CN101998524A - Scheduling and sending-down method of high speed-physical downlink shared channel (HS-PDSCH) time slot resource on auxiliary carrier wave - Google Patents
Scheduling and sending-down method of high speed-physical downlink shared channel (HS-PDSCH) time slot resource on auxiliary carrier wave Download PDFInfo
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- CN101998524A CN101998524A CN2009100913127A CN200910091312A CN101998524A CN 101998524 A CN101998524 A CN 101998524A CN 2009100913127 A CN2009100913127 A CN 2009100913127A CN 200910091312 A CN200910091312 A CN 200910091312A CN 101998524 A CN101998524 A CN 101998524A
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Abstract
The invention relates to a scheduling and sending-down method of high speed-physical downlink shared channel (HS-PDSCH) time slot resource on an auxiliary carrier wave. The method comprises the following steps: informing a time slot proportioning relation on the auxiliary carrier wave to user equipment (UE) through a system broadcasting/radio resource control (RRC) special singling; when downlink time slot number determined according to the time slot proportioning relation on the auxiliary carrier wave, except TS0, is less than 5, taking the TS0 on the auxiliary carrier wave as the schedulable time slot resource of the HS-PDSCH resource to schedule the HS-PDSCH time slot resource on the auxiliary carrier wave; and sending down the scheduled HS-PDSCH time slot resource to the UE by using five time slot information bits in HS-PDSCH type 1, wherein one of the five time slot information bits is used for indicating whether the TS0 is the scheduled HS-PDSCH time slot resource. The TS0 time slot can be scheduled as the time slot resource and informed to the UE by applying the method.
Description
Technical field
The present invention relates to HS-PDSCH scheduling of resource technology, the scheduling and the delivery method of HS-PDSCH time interval resource on particularly a kind of auxilliary carrier wave.
Background technology
In the TD-SCDMA system, the TS0 time slot of main carrier is as time slot at present, and the TS0 time slot of auxilliary carrier wave then is not used.In prior protocols, for HS-SCCH Class1 (type1), there is the gap information of five bits to be used to represent which time slot as the HS-PDSCH time interval resource that is scheduled, this gap information is expressed as x
Ts, 1, x
Ts, 2..., x
Ts, 5, wherein, i bit x
Ts, iBe that i+1 time slot of 1 expression is the HS-PDSCH time slot that is scheduled; I bit x
Ts, iBe that i+1 time slot of 0 expression is not the HS-PDSCH time slot that is scheduled.Therefore according to this regulation, the gap information of five bits only can carry the situation that is scheduled of TS2~TS6 time slot, does not have unnecessary information bit whether to be used to refer to auxilliary carrier wave TS0 as the HS-PDSCH resource.Based on this, when carrying out the HS-PDSCH scheduling of resource, can not be with the TS0 time slot as schedulable time interval resource, promptly the HS-PDSCH resource can not be configured on the TS0.
Summary of the invention
In view of this, the invention provides the scheduling and the delivery method of HS-PDSCH time interval resource on a kind of auxilliary carrier wave, can be with the TS0 time slot as schedulable time interval resource, and notice UE.
For achieving the above object, the present invention adopts following technical scheme:
The scheduling and the delivery method of HS-PDSCH time interval resource on a kind of auxilliary carrier wave comprise:
By the time slot proportion relation on system broadcasts/described auxilliary carrier wave of RRC dedicated signaling notice UE;
When the descending time slot number of determining according to the time slot proportion on described auxilliary carrier wave relation except that TS0 less than 5 the time, with the dispatched time interval resource of the TS0 on the described auxilliary carrier wave as the HS-PDSCH resource, the HS-PDSCH time interval resource that carries out on the described auxilliary carrier wave is dispatched;
Utilize five gap information bits in the HS-SCCH Class1 to issue the HS-PDSCH time interval resource of scheduling to UE; A bit in described five gap information bits is used to indicate whether TS0 is the HS-PDSCH time interval resource that is scheduled.
Preferably, whether described to be used for indicating TS0 be that the bit of the HS-PDSCH time interval resource that is scheduled is first bit of described five gap information bits.
Preferably, when described designated bit value was 1, indication TS0 was the HS-PDSCH time interval resource that is scheduled; When described designated bit value was 0, indication TS0 was not the HS-PDSCH time interval resource that is scheduled.
Preferably, the mode of the time slot proportion relation on the described auxilliary carrier wave of notice UE is:
In system broadcasts/RRC dedicated signaling, carry the time slot proportion relation of the frequency and the described auxilliary carrier wave of described auxilliary carrier wave.
Preferably, all concern that with the time slot proportion of main carrier when identical, the time slot proportion of not carrying auxiliary carrier frequency point and each auxilliary carrier wave in system broadcasts/RRC dedicated signaling concerns when the time slot proportion on all auxilliary carrier waves in sub-district relation;
When the time slot proportion relation on the auxilliary carrier wave of part in the sub-district and the time slot proportion of main carrier concern when identical, in system broadcasts/RRC dedicated signaling, carry the frequency of the auxilliary carrier wave of described part, the time slot proportion of not carrying the auxilliary carrier wave of described part concerns.
Preferably, described system broadcasts is broadcasted by the system information block of MIB, SIB3, SIB5 or SIB11.
Preferably, described RRC dedicated signaling is that message RRC CONNECTIONSETUP is set up in the RRC connection, radio bearer is set up request RB SETUP REQUEST, radio bearer reconfiguration request RBRECONFIG REQUEST, radio bearer release request RB RELEASE REQUEST, transmission channel reconfiguration request TRCH RECONFIG REQUEST, physical channel reconfiguration request PHYCHRECONFIG REQUEST or cell update affirmation CELL UPDATE CONFIRM.
As seen from the above technical solution, among the present invention, by the system broadcasts/time slot proportion relation of RRC dedicated signaling notice UE on auxilliary carrier wave; When the descending time slot number of determining according to the time slot proportion relation on should auxilliary carrier wave except that TS0 less than 5 the time, with the dispatched time interval resource of the TS0 on this auxilliary carrier wave as the HS-PDSCH resource, the HS-PDSCH time interval resource that carries out on this auxilliary carrier wave is dispatched; Utilize five gap information bits in the HS-SCCH Class1 to issue the HS-PDSCH time interval resource of scheduling to UE; A designated bit in described five gap information bits is used to indicate whether TS0 is the HS-PDSCH time interval resource that is scheduled.By the way, at the descending time slot number less than 5 o'clock, with TS0 as schedulable HS-PDSCH time interval resource, participate in the scheduling of resource of HS-PDSCH, and utilize a bit in five gap information bits in the HS-SCCH Class1, indicate whether TS0 is the HS-PDSCH time interval resource that is scheduled.
Embodiment
For making purpose of the present invention, technological means and advantage clearer, below the present invention is described in further details.
In the TD-SCDMA system, the uplink and downlink timeslot ratio relation is configurable, and concrete up and descending time slot proportionate relationship can be 1: 5,2: 4,3: 3,4: 2 or 5: 1.Wherein, TS0 must be a descending time slot, therefore in the uplink and downlink timeslot ratio relation, expression be the proportionate relationship of ascending time slot and descending time slot in six time slots of TS 1~TS6.And according to the difference of uplink and downlink timeslot ratio relation, five time slots of TS2~TS6 all may be as ascending time slot or descending time slot, and TS1 must be an ascending time slot.Further, when a certain time slot among TS2~TS6 during as descending time slot, this descending time slot can be used as schedulable HS-PDSCH time interval resource, is used for the HS-PDSCH scheduling of resource; But ascending time slot then can not be as schedulable HS-PDSCH time interval resource.
Therefore, in the scheme that background technology is described, whether five gap information bits are used to identify TS2~TS6 is the HS-PDSCH time interval resource that is scheduled.But simultaneously, according to foregoing description as seen, under different time slot ratios, part time slot among TS2~TS6 may be as ascending time slot, in this case, these ascending time slots can not participate in the HS-PDSCH scheduling of resource, therefore, can not need at these ascending time slots, issue the information whether it is scheduled to UE.
Based on this, at first determine current descending time slot number among the present invention according to the uplink and downlink timeslot ratio relation on the auxilliary carrier wave, if the descending time slot number of determining is less than 5, whether be the HS-PDSCH resource that be scheduled, thereby the information whether TS0 is scheduled can be handed down to UE if utilizing 1 bit to transmit TS0 in then can five gap information bits in the HS-SCCH Class1.Like this, TS0 just can be used as the scheduling of resource that schedulable HS-PDSCH time interval resource participates in HS-PDSCH.
In a sub-district, may there be a plurality of auxilliary carrier waves, all identical for different auxilliary carrier processing modes, be example with the HS-PDSCH scheduling of resource on a certain auxilliary carrier wave A with issuing below, specific implementation is described.HS-PDSCH scheduling of resource and delivery method flow process among concrete the present invention comprise:
Step 101, network side is by the time slot proportion relation on system broadcasts/a certain auxilliary carrier wave A of RRC dedicated signaling notice UE.
Introduced the f frequency range in the TD-SCDMA system, this frequency range can be used as the auxilliary carrier wave of sub-district, and the frequency of this frequency range and main carrier has enough frequency isolation degree, so the main carrier in the TD-SCDMA sub-district can adopt different time slot proportion with auxilliary carrier wave.And be to participate in the HS-PDSCH scheduling of resource at the TS0 on the auxilliary carrier wave to carry out among the present invention, to tie up to network side be known and close about the time slot proportion of each auxilliary carrier wave, therefore, the time slot proportion relation that needs to assist on the carrier wave is handed down to UE.
Issuing time slot proportion when concerning, can be undertaken by system broadcasts or RRC dedicated signaling, and in the message that issues, carry the frequency of auxilliary carrier wave and time slot proportion relation that should auxilliary carrier wave.Wherein, system broadcasts can be to pass through MIB, SIB3, the system information block of SIB5 or SIB11 etc. carries out, and the RRC dedicated signaling can be that message (RRC CONNECTION SETUP) is set up in the RRC connection, radio bearer is set up request (RB SETUP REQUEST), radio bearer reconfiguration request (RB RECONFIGREQUEST), radio bearer discharges request (RB RELEASE REQUEST), transmission channel reconfiguration request (TRCH RECONFIG REQUEST), physical channel reconfiguration request (PHYCHRECONFIG REQUEST) or cell update affirmation (CELL UPDATE CONFIRM) etc.
Further, for for simplicity, when the time slot proportion on all auxilliary carrier waves in sub-district relation all concerns when identical with the time slot proportion of main carrier, in system broadcasts/RRC dedicated signaling, can not carry the time slot proportion relation of each auxiliary carrier frequency point and each auxilliary carrier wave, after the UE side joint is received corresponding information, if the time slot proportion relation of frequency and each auxilliary carrier wave of auxilliary carrier wave is not carried in discovery, think that then the time slot proportion relation of all auxilliary carrier waves is identical with main carrier; When the time slot proportion relation on the auxilliary carrier wave of part in the sub-district and the time slot proportion of main carrier concern when identical, for these time slot proportion relations auxilliary carrier wave identical with main carrier, in system broadcasts/RRC dedicated signaling, only carry the frequency of these auxilliary carrier waves, and the time slot proportion relation of not carrying these auxilliary carrier waves, after the UE side joint is received corresponding information, if find to carry the frequency of the auxilliary carrier wave of part, and do not have the time slot proportion of these auxilliary carrier waves to concern, think that then these do not carry the auxilliary carrier wave of time slot proportion relation, its time slot proportion relation is identical with main carrier.Certainly, for time slot proportion relation those auxilliary carrier waves different, still need the frequency of auxilliary carrier wave is notified to UE with the time slot proportion relation that should assist carrier wave with main carrier.
Step 102, network side and UE determine the descending time slot number except that TS0 according to the time slot proportion relation on the auxilliary carrier wave A.
Step 103, the descending time slot number of determining when step 102 except that TS0 are less than 5 the time, and with the dispatched time interval resource of the TS0 on the auxilliary carrier wave A as the HS-PDSCH resource, the HS-PDSCH time interval resource that participates on this auxilliary carrier wave A is dispatched, and execution in step 104.
Concrete scheduling of resource mode is identical with existing mode, is also as schedulable HS-PDSCH resource with TS0.
Step 104, according to the scheduling result of step 103, utilize five gap information bits in the HS-SCCH Class1 to issue the HS-PDSCH time interval resource of scheduling, wherein to UE, a bit in five gap information bits indicates whether TS0 is the TS0 time interval resource that is scheduled.
Owing to pass through the definite descending time slot number except that TS0 of step 103 less than 5, therefore in five gap information bits, at most only need 4 bits to be used for indicating the information that is scheduled of TS2~TS6 descending time slot, like this, whether a remaining bit can be used to indicate TS0 to be scheduled.
For example:
When the time slot proportioning is 2: 4,3: 3,4: 2 and 5: 1, this moment because among the HS-SCCH type 1 at most indication use 4 descending time slots as the HS-PDSCH time slot, the therefore x of 5 bits
Ts, 1, x
Ts, 2..., x
Ts, 5In fact only need to use 4 bits get final product, a bit that is left can be used to refer to TS0 and whether be used as the HS-PDSCH timeslot scheduling and given UE, for example uses x
Ts, 1As the TS0 indication bit.X wherein
Ts, 2..., x
Ts, 5Represented implication is constant, x
Ts, 1Be used to represent whether TS0 is scheduled, further, can be with x
Ts, 1Getting 0 expression TS0 is not the HS-PDSCH time interval resource that is scheduled, with x
Ts, 1Getting 1 expression TS0 is the HS-PDSCH time interval resource that is scheduled.
So far, HS-PDSCH scheduling of resource on the auxilliary carrier wave among the present invention and delivery method flow process finish.
When the uplink and downlink timeslot proportioning of auxilliary carrier wave was 1: 5, whether owing to there is not unnecessary bit indication TS0 to dispatch to UE as HS-PDSCH, can stipulate the x of 5 gap information bits of HS-SCCH type1 this moment
Ts, 1, x
Ts, 2..., x
Ts, 5Implication remains unchanged, i.e. i bit x
Ts, iBe that i+1 time slot of 1 expression is the HS-PDSCH time slot that is scheduled; I bit x
Ts, iBe that i+1 time slot of 0 expression is not the HS-PDSCH time slot that is scheduled.At the uplink and downlink timeslot proportion relation is 1: 5 o'clock, utilizes alternate manner indication TS0 whether to be used as the HS-PDSCH timeslot scheduling and gives UE.
By the processing of the invention described above, can make the TS0 on the auxilliary carrier wave participate in the HS-PDSCH resource, and can correctly issue its scheduling result, thereby further improve resource utilization as schedulable HS-PDSCH resource.
Being preferred embodiment of the present invention only below, is not to be used to limit protection scope of the present invention.Within the spirit and principles in the present invention all, any modification of being done, be equal to replacement, improvement etc., all should be included within protection scope of the present invention.
Claims (7)
1. the scheduling and the delivery method of HS-PDSCH time interval resource on the auxilliary carrier wave is characterized in that this method comprises:
By the time slot proportion relation on system broadcasts/described auxilliary carrier wave of RRC dedicated signaling notice UE;
When the descending time slot number of determining according to the time slot proportion on described auxilliary carrier wave relation except that TS0 less than 5 the time, with the dispatched time interval resource of the TS0 on the described auxilliary carrier wave as the HS-PDSCH resource, the HS-PDSCH time interval resource that carries out on the described auxilliary carrier wave is dispatched;
Utilize five gap information bits in the HS-SCCH Class1 to issue the HS-PDSCH time interval resource of scheduling to UE; A bit in described five gap information bits is used to indicate whether TS0 is the HS-PDSCH time interval resource that is scheduled.
2. method according to claim 1 is characterized in that, whether described to be used for indicating TS0 be that the bit of the HS-PDSCH time interval resource that is scheduled is first bit of described five gap information bits.
3. method according to claim 1 is characterized in that, when described designated bit value was 1, indication TS0 was the HS-PDSCH time interval resource that is scheduled; When described designated bit value was 0, indication TS0 was not the HS-PDSCH time interval resource that is scheduled.
4. method according to claim 1 is characterized in that, the mode of the time slot proportion relation on the described auxilliary carrier wave of notice UE is:
In system broadcasts/RRC dedicated signaling, carry the time slot proportion relation of the frequency and the described auxilliary carrier wave of described auxilliary carrier wave.
5. method according to claim 1, it is characterized in that, when the time slot proportion on all auxilliary carrier waves in sub-district relation all concerns that with the time slot proportion of main carrier when identical, the time slot proportion of not carrying auxiliary carrier frequency point and each auxilliary carrier wave in system broadcasts/RRC dedicated signaling concerns;
When the time slot proportion relation on the auxilliary carrier wave of part in the sub-district and the time slot proportion of main carrier concern when identical, in system broadcasts/RRC dedicated signaling, carry the frequency of the auxilliary carrier wave of described part, the time slot proportion of not carrying the auxilliary carrier wave of described part concerns.
6. according to claim 1,4 or 5 described methods, it is characterized in that described system broadcasts is broadcasted by the system information block of MIB, SIB3, SIB5 or SIB11.
7. according to claim 1,4 or 5 described methods, it is characterized in that described RRC dedicated signaling is that message RRC CONNECTION SETUP is set up in the RRC connection, radio bearer is set up request RBSETUP REQUEST, radio bearer reconfiguration request RB RECONFIG REQUEST, radio bearer release request RB RELEASE REQUEST, transmission channel reconfiguration request TRCH RECONFIGREQUEST, physical channel reconfiguration request PHYCH RECONFIG REQUEST or cell update affirmation CEILL UPDATE CONFIRM.
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Application publication date: 20110330 |