Abstract:
A radio bearer status sending method and device are provided. The method includes: after executing uplink resource allocation during current transmission period, determining the number of tokens in a token bucket which is corresponding to the radio bearer; according to the determined number of tokens, sending the first status information which indicates that the number of the tokens is larger than zero to a base station; or sending the second status information which indicates that the number of tokens is not larger than zero to the base station. By using the method and device provided by the invention, the accuracy of the radio bearer status reported by a User Equipment (UE) is improved, therefore, the base station can allocate the uplink resources more properly, and the usage efficiency of uplink resources is increased.

Description:
FIELD 
       [0001]    The present invention relates to the field of wireless communications and particularly to a method and device for transmitting the status of a radio bearer. 
       BACKGROUND 
       [0002]    The format and contents of a Media Access Control Protocol Data Unit (MAC PDU) are defined in the specification 3GPP TS 36.321 V8.3.0 of the existing 3GPP LTE R8, as illustrated in  FIG. 1 . Particularly, service data of each Radio Bearer (RB) is filled in the field of Media Access Control Service Data unit (MAC SDU), and there are sub-headers corresponding to respective MAC SDU fields in the MAC header field, where the contents of the “R” field are reserved bits, the “E” field represents an extended field indicating whether there is a further definition of a field in the MAC header, the “L” field indicates the length of a corresponding MAC SDU or MAC control element and the length of “L” is indicated in the “F” field, and the “LCID” field represents the logic channel identifier corresponding to the MAC SDU field or MAC control element field or padding field. 
         [0003]    In order to enable a base station to allocate resources reasonably to respective User Equipments (UEs), a Buffer Status Report (BSR) for uplink scheduling is transmitted from the UE side to the base station when a specific condition is satisfied by being filled in an MAC control element field. A Radio Bearer Group (RBG) is composed of RBs with a similar QoS or the same priority in order for a BSR. Merely the Buffer Size (BS) of the RBG with the highest priority is reported in a short BSR in a format as illustrated in  FIG. 2 , and BSs of four RBGs may be reported in a long BSR in a format as illustrated in  FIG. 3 , where LCG ID represents the identifier of a logic channel group, Buffer Size represents the buffer size of an RBG, and Oct represents a byte. 
         [0004]    For uplink scheduling and transmission processes, an uplink rate control process in the existing LTE specification also is defined in the 3GPP TS 36.321 V.8.3.0 and the 3GPP TS 36.300 V.8.6.0, and the rate control process at the UE side is generally performed in a token bucket mechanism as illustrated in  FIG. 4 . 
         [0005]    Each RB corresponds to a token bucket, where BS represents the buffer size of the RB, the Prioritized Bit Rate (PBR) represents the actual injection rate of the corresponding token bucket per periodicity, i.e., the number of tokens put into the token bucket per periodicity, and may represent an essentially required rate for the RB, which is a constant value related to the priority of the RB, Bj represents the number of tokens in the token bucket, and R represents the size of data actually transmitted in a current transmission period (i.e., a current Transmission Time Interval, TTI). 
         [0006]    A method for performing uplink resource allocation and uplink rate control in the token bucket mechanism at the UE side is as follows. 
         [0007]    Operation 1: Bj is updated as per PBR upon arrival of a transmission period. 
         [0008]    Operation 2: Resources are allocated to respective RBs with Bj&gt;0 in a descending order of the priorities of the RBs, and Bj is updated dependent upon the result of allocating the resources (Bj may be negative to thereby obviate frequent segmentation and assembling of a data packet). 
         [0009]    Operation 3: If there is a remaining part of the uplink resources, then the part of the uplink resources is allocated to the respective RBs in a descending order of the priorities (regardless of the size of Bj) until all the buffered data of the RBs is transmitted or no uplink resource remains. 
         [0010]    In the operation 1, an original Bj corresponding to an RB is updated by adding a corresponding value of PBR thereto, to obtain an updated Bj corresponding to the RB. 
         [0011]    In the operation 2, the uplink resources are allocated the first time through being allocated to respective RBs with Bj&gt;0 according to the minimum among its corresponding Bj and BS and the currently remaining part of the uplink resource, for the purpose of satisfying preferentially a required rate of PBR for those highly prioritized RBs. Correspondingly, BS of the RB is also updated in view of the uplink resource available to the RB. 
         [0012]    In the operation 3, the uplink resources are allocated the second time through allocating to the respective RBs the remaining part of the uplink resources after the uplink resources are allocated the first time, for the purpose of making full use of the uplink resources. 
         [0013]    Ideally, a base station allocates uplink resources to respective UEs in such a way that when the respective UEs allocate uplink resources to respective RBs, the uplink resources available to the respective UEs are sufficient for allocation of the uplink resources in the operation 1, that is, the required rates of PBR corresponding to the respective RBs are satisfied. Since the uplink resources are limited, the base station possibly fails to allocate reasonably the uplink resources to the respective UEs, that is, such a possibility may be that the uplink resources available to some of the UEs may be more than sufficiency to satisfy the required rates of PBR corresponding to their respective RBs, and the uplink resources available to the other UEs can not satisfy the required rates of PBR corresponding to their respective RBs. 
         [0014]    For example, it is assumed that a system includes a plurality of UEs, a plurality of RBGs are involved for each of the UEs and each of the RBGs includes a plurality of RBs over which uplink data is transmitted. For simplicity, only an RBG including an RB 1  and an RB 2  with the same priority for two UEs will be analyzed. It is assumed that the RB 1  corresponds to transmission on a Logical Channel  1  (LC 1 ) and the RB 2  corresponds to transmission on a Logical Channel  2  (LC 2 ), where the LC 1  has a higher priority than the LC 2  and the LC 1  and the LC 2  compose a LCG 1 , and other LCGs with a lower priority for the UEs will not be listed. 
         [0015]    It is assumed that the statuses of the respective RBs for the two UEs at an uplink transmission instance of time are as shown in Table 1: 
         [0000]    
       
         
               
             
               
               
               
               
               
               
             
               
               
               
               
               
               
               
             
           
               
                 TABLE 1 
               
             
             
               
                   
               
               
                 RB Status (in byte) 
               
             
          
           
               
                   
                   
                   
                   
                   
                 Uplink 
               
               
                   
                 BS 
                 BSR 
                 PBR 
                 Bj 
                 Resources 
               
               
                   
                   
               
             
          
           
               
                 UE1 
                 LC1 
                 300 
                 500 
                 100 
                 100 
                 400 
               
               
                   
                 LC2 
                 200 
                   
                 100 
                 100 
               
               
                 UE2 
                 LC1 
                 100 
                 500 
                 100 
                 300 
                 400 
               
               
                   
                 LC2 
                 400 
                   
                 100 
                 400 
               
               
                   
               
             
          
         
       
     
         [0016]    In view of that resources are allocated in an order of priorities of logic channels in the specification 3GPP TS 36.321 V8.3.0, firstly the operation 2 is performed in which resources are allocated as per Bj corresponding to the respective logic channels of the LCG in a descending order of priorities, and the statuses of the respective RBs after the allocation operation are as shown in Table 2: 
         [0000]    
       
         
               
             
               
               
               
               
               
             
               
               
               
               
               
               
               
             
           
               
                 TABLE 2 
               
             
             
               
                   
               
               
                 RB Status (in byte) 
               
             
          
           
               
                   
                   
                   
                   
                 Actual Data 
               
               
                   
                 BS 
                 BSR 
                 Bj 
                 Transmission 
               
               
                   
                   
               
             
          
           
               
                   
                 UE1 
                 LC1 
                 200 
                 300 
                 0 
                 200 
               
               
                   
                   
                 LC2 
                 100 
                   
                 0 
               
               
                   
                 UE2 
                 LC1 
                 0 
                 100 
                 200 
                 400 
               
               
                   
                   
                 LC2 
                 100 
                   
                 100 
               
               
                   
                   
               
             
          
         
       
     
         [0017]    As can be apparent from Table 1 and Table 2, although the UE 1  and the UE 2  report the same BSR and are provided with the same amount of uplink resources, since uplink resources previously available to the RB 1  and the RB 2  for the UE 1  satisfy their required rates of PBR (i.e., Bj corresponding to the LC 1  and the LC 2  included for the UE 1  is equal to PBR in Table 1), the RB 1  and the RB 2  for the UE 1  are provided respectively with uplink resources satisfying their corresponding required rates of PBR, i.e., 100 bytes, and a remaining 200 bytes among the 400 bytes uplink resources provided to the UE 1  remains. When a system is heavily loaded, the base station shall allocate the remaining part of the uplink resources to the other UE in an ideal case; and on the other hand, since uplink resources previously available to the RB 1  and the RB 2  for the UE 2  do not satisfy their corresponding required rates of PBR, there are a relatively large number of tokens in their token buckets, and also since there is a relatively large buffer size in the LC 2  and the available resources are not sufficient to transmit all the buffered data therein, its corresponding required rate of PBR still can not be satisfied after data transmission in a current periodicity is finished. 
         [0018]    As can be apparent from comparison between the UE 1  and the UE 2 , the RB statuses reported from the UEs to the base station are not precise enough in the BSR report mechanism in the existing 3GPP LTE R8 specification, which may lead to inefficient utilization of the uplink resources upon unreasonable allocation thereof by the base station to the respective UEs. 
       SUMMARY 
       [0019]    Embodiments of the invention provide a method and device for transmitting the status of a radio bearer to improve the precision of the RB status reported from a UE and to further enable a base station to allocate uplink resources more reasonably, thereby improving the efficiency of utilizing the uplink resources. 
         [0020]    An embodiment of the invention provides a method for transmitting the status of a radio bearer, which includes: 
         [0021]    determining the number of tokens in a token bucket corresponding to the radio bearer after uplink resources are allocated in a current transmission period; and 
         [0022]    transmitting first status information indicating that the number of tokens is larger than zero to a base station or transmitting second status information indicating that the number of tokens is not larger than zero to the base station dependent upon the determined number of tokens. 
         [0023]    An embodiment of the invention further provides a method for transmitting the status of a radio bearer, which includes: 
         [0024]    determining the number of tokens in a token bucket corresponding to the radio bearer; and comparing the number of tokens with a buffer size of the radio bearer after uplink resources are allocated in a current transmission period; and 
         [0025]    transmitting first status information indicating that the number of tokens is larger than zero and smaller than the buffer size of the radio bearer to a base station or transmitting second status information indicating that the number of tokens is not larger than zero or not smaller than the buffer size of the radio bearer to the base station dependent upon the determined number of tokens and a result of the comparing; or 
         [0026]    transmitting third status information indicating that the number of tokens is larger than zero and not larger than the buffer size of the radio bearer to the base station or transmitting fourth status information indicating that the number of tokens is not larger than zero or is larger than the buffer size of the radio bearer to the base station dependent upon the determined number of tokens and the result of the comparing. 
         [0027]    An embodiment of the invention still further provides a method for transmitting the status of a radio bearer, which includes: 
         [0028]    determining a buffer size of the radio bearer after uplink resources are allocated in a current transmission period; 
         [0029]    determining the number of tokens in a token bucket corresponding to the radio bearer when the buffer size of the radio bearer is larger than zero; 
         [0030]    comparing the number of tokens with the buffer size of the radio bearer when the number of tokens is larger than zero; and 
         [0031]    transmitting first status information indicating that the buffer size of the radio bearer is not larger than zero dependent upon the determined buffer size of the radio bearer; or 
         [0032]    transmitting second status information indicating that the number of tokens is not larger than zero and the buffer size of the radio bearer is larger than zero to a base station dependent upon the determined number of tokens; or 
         [0033]    transmitting third status information indicating that the number of tokens is larger than zero and smaller than the buffer size of the radio bearer to the base station or transmitting fourth status information indicating that the number of tokens is larger than zero and not smaller than the buffer size of the radio bearer and the buffer size of the radio bearer is larger than zero to the base station dependent upon a result of the comparing; or 
         [0034]    transmitting fifth status information indicating that the number of tokens is larger than zero and not larger than the buffer size of the radio bearer to the base station or transmitting sixth status information indicating that the number of tokens is larger than zero and than the buffer size of the radio bearer and the buffer size of the radio bearer is larger than zero to the base station dependent upon the result of the comparing. 
         [0035]    An embodiment of the invention provides a mobile terminal including: 
         [0036]    a determination unit configured to determine the number of tokens in a token bucket corresponding to a radio bearer after uplink resources are allocated in a current transmission period; and 
         [0037]    a transmission unit configured to transmit first status information indicating that the number of tokens is larger than zero to a base station or transmit second status information indicating that the number of tokens is not larger than zero to the base station dependent upon the determined number of tokens. 
         [0038]    An embodiment of the invention further provides a mobile terminal including: 
         [0039]    a determination and comparison unit configured to determine the number of tokens in a token bucket corresponding to a radio bearer and compare the number of tokens with a buffer size of the radio bearer after uplink resources are allocated in a current transmission period; and 
         [0040]    a transmission unit configured to transmit first status information indicating that the number of tokens is larger than zero and smaller than the buffer size of the radio bearer to a base station or transmit second status information indicating that the number of tokens is not larger than zero or not smaller than the buffer size of the radio bearer to the base station dependent upon the determined number of tokens and a result of the comparison; or 
         [0041]    to transmit third status information indicating that the number of tokens is larger than zero and not larger than the buffer size of the radio bearer to the base station or transmit fourth status information indicating that the number of tokens is not larger than zero or is larger than the buffer size of the radio bearer to the base station dependent upon the determined number of tokens and the result of the comparison. 
         [0042]    An embodiment of the invention still further provides a mobile terminal including: 
         [0043]    a first determination unit configured to determine a buffer size of a radio bearer after uplink resources are allocated in a current transmission period; 
         [0044]    a second determination unit configured to determine the number of tokens in a token bucket corresponding to the radio bearer when the buffer size of the radio bearer determined by the first determination unit is larger than zero; 
         [0045]    a comparison unit configured to compare the number of tokens with the buffer size of the radio bearer when the number of tokens determined by the second determination unit is larger than zero; and 
         [0046]    a transmission unit configured to transmit first status information indicating that the buffer size of the radio bearer is not larger than zero dependent upon the buffer size of the radio bearer determined by the first determination unit; or 
         [0047]    to transmit second status information indicating that the number of tokens is not larger than zero and the buffer size of the radio bearer is larger than zero to a base station dependent upon the number of tokens determined by the second determination unit; or 
         [0048]    to transmit third status information indicating that the number of tokens is larger than zero and smaller than the buffer size of the radio bearer to the base station or transmit fourth status information indicating that the number of tokens is larger than zero and not smaller than the buffer size of the radio bearer and the buffer size of the radio bearer is larger than zero to the base station dependent upon a result of the comparison by the comparison unit; or 
         [0049]    to transmit fifth status information indicating that the number of tokens is larger than zero and not larger than the buffer size of the radio bearer to the base station or transmit sixth status information indicating that the number of tokens is larger than zero and than the buffer size of the radio bearer and the buffer size of the radio bear is larger than zero to the base station dependent upon the result of the comparison by the comparison unit. 
         [0050]    In the embodiments of the invention, after uplink resources are allocated in the current transmission period, whether the number of tokens in the token bucket corresponding to the radio bearer is larger than zero or not is determined, and the status information indicating whether the number of tokens is larger than zero or not is transmitted to the base station. As can be apparent from the token bucket mechanism current used in uplink rate control, the number of tokens larger than zero after the uplink resources are allocated indicates that the uplink resources previously allocated to the radio bearer does not satisfy its corresponding required rate of PBR; on the contrary, if the number of tokens is not larger than zero, then this indicates that the uplink resources previously allocated to the radio bearer satisfies its corresponding required rate of PBR. The UE transmits the status information to the base station so that the precision of the RB status reported from the UE can be improved and further the base station can allocate uplink resources more reasonably with use of the status information, thus improving the efficiency of utilizing the uplink resources. 
     
    
     
       BRIEF DESCRIPTION OF THE DRAWINGS 
         [0051]      FIG. 1  is a schematic diagram of the format of a media access control protocol data unit; 
           [0052]      FIG. 2  is a schematic diagram of the format of a short buffer status report; 
           [0053]      FIG. 3  is a schematic diagram of the format of a long buffer status report; 
           [0054]      FIG. 4  is a schematic diagram of the principle of a token bucket mechanism; 
           [0055]      FIG. 5  and  FIG. 6  are flow charts of a method for transmitting the status of a radio bearer according to a first embodiment of the invention; 
           [0056]      FIG. 7  and  FIG. 8  are flow charts of a method for transmitting the status of a radio bearer according to a second embodiment of the invention; 
           [0057]      FIG. 9  and  FIG. 10  are flow charts of a method for transmitting the status of a radio bearer according to a third embodiment of the invention; 
           [0058]      FIG. 11  is a schematic diagram of the structure of a mobile terminal according to a fourth embodiment of the invention; 
           [0059]      FIG. 12  is a schematic diagram of the structure of a mobile terminal according to a fifth embodiment of the invention; and 
           [0060]      FIG. 13  is a schematic diagram of the structure of a mobile terminal according to a sixth embodiment of the invention. 
       
    
    
     DETAILED DESCRIPTION 
     The First Embodiment 
       [0061]    The first embodiment of the invention provides a method for transmitting the status of a radio bearer, which as illustrated in  FIG. 5  includes the following operations S 501  and S 502 . 
         [0062]    Operation S 501 . The number of tokens in a token bucket corresponding to the radio bearer is determined after uplink resources are allocated in a current transmission period. 
         [0063]    Operation S 502 . First status information indicating that the number of tokens is larger than zero is transmitted to a base station or second status information indicating the number of tokens is not larger than zero is transmitted to the base station dependent upon the determined number of tokens. 
         [0064]    Preferably, the operation S 501  further includes comparing the number of tokens with the buffer size of the radio bearer when the number of tokens is larger than zero or comparing the buffer size of the radio bearer with zero when the number of tokens is not larger than zero. 
         [0065]    Correspondingly in the operation S 502 , dependent upon the result of comparison, transmission of the first status information includes: 
         [0066]    third status information indicating that the number of tokens is smaller than the buffer size of the radio bearer is transmitted to the base station or fourth status information indicating that the number of tokens is not smaller than the buffer size of the radio bearer is transmitted to the base station; or 
         [0067]    fifth status information indicating that the number of tokens is not larger than the buffer size of the radio bearer is transmitted to the base station or sixth status information indicating that the number of tokens is larger than the buffer size of the radio bearer is transmitted to the base station. 
         [0068]    Dependent upon the result of comparison, transmission of the second status information includes: 
         [0069]    seventh status information indicating that the buffer size of the radio bearer is larger than zero is transmitted to the base station or eighth status information indicating that the buffer size of the radio bearer is not larger than zero is transmitted to the base station. 
         [0070]    The method for transmitting the status of an RB according to the first embodiment of the invention will be set forth in details below. 
         [0071]    In the first embodiment, uplink resources available to the UE side is allocated to respective RBs thereof in the token bucket mechanism, which includes the following operations 1 to 3. 
         [0072]    Operation 1: The number of tokens, Bj, is updated as per a Prioritized Bite Rate (PBR) upon arrival of a transmission period. 
         [0073]    Operation 2: The resources are allocated to the respective RBs with Bj&gt;0 in a descending order of the priorities of the RBs, and Bj is updated dependent upon the result of allocating the resources (Bj may be negative to thereby obviate frequent segmentation and assembling of a data packet). 
         [0074]    Operation 3: If there is a remaining part of the uplink resources, then the remaining part of the uplink resources is allocated to the respective RBs in a descending order of the priorities (regardless of the size of Bj) until all the buffered data of the RBs is transmitted or no uplink resource remains. 
         [0075]    In the operation 1, an original Bj corresponding to an RB is updated by adding a corresponding value of PBR thereto, to obtain an updated Bj corresponding to the RB. 
         [0076]    In the operation 2, the uplink resources are allocated the first time in a way that a part of the uplink resources allocated by the UE to the RB currently to be processed is determined from the buffer size BS of the RB, Bj corresponding to the RB and the amount of a remaining part of the uplink resources. After the part of the uplink resources is allocated to the RB, Bj corresponding to the RB is updated correspondingly, and particularly, Bj is updated by subtracting the amount of the part of the uplink resources allocated to the RB from the original Bj; also BS of the RB is updated correspondingly, and particularly, Bs is updated by subtracting the amount of the part of the uplink resources allocated to the RB from the original Bs; and also the amount of the remaining part of the uplink resources is updated correspondingly, and particularly, the amount of the remaining part of the uplink resources is updated by subtracting the amount of the part of the uplink resources allocated to the RB from the original amount of the remaining part of the uplink resources. 
         [0077]    The operation 3 is an operation performed if still a part of the uplink resources remains after the operation 2 is performed. The uplink resources are allocated the second time in the operation 3, that is, the remaining uplink resources are allocated to several RBs, and for each of the RBs provided with a further part of the uplink resources, Bs corresponding to the RB is updated correspondingly, and particularly, Bs is updated by subtracting the amount of the further part of the uplink resources allocated to the RB from the previous Bs; and also the amount of the remaining part of the uplink resources is updated correspondingly, and particularly, the remaining part of the uplink resources is updated by subtracting the amount of the further part of the uplink resources allocated to the RB from the previous amount of the remaining part of the uplink resources. However, Bj corresponding to each of the RBs in the operation 3 is smaller than or equal to zero, thus Bj will not be updated even if the RB is provided with a further part of the uplink resources. 
         [0078]    Therefore in the operation S 501 , the number of tokens in a token bucket corresponding to the radio bearer after the uplink resources are allocated in the current transmission period is the updated number of tokens after the UE allocates the uplink resources. 
         [0079]    A specific flow of performing the method for transmitting the status of an RB as illustrated in  FIG. 5  will be detailed below and as illustrated in  FIG. 6  includes the following operations S 601  to S 610 . 
         [0080]    Operation S 601 . Bj is determined. 
         [0081]    Operation S 602 . Whether Bj is larger than zero is determined, and if so, then the operation S 603  and also the operation S 605  are executed; otherwise, the operation S 604  and also the operation S 608  are executed. 
         [0082]    Operation S 603 . First status information indicating that Bj is larger than zero is transmitted to a base station. 
         [0083]    Operation S 604 . Second status information indicating that Bj is not larger than zero is transmitted to the base station. 
         [0084]    Operation S 605 . Whether Bj is smaller than BS is determined, and if so, then the operation S 606  is executed; otherwise, the operation S 607  is executed. 
         [0085]    Operation S 606 . Third status information indicating that Bj is smaller than BS is transmitted to the base station. 
         [0086]    Operation S 607 . Fourth status information indicating that Bj is not smaller than BS is transmitted to the base station. 
         [0087]    Operation S 608 . Whether BS is larger than zero is determined, and if so, then the operation S 609  is executed; otherwise, the operation S 610  is executed. 
         [0088]    Operation S 609 . Seventh status information indicating that BS is larger than zero is transmitted to the base station. 
         [0089]    Operation S 610 . Eighth status information indicating that BS is not larger than zero is transmitted to the base station. 
         [0090]    In the present first embodiment, alternatively whether Bj is not larger than BS, i.e., “Bj≦BS”, may be determined in the operation S 605 . 
         [0091]    Correspondingly in the operation S 606 , fifth status information indicating that Bj is not larger than BS is transmitted to the base station. 
         [0092]    Correspondingly in the operation S 607 , sixth status information indicating that Bj is larger than BS is transmitted to the base station. 
         [0093]    Particularly in the present first embodiment, the first status information or the second status information may be transmitted in a reserved bit “R” in sub-header fields corresponding to respective radio bearers in a Media Access Control (MAC) Protocol Data Unit (PDU), and the third status information, the fourth status information, the fifth status information, the sixth status information, the seventh status information and the eighth status information may be transmitted in another reserved bit “R” in the sub-header fields corresponding to the respective radio bearers in the MAC PDU. Particularly: 
         [0094]    for each of the RBs, a bit “R” in the sub-header field corresponding to the RB is set to 1, which correspondingly represents the first status information; or the bit “R” is set to 0, which correspondingly represents the second status information; 
         [0095]    another bit “R” in the sub-header field corresponding to the RB is set to 1, which correspondingly represents the third status information; or the bit “R” is set to 0, which correspondingly represents the fourth status information; or 
         [0096]    another bit “R” in the sub-header field corresponding to the RB is set to 1, which correspondingly represents the fifth status information; or the bit “R” is set to 0, which correspondingly represents the sixth status information; or 
         [0097]    another bit “R” in the sub-header field corresponding to the RB is set to 1, which correspondingly represents the seventh status information; or the bit “R” is set to 0, which correspondingly represents the eighth status information. 
         [0098]    The first status information or the second status information, the third status information or the fourth status information, the fifth status information or the sixth status information, the seventh status information or the eighth status information is transmitted to the base station when data is transmitted to the base station in the MAC PDU. 
         [0099]    In another embodiment, a bit “R” may be set “0”, which correspondingly represents the first status information; or the bit “R” may be set to “1”, which correspondingly represents the second status information. 
         [0100]    In another embodiment, another bit “R” may be set to “0”, which correspondingly represents the third status information, the fifth status information or the seventh status information; or the another bit “R” may be set to “1”, which correspondingly represents the fourth status information, the sixth status information or the eighth status information. 
         [0101]    Preferably in the operation S 502  and when the first status information or the second status information, the third status information or the fourth status information, the fifth status information or the sixth status information, the seventh status information or the eighth status information is transmitted in the flow illustrated in  FIG. 6 , also the buffer size of a Radio Bearer Group (RBG) composed of several RBs may be transmitted to the base station; or the buffer size of the RBG may be transmitted to the base station when a preset condition is satisfied. Particularly, the respective RBs composing the RBG have similar priorities or the same priority, and the condition to be satisfied may be present variously, for example, such a condition is preset that the buffer size of the RBG is larger than a preset threshold; or the buffer size of the RBG is transmitted periodically to the base station, where the periodicity is an integer multiple of the transmission period. 
         [0102]    Particularly, the buffer size of the RBG may be transmitted in an MAC control element field corresponding to the RBG in the MAC PDU. 
         [0103]    With the method according to the first embodiment of the invention, reception at the base station of the first status information of an RB included for the UE indicates that the uplink resources previously available to the RB does not satisfy its required rate of PBR, and reception of the second status information of the RB included for the UE indicates that the uplink resources previously available to the RB has satisfied its required rate of PBR. Also the base station may receive the third status information or the fourth status information, or the fifth status information or the sixth status information indicating a size relationship between the number of tokens corresponding to the RB and its corresponding buffer size when the number of tokens is larger than zero, or may receive the seventh status information or eighth status information indicating a size relationship between the buffer size corresponding to the RB and zero when the number of tokens is not larger than zero, so that the base station can prioritize the UE highly or lowly when the uplink resources are allocated and adjust the amount of a part of the uplink resources allocated to the UE more reasonably taking the status information of the respective RBs into comprehensive consideration. 
       The Second Embodiment 
       [0104]    The second embodiment of the invention provides a method for transmitting the status of a radio bearer, which as illustrated in  FIG. 7  includes the following operations S 701  to S 702 . 
         [0105]    Operation S 701 . The number of tokens in a token bucket corresponding to the radio bearer is determined and the number of token is compared with the buffer size of the radio bearer after an uplink resource is allocated in a current transmission period. 
         [0106]    Operation S 702 . First status information indicating that the number of tokens is larger than zero and smaller than the buffer size of the radio bearer is transmitted to a base station or second status information indicating that the number of tokens is not larger than zero or not smaller than the buffer size of the radio bearer is transmitted to the base station dependent upon the determined number of tokens and the result of comparison; or 
         [0107]    Third status information indicating that the number of tokens is larger than zero and not larger than the buffer size of the radio bearer is transmitted to the base station or fourth status information indicating that the number of tokens is not larger than zero or is larger than the buffer size of the radio bearer is transmitted to the base station dependent upon the determined number of tokens and the result of comparison. 
         [0108]    The method for transmitting the status of an RB according to the second embodiment of the invention will be detailed below. 
         [0109]    In the second embodiment of the invention, uplink resources available to the UE side are allocated to respective RBs thereof in the same token bucket mechanism as in the first embodiment. 
         [0110]    Therefore in the operation S 701 , the number of tokens in a token bucket corresponding to the radio bearer after the uplink resources are allocated in the current transmission period is the updated number of tokens after a UE allocates the uplink resources. 
         [0111]    A specific flow of performing the method for transmitting the status of an RB as illustrated in  FIG. 7  will be detailed below and as illustrated in  FIG. 8  includes the following operations S 801  to S 805 . 
         [0112]    Operation S 801 . Bj is determined. 
         [0113]    Operation S 802 . Whether Bj is larger than zero is determined, and if so, then the operation S 803  is executed; otherwise, the operation S 805  is executed. 
         [0114]    Operation S 803 . Whether Bj is smaller than BS is determined, and if so, then the operation S 804  is executed; otherwise, the operation S 805  is executed. 
         [0115]    Operation S 804 . First status information indicating that Bj is larger than zero and smaller than BS is transmitted to a base station. 
         [0116]    Operation S 805 . Second status information indicating that Bj is not larger than zero or not smaller than BS is transmitted to the base station. 
         [0117]    In the present second embodiment, alternatively whether Bj is not larger than BS, i.e., “Bj≦BS”, may be determined in the operation S 803 . 
         [0118]    Correspondingly in the operation S 804 , third status information indicating that Bj is larger than zero and not larger than BS is transmitted to the base station. 
         [0119]    Correspondingly in the operation S 805 , fourth status information indicating that Bj is not larger than zero or is larger than BS is transmitted to the base station. 
         [0120]    Alternatively in the flow of the method as illustrated in  FIG. 8 , firstly Bj is compared with BS in size, and when Bj is smaller than BS, Bj is further compared with zero, and correspondingly the first or second status information is transmitted. 
         [0121]    Particularly in the present second embodiment, the first status information, the second status information, the third status information or the fourth status information may be transmitted in a reserved bit “R” in sub-header fields corresponding to respective radio bearers in an MAC PDU. Particularly: 
         [0122]    for each of the RBs, a bit “R” in the sub-header field corresponding to the RB is set to 1, which correspondingly represents the first status information; or the bit “R” is set to 0, which correspondingly represents the second status information; or 
         [0123]    a bit “R” in the sub-header field corresponding to the RB is set to 1, which correspondingly represents the third status information; or the bit “R” is set to 0, which correspondingly represents the fourth status information. 
         [0124]    The first status information, the second status information, the third status information or the fourth status information is transmitted to the base station when data is transmitted to the base station in the MAC PDU. 
         [0125]    Alternatively in another embodiment, a bit “R” is set to 0, which correspondingly represents the first status information or the third status information; or the bit “R” is set to 1, which correspondingly represents the second status information or the fourth status information. 
         [0126]    Preferably in the operation S 702  and when the first status information, the second status information, the third status information or the fourth status information is transmitted in the flow illustrated in  FIG. 8 , also the buffer size of a Radio Bearer Group (RBG) composed of several RBs may be transmitted to the base station; or the buffer size of the RBG may be transmitted to the base station when a preset condition is satisfied. Particularly, the respective RBs composing the RBG have similar priorities or the same priority, and the condition to be satisfied can be present variously, for example, such a condition is preset that the buffer size of the RBG is larger than a preset threshold; or the buffer size of the RBG is transmitted periodically to the base station, where the periodicity is an integer multiple of the transmission period. 
         [0127]    Particularly, the buffer size of the RBG may be transmitted in an MAC control element field corresponding to the RBG in the MAC PDU. 
         [0128]    Also with the method according to the second embodiment of the invention, the base station can prioritize the UE highly or lowly when the uplink resources are allocated and adjust the amount of a part of the uplink resources allocated to the UE more reasonably taking the status information of the respective RBs into comprehensive consideration. 
       The Third Embodiment 
       [0129]    The third embodiment of the invention provides a method for transmitting the status of a radio bearer, which as illustrated in  FIG. 9  includes the following operations S 901  and S 902 . 
         [0130]    Operation S 901 . The buffer size of the radio bearer is determined after uplink resources are allocated in a current transmission period; and 
         [0131]    The number of tokens in a token bucket corresponding to the radio bearer is determined when the buffer size of the radio bearer is larger than zero; and 
         [0132]    The number of tokens is compared with the buffer size of the radio bearer when the number of tokens is larger than zero. 
         [0133]    Operation S 902 . First status information indicating that the buffer size of the radio bearer is not larger than zero is transmitted dependent upon the determined buffer size of the radio bearer; or 
         [0134]    Second status information indicating that the number of tokens is not larger than zero and that the buffer size of the radio bearer is larger than zero is transmitted to a base station dependent upon the determined number of tokens; or 
         [0135]    Third status information indicating that the number of tokens is larger than zero and smaller than the buffer size of the radio bearer is transmitted to the base station or fourth status information indicating that the number of tokens is larger than zero and that the buffer size of the radio bearer is larger than zero is transmitted to the base station dependent upon the result of comparison; or 
         [0136]    Fifth status information indicating that the number of tokens is larger than zero and is not larger than the buffer size of the radio bearer is transmitted to the base station or sixth status information indicating that the number of tokens is larger than zero and than the buffer size of the radio bearer and the buffer size of the radio bear is larger than zero is transmitted to the base station dependent upon the result of comparison. 
         [0137]    The method for transmitting the status of an RB according to the third embodiment of the invention will be detailed below. 
         [0138]    In the third embodiment of the invention, uplink resources available to the UE side are allocated to respective RBs thereof in the same token bucket mechanism as in the first embodiment. 
         [0139]    Therefore in the operation S 901 , the number of tokens in a token bucket corresponding to the radio bearer after the uplink resources are allocated in the current transmission period is the updated number of tokens after a UE allocates the uplink resources, and the buffer size of the radio bearer is the updated buffer size of the radio bearer after the UE allocates the uplink resources. 
         [0140]    A specific flow of performing the method for transmitting the status of an RB as illustrated in  FIG. 9  will be detailed below and as illustrated in  FIG. 10  includes the following operations S 1001  to S 1009 . 
         [0141]    Operation S 1001 . BS is determined. 
         [0142]    Operation S 1002 . Whether BS is larger than zero is determined, and if so, then the operation S 1004  is executed; otherwise, the operation S 1003  is executed. 
         [0143]    Operation S 1003 . First status information indicating that BS is not larger than zero is transmitted to a base station. 
         [0144]    Operation S 1004 . Bj is determined. 
         [0145]    Operation S 1005 . Whether Bj is larger than zero is determined, and if so, then the operation S 1007  is executed; otherwise, the operation S 1006  is executed. 
         [0146]    Operation S 1006 . Second status information indicating that Bj is not larger than zero and BS is larger than zero is transmitted to the base station. 
         [0147]    Operation S 1007 . Whether Bj is smaller than BS is determined, and if so, then the operation S 1008  is executed; otherwise, the operation S 1009  is executed. 
         [0148]    Operation S 1008 . Third status information indicating that Bj is larger than zero and smaller than BS is transmitted to the base station. 
         [0149]    Operation S 1009 . Fourth status information indicating that Bj is larger than zero and not smaller than BS is transmitted to the base station. 
         [0150]    In the present third embodiment, alternatively in the operation S 1007 , whether Bj is not larger than BS, i.e., “Bj≦BS”, is determined. 
         [0151]    Correspondingly in the operation S 1008 , fifth status information indicating that Bj is larger than zero and not larger than BS is transmitted to the base station. 
         [0152]    Correspondingly in the operation S 1009 , sixth status information indicating that Bj is larger than zero and BS is transmitted to the base station. 
         [0153]    In the present third embodiment, the first status information, the second status information, the third status information, the fourth status information, the fifth status information or the sixth status information may particularly be transmitted in two reserved bits “R” in sub-header fields corresponding to respective radio bearers in an MAC PDU. Particularly: 
         [0154]    for each of the RBs, the first status information, the second status information, the third status information or the fourth status information is represented respectively with the two bits “R” being set to (0, 0), (0, 1), (1, 0) or (1, 1); or 
         [0155]    the first status information, the second status information, the fifth status information or the sixth status information is represented respectively with the two bits “R” being set to (0, 0), (0, 1), (1, 0) or (1, 1). 
         [0156]    The first status information, the second status information, the third status information, the fourth status information, the fifth status information or the sixth status information is transmitted to the base station when data is transmitted to the base station in the MAC PDU. 
         [0157]    In another embodiment, particularly which of the status information is correspondingly represented with the two bits “R” being set to (0, 0), (0, 1), (1, 0) or (1, 1) may be arranged variously. 
         [0158]    Preferably in the operation S 902  and when the first status information, the second status information, the third status information, the fourth status information, the fifth status information or the sixth status information is transmitted in the flow illustrated in  FIG. 10 , also the buffer size of a Radio Bearer Group (RBG) composed of several RBs may be transmitted to the base station; or the buffer size of the RBG may be transmitted to the base station when a preset condition is satisfied. Particularly, the respective RBs composing the RBG have similar priorities or the same priority, and the condition to be satisfied may be present variously, for example, such a condition is preset that the buffer size of the RBG is larger than a preset threshold; or the buffer size of the RBG is transmitted periodically to the base station, where the periodicity is an integer multiple of the transmission period. 
         [0159]    Particularly, the buffer size of the RBG may be transmitted in an MAC control element field corresponding to the RBG in the MAC PDU. 
         [0160]    Also with the method according to the third embodiment of the invention, the base station can prioritize the UE highly or lowly when the uplink resources are allocated and adjust the amount of a part of the uplink resources allocated to the UE more reasonably taking the status information of the respective RBs into comprehensive consideration. 
       The Fourth Embodiment 
       [0161]    Based upon the same inventive idea, according to a method for transmitting the status of a radio bearer according to the first embodiment of the invention, the fourth embodiment of the invention correspondingly provides a mobile terminal with a structure as illustrated in  FIG. 11 , which particularly includes: 
         [0162]    a determination unit  1101  configured to determine the number of tokens in a token bucket corresponding to a radio bearer after uplink resources are allocated in a current transmission period; and 
         [0163]    a transmission unit  1102  configured to transmit first status information indicating that the number of tokens is larger than zero to a base station or transmit second status information indicating that the number of tokens is not larger than zero to the base station dependent upon the determined number of tokens. 
         [0164]    Preferably, the first status information or the second status information is transmitted in a reserved bit in a sub-header field corresponding to the radio bearer in an MAC PDU. 
         [0165]    Preferably, the transmission unit  1102  is further configured to transmit the buffer size of a radio bearer group to the base station or to transmit the buffer size of the radio bearer group to the base station when a preset condition is satisfied. 
         [0166]    Preferably, the buffer size of the radio bearer group is transmitted by the transmission unit  1102  to the base station in an MAC control element field corresponding to the radio bearer group in an MAC PDU. 
         [0167]    Preferably, the determination unit  1101  is further configured to compare the number of tokens with the buffer size of the radio bearer when the number of tokens is larger than zero; and 
         [0168]    to compare the buffer size of the radio bearer with zero when the number of tokens is not larger than zero. 
         [0169]    The transmission unit  1102  is further configured to transmit third status information indicating that the number of tokens is smaller than the buffer size of the radio bearer to the base station or transmit fourth status information indicating that the number of tokens is not smaller than the buffer size of the radio bearer to the base station; or 
         [0170]    to transmit fifth status information indicating that the number of tokens is not larger than the buffer size of the radio bearer to the base station or transmit sixth status information indicating that the number of tokens is larger than the buffer size of the radio bearer to the base station upon transmission of the first status information dependent upon the result of comparison; and 
         [0171]    to transmit seventh status information indicating that the buffer size of the radio bearer is larger than zero to the base station or transmit eighth status information indicating that the buffer size of the radio bearer is not larger than zero to the base station upon transmission of the second status information dependent upon the result of comparison. 
         [0172]    Preferably, the transmission unit  1102  is configured to transmit the third status information, the fourth status information, the fifth status information, the sixth status information, the seventh status information or the eighth status information in another reserved bit in a sub-header field corresponding to the radio bearer in an MAC PDU 
       The Fifth Embodiment 
       [0173]    According to a method for transmitting the status of a radio bearer, the fifth embodiment of the invention correspondingly provides a mobile terminal with a structure as illustrated in the schematic diagram of  FIG. 12 , which particularly includes: 
         [0174]    a determination and comparison unit  1201  configured to determine the number of tokens in a token bucket corresponding to a radio bearer and compare the number of tokens with the buffer size of the radio bearer after uplink resources are allocated in a current transmission period; and 
         [0175]    a transmission unit  1202  configured to transmit first status information indicating that the number of tokens is larger than zero and smaller than the buffer size of the radio bearer to a base station or transmit second status information indicating that the number of tokens is not larger than zero or not smaller than the buffer size of the radio bearer to the base station dependent upon the determined number of tokens and the result of comparison; or 
         [0176]    to transmit third status information indicating that the number of tokens is larger than zero and not larger than the buffer size of the radio bearer to the base station or transmit fourth status information indicating that the number of tokens is not larger than zero or is larger than the buffer size of the radio bearer to the base station dependent upon the determined number of tokens and the result of comparison. 
         [0177]    Preferably, the transmission unit  1202  is configured to transmit the first status information, the second status information, the third status information or the fourth status information in a reserved bit in a sub-header field corresponding to the radio bearer in an MAC PDU. 
         [0178]    Preferably, the transmission unit  1202  is further configured to transmit the buffer size of a radio bearer group to the base station or to transmit the buffer size of the radio bearer group to the base station when a preset condition is satisfied. 
         [0179]    Preferably, the buffer size of the radio bearer group is transmitted by the transmission unit  1202  to the base station in an MAC control element field corresponding to the radio bearer in an MAC PDU. 
       The Sixth Embodiment 
       [0180]    According to the method for transmitting the status of a radio bearer according to the third embodiment of the invention, the sixth embodiment of the invention correspondingly provides a mobile terminal with a structure as illustrated in the schematic diagram of  FIG. 13 , which particularly includes: 
         [0181]    a first determination unit  1301  configured to determine the buffer size of a radio bearer after uplink resources are allocated in a current transmission period; 
         [0182]    a second determination unit  1302  configured to determine the number of tokens in a token bucket corresponding to the radio bearer when the buffer size of the radio bearer determined by the first determination unit  1301  is larger than zero; 
         [0183]    a comparison unit  1303  configured to compare the number of tokens with the buffer size of the radio bearer when the number of tokens determined by the second determination unit  1302  is larger than zero; and 
         [0184]    a transmission unit  1304  configured to transmit first status information indicating that the buffer size of the radio bearer is not larger than zero dependent upon the buffer size of the radio bearer determined by the first determination unit  1301 ; or 
         [0185]    to transmit second status information indicating that the number of tokens is not larger than zero and the buffer size of the radio bearer is larger than zero to a base station dependent upon the number of tokens determined by the second determination unit  1302 ; or 
         [0186]    to transmit third status information indicating that the number of tokens is larger than zero and smaller than the buffer size of the radio bearer to the base station or transmit fourth status information indicating that the number of tokens is larger than zero and not smaller than the buffer size of the radio bearer and the buffer size of the radio bearer is larger than zero to the base station dependent upon the result of comparison by the comparison unit  1303 ; or 
         [0187]    to transmit fifth status information indicating that the number of tokens is larger than zero and not larger than the buffer size of the radio bearer to the base station or transmit sixth status information indicating that the number of tokens is larger than zero and than the buffer size of the radio bearer and the buffer size of the radio bearer is larger than zero to the base station dependent upon the result of comparison by the comparison unit  1303 . 
         [0188]    Preferably, the transmission unit  1304  is configured to transmit the first status information, the second status information, the third status information, the fourth status information, the fifth status information or the sixth status information in a reserved bit in a sub-header field corresponding to the radio bearer in an MAC PDU. 
         [0189]    Preferably, the transmission unit  1304  is further configured to transmit the buffer size of a radio bearer group to the base station; or 
         [0190]    to transmit the buffer size of the radio bearer group to the base station when a preset condition is satisfied. 
         [0191]    Preferably, the transmission unit  1304  is further configured to transmit the buffer size of the radio bearer group to the base station in an MAC control element field corresponding to the radio bearer in an MAC PDU. 
         [0192]    In summary, a solution according to the embodiments of the invention includes: determining the number of tokens in a token bucket corresponding to a radio bearer after uplink resources are allocated in a current transmission period; and transmitting first status information indicating that the number of tokens is larger than zero to a base station or transmitting second status information indicating that the number of tokens is not larger than zero to the base station dependent upon the determined number of tokens. With the solution according to the embodiments of the invention, the precision of the RB status reported from a UE can be improved so that the base station can allocate the uplink resources more reasonably, thus improving the efficiency of utilizing the uplink resources. 
         [0193]    Evidently those skilled in the art may make various modifications and variations to the invention without departing from the scope of the invention. Thus the invention is also intended to encompass these modifications and variations thereto as long as the modifications and variations come into the scope of the claims appended to the invention and their equivalents.