A wireless communication system and method employing channel transport format allocation in a shared uplink channel between a ue and a Node B, and wherein the ue can determine a transport format combination which it can support, by: detecting in the ue a change in transport format combination that the ue can support; and sending to the Node B an indication of transport format combination that the ue can support, whereby efficiency of channel transport format allocation in the system may be improved. A conditional delay mechanism may be employed to reduce signalling overhead. This allows uplink shared channels to be efficiently used by providing a means by which UTRAN (UMTS terrestrial radio access network) is informed of the TFCs within the TFCS which can be used in the uplink by the ue.
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0. 18. A method performed by a user equipment (ue), the method comprising:
receiving, from a wireless network, a set of allowed uplink transmission formats;
sending, by the ue, data using a first uplink transmission format;
determining, by the ue and based on an improvement of a channel condition, if a second uplink transmission format is available for a predetermined time period continuously, wherein the second uplink transmission format has a higher data rate than the first uplink transmission format;
in response to determining the second uplink transmission format is available for a predetermined time period continuously, sending, by the ue, an indication that a higher data rate uplink transmission format is supported;
receiving, by the ue from the wireless network in association with the indication, an allocation of uplink resources.
0. 15. A computer readable medium comprising program code for a method performed by a user equipment (ue), the method comprising:
receiving, from a wireless network, a set of allowed uplink transmission formats;
sending data using a first uplink transmission format;
determining, based on an improvement of a channel condition, if a second uplink transmission format is available for a predetermined time period continuously, wherein the second uplink transmission format has a higher data rate than the first uplink transmission format;
in response to determining the second uplink transmission format is available for a predetermined time period continuously, sending an indication that a higher data rate uplink transmission format is supported; and
receiving, from the wireless network in association with the indication, an allocation of uplink resources.
0. 23. A method performed by a wireless network, the method comprising:
sending, to a user equipment (ue), a set of allowed uplink transmission formats;
sending, to the ue, a first resource allocation message indicating a first uplink transmission format for the ue;
receiving data sent by the ue using the first uplink transmission format;
receiving, from the ue, an indication that a higher data rate uplink transmission format is supported, wherein the ue determines that the higher data rate uplink transmission format is supported for a predetermined time period continuously based on an improvement of a channel condition; and
sending, in response to the indication, a second resource allocation message to the ue indicating a second uplink transmission format, wherein the second uplink transmission format has a higher data rate than the first uplink transmission format.
0. 21. A computer readable medium comprising program code for a method performed by a wireless network, the method comprising:
sending, to a user equipment (ue), a set of allowed uplink transmission formats;
sending, to the ue, a first resource allocation message indicating a first uplink transmission format for the ue;
receiving data sent by the ue using the first uplink transmission format;
receiving, from the ue, an indication that a higher data rate uplink transmission format is supported, wherein the ue determines that the higher data rate uplink transmission format is supported for a predetermined time period continuously based on an improvement of a channel condition; and
sending, in response to the indication, a second resource allocation message to the ue indicating a second uplink transmission format, wherein the second uplink transmission format has a higher data rate than the first uplink transmission format.
0. 1. A method for a wireless communication system using transport format combinations (TFC) for allocating bandwidth of a shared channel among a plurality of radio units in the system, the method comprising:
receiving, at a radio unit, a transport format combination set (TFCS) including a transport format combination (TFC) allocated for use by the radio unit for data transmission;
detecting in the radio unit that the radio unit can support a TFC within the TFCS different from the allocated TFC; and
sending, responsive to detecting, to the base station an indication of the transport format combination in the TFCS that the radio unit can support.
0. 2. The method as claimed in
0. 3. The method as claimed in
0. 4. The method as claimed in
0. 5. The method as claimed in
indicating from physical interface circuitry to medium access control circuitry a change in transport format combination that the radio unit can support.
0. 6. The method as claimed in
0. 7. A wireless unit for data transmission on an uplink channel shared with other wireless units, the uplink channel shared by allocating a transport format combination (TFC) to the wireless unit from a basestation, the wireless unit comprising:
physical interface circuitry configured to detect Transport format Combinations (TFCs) that the wireless unit can use; and
media access control circuitry configured to receive, from the physical interface circuitry, an indication of the TFCs that the wireless unit can use, and to select, for uplink transmission, a TFC from the TFCs that the wireless unit can use, and wherein the media access control circuitry is also configured to provide an indication to the basestation if the selected TFC is not the allocated TFC from the basestation.
0. 8. The wireless unit of
0. 9. The wireless unit of
0. 10. The wireless unit of
0. 11. A computer readable medium comprising program code for a method of allocating bandwidth of a shared wireless medium, the method comprising:
receiving, in a radio unit and from a controller, a transport format combination representative of an allocation of a shared uplink channel;
detecting, in the radio unit, a change in Transport format Combinations (TFC) that the radio unit can use for an uplink transmission; and
indicating the TFC change to the controller so that the controller can use the indication for reallocating the shared uplink channel.
0. 12. A computer readable medium comprising program code for a method to be implemented in a controller for a wireless communications network that provides for uplink transmissions from a plurality of wireless units on a shared channel, the method comprising:
formulating a first set of transport format combinations (a TFCS), for transmission to a wireless unit of the plurality, the first TFCS reflecting an allocation of the shared channel among the plurality of wireless units, and including an initially allocated TFC for uplink transmission by the wireless unit;
transmitting the first TFCS to the wireless unit;
receiving an indication from the wireless unit that a calculated set of TFCs that the wireless unit can use for an uplink transmission differs from the initially allocated TFC in the first TFCS; and
modifying the allocation of the shared channel among the wireless units in response to the indication.
0. 13. The computer readable medium of
determining, based on the indication, that the initially allocated TFC provides a bandwidth higher than what the wireless unit can presently use; and
further comprising reallocating, to other wireless units of the plurality, a difference in bandwidth reflected by the highest bandwidth TFC in the calculated set of TFC and the initially allocated TFC in the first TFCS.
0. 14. The computer readable medium of
determining, based on the indication, that the wireless unit can use a higher bandwidth TFC in the first TFCS than the initially allocated TFC; and
allocating the higher bandwidth TFC to the wireless unit.
0. 16. The computer readable medium of claim 15, wherein the determination of the second uplink transmission format availability occurs over a plurality of time intervals.
0. 17. The computer readable medium of claim 15, wherein the allocation of uplink resources is for an uplink shared channel.
0. 19. The method of claim 18, wherein the determination of the second uplink transmission format availability occurs over a plurality of time intervals.
0. 20. The method of claim 18, wherein the allocation of uplink resources is for an uplink shared channel.
0. 22. The computer readable medium of claim 21, wherein each of the first uplink transmission format and the second uplink transmission format is associated with an uplink shared channel.
0. 24. The method of claim 23, wherein each of the first uplink transmission format and the second uplink transmission format is associated with an uplink shared channel.
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1 2. As can be seen, at time t1 the required UE TX power for TFC 1 exceeds the maximum available UE TX power and the UE reports change in available TFC. Next, at time t2 the required UE TX power for TFC 2 exceeds the maximum available UE TX power and the UE reports change in available TFC. Then, at time t3 the required UE TX power for TFC 2 falls below the maximum available UE TX power and the UE reports change in available TFC. Finally, at time t4 the required UE TX power for TFC 1 falls below the maximum available UE TX power and the UE reports change in available TFC.
The measurement can be filtered by use of a time-to-trigger parameter so as not to generate excessive measurement reports when the available TFCs change rapidly. That is to say, the available TFCs must change for Tt seconds (the value of the time-to-trigger parameter) continuously before the measurement report is sent.
FIG. 2 3 shows how the use of the time-to-trigger parameter modifies the reports generated by the UE when four threshold crossings events occur at times T1, T2, T3 and T4, similarly to the four threshold crossings events at times t1, t2, t3 and t4 in FIG. 1 2. As can be seen in FIG. 2 3, at time T1 the required UE TX power for TFC 1 exceeds the maximum available UE TX power and (rather than the UE immediately reporting change in available TFC) a time-to-trigger timer (not shown) is started. At time T2 the required UE TX power for TFC 1 falls below the maximum available UE TX power and the timer is reset. At time T3 the required UE TX power for TFC 1 exceeds the maximum available UE TX power and the time-to-trigger timer is again started. After a further period of time Tt when the time-to-trigger timer expires the required UE TX power for TFC 1 still exceeds the maximum available UE TX power and so at this time the UE reports change in available TFC. It will thus be appreciated that use of the time-to-trigger parameter avoids the UE reporting change in available TFC on three of the four possible occasions (T1, T2 and T3) when it would have occurred without its use, and on only the fourth occasion (T4) does the UE reporting change in available TFC, reducing the signalling overhead by 75%.
The measurement report generated when this measurement is triggered contains the calculated transport format combinations (CTFC) of the available TFCs in the TFCS. The UTRAN can map these CTFC to physical resource and can then allocate physical resource appropriately.
The measurement is only used when the UE is in cell_DCH state.
Example of operation:
Assuming the following
The following steps describe briefly the operation of the new measurement report:
It will be appreciated that the system and methods described above will typically be performed by computer software program(s), in the user equipment and/or else where in the system, which may be transferred on computer readable data carriers such as magnetic or optical disks (not shown).
It will be understood that the method of signalling change of available TFCs in uplink shared channels described above provides the following advantages: The invention allows uplink shared channels to be efficiently used by providing a means by which UTRAN is informed of the TFCs within the TFCS which can be used in the uplink by the UE.
This enables:
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