status index table and the at least one extended buffer status index table; An index determination unit that determines an index corresponding to the amount of data in the one index table based on the amount of data in the terminal buffer; and an index transmission unit that transmits the index to the base station.

  According to another aspect of the present invention, a method for reporting buffer status of a terminal is provided. Wherein the terminal comprises a buffer status index table and at least one extended buffer status index table, wherein the method comprises the steps of: selecting one of the buffer status index table and the at least one extended buffer status index table. An index table selecting step of selecting an index table; an index determining step of determining, based on the amount of data in the terminal buffer, an index corresponding to the data amount in the one index table; and transmitting the index to the base station. An index transmitting step for transmitting is included.

  According to another aspect of the present invention, a base station is provided. The base station includes a buffer status index table; at least one extended buffer status index table; an index table selection unit for selecting one of the buffer status index table and the at least one extended buffer status index table. An index receiving unit that receives an index from the terminal; and a data amount determining unit that determines the amount of data in the terminal buffer from the one index table based on the index.

  According to another aspect of the present invention, there is provided a method of obtaining a buffer status report at a base station. Wherein, the base station includes a buffer status index table and at least one extended buffer status index table, and the method includes performing one of the buffer status index table and the at least one extended buffer status index table. An index table selecting step of selecting one index table; an index receiving step of receiving an index from the terminal; and a data amount determining step of determining the amount of data in the terminal buffer from the one index table based on the index. including.

  According to another aspect of the present invention, there is provided a communication system. The communication system includes at least one above-described base station and at least one above-mentioned terminal.

  These and other advantages of the present invention will become more apparent from the following description of preferred embodiments of the invention with reference to the accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other objects, features and advantages of the present invention can be more easily understood by describing embodiments of the present invention with reference to the accompanying drawings. The components in the drawings are only for illustrating the principle of the present invention. The same or similar technical features or parts in the drawings are denoted by the same or similar reference numerals.
FIG. 3 is a block diagram of a terminal according to one embodiment of the present invention; 4 is a flowchart of a method of reporting a terminal BSR according to one embodiment of the present invention; FIG. 2 is a block diagram of a base station according to one embodiment of the present invention. 4 is a flowchart of a method for obtaining a BSR at a base station according to one embodiment of the present invention; FIG. 4 is a diagram illustrating RRC (Radio Resource Control) signaling used in a method of reporting a BSR at a terminal and / or a method of acquiring a BSR at a base station according to an embodiment of the present invention; FIG. 6 is a diagram illustrating MAC (Media Access Control) signaling used in a method of reporting a BSR at a terminal and / or a method of acquiring a BSR at a base station according to one embodiment of the present invention; FIG. 4 is a diagram illustrating MAC signaling used in a method of reporting a BSR at a terminal and / or a method of acquiring a BSR at a base station according to one embodiment of the present invention; FIG. 4 is a diagram illustrating MAC signaling used in a method of reporting a BSR at a terminal and / or a method of acquiring a BSR at a base station according to one embodiment of the present invention; FIG. 4 is a diagram illustrating MAC signaling used in a method of reporting a BSR at a terminal and / or a method of acquiring a BSR at a base station according to one embodiment of the present invention; FIG. 11 is a diagram showing a conventional BSR index table. FIG. 10 is a diagram showing a BSR index table of Non-Patent Document 2, in which the maximum buffer data amount is 1200K. FIG. 4 is a diagram illustrating an extended BSR index table according to an embodiment of the present invention, in which a range of a buffer data amount is from 150K to 1200K. FIG. 4 is a diagram illustrating an extended BSR index table according to an embodiment of the present invention, in which a range of a buffer data amount is from 150K to 1500K. 1 is a structural block diagram of a general-purpose personal computer capable of realizing a method and / or apparatus according to an embodiment of the present invention.

  Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. For the sake of brevity and clarity, not all features of the actual embodiments are described herein. It should be understood, however, that in developing any such actual embodiment of the type, many decisions specific to the embodiment must be made to achieve the specific goals of the developer. For example, system and business constraints must be met, and these constraints may change as different embodiments are implemented. It should be further understood that development work is very complex and time consuming, but to those skilled in the art having the benefit of this disclosure, only such development work is routine.

  It should be further explained here that in order to avoid obscuring the present invention with unnecessary details, the drawings depict only the structure and / or processing steps of the device closely related to the technical solution according to the present invention. And other details not significant to the present invention are omitted.

  As mentioned above, it is an object of the present invention to extend the BSR index table to accommodate higher data transfer rates. In the technical solution of the present invention, at least one extended BSR index table is further added in addition to the conventional BSR index table. Further, the embodiment of the present invention provides a BSR report method and an acquisition method when at least one extended BSR index table is added, and a related base station, terminal, and communication system.

  Embodiments of the present invention provide a terminal that is applied when at least one extended BSR index table is added. FIG. 1 is a block diagram of a terminal 100 according to one embodiment of the present invention. As shown in FIG. 1, the above-described terminal 100 includes a BSR index table 102, an extended BSR index table 104, an index table selection unit 106, an index determination unit 108, and an index transmission unit 110.

  For simplicity of the drawing, FIG. 1 shows only one extended BSR index table 104. However, FIG. 1 is only an example, and the present invention is not limited to this. As is apparent, the number of extended BSR index tables 104 may be two or more.

  Referring to FIG. 1, the BSR index table 102 may be the conventional BSR index table shown in FIG. For example, the range of the buffer data of the BSR index table 102 is, for example, from 0 to 150K, and is divided into 64 small sections by the method of Non-Patent Document 1. The BSR index table 102 is not limited to this. For example, the range of the buffer data is not necessarily from 0 to 150K, but may be any other range. Also, the number of small sections is not necessarily 64 and may be any other number. However, in the following description, an example will be described in which 0 to 150K and 64 small sections are used.

  Referring to FIG. 1, the extended BSR index table 104 may be an index table obtained by extending a conventional BSR index table to adapt to a higher data transfer rate.

  In one embodiment, the range of the buffer data amount of the extended BSR index table 104 may have a continuity relationship with the range of the buffer data amount of the BSR index table 102. For example, the lower limit of the range of the buffer data amount in the extended BSR index table 104 may be the upper limit of the range of the buffer data amount in the BSR index table 102, for example, 150K. The upper limit of the range of the buffer data amount in may be the maximum buffer data amount defined in the protocol standard or determined according to the actual application situation, for example, 1200K or 1500K.

  In another embodiment, the range of the buffer data amount of the extended BSR index table 104 may have a comprehensive relationship with the range of the buffer data amount of the BSR index table 102. For example, the extended BSR index table 104 may be the extended BSR index table of Non-Patent Document 2. In this case, the lower limit of the range of the buffer data amount of the extended BSR index table 104 is the same as the lower limit of the range of the buffer data amount of the BSR index table 102, and may be 0, for example. The upper limit of the range of the buffer data amount of 104 may be, for example, a maximum buffer data amount defined in a protocol standard or determined according to an actual application situation, for example, 1200K or 1500K.

  Further, regarding the extended BSR index table 104 and the BSR index table 102, the range of the buffer data amount can be divided into a plurality of small sections by various appropriate methods. For example, the method of Non-Patent Document 1 may divide the range of the buffer data amount into a plurality of small sections. 12 and 13 show extended BSR index tables obtained by the method of Non-Patent Document 1, respectively, of which the buffer data amount ranges from 150K to 1200K and from 150K to 1500K, respectively. The extended BSR index table 104 is not limited to this. For example, the number of small sections is not necessarily 64 and may be any other number. However, in the following description, an example in which the number of subsections is still 64 will be described.

  Also, with the further development of communication technology, the amount of data that the terminal needs to report may further increase. Therefore, a plurality of extended BSR index tables may be employed. When there are a plurality of extended BSR index tables, the range of the buffer data amount of each extended BSR index table may be a continuation relation or a comprehensive relation.

  In one embodiment of the present invention, there may be a continuity relationship between the ranges of the buffer data amount of each extended BSR index table. Specifically, the amount of data that needs to be reported by the terminal may be divided into several continuous sections, and each section may be indicated by one extended BSR index table.

  In another embodiment of the present invention, there may be a comprehensive relationship between the ranges of the buffer data amount of each extended BSR index table. Specifically, each extended BSR index table has a lower limit of the same buffer data range, e.g., 0K, but each extended BSR index table has a different buffer data range to accommodate various different data rates. Has an upper limit.

  Referring again to FIG. 1, the index table selection unit 106 selects one of the buffer state index table 102 and the at least one extended buffer state index table 104, and determines the selected result as an index determination unit 108. Used to notify Also, the index table selection unit 106 may actively select and notify the selection result to the base station by instruction signaling, or may passively select based on instruction signaling from the base station. May be performed (not shown in FIG. 1).

  In one embodiment, the index table selection unit 106 passively selects one of the buffer status index table 102 and one of the at least one extended buffer status index table 104 based on indication signaling from the base station. I do. Specifically, the index table selection unit 106 receives the indication signaling from the base station, determines which index table to select based on the indication signaling, and sends the selection result to the index determination unit 108. Notice.

  In another embodiment, the index table selection unit 106 actively selects one of the buffer status index table 102 and the at least one extended buffer status index table 104, and determines the selection result in the index determination unit. And the selection result is notified to the base station by instruction signaling.

  When the index table selection unit 106 actively selects, the index table selection unit 106 first selects the index table based on the terminal buffer data amount or based on the terminal type and the terminal buffer data amount. May be.

  In one embodiment, the index table selection unit 106 can select an index table based on the buffer data amount of the terminal. For example, when the index table selecting unit 106 recognizes that the buffer data amount (size) of the terminal is in the range from 0 to 150K, the index table selecting unit 106 selects the BSR index table 102. When the index table selecting unit 106 recognizes that the buffer data amount (size) of the terminal has exceeded 150K, the index table selecting unit 106 selects the extended BSR index table 104. Also, when there are a plurality of extended BSR index tables, the index table selecting unit 106 can select the corresponding extended BSR index table based on the buffer data amount (size) of the terminal.

  In another embodiment, the index table selection unit 106 can select an index table based on a terminal type and a terminal buffer data amount. For example, when the index table selecting unit 106 recognizes that the terminal is an LTE equipment, the index table selecting unit 106 selects the buffer status index table 102. The index table selection unit 106 may directly select the extended buffer status index table 104 when the terminal recognizes that the terminal is an LTE-A facility, or furthermore, the terminal buffer data amount. That is, when the buffer data amount (size) of the terminal is in the range of 0 to 150K, the buffer state index table 102 is selected, and the terminal buffer data amount (size) is 150K. Is exceeded, the extension buffer state index table 104 is selected. Further, when there are a plurality of extended BSR index tables, the index table selecting unit 106 can select the corresponding extended BSR index table directly based on the buffer data amount (size) of the terminal.

  Subsequently, the index table selection unit 106 may notify the selection result directly to the index determination unit 108, or may notify the selection result to the base station by instruction signaling.

  Thus, as can be seen, when the index table selection unit makes an active selection or a passive selection, between the terminal and the base station, the indication signaling indicates which index table the index corresponds to. Information needs to be transmitted. The indication signaling may be any suitable protocol message, for example, the indication signaling may be Radio Resource Control (RRC) signaling or Media Access Control (Media Access Control) signaling. .

  If the terminal receives the indication signaling from the base station and selects an index table based on the indication signaling, the indication signaling may be, for example, RRC signaling.

  In one embodiment, the index table selection unit 106 can determine which index table to select by receiving RRC signaling as indication signaling from the base station. For example, as shown in FIG. 5, the index table selection unit 106 determines which index table to select by receiving index table indication information in RRC connection setup signaling from the base station. be able to.

  On the other hand, when the terminal actively selects the BSR index table, and notifies the selection result to the base station by instruction signaling, the index table selection unit 106 in the terminal may use RRC signaling or MAC signaling as instruction signaling. Thereby, the selected index table can be notified to the base station, that is, the base station is notified of information on which of the BSR index table and the BSR extension buffer status index table corresponds to the index received by the base station. can do.

  In one embodiment, the index table selection unit 106 may notify the base station of the selected index table by using RRC signaling as instruction signaling.

  In one specific embodiment, for example, as shown in FIG. 5, the index table selection unit 106 determines whether an RRC connection request (RRC Connection Request) including index table indication information or an RRC connection setup complete (RRC Connection Setup Complete). ) The selected index table may be notified to the base station by transmitting signaling to the base station.

  In another embodiment, the index table selecting unit 106 may notify the base station of the selected index table by using MAC signaling as instruction signaling.

  In one specific embodiment, the index table selection unit (also called “table selection unit”) 106 uses a logical channel identifier (LCID) in MAC signaling (also called “logical channel identifier”). This allows the base station to be notified of the selected index table. Specifically, if the BSR value is from extended BSR index table 104, one new LCID is defined for long BSR, shot BSR and shortened BSR respectively, and index table selection unit 106 determines By using the defined LCID value, it is possible to indicate the type of BSR and that the terminal is using the extended BSR index table. Also, if the BSR value is from the BSR index table 102, the index table selection unit 106 uses the LCID value defined in the current protocol to allow the terminal to use the BSR index table 102 Can be shown.

  For example, as shown in FIG. 6, three new LCID values 01011, 01100 and 01101 are defined, of which LCID = 01011, the BSR in this MAC signaling is a long BSR, and the BSR value is an extended BSR index. LCID = 01100 indicates that the BSR in this MAC signaling is a shot BSR, and the BSR value is from the extended BSR index table, and LCID = 01101 indicates It indicates that the BSR in this MAC signaling is the shortened BSR and that the BSR value is from the extended BSR index table. In this way, the terminal can indicate the type of BSR and that the selected index table is an extended BSR index table based on the three newly defined LCID values. Further, the logic values shown in FIG. 6 are only examples and are not intended to be limiting. As will be apparent, other suitable forms of logic values may be employed.

  In this specific embodiment, notification of the type of the BSR and the type of the BSR index table to the base station is realized by a simple method using the newly defined LCID value. However, in this specific embodiment, the four logic channel groups in the long BSR are not distinguished. In other words, it does not specifically indicate from which index table all the logic channel groups in the long BSR, for example, the BSRs from BS # 0 to BS # 3, are from.

  In order to more accurately select an appropriate index table based on the data amount of each logic channel group, it is necessary to notify the base station which index table is used by each logic channel group of the terminal. Therefore, in another specific embodiment, one additional byte is added to the MAC signaling, and the index table selecting unit 106 uses the LCID in the MAC signaling and at least some bits in the additional byte to allow the terminal to perform each operation. It is possible to notify the base station which index table is selected for each of the logic channel groups.

  Specifically, for the shot BSR or the shortened BSR, similarly to the specific embodiment described above, the index table selecting unit 106 determines whether the terminal has the BSR index table 102 according to the LCID value already defined in the current protocol. , And the newly defined LCID value indicates that the terminal is using the extended BSR index table 104. In other implementations, it is not necessary to define a new LCID, and a bit in the extra byte may indicate whether it is a BSR index table used or an extended BSR index table . This case is the same as the case of the next long BSR.

  For the long BSR, if all the BSRs of the four logic channel groups in the long BSR can be represented by the BSR index table 102 (for example, if the report buffer data amount of each logic channel group is all smaller than 150K), the index table The selection unit 106 can indicate this case by an existing LCID value in the protocol. Also, when one or more BSRs of the four logic channel groups in the long BSR are applied to the extended BSR index table 104 (for example, the buffer data amount of the report of at least one logic channel group is larger than 150K) If), the index table selection unit 106 indicates, with the new LCID value, that the type of BSR is long BSR and not all use the BSR index table, and by four digits of the additional bytes, The BSRs of the four logic channel groups in the long BSR may further indicate from which index table. Specifically, the index table selection unit 106 indicates that the type of the BSR is a long BSR by using an existing LCID value or a newly defined LCID value, and furthermore, the LCID value and the additional byte. Four digits may be used to indicate from which BSR index table the BSRs of the four logic channel groups in the long BSR are respectively. However, only the existing LCID may be used without defining a new LCID. At this time, the LCID is used only for indicating the type of the BSR, and which index table each logic channel group corresponds to is completely represented by a bit of the above-mentioned additional byte.

For example, as shown in FIG. 7, the index table selection unit 106 uses the last four digits (BTI ₀ , BTI ₁ , BTI ₂ , BTI ₃ ) of the additional bytes to generate four logics in the long BSR. Indicates which BSR of the channel group is from which index table. For example, when the value of the LCID corresponds to the long BSR and (BTI ₀ , BTI ₁ , BTI ₂ , BTI ₃ ) = 1010, the BSR values of the logic channel groups BS # 0 and BS # 2 in the long BSR Is from the extended BSR index table 104, and it can be shown that the BSR values of the logic channel groups BS # 1 and BS # 3 are from the BSR index table 102. The setting of the logic values shown in FIG. 7 is only an example and is not intended to limit the present invention. As will be apparent, any other suitable form of logic value setting may be employed. For example, instead of the last four digits of the additional byte, another four digits may be used, and 1 may represent the BSR index table 102 and 0 may represent the extended BSR index table.

  In another specific embodiment, the index table selection unit 106 uses the LCID of the MAC signaling and the reserved bit of the subhead to determine which index table the terminal has selected for the base station. May be notified. Specifically, using two digits of the LCID value and two reserved digits of the subhead, the base station can determine which index table the terminal has selected for each logic channel group. You may be notified.

  In the current LTE system, by taking into account that LCID values whose value range is 01011-11001 are pending LCIDs, as shown in FIG. 8, the index table selection unit 106 is configured to have 10,000, 10001, 10010 and The last two digits of the four LCID values of 10011 and the last two reserved digits RR of the subhead may be used to indicate which index table the terminal has selected for each logic channel group. Good.

  For example, when RR = 00, LCID = 10011, the BSR is a long BSR, and the values of the BSRs of the logic channel groups BS # 0 and BS # 1 of the long BSR are from the BSR index table 102, It may indicate that the BSR values of the logic channel groups BS # 2 and BS # 3 are from the extended BSR index table 104. Further, the setting of the logic value and the reserved value of the selected LCID shown in FIG. 8 are only examples and are not intended to limit the present invention. As will be apparent, other suitable forms of logic value settings and LCID reserved values may be selected, and 1 may represent the BSR index table 102 and 0 may represent the extended BSR index table.

  In the above specific embodiment, no distinction is made as to whether the number of extended BSR index tables is two or three or more. Therefore, in another specific embodiment, one additional byte is added to the MAC signaling, and the index table selection unit 106 uses the LCID of the MAC signaling and this additional byte to enable the terminal to perform the BSR index table and the plurality of extensions. It can indicate that one of the BSR index tables is selected.

  For example, for a shot BSR or a shortened BSR, the index table selection unit 106 indicates that the terminal is using the BSR index table 102 according to the LCID value already defined in the current protocol, and the newly defined LCID value. Indicates that the terminal uses the extended BSR index table, and also indicates which extended BSR index table is used by the table number of the additional byte Oct1 in FIG. 9 (b). Good. In other implementations, it is not necessary to define a new LCID, and the table number in the additional bytes may indicate which index table is being used. This case is the same as the case of the next long BSR.

  For the long BSR, if all the BSRs of four logic channel groups of the long BSR can be represented by the BSR index table 102 (for example, if the report buffer data amount of each logic channel group is all smaller than 150K), the index is used. The table selection unit 106 can indicate this case by an existing LCID value in the protocol. When one or more BSRs of the four logic channel groups in the long BSR are applied to the extended BSR index table 104 (for example, the report buffer data amount of at least one logic channel group is all larger than 150K) If), the index table selection unit 106 indicates, with the new LCID value, that the terminal is using long BSR and not all use BSR index table, and the additional byte in FIG. 9 (a) Indicates the index table from which the BSR of each of the four logic channel groups in the long BSR comes from. More specifically, the index table selecting unit 106 indicates that the type of the BSR is a long BSR by using an existing LCID value or a newly defined LCID value, and furthermore, the LCID value and the additional bytes. Can be indicated from which BSR index table each of the BSRs of the four logic channel groups in the long BSR is from. However, only the existing LCID may be used without defining a new LCID. At this time, the LCID is used only to indicate the type of the BSR, and which index table each logic channel group corresponds to is completely represented by the bits of the above-mentioned additional bytes.

  In the additional byte, a two-digit table number can indicate which BSR index table the corresponding BSR value is from. The setting of the logic value and the number of digits representing the table number shown in FIG. 9 are only examples, and are not intended to limit the present invention. As will be appreciated, other suitable forms of logic value settings may be employed, and other numbers of digits may be employed to represent the table number.

  Further, the above-described specific example described with reference to FIG. 7 may be regarded as another embodiment of the above-described specific example described with reference to FIG. Specifically, in the specific embodiment described above with reference to FIG. 7, one extended BSR index table is used, and a one-digit table number is used to select one of the BSR index table and the extended BSR index table. Indicates which index table is being used, while in the specific embodiment described above with reference to FIG. 9, for a plurality of extended index tables, and using a two-digit table number, Indicates which index table of the BSR index table and the extended BSR index table is used.

  Referring again to FIG. 1, the index determination unit 108 obtains a corresponding index from the index table selected by the index table selection unit 106 based on the buffer data amount of the terminal, and then transmits the index to the index transmission unit. The data is transmitted to the base station by the index transmission unit 110.

  Therefore, a terminal to be applied when at least one extended BSR index table is added is realized.

  Accordingly, the embodiment of the present invention further provides a base station applied when at least one extended BSR index table is added. FIG. 3 is a block diagram of a base station 300 according to one embodiment of the present invention. As shown in FIG. 3, the above-described base station includes a BSR index table 302, an extended BSR index table 304, an index receiving unit 306, an index table selecting unit 308, and a data amount determining unit 310.

  For simplicity of the drawing, FIG. 3 shows only one extended BSR index table 304. Note that FIG. 3 is only an example, and the present invention is not limited to this. As is apparent, the number of extended BSR index tables 104 may be two or more.

  The BSR index table 302 and the extended BSR index table 304 in FIG. 3 can correspond to the BSR index table 102 and the extended BSR index table 104 in FIG. Therefore, in order to simplify the description, a detailed description of the BSR index table 302 and the extended BSR index table 304 will be omitted.

  Referring to FIG. 3, the index table selection unit 308 selects one of the buffer status index table 302 and the at least one extended buffer status index table 304, and determines the selection result as a data amount determination unit 310. Configured to be notified. The index table selection unit 308 may make an active selection and notify the selection result to the terminal by instruction signaling, or may make a passive selection based on instruction signaling from the terminal. Good (not shown in FIG. 3).

  In one embodiment, the index table selection unit 308 passively selects one of the buffer status index table 102 and the at least one extended buffer status index table 104 based on the indication signaling from the terminal. You may. Specifically, the index table selection unit 308 receives the indication signaling from the terminal, determines which index table to select based on the indication signaling, and notifies the index determination unit 310 of the selection result. I do.

  In another embodiment, the index table selection unit 308 actively selects one of the buffer state index table 302 and one of the at least one extended buffer state index table 304, and then transmits a result of the selection to the data table. The amount determination unit may be notified directly, and the selection result may be notified to the terminal by instruction signaling.

  In one embodiment, the index table selection unit 308 may select an index table based on a type of the terminal. Specifically, when the index table selecting unit 308 recognizes that the terminal is an LTE equipment, the index table selecting unit 308 selects the selected buffer status index table 302 for this terminal. When the index table selecting unit 308 recognizes that the terminal is an LTE-A facility, the index table selecting unit 308 may select the extended buffer status index table 304 for this terminal.

  When the index table selection unit 308 actively performs selection, the index table selection unit 308 may notify the selection result directly to the index receiving unit 306, and may notify the terminal of the selection result by instruction signaling.

  Thus, as can be seen, when the index table selection unit actively selects or passively selects, between the terminal and the base station, indication signaling relates to which index table the index corresponds to. Information needs to be transmitted. The indication signaling may be any suitable protocol message, for example, the indication signaling may be Radio Resource Control (RRC) signaling or Media Access Control (Media Access Control) signaling. .

  When the base station actively selects the BSR index table and notifies the terminal of the selection result by instruction signaling, the instruction signaling may be, for example, RRC signaling.

  In one embodiment, the index table selection unit 308 may send RRC signaling as indication signaling to the terminal to inform the terminal which index table to select. For example, as shown in FIG. 5, the index table selection unit 308 in the base station sends an RRC connection setup (RRC Connection Setup) signaling to the terminal, and notifies which index table the terminal should select by this signaling. May be.

  On the other hand, when the base station receives the indication signaling from the terminal, the index table selection unit 308 in the base station transmits RRC signaling or MAC signaling as the indication signaling from the terminal (that is, the index reception unit 30 in the base station receives the indication signaling). The BSR index table and the BSR extension buffer status index table to obtain information about which of the BSR index table and the BSR extension buffer status index table). A table may be selected.

  In one embodiment, the index table selection unit 308 may receive the RRC signaling from the terminal as the indication signaling, and may select the index table based on the indication signaling.

  In one specific embodiment, for example, as shown in FIG. 5, the index table selection unit 308 transmits an RRC connection request (RRC Connection Request) signal from a terminal or an RRC connection setup complete (RRC Connection Setup Complete) signal. Based on this, the index table may be selected.

  In another embodiment, the index table selection unit 308 receives the MAC signaling from the terminal as the indication signaling, so that it can know which index table the terminal has selected.

  In one specific embodiment, the index table selection unit 308 can determine which index table the terminal has selected based on the LCID of the MAC signaling obtained from the terminal.

  In another specific embodiment, the index table selection unit 308 determines which index table the terminal is selecting based on the LCID of the MAC signaling and at least some bits of the one additional byte. Can be determined.

  In another specific embodiment, the index table selection unit 308 can determine which index table the terminal is selecting based on the LCID of the MAC signaling and the reserved bits of the subhead.

  For the specific details of the MAC signaling and the RRC signaling, it is possible to refer to the above description described with reference to FIGS. 5 to 9, and here, for the sake of brevity, the description is omitted. Omitted.

  Referring again to FIG. 3, the index receiving unit 306 receives the selection result provided by the index table selecting unit 308 and the index reported by the terminal (not shown in FIG. 3), and receives the received selection result and the index. Is provided to the data amount determination unit 310.

  Also, in FIG. 3, the index table selection unit 308 transmits the index table selection result to the index selection unit 306, and the index selection unit 306 selects the index received from the terminal and the index table received from the index table selection unit 308. Although it is shown that the result is provided to the data amount determination unit 310, FIG. 3 is only an example and the present invention is not limited to this.

  For example, in another embodiment of the present invention, the index receiving unit may receive only the index, and may provide the received index to the data amount determining unit, and the index table selecting unit may transmit the selection result of the index table to the data. It may be sent directly to the quantity determination unit.

  In this case, the processing of the index table selecting unit and the processing of the index receiving unit may or may not be performed simultaneously. That is, the processing of the index table selecting unit may be performed before or after the processing of the index receiving unit.

  Referring again to FIG. 3, the data amount determination unit 310 obtains a corresponding data amount range from the index table selected by the index table selection unit 308 based on the index received by the index reception unit 306, With this, the base station can obtain the buffer status report from the terminal.

  Therefore, a base station applied when at least one extended BSR index table is added is realized.

  Further, the embodiment of the present invention provides a terminal BSR-like reporting method applied when at least one extended BSR index table is added.

  FIG. 2 is a flowchart of a method for reporting a terminal BSR according to one embodiment of the present invention.

  As shown in FIG. 2, in S202, an index table selecting step is performed, and one index table is selected from the BSR index table and at least one extended BSR index table.

  Among them, the above-mentioned BSR index table and the above-mentioned extended BSR index table can correspond to the BSR index table 102 and the extended BSR index table 104 in FIG. 1, so here, in order to simplify the description, A description of the BSR index table and the extended BSR index table will be omitted.

  Also, the above-described index table selection step may be actively performed by the terminal, or may be passively performed based on instruction signaling from the base station.

  In one embodiment of the present invention, the above-described index table selection step may be actively performed by the terminal. Specifically, the terminal selects the index table based on the amount of data in the terminal buffer, or based on the amount of data in the terminal buffer and the type of the terminal, and also indicates the selection result by instruction signaling. Notify the base station.

  In one specific embodiment, the above-mentioned indication signaling may be RRC signaling, for example, RRC connection request (RRC Connection Request) signaling or RRC connection setup complete (RRC Connection Setup Complete) signaling. Good.

  Specifically, in the index table selection step, the terminal may notify the base station of the selected index table by RRC connection request (RRC Connection Request) signaling or RRC connection setup complete (RRC Connection Setup Complete) signaling. .

  In another specific embodiment, the indication signaling may be MAC signaling.

  For example, in the index table selecting step, the terminal may notify the base station of the selected index table by using the LCID of the MAC signaling.

  Alternatively, in the index table selection step, the terminal may notify the base station of the selected index table using the LCID of the MAC signaling and at least some bits of one additional byte.

  Alternatively, in the index table selecting step, the terminal may notify the base station of the selected index table by using two-digit bits of the LCID of the MAC signaling and the reserved bits of the subhead.

  On the other hand, in another embodiment of the present invention, the above-described index table selecting step may be performed based on instruction signaling from the base station. For example, the base station selects an index table based on the type of the terminal, and notifies the terminal of the selection result by instruction signaling, and the terminal generates a selection index table based on the instruction signaling from the base station. You may choose.

  In one specific embodiment, the indication signaling may be RRC signaling, for example, RRC Connection Setup signaling.

  Specifically, in the index table selection step, the base station may notify the terminal of the selected index table by RRC connection request (RRC Connection Setup) signaling.

  Among them, the specific contents of the RRC signaling and the MAC signaling can be referred to the above-described contents described with reference to FIGS. 5 to 9, and thus, in order to simplify the specification, Omit the contents.

  Referring again to FIG. 2, subsequently, in step 204, based on the amount of data in the terminal buffer, an index is determined from the index table selected in step S202.

  Next, in step 206, the above index is reported to the base station.

  Therefore, the report of the terminal BSR when at least one extended BSR index table exists is realized.

  Accordingly, the embodiment of the present invention also provides a terminal BSR acquisition method applied when at least one extended BSR index table is added.

  FIG. 4 is a flowchart of a method for obtaining a BSR at a base station according to one embodiment of the present invention.

  As shown in FIG. 4, in step S402, an index table selecting step is performed, and one index table is selected from the BSR index table and at least one extended BSR index table.

  In addition, since the above-mentioned BSR index table and the above-mentioned extended BSR index table can correspond to the BSR index table 102 and the extended BSR index table 104 in FIG. 1, here, in order to simplify the description, A description of the BSR index table and the extended BSR index table will be omitted.

  Further, the above-described index table selection step may be actively executed by the base station, or may be executed passively based on instruction signaling from the terminal.

  In one embodiment of the present invention, the base station may actively perform the above-described index table selection step. For example, the base station may select the index table based on the type of the terminal, and may notify the terminal of the selection result by instruction signaling.

  In one specific embodiment, the indication signaling may be RRC signaling, for example, RRC Connection Setup signaling.

  On the other hand, in another embodiment of the present invention, the base station may execute the above-described index table selecting step based on instruction signaling from the terminal. Specifically, the base station may select the index table based on instruction signaling from the terminal.

  In one specific embodiment, the indication signaling may be RRC signaling, for example, RRC connection request signaling and RRC connection setup completion signaling.

  In another specific embodiment, the indication signaling may be MAC signaling.

  For example, in the index table selecting step, the base station may select an index table corresponding to the index based on the LCID of the MAC signaling from the terminal.

  Alternatively, in the index table selecting step, the base station may select an index table corresponding to the index based on the LCID of the MAC signaling from the terminal and at least some bits of one additional byte.

  Alternatively, in the index table selecting step, the base station may select an index table corresponding to the index based on the two-digit bits of the LCID in the MAC signaling from the terminal and the reserved bits of the subhead.

  Among them, the specific details of the RRC signaling and the MAC signaling can be referred to the above-described contents described with reference to FIGS. 5 to 9. Is omitted.

  Referring again to FIG. 4, subsequently, in step S404, an index receiving step is performed, and an index is received from the terminal.

  Although FIG. 4 shows that the index receiving step is executed after the index table selecting step, FIG. 4 is only an example, and the present invention is not limited to this. For example, the index table selecting step may be performed simultaneously with the index receiving step, or the index table selecting step may be performed after the index receiving step.

  Referring again to FIG. 4, subsequently, in step 406, the buffer data amount of the terminal is determined from the selected index table based on the received index.

  Therefore, when at least one extended BSR index table exists, the base station receives the BSR report.

  In addition to the above-described base station, terminal and method, the present invention also provides a communication system applied when at least one extended BSR index table is added. The communication system includes at least one terminal and at least one base station, wherein the terminal is a terminal according to the above embodiment, and the base station is a base station according to the above embodiment.

  It should be understood that the above-described various specific examples and examples are all merely examples, and the present invention is not limited thereto. Further, the description in the drawings is only for more clearly explaining the present invention, and thus has no meaning to limit the present invention.

  Each of the constituent modules and units in the above-described apparatus may be arranged by software, firmware, hardware, or a combination thereof. Specific means or schemes that can be used for the arrangement are well known to those skilled in the art and will not be described here. When realized by software or firmware, a program constituting the software is installed from a storage medium or a network into a computer having a dedicated hardware structure (for example, a general-purpose computer 1400 shown in FIG. 14). When the program is installed, various functions can be executed.

  In FIG. 14, the central processing unit (CPU) 1401 performs various processing based on a program stored in a read-only memory (ROM) 1402 or a program loaded from a storage unit 1408 into a random access memory (RAM) 1403. I do. The RAM 1403 may store data necessary when the CPU 1401 performs various processes, as necessary. The CPU 1401, the ROM 1402, and the RAM 1403 are connected to each other by a bus 1404. The input / output interface 1405 is also connected to the bus 1404.

  The input / output interface 1405 includes an input unit 1406 (including a keyboard and a mouse), an output unit 1407 (displays such as a cathode ray tube (CRT) and a liquid crystal display (LCD), and speakers, etc.). Storage unit 1408 (including a hard disk) and a communication unit 1409 (including a network interface card such as a LAN card, a modem, etc.). The communication unit 1409 performs communication processing via a network such as the Internet. A drive 1410 is also connected to the input / output interface 805 as needed. When necessary, a removable medium 1411 such as a magnetic disk, an optical disk, a magnetic optical disk, or a semiconductor memory is mounted on the drive 1410, so that the computer program read from the medium is stored in the storage unit as necessary. Installed in 1408.

  When the series of processes described above is implemented by software, for example, a program configuring software can be installed from a network such as the Internet or a storage medium such as the removable medium 1411.

  Those skilled in the art understand that such a storage medium is not limited to a removable medium 811 in which a program is stored and which is provided separately from the device so as to supply the program to a user, as shown in FIG. I can do it. Examples of the removable medium 1411 include a magnetic disk (including a soft disk (registered trademark)), an optical disk (including an optical disk load only memory (CD-ROM) and a digital versatile disk (DVD)), and a magnetic optical disk (mini disk). (Including MD) (registered trademark))) and semiconductor memories. Alternatively, the storage medium may be a ROM 1402 in which the program is stored and distributed to the user together with a device in which the program is stored, a hard disk included in the storage unit 1408, or the like.

  The present invention also provides a program product including a machine-readable instruction code. This instruction code, when read and executed by a machine, can perform the method described above in accordance with embodiments of the present invention.

  Accordingly, the disclosure of the present invention also includes a storage medium storing a program product including the above-described machine-readable instruction code. The storage medium includes, but is not limited to, a floppy (registered trademark) disk, an optical disk, a magneto-optical disk, a memory card, a memory stick, and the like.

  Finally, it should be noted that in the text, the word "comprising", "comprising" or other variants are used to embrace non-exclusive "comprising", whereby a series of elements A contained process, method, article or device may include these elements as well as other elements not specified, or may include unique elements owned by the process, method, article or device. In the absence of more limitations, an element limited by the phrase “comprising” does not exclude other identical elements present in the process, method, article or device that includes this element.

  The preferred embodiment of the present invention has been described above, but the present invention is not limited to this embodiment, and any modifications to the present invention belong to the technical scope of the present invention unless departing from the gist of the present invention.

  Therefore, as can be seen from the above description, the embodiments of the present invention provide the following technical solutions.

Technical Solution 1: Terminal
A buffer status index table,
At least one extended buffer status index table;
An index table selection unit that selects one of the buffer state index table and the at least one extended buffer state index table;
An index determination unit that determines the corresponding index in the one index table based on the amount of data in the terminal buffer;
An index transmission unit for transmitting the above-mentioned index to the base station.

Technical plan 2: The above terminal according to technical plan 1,
The above-mentioned index table selecting unit is configured to select the above-mentioned one index table based on the amount of data in the terminal buffer,
The index table selection unit is configured to send an indication signaling to a base station, wherein the indication signaling is such that the index is one of the buffer status index table and the at least one extended buffer status index table. A terminal representing which of

Technical plan 3: The above terminal according to technical plan 2,
The terminal, wherein the index table selection unit is configured to transmit radio resource control signaling.

Technical plan 4: The above terminal according to technical plan 3,
The terminal, wherein the index table selection unit is configured to transmit RRC connection request signaling or RRC connection setup completion signaling.

Technical plan 5: The above terminal according to technical plan 2,
The terminal, wherein the index table selection unit is configured to send media access control signaling.

Technical plan 6: The above terminal according to technical plan 5,
The above-mentioned index table selection unit may use the logic channel identifier of the above-mentioned media access control signaling to change the above-mentioned index into any of the above-mentioned buffer state index table and the above-mentioned at least one extended buffer state index table. A terminal configured to indicate whether it corresponds.

Technical plan 7: The above terminal according to technical plan 5,
The above-mentioned index table selection unit uses the logic channel identifier of the above-mentioned media access control signaling and at least some bits of one additional byte to make the above-mentioned index into the above-mentioned buffer status index table and the above-mentioned buffer status index table. A terminal configured to indicate which of the at least one extended buffer status index table corresponds.

Technical plan 8: The above terminal according to technical plan 5,
The above-mentioned index table selection unit uses the logic channel identifier of the above-mentioned media access control signaling and the reserved bit of the subhead to make the above-mentioned index into the above-mentioned buffer state index table and the above-mentioned at least one extended buffer state. A terminal configured to indicate which of the index tables corresponds.

Technical plan 9: The above terminal according to technical plan 1,
The above-mentioned index table selection unit is configured to determine to use one of the above-mentioned buffer status index table and the at least one extended buffer status index table based on the indication signaling received from the base station. The terminal that is composed.

Technical plan 10: The above terminal according to technical plan 9,
The terminal, wherein the index table selection unit is configured to receive radio resource control signaling.

Technical plan 11: The above terminal according to technical plan 10,
The terminal, wherein the index table selection unit is configured to receive RRC connection setup signaling.

Technical solution 12: The above terminal according to any one of technical solutions 1-11,
A terminal, wherein the buffer data amount section corresponding to the buffer state index table and at least one extended buffer state index table has an inclusive relation.

Technical solution 13: the above terminal according to any one of technical solutions 1 to 11,
A terminal, wherein the buffer data amount section corresponding to the buffer state index table and at least one extended buffer state index table has a continuity relationship.

Technical solution 14: A method of reporting a terminal buffer status,
The above terminal comprises a buffer status index table and at least one extended buffer status index table, wherein the method comprises:
An index table selecting step of selecting one of the buffer state index table and the at least one extended buffer state index table;
An index determination step of determining, based on the amount of data in the terminal buffer, a corresponding index in the one index table,
Transmitting an index to the base station as described above.

Technical solution 15: The above method according to technology solution 14,
The above-mentioned index table selecting step is configured to select the above-mentioned one index table based on the amount of data in the terminal buffer,
The above method further comprises transmitting indication signaling to the base station,
The method, wherein the indication signaling indicates which of the index corresponds to the buffer status index table and the at least one extended buffer status index table.

Technical solution 16: The above method according to technology solution 15,
The method, wherein the indication signaling is radio resource control signaling.

Technical solution 17: The above method according to technology solution 16,
The method, wherein the radio resource control signaling is RRC connection request signaling or RRC connection setup completion signaling.

Technical solution 18: The above method according to technology solution 15,
The method, wherein the indication signaling is media access control signaling.

Technical solution 19: The above method according to technology solution 18,
A method, wherein a logic channel identifier of the media access control signaling is used to indicate which of the index corresponds to the buffer status index table and the at least one extended buffer status index table.

Technical solution 20: The above method according to technology solution 18,
Using the logic channel identifier of the media access control signaling and at least some bits of the one additional byte, the index is the buffer status index table and the at least one extended buffer status index table. Method to indicate which of

Technical solution 21: The above method according to technology solution 18,
Using the last two digits of the logic channel identifier in the media access control signaling and the reserved bits of the subhead, the index is the buffer status index table and the at least one extended buffer status. A method that indicates which of the index tables corresponds.

Technical solution 22: The above method according to technology solution 14,
The method, wherein the index table selecting step is configured to select the one index table based on an indication signaling received from the base station.

Technical solution 23: The above method according to technical solution 22,
The method, wherein the indication signaling is radio resource control signaling.

Technical solution 24: The above method according to technical solution 23,
The method, wherein the radio resource control signaling is RRC connection setup signaling.

Technical solution 25: Base station,
A buffer status index table,
At least one extended buffer status index table;
An index table selection unit that selects one of the buffer state index table and the at least one extended buffer state index table;
An index receiving unit for receiving an index from the terminal;
A data amount determination unit that determines the amount of data in the terminal buffer from the one index table based on the index.

Technical solution 26: the above base station according to technical solution 25,
The above-mentioned index table selection unit is configured to select the above-mentioned one index table based on the indication signaling received from the terminal, wherein the above-mentioned indication signaling is such that the above-mentioned index is the above-mentioned buffer status index table and the above-mentioned buffer status index table. The base station indicating which of the at least one extended buffer status index table corresponds to.

Technical plan 27: The above base station according to technical plan 26,
A base station as described above, wherein the index table selection unit is configured to receive radio resource control signaling.

Technical solution 28: The above base station according to technical solution 27,
The base station, wherein the index table selection unit is configured to receive RRC connection request signaling or RRC connection setup completion signaling.

Technical plan 29: The above base station according to technical plan 27,
A base station as described above, wherein the index table selection unit is configured to receive media access control signaling.

Technical solution 30: the above base station according to technology solution 29,
The above-mentioned index table selection unit may be configured such that, based on a logic channel identifier of the above-mentioned media access control signaling, the above-mentioned index is any one of the above-mentioned buffer state index table and the above-mentioned at least one extended buffer state index table. A base station configured to determine a correspondence.

Technical solution 31: The above base station according to technical solution 29,
The above-mentioned index table selection unit may be configured such that the above-mentioned index is the above-mentioned buffer status index table and the above-mentioned buffer status index table based on a logic channel identifier of the above-mentioned media access control signaling and at least some bits of one additional byte. A base station configured to determine which of the at least one extended buffer status index table corresponds.

Technical solution 32: The above base station according to technical solution 29,
The above-mentioned index table selection unit may be configured such that the above-mentioned index is the above-mentioned buffer status index table and the above-mentioned at least one of the above based on the bits of the logic channel identifier and the reserved bits of the subhead in the above-mentioned media access control signaling. A base station configured to determine which of the extended buffer status index tables corresponds.

Technical solution 33: The above base station according to technical solution 25,
The index table selection unit is further configured to send an indication signaling to the terminal, wherein the indication signaling is any one of the buffer status index table and the at least one extended buffer status index table. Base station that indicates what is used.

Technical solution 34: The above base station according to Technical solution 33,
A base station as described above, wherein the index table selection unit is configured to transmit radio resource control signaling.

Technical solution 35: The above base station according to technical solution 34,
A base station as described above, wherein the index table selection unit is configured to send RRC connection setup signaling.

Technical solution 36: the above base station according to any one of technical solutions 25-35,
The base station, wherein the buffer data amount section corresponding to the buffer state index table and at least one extended buffer state index table has an inclusive relation.

Technical solution 37: The above base station according to any one of technical solutions 25-35,
The base station, wherein the buffer data amount section corresponding to the buffer state index table and at least one extended buffer state index table has a continuity relationship.

Technical solution 38: A method of obtaining a buffer status report at a base station,
The base station includes a buffer status index table and at least one extended buffer status index table, wherein the method includes:
An index table selecting step of selecting one of the buffer state index table and the at least one extended buffer state index table;
An index receiving step of receiving an index from the terminal;
Determining a data amount in the terminal buffer from the one index table based on the index.

Technical solution 39: The above method according to technical solution 38,
The above-mentioned index table selecting step is configured to select the above-mentioned one index table based on the indication signaling received from the terminal, wherein the above-mentioned indication signaling is such that the above-mentioned indexes are the above-mentioned buffer state index tables and the above-mentioned buffer status index tables. A corresponding one of the at least one extended buffer state index table of the method.

Technical solution 40: The above method according to technology solution 39,
The method, wherein the indication signaling is radio resource control signaling.

Technical solution 41: The above method according to technology solution 40,
The method, wherein the radio resource control signaling is RRC connection request signaling or RRC connection setup completion signaling.

Technical solution 42: The above method according to technology solution 39,
The method, wherein the indication signaling is media access control signaling.

Technical solution 43: The above method according to technology solution 42,
Determining, based on a logic channel identifier of the media access control signaling, which index corresponds to the buffer status index table and the at least one extended buffer status index table; .

Technical solution 44: The above method according to technology solution 42,
Based on the logic channel identifier of the media access control signaling and at least some bits of the one additional byte, the index is the buffer status index table and the at least one extended buffer status index table. Method to determine which of the following corresponds.

Technical solution 45: The above method according to technical solution 42,
Based on the bits of the logic channel identifier and the reserved bits of the subhead in the media access control signaling, the index may be one of the buffer status index table and the at least one extended buffer status index table. How to determine which one to respond to.

Technical solution 46: The above method according to technical solution 38,
Before the index receiving step described above, the method further includes transmitting indication signaling to the terminal,
The method, wherein the indication signaling indicates which of the buffer status index table described above and the at least one extended buffer status index table is used.

Technical solution 47: The above method according to technical solution 46,
The method, wherein the indication signaling is radio resource control signaling.

Technical solution 48: The above method according to technology solution 47,
The method, wherein the radio resource control signaling is RRC connection setup signaling.

Technical solution 49: A communication system,
A communication system including the base station according to any one of the technical solutions 25-37 and the terminal according to any one of the technical solutions 1-13.

Claims (7)

A terminal,
A first table indicating a data amount section in the buffer of the terminal,
Indicates a data amount section in the buffer of the terminal, a second table different from the first table,
According to the amount of data in the buffer, the first table, or a transmission unit that transmits media access control signaling including an index selected from any of the second table,
And the transmission unit, said index indicating a MAC (Media Access Control) CE to the first octet of the (Control Element) constitutes a bitmap indicating a logical channel group, the amount of data interval in the second and subsequent octets of the MAC CE A terminal that transmits the mapped media access control signaling . The first table or, further having a selection unit to select any table from the second table,
The transmission unit, the first table selected by the selection unit, or the information related to the second table, the first table, or the media access control signaling including a logical channel identifier corresponding to the second table. The terminal according to claim 1, wherein the terminal transmits.   The terminal according to claim 2, wherein the logical channel identifier is included in a subheader of the media access control signaling.   The terminal according to any one of claims 1 to 3, wherein the second table has at least a maximum buffer data amount section larger than the first table. A first table indicating a data amount section in the buffer of the terminal,
Indicates a data amount section in the buffer of the terminal, a second table different from the first table,
According to the amount of data in the buffer of the terminal, the first table, or a receiving unit that receives media access control signaling including an index selected from any of the second table,
The receiving unit configures a bitmap indicating a logical channel group in a first octet of a Media Access Control (MAC) CE (Control Element), and the index indicating the data amount section starts from a second octet of the MAC CE . A base station receiving the mapped media access control signaling.   The receiving unit receives the media access control signaling including the first table selected by the terminal or the information on the second table, the first table or the logical access channel identifier associated with the second table. The base station according to claim 5, wherein A communication system,
Including terminals and base stations,
The terminal is
A first table indicating a data amount section in the buffer of the terminal,
Indicates a data amount section in the buffer of the terminal, a second table different from the first table,
According to the amount of data in the buffer, the first table, or a transmission unit that transmits media access control signaling including an index selected from any of the second table,
And the transmission unit, said index indicating a MAC (Media Access Control) CE to the first octet of the (Control Element) constitutes a bitmap indicating a logical channel group, the amount of data interval in the second and subsequent octets of the MAC CE Transmitting the mapped media access control signaling ,
The base station comprises:
A communication system, comprising: a receiving unit that receives media access control signaling including an index selected from one of the first table and the second table according to a data amount in a buffer of the terminal.

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