CN1805564A - Uplink resource allocation method in base station - Google Patents
Uplink resource allocation method in base station Download PDFInfo
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- CN1805564A CN1805564A CN 200510000393 CN200510000393A CN1805564A CN 1805564 A CN1805564 A CN 1805564A CN 200510000393 CN200510000393 CN 200510000393 CN 200510000393 A CN200510000393 A CN 200510000393A CN 1805564 A CN1805564 A CN 1805564A
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Abstract
The invention relates to a method for distributing ascending resource in base station, which comprises: A, Node B distributes algorism resource on the ascending hardware of R99 type and builds UL DPCCH channel and UL DPDCH channel on distributed algorism resource; B, the base station distributes algorism resource on the ascending hardware of R5 type, copies the ascending special physical control channel built on the algorism resource of R99 type, and builds high-speed special physical control channel via said ascending special physical control channel. The invention via building the algorism source of UL DPCCH channel and UL DPDCH channel on the ascending hardware of R99 type and building the algorism source of HS DPCCH channel on the ascending hardware of R5 type, utilizes the ascending hardware of R99 type and avoid the waste of hardware resource of R99 type. The invention can increase the rationalization of resource distribution via distributing resource on the ascending hardware whose left algorism resource is most.
Description
Technical field
The present invention relates to the station technology field in the CDMA (Code Division Multiple Access), be meant the uplink resource allocating method in a kind of base station especially.
Background technology
In the technical standard of 3G (Third Generation) Moblie, with leading Wideband Code Division Multiple Access (WCDMA) (the Wideband Code Division Multiple Access in Europe, WCDMA) technology, leading code division multiple access (the Code Division Multiple Access of the U.S., CDMA) (Time Division Synchronization Code Division Multiple Access, TD-SCDMA) technology becomes three big mainstream technologys to the TD SDMA of technology and China.
Present WCDMA standard can provide the message transmission rate of the highest 2Mbit/s, supports packet switching and circuit switching at a high speed, and many business based on the internet can be provided.Yet,, need system that higher transmission rate and delay still less are provided for such as asymmetric business of up-downgoing data such as download or Streaming Media classes.In order to satisfy this requirement, WCDMA has done improvement to air interface, has introduced the high rate downlink data bag and has inserted that (High Speed Downlink Packet Access, HSDPA) technology make it to support the peak rate up to 14Mbit/s.
In the uplink baseband signal processing of base station (NodeB), need digital signal processor (Digital Signal Processors wherein, DSP), field programmable gate array (FieldProgrammable Gate Array, FPGA), application-specific integrated circuit (ASIC) (Application SpecificIntegrated Circuits, ASIC), central microprocessor (Central Processor Unit, hardware collaborative work such as CPU), finish the demodulation of signal, work such as decoding, one group of DSP with certain disposal ability, FPGA, ASIC, hardware such as CPU just are called one group of upstream hardware, because one group of upstream hardware has certain processing capabilities, just claim to have on this upstream hardware a certain amount of line algorithm resource that goes up.Comprising a lot of groups of such upstream hardware in the base station, is exactly the algorithm resource that consumes on the upstream hardware for the traffic assignments resource in the base station.Because according to there not being the HSDPA technology in the Release 1999, upstream hardware according to the designed R99 type of Release 1999 is not considered the HSDPA function, algorithm resource does not wherein support to set up professional necessary High-Speed Dedicated Physical Control Channel (the Uplink Dedicated PhysicalControl Channel for HS-DSCH of HSDPA, HS-DPCCH), that is to say by the algorithm resource in the upstream hardware of R99 type and can not obtain information in the HS-DPCCH channel.
Because the HSDPA technology proposes in the R5 protocol version, for realizing the HSDPA function, the algorithm resource in the upstream hardware of base station must be the last line algorithm resource that can set up the R5 type of HS-DPCCH channel.In process of service execution, NodeB receives radio network controller (RadioNetwork Controller, RNC) to its transmission, after comprising the Radio Link foundation or radio link reconfiguration signaling of HSDPA business information, allocation algorithm resource on the upstream hardware of R5 type, on the algorithm resource of distributing, set up special physical controlling channel of upward (Uplink DedicatedPhysical Control Channel then, UL DPCCH), up Dedicated Physical Data Channel (UplinkDedicated Physical Control Channel, UL DPDCH), and according to UL DPCCH channel set up the HS-DPCCH channel with the specific timing relation.
On the Base-Band Processing part up direction in the most existing base station all is the hardware of R99 type, this base station is called the R99 type of base station, Fig. 1 is a R99 type of base station Base-Band Processing part schematic diagram, and wherein 101 is the Base-Band Processing part, and 102 is the upstream hardware of Base-Band Processing part.When upgrading base station is professional with realization HSDPA, do not support to set up the HS-DPCCH channel owing to be attached to the last line algorithm resource of the hardware of R99 type, if set up the HS-DPCCH channel thereon, will cause professional failure, so in the existing Base-Band Processing part that realizes the base station of HSDPA business, realize the circuit domain business that HSDPA business and R99 type are supported and the packet switch domain service of various speed with the upstream hardware that all is the R5 type, caused the idle of R99 type upstream hardware.
Summary of the invention
In view of this, the object of the present invention is to provide a kind of method, this method when realizing the HSDPA business, the upstream hardware of the R99 type that can avoid waste.
In order to achieve the above object, the invention provides the uplink resource allocating method in a kind of base station, comprise the upstream hardware of R99 type upstream hardware and R5 type in the base station, this method comprises:
A, base station allocation algorithm resource on the upstream hardware of R99 type is set up special physical controlling channel of upward and up Dedicated Physical Data Channel then on the algorithm resource of distributing;
B, base station allocation algorithm resource on the upstream hardware of R5 type, be replicated in the special physical controlling channel of upward of setting up on the R99 type algorithm resource, on the R5 type algorithm resource of distributing, set up High-Speed Dedicated Physical Control Channel according to this special physical controlling channel of upward then.
Preferably, the step of the allocation algorithm resource on the upstream hardware of R99 type of base station described in the steps A is:
The base station is detected the upstream hardware of R99 type, finds out the upstream hardware of the maximum R99 type of surplus resources, then allocation algorithm resource thereon;
The step of the allocation algorithm resource on R5 type upstream hardware of base station described in the step B is:
The base station is detected the upstream hardware of R5 type, finds out the upstream hardware of the maximum R5 type of surplus resources, then allocation algorithm resource thereon.
Preferably, further comprise before the described steps A:
The base station receives radio network controller after the Radio Link foundation or radio link reconfiguration signaling of its transmission, judges wherein whether comprise high rate downlink data bag access information, if comprise, carries out described steps A and step B; Otherwise the base station is allocation algorithm resource on upstream hardware directly, sets up special physical controlling channel of upward and up Dedicated Physical Data Channel then on the algorithm resource of being distributed.
Preferably, described judge do not comprise high rate downlink data bag access information after, further comprise: the base station is detected upstream hardware, finds out residue algorithm resource maximum upstream hardware;
Judge do not comprise high rate downlink data bag access information after, described base station in allocation algorithm resource on the upstream hardware is: allocation algorithm resource on the maximum upstream hardware of the residue algorithm resource of being found out.
Preferably, further comprise before the described steps A:
The base station is detected line algorithm resource on all, searches the maximum upstream hardware of residue algorithm resource, judges then whether the upstream hardware of being found out is the R99 type, if the R99 type is carried out described steps A and step B; Otherwise the base station is allocation algorithm resource on the upstream hardware of being found out directly, sets up special physical controlling channel of upward, up Dedicated Physical Data Channel and High-Speed Dedicated Physical Control Channel then on the algorithm resource of distributing.
As can be seen from the above technical solutions, among the present invention,, on the algorithm resource of distributing, set up UL DPCCH channel and ULDPDCH channel then by allocation algorithm resource in the R99 of base station type upstream hardware; After this, allocation algorithm resource in the upstream hardware of R5 type, duplicate the UL DPCCH channel of setting up on the R99 type algorithm resource then, set up the HS-DPCCH channel according to this UL DPCCH channel that duplicates again, when realizing the HSDPA business, utilized the upstream hardware of R99 type, avoided waste R99 type upstream hardware; In addition, the present invention is by Resources allocation on the maximum upstream hardware of residue algorithm resource, and resource allocation methods is more reasonable; And then, the present invention is by when the maximum hardware of surplus resources is the hardware of R5 type, directly distribute UL DPCCH channel, UL DPDCH channel and HS-DPCCH channel thereon, avoided further having increased the rationalization of resource allocation having consumed Resources allocation on the R99 type upstream hardware of a lot of algorithm resources.
Description of drawings
Fig. 1 is a R99 type of base station Base-Band Processing part upstream hardware resource schematic diagram;
Fig. 2 is a upstream hardware resource schematic diagram in base station baseband processing section in the embodiment of the invention;
Fig. 3 is the flow chart of the embodiment of the invention;
Fig. 4 is the algorithm resource allocation schematic diagram in the embodiment of the invention;
The channel schematic diagram of Fig. 5 on the algorithm resource, setting up in the embodiment of the invention.
Embodiment
For making the purpose, technical solutions and advantages of the present invention clearer, the present invention is described in further detail below in conjunction with accompanying drawing.
Among the present invention, NodeB is when carrying out resource allocation, and at first allocation algorithm resource on the upstream hardware of R99 type is set up UL DPCCH channel and UL DPDCH channel then on the algorithm resource of distributing; After this, NodeB is the allocation algorithm resource on the upstream hardware of R5 type, is replicated in the UL DPCCH channel of setting up on the R99 type algorithm resource, sets up the HS-DPCCH channel according to this UL DPCCH channel then.
Below specific embodiments of the invention are described.
In the present embodiment, the upgrading base station of R99 type during to the base station of R5 type, is partly being kept the upstream hardware of original R99 type in the Base-Band Processing of base station, and increasing the upstream hardware of R5 type.Fig. 2 is for comprising the base station baseband processing section hardware resource schematic diagram of R99 type upstream hardware and R5 type upstream hardware simultaneously, wherein 201 is the Base-Band Processing part of NodeB, 202 and 203 is the upstream hardware of R99 type, 204 and 205 is the upstream hardware of R5 type, each hardware has certain last line algorithm resource, dash area is wherein represented used up algorithm resource, blank parts representative residue algorithm resource.
After the upstream hardware that has increased the R5 type, in Radio Link foundation or wireless links reconfiguration course, when needing NodeB to carry out resource allocation, RNC sends Radio Link to NodeB and sets up or the radio link reconfiguration signaling, is included as the information which kind of business is carried out resource allocation in the signaling.
NodeB receive that the Radio Link that comprises HSDPA information is set up or the signaling of radio link reconfiguration after, the process of carrying out resource allocation and setting up channel as shown in Figure 3, concrete steps are as follows:
Whether comprise HSDPA information in Radio Link foundation that step 301, NodeB judgement receive or the radio link reconfiguration message, if comprise these information, execution in step 302; Otherwise, execution in step 308.The HSDPA information spinner here will comprise high speed descending sharing channel information (High SpeedDownlink Shared Channel Information, HS-DSCH Information), high speed descending sharing channel Radio Network Temporary Identifier (HS-DSCH Radio Network TemporaryIdentity, HS-DSCH-RNTI) and high speed down sharing physical channel Radio Link sign (HighSpeed Physical Shared Channel Radio Link Identity, HS-PDSCH RL ID).
The last line algorithm resource of one group of upstream hardware formation has certain processing capabilities, holds the business of some different bandwidths etc. as the last line algorithm resource fork of one group of upstream hardware formation.To go up the line algorithm resource division in the present embodiment is counting of given number, and Resources allocation is exactly to consume counting on the algorithm resource.Resources allocation consumed count according to spreading factor (Spread Frequency SF) calculates, and the method that the calculating of simplification is counted equals 32 divided by SF for counting of consuming, but when SF greater than 32 the time, for avoiding the appearance of decimal, calculate with 32.For example when spreading factor is 32,64,128 or 256, counting of being consumed is a point, and when spreading factor was 4, counting of being consumed just was 8 points, after carrying out resource allocation on the last line algorithm resource, NodeB can write down the consumption situation that wherein goes up the line algorithm resource.In this step, NodeB detects the consumption situation of last line algorithm resource, how much comes to determine the surplus resources situation according to what residue on the last line algorithm resource was counted, remains maximum last line algorithm resource of counting and is the maximum last line algorithm resource of surplus resources.Under situation as shown in Figure 2, the maximum hardware of residue algorithm resource is 203, is the upstream hardware of R99 type.
Here, the judgement of upstream hardware type is carried out according to the hardware version information of storing among the NodeB.When increasing on the R5 type line algorithm resource for NodeB, can be in NodeB the version information of line algorithm resource on the version information of line algorithm resource and the newly-increased R5 type on the original R99 type of storage.
In this step, when Resources allocation, for the algorithm resource of its distribution is determined according to spreading factor.Setting up channel in fact is exactly to obtain the information that this channel comprises from the signal that the base station received, the information that obtains to comprise in this channel just needs the base station to carry out despreading to received signal, separate and be in harmonious proportion processing such as CRC check, and the allocation algorithm resource is distributed exactly and carried out these processing resource needed on last line algorithm resource.In addition, because information obtains in the HS-DPCCH channel, need to rely on the information such as uplink scrambling code, minimum channel code length, vertical shift, sign indicating number skew and propagation delay in the UL DPCCH channel, so the foundation of HS-DPCCH channel lags behind the regular hour than UL DPCCH channel, that is to say that both need certain timing relationship.
Step 307, NodeB are replicated in the UL DPCCH channel of setting up on the R99 type algorithm resource, channel after duplicating is called follows UL DPCCH channel, follows UL DPCCH channel to set up the HS-DPCCH channel with certain timing relationship on the R5 type algorithm resource of distributing according to this then.
Described in step 304, the foundation of HS-DPCCH channel will be carried out with certain timing relationship according to UL DPCCH channel, so need earlier the UL DPCCH duplicating channel on the R99 type algorithm resource to be come, can set up the HS-DPCCH channel according to information wherein then, owing on R99 type algorithm resource, set up UL DPCCH channel, followed UL DPCCH channel so this UL DPCCH channel that duplicates is called.Duplicate UL DPCCH channel, the last line algorithm resource that is actually the R5 type is obtained from the signal that the base station received and is set up HS-DPCCH channel parameters needed, parameter in the UL DPCCH channel that these parameters Resources allocation on the R99 type upstream hardware is set up is identical, so be referred to as to duplicate the UL DPCCH channel on the R99 type algorithm resource, after having obtained these parameters, set up the HS-DPCCH channel according to these parameters and timing relationship, HS-DPCCH channel after the foundation is finished to mix in the HSDPA function and is retransmitted (HybridAcknowledgement automatically, HARQ) and channel quality measurement report (Channel Quality Indication, CQI) collection of information, so there is not transmission channel corresponding with it, when the Radio Link ascender transmits, be called virtual uplink physical channel at it.
Be illustrated in figure 5 as the channel schematic diagram of on the algorithm resource of distributing, setting up in step 305 and the step 307, wherein, 501 is the upstream hardware of R99 type, 502 is the last line algorithm resource of R5 type, 503 is the algorithm resource of distributing on the upstream hardware of R99 type, 504 is UL DPCCH channel and the UL DPDCH channel of setting up on the algorithm resource of distributing, 505 is the algorithm resource of distributing on the upstream hardware of R5 type, 506 is the HS-DPCCH channel of setting up on the algorithm resource 505 of distributing, 507 is the Radio Link ascender, be converted into transmission channel by Radio Link ascender uplink physical channel and send upper strata among the NodeB then to, 508 is the uplink physical channel that UL DPCCH and UL DPDCH transmit to the Radio Link ascender, because it is corresponding with it that the HS-DPCCH channel does not have transmission channel on the upper strata of NodeB, so 509 is virtual uplink physical channel.
From above explanation to the specific embodiment of the invention as can be seen, among the present invention,, on the algorithm resource of distributing, set up ULDPCCH channel and UL DPDCH channel then by allocation algorithm resource in the R99 of base station type upstream hardware; After this, allocation algorithm resource in the upstream hardware of R5 type, duplicate the UL DPCCH channel on the R99 type algorithm resource then, set up the HS-DPCCH channel according to the ULDPCCH channel that duplicates again, when realizing the HSDPA business, utilized the upstream hardware of R99 type, avoided waste R99 type of hardware resource; In addition, the present invention is by Resources allocation on the maximum upstream hardware of residue algorithm resource, and resource allocation methods is more reasonable; And then, the present invention is by when the maximum hardware of surplus resources is the hardware of R5 type, directly distribute ULDPCCH channel, UL DPDCH channel and HS-DPCCH channel thereon, avoided further having increased the rationalization of resource allocation having consumed Resources allocation on the R99 type upstream hardware of a lot of algorithm resources.
In concrete implementation process, can carry out suitable improvement, to adapt to the concrete needs of concrete condition to the method according to this invention.Therefore be appreciated that according to the specific embodiment of the present invention just to play an exemplary role, not in order to restriction protection scope of the present invention.
Claims (5)
1, the uplink resource allocating method in a kind of base station comprises in the base station upstream hardware of R99 type upstream hardware and R5 type it is characterized in that this method comprises:
A, base station allocation algorithm resource on the upstream hardware of R99 type is set up special physical controlling channel of upward and up Dedicated Physical Data Channel then on the algorithm resource of distributing;
B, base station allocation algorithm resource on the upstream hardware of R5 type, be replicated in the special physical controlling channel of upward of setting up on the R99 type algorithm resource, on the R5 type algorithm resource of distributing, set up High-Speed Dedicated Physical Control Channel according to this special physical controlling channel of upward then.
2, method according to claim 1 is characterized in that, the step of the allocation algorithm resource on the upstream hardware of R99 type of base station described in the steps A is:
The base station is detected the upstream hardware of R99 type, finds out the upstream hardware of the maximum R99 type of surplus resources, then allocation algorithm resource thereon;
The step of the allocation algorithm resource on R5 type upstream hardware of base station described in the step B is:
The base station is detected the upstream hardware of R5 type, finds out the upstream hardware of the maximum R5 type of surplus resources, then allocation algorithm resource thereon.
3, method according to claim 1 is characterized in that, further comprises before the described steps A:
The base station receives radio network controller after the Radio Link foundation or radio link reconfiguration signaling of its transmission, judges wherein whether comprise high rate downlink data bag access information, if comprise, carries out described steps A and step B; Otherwise the base station is allocation algorithm resource on upstream hardware directly, sets up special physical controlling channel of upward and up Dedicated Physical Data Channel then on the algorithm resource of being distributed.
4, method according to claim 3 is characterized in that, described judge do not comprise high rate downlink data bag access information after, further comprise: the base station is detected upstream hardware, finds out residue algorithm resource maximum upstream hardware;
Judge do not comprise high rate downlink data bag access information after, described base station in allocation algorithm resource on the upstream hardware is: allocation algorithm resource on the maximum upstream hardware of the residue algorithm resource of being found out.
5, according to claim 1,2 or 3 described methods, it is characterized in that, further comprise before the described steps A:
The base station is detected line algorithm resource on all, searches the maximum upstream hardware of residue algorithm resource, judges then whether the upstream hardware of being found out is the R99 type, if the R99 type is carried out described steps A and step B; Otherwise the base station is allocation algorithm resource on the upstream hardware of being found out directly, sets up special physical controlling channel of upward, up Dedicated Physical Data Channel and High-Speed Dedicated Physical Control Channel then on the algorithm resource of distributing.
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2009092266A1 (en) * | 2008-01-07 | 2009-07-30 | Huawei Technologies Co., Ltd. | A method, an apparatus and a system for controlling the user equipment to release upward resource |
CN101541083B (en) * | 2008-03-18 | 2011-06-22 | 电信科学技术研究院 | Method and device for allocating uplink resource |
CN101523970B (en) * | 2006-08-22 | 2012-01-11 | 株式会社Ntt都科摩 | Radio base station used in mobile communication system |
CN104137636A (en) * | 2011-12-30 | 2014-11-05 | 诺基亚通信公司 | A method and apparatus |
-
2005
- 2005-01-10 CN CNB2005100003937A patent/CN100512471C/en not_active Expired - Fee Related
Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101523970B (en) * | 2006-08-22 | 2012-01-11 | 株式会社Ntt都科摩 | Radio base station used in mobile communication system |
WO2009092266A1 (en) * | 2008-01-07 | 2009-07-30 | Huawei Technologies Co., Ltd. | A method, an apparatus and a system for controlling the user equipment to release upward resource |
CN101541083B (en) * | 2008-03-18 | 2011-06-22 | 电信科学技术研究院 | Method and device for allocating uplink resource |
CN104137636A (en) * | 2011-12-30 | 2014-11-05 | 诺基亚通信公司 | A method and apparatus |
US9814083B2 (en) | 2011-12-30 | 2017-11-07 | Nokia Solutions And Networks Oy | Method and apparatus for establishing a channel |
CN104137636B (en) * | 2011-12-30 | 2018-09-14 | 诺基亚通信公司 | One kind is for establishing channel method and device |
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