CN101203050B - Method and device for locating resource scheduling - Google Patents

Abstract

The invention relates to the field of wireless communication technology, particularly relating to the positioning technology on a problem of resource scheduling. The embodiment of the invention also discloses a positioning method and a device for the problem of resource scheduling, which can be used for simplifying the positioning environment and quickening the positioning speed. The positioning method for the problem of resource scheduling comprises that when problems occur in resource scheduling, executing results of resource distribution information, sent from user equipment to a base station, are then detected. The resource distribution information sent from the base station is ensured and deployed according to the foreseen result of resource scheduling. The problem of a data transmission link from the base station to the user equipment can be positioned according to the inconsistency between the executing result and the foreseen result. The positioning device for the problem of resource scheduling comprises a detection unit and a problem positioning unit.

Description

The method and the device of resource scheduling location

Technical field

The present invention relates to wireless communication technology field, relate in particular to a kind of resource scheduling location technology.

Background technology

Along with development of Communication Technique, the message transmission rate that wireless communication system is provided has had higher requirement, how under Limited resources, improves resource utilization and has become one of key issue of wireless communication system.

Scheduling of resource can be improved the resource utilization and the cell throughout of wireless communication system significantly, (High Speed Uplink Packet Access, HSUPA) technology is that example is introduced resource regulating method of the prior art in the high speed uplink packet access of introducing at Release 6 (R6) version with WCDMA (Wideband Code Division Multiple Access) technical standard.The HSUPA technology has been introduced following new features with respect to original Release 99 (R99) version:

In order to support high-speed data service, the HSUPA technology has been introduced new physical channel, comprise E-DCH (Enhanced Dedicated Transport Channel, enhanced dedicated) Dedicated Physical Data Channel (E-DCH Dedicated Physical Data Channel, E-DPDCH), E-DCH Dedicated Physical Control Channel (E-DCH Dedicated Physical Control Channel, E-DPCCH) and E-DCHHARQ confirm indicating channel (E-DCH HARQ Acknowledgement Indicator Channel, E-HICH) etc.E-DPDCH is used to carry the E-DCH upstream data, spreading factor can be 64,32,16,8,4,2, (User Equipment UE) can select according to the needs of business subscriber equipment in the HSUPA technology flexibly, and the UE in the HSUPA technology can be called HSUPAUE.The maximum rate of solid size road transmission is 1.92Mbit/s, allows many code channel transmission, and the user at most can be at the four code channel parallel transmissions of two SF2 and two SF4, and peak rate reaches 5.76Mbit/s.E-DPCCH is used to carry the up signaling of E-DCH.E-HICH is used to carry the E-DCH downlink signaling, as mixes automatic repeat requests (HybridAutomatic Repeat Request, ACK HARQ) (Acknowledgment confirms) information, NACK (Not Acknowledgment does not confirm) information etc.

Based on newly-increased physical channel, adopt ring affirmation mechanism in the upstream data between HSUPA UE and base station (NodeB).HSUPA UE sends the E-DCH upstream data, NodeB receives data and confirms, produce ACK information or nack message, and directly give HSUPAUE with feedback information by the E-HICH channel, change the original mode of confirming through RNC earlier, reduce the affirmation time delay of data, improved the air interface efficiency of transmission.

The HSUPA technology has been used short frame mechanism, the Transmission Time Interval of primary stage (Transmit TimeInterval, TTI) be 10ms, more the TTI of high-stage can reach 2ms, introduce the air interface time delay that the short frame of 10ms and even 2ms can reduce data, improve user's impression, adapt to the occasion that ascending load of cell changes rapidly better.

For wireless environment is made response quickly, maximum resource utilance, HSUPA technology have adopted the fast dispatch scheme (Node-B Scheduling) based on NodeB.Scheduling of resource in the HSUPA technology mainly by scheduling of resource functional entity newly-increased among the NodeB, promptly finish by the MAC-e functional entity, and its core concept is that the HSUPA UE that avoids too much inserts too high message transmission rate, suppresses uplink interference as much as possible.Distribute and adjust the maximum available ascending resource of each HSUPA UE fast by NodeB, the adjustment granularity is TTI.The scheduling of resource that NodeB carries out can be fed back the situation of change of ascending load in the sub-district fast, instructs the resource allocation to HSUPA UE, and can realize better that the ascending resource between HSUPA UE is shared.

Key factor in the HSUPA resource regulating method comprises happy bit (Happy Bit) and scheduling authorization (Scheduling Grant).Happy Bit is HSUPA UE when the E-DPDCH channel sends upstream data, is carried on to feed back to NodeB on the E-DPCCH channel, embodied the satisfaction of HSUPAUE to current scheduling of resource to a certain extent, so that NodeB carries out scheduling of resource next time.Scheduling authorization is the resource allocation information that is handed down to HSUPA UE by NodeB, indicate its maximum available ascending resource to HSUPA UE, main by absolute grant channel (Absolute Grant Channel, AGCH) and relative authorization channel (Relative Grant Channel, RGCH) send, wherein, the AGCH channel sends absolute grant information, and the RGCH channel sends relative authorization information.

When fast dispatch scheme based on NodeB has determined NodeB, has distributed great ascending resource to give specific HSUPA UE, make NodeB control the message transmission rate of each HSUPA UE in the sub-district flexibly apace, making the resource in the wireless communication system more effectively is user's service of access bursts data, thereby reaches the effect that increases cell throughout.

The feedback information that NodeB sends according to HSUPA UE carries out next time scheduling of resource to HSUPA UE, and will be issued to HSUPAUE by AGCH and RGCH according to the resource allocation information that feedback information generates, wherein feedback information comprises Happy Bit, schedule information (Schedule Information, SI), E-DCH transformat combination (E-DCH Transport Format Combination Identifier, E-TFC) etc., a kind of transmission form of E-TFC is E-TFC sign (E-TFC Identifier, E-TFCI), with unique identification number E-TFC is indicated.Whole scheduling of resource process is: on the data transmission link of NodeB to HSUPA UE, NodeB sends resource allocation information to HSUPA UE, HSUPA UE is to sending upstream data after data modulation, the coding on the ascending resource of resource allocation information indication, and sending feedback informations such as Happy Bit, E-TFC, SI simultaneously, upstream data and feedback information are formed a Frame in the NodeB side; NodeB carries out demodulation, decoding to Frame, and the feedback information that extracts is sent to the MAC-e functional entity as the foundation of scheduling of resource next time, generate resource allocation information and send to HSUPAUE, NodeB need be sent to upstream data radio network controller (Radio NetworkController simultaneously, RNC), RNC adds up receiving data.In the scheduling of resource process, need processing through a plurality of links, mainly be included on the data transmission link of NodeB to HSUPA UE and transmit resource allocation information, transmit ascending data and feedback information on the data transmission link of HSUPA UE to NodeB, in the NodeB side upstream data is carried out demodulation, decoding and generates resource allocation information according to feedback information, HSUPA UE is carried out next time scheduling of resource.

In process of the present invention, the inventor finds to have following defective in the prior art at least: if scheduling of resource goes wrong, for example resource allocation information accurately is not issued to HSUPA UE side, the link that may go wrong just has much so, the complexity of positioning problems when this has just increased system testing or fault eliminating.Simultaneously, the R99 version of WCDMA, there is the localizing environment complicated problems equally in the scheduling of resource in the wireless communication systems such as TD-SCDMA system.

Summary of the invention

The embodiment of the invention provides the method and the device of a kind of resource scheduling location, in order to simplify localizing environment, accelerates locating speed.

The embodiment of the invention provides the method for a kind of resource scheduling location, comprising:

When scheduling of resource goes wrong, detect the execution result of subscriber equipment to the resource allocation information of base station transmission, the resource allocation information that described base station sends is definite and configuration according to the foreseen outcome of scheduling of resource; And

Go wrong according to described execution result and the inconsistent locating base station of described foreseen outcome data transmission link to subscriber equipment.

The embodiment of the invention provides the device of a kind of resource scheduling location, comprising:

Detecting unit: be used for when scheduling of resource goes wrong, detect the execution result of subscriber equipment to the resource allocation information of base station transmission, the resource allocation information that described base station sends is definite and configuration according to the foreseen outcome of scheduling of resource;

Positioning problems unit: be used for going wrong according to described execution result and the inconsistent locating base station of described foreseen outcome data transmission link to subscriber equipment.

The method and the device of the resource scheduling location that the embodiment of the invention provides, when scheduling of resource goes wrong, determine and the resource allocation information of configurating base station side and be sent to subscriber equipment according to the foreseen outcome of scheduling of resource, subscriber equipment and base station have been isolated, can be according to the execution result of subscriber equipment to resource allocation information, determine whether base station to the data transmission link of subscriber equipment goes wrong, realize the positioning problems of scheduling of resource.The scheme that the embodiment of the invention provides has been simplified localizing environment, has accelerated locating speed, has guaranteed the realization of resource dispatching strategy, can bring into play the advantage of resource dispatching strategy to greatest extent.

Description of drawings

Fig. 1 is the method flow diagram of the resource scheduling location in the embodiment of the invention;

Fig. 2 is the device block diagram of the resource scheduling location in the embodiment of the invention;

Fig. 3 is for being applied to the resource scheduling location schematic diagram of HSUPA in the embodiment of the invention;

The method flow diagram that Fig. 4 locatees for the resource scheduling that is applied to HSUPA in the embodiment of the invention.

Embodiment

The embodiment of the invention provides the method and the device of resource scheduling location, has simplified localizing environment, has accelerated locating speed, has guaranteed the realization of resource dispatching strategy, can bring into play the advantage of resource dispatching strategy to greatest extent.

The embodiment of the invention provides the method for a kind of resource scheduling location, as shown in Figure 1, comprising:

S101, when scheduling of resource goes wrong, detect the execution result of the resource allocation information that subscriber equipment sends the base station, the resource allocation information that the base station sent is for determining according to the foreseen outcome of scheduling of resource and configuration;

Wherein a foundation going wrong of scheduling of resource is that the data volume that the subscriber equipment of radio network controller statistics sends is zero.

S102, go wrong according to execution result and the inconsistent locating base station of foreseen outcome data transmission link to subscriber equipment.

So far, go wrong, realized positioning problems scheduling of resource according to inconsistent base station to the data transmission link of subscriber equipment of can having oriented of execution result and foreseen outcome.

If execution result is consistent with foreseen outcome, then can get rid of base station to the data transmission link of subscriber equipment goes wrong, need check other link that may go wrong, other reason that goes wrong may comprise that subscriber equipment to the data transmission link of base station goes wrong, interference as transmission environment is bigger, enters shadow region etc., and perhaps the scheduling of resource of base station side goes wrong, so also need problem is further located, then this method also comprises:

S103, consistent with foreseen outcome according to execution result, and the base station is inconsistent to the upstream data that the decoding information of upstream data and subscriber equipment send, locating user devices to the data transmission link of base station goes wrong; Perhaps,

S104, consistent with foreseen outcome according to execution result, and the decoding information of the right upstream data in base station is consistent with the upstream data that subscriber equipment sends, the scheduling of resource of locating base station side goes wrong.

More excellent, when detecting the execution result of the resource allocation information that subscriber equipment sends the base station, because this resource allocation information is to determine and the base station is given in configuration according to the foreseen outcome of scheduling of resource, so resource allocation information that the shielding base station generates voluntarily according to the feedback information of the subscriber equipment that is received, for the ease of difference, the resource allocation information that the base station is generated voluntarily is called system resource distribution information, thereby makes the execution result of subscriber equipment not be subjected to the influence of system resource distribution information.

The method of the resource scheduling location that the embodiment of the invention provides is applicable to the positioning problems of the scheduling of resource in the system testing and the positioning problems of the scheduling of resource in the system failure investigation.

The embodiment of the invention provides the device of a kind of resource scheduling location simultaneously, as shown in Figure 2, comprising:

Detecting unit 201: be used for when scheduling of resource goes wrong, detect the execution result of subscriber equipment to the resource allocation information of base station transmission, the resource allocation information that the base station sent is for definite and configuration according to the foreseen outcome of scheduling of resource;

Positioning problems unit 202: be used for going wrong according to execution result and the inconsistent locating base station of foreseen outcome data transmission link to subscriber equipment.

Further,

Positioning problems unit 202 is also consistent with foreseen outcome according to execution result, and the base station is inconsistent to the upstream data that the decoding information of upstream data and subscriber equipment send, and locating user devices to the data transmission link of base station goes wrong; Perhaps,

Positioning problems unit 202 is also consistent with foreseen outcome according to execution result, and consistent with the upstream data that subscriber equipment sends to the decoding information of the upstream data that receives, and locating user devices to the data transmission link of base station goes wrong.

More excellent, this device also comprises:

Screen unit 203: be used for when detecting the execution result of the resource allocation information that subscriber equipment sends the base station system resource distribution information that the shielding base station generates voluntarily according to the feedback information of the subscriber equipment that is received.

This device also can comprise:

Trigger element 204: be used for detection trigger unit 201 when the data volume of radio network controller statistics is zero.

The method and the device of the resource scheduling location that the embodiment of the invention provides, when scheduling of resource goes wrong, the system resource distribution information that the shielding base station generates voluntarily according to the feedback information of the subscriber equipment that is received, and determine and the resource allocation information of configurating base station side and be sent to user equipment side according to the foreseen outcome of scheduling of resource, thereby can be according to the execution result of subscriber equipment to resource allocation information, carry out the positioning problems of scheduling of resource, thereby simplified localizing environment, accelerated locating speed, guarantee the realization of resource dispatching strategy, can bring into play the advantage of resource dispatching strategy to greatest extent;

The method and the device of the resource scheduling location that the embodiment of the invention provides, when detecting the execution result of the resource allocation information that subscriber equipment sends the base station, the system resource distribution information that the shielding base station generates, unaffected when making subscriber equipment carry out the pre-configured resource allocation information of base station side, guaranteed the accuracy of positioning result;

The method and the device of the resource scheduling location that the embodiment of the invention provides can adopt when system testing and system failure investigation, and be widely applicable, easy to use flexible.

Introduce the method for the resource scheduling location that the embodiment of the invention provides below in detail with specific embodiment, application scenarios is the fast dispatch scheme of NodeB in the HSUPA technology, and wherein, HSUPA UE is a subscriber equipment, NodeB is the base station, and RNC is a radio network controller.At first introduce the realization principle of the positioning problems method of the scheduling of resource that the embodiment of the invention provides.

In the scheduling of resource process, HSUPA UE according to the indication of resource allocation information to the NodeB transmit ascending data, the upstream data that the RNC statistics receives, if the data volume that the RNC statistics takes place is 0 situation, main cause may be that the data transmission link of NodeB to HSUPA UE goes wrong, and causes resource scheduling information can not send to HSUPA UE side; Perhaps, the going wrong of the data transmission link of HSUPA UE to NodeB, for example transmission environment disturbs greatlyyer, causes upstream data to send failure; Perhaps the scheduling of resource of NodeB side goes wrong, for example parameter configuration mistake of scheduling authorization etc.; Concrete reason needs further to analyze and the location.The reason that may also have others certainly, for example HSUPA UE goes wrong etc., but to be system can't investigate and carry out issue handling for this, need the user by oneself, not within the coverage of the embodiment of the invention, the embodiment of the invention is to carry out under the HSUPA UE prerequisite working properly of supposition user side.

The embodiment of the invention is at the localizing environment of complexity, provide the method for a kind of resource scheduling location, when scheduling of resource goes wrong, by resource allocation information at NodeB side configuration foreseen outcome, thereby simplified localizing environment, helped realizing quick location.As shown in Figure 3, HSUPA UE sends upstream data to NodeB, send feedback information simultaneously, NodeB extracts feedback informations such as Happy Bit, E-TFC, SI and is sent to the MAC-e functional entity after with upstream data demodulation, decoding by up processing unit, and upstream data is sent to RNC, NodeB sends to HSUPA UE with the MAC-e functional entity according to the system resource distribution information that feedback information generates generally speaking.When the data volume of RNC statistics is 0, in order to simplify localizing environment, NodeB will determine and the resource allocation information of configuration is sent to HSUPAUE or is used to simulate the decoding orientation tool of HSUPA UE that the concrete channel that issues is AGCH channel and RGCH channel according to foreseen outcome; By being that HSUPA UE forces to carry out resource allocation, and whether to the execution result of resource allocation information with the foreseen outcome of scheduling of resource consistent, further carry out positioning problems if detecting HSUPA UE side:

If execution result and foreseen outcome are inconsistent, then orientation problem appears at the data transmission link of NodeB to HSUPA UE;

If execution result is consistent with foreseen outcome, the data transmission link of then getting rid of NodeB to HSUPA UE goes wrong, problem may appear at the data transmission link of HSUPA UE to NodeB, the perhaps scheduling of resource of NodeB side, and carry out further positioning problems.

The resource allocation information that HSUPA UE is received and the processing of HSUPA UE side are introduced below.After HSUPA UE receives resource allocation information, determine the maximum available power and the maximum available E-TFC of the E-DCH channel of this equipment correspondence according to resource allocation information.The authorization of service (Serving Grant) of corresponding this equipment self of each HSUPA UE influences the selection of E-TFC.Authorization of service is divided into dual mode: absolute grant and relative authorization.Absolute grant is determined according to the absolute grant information that receives on the AGCH channel, the operable authorization of service of indication UE; Relative authorization determines that according to the relative authorization information that receives on the RGCH channel indication comprises relative rising or the maintenance or the following degradation information of E-DCH channel power.The authorization of service of HSUPAUE can upgrade according to the change of absolute grant and relative authorization.NodeB takies situation according to cell load, interface resource, maximum available ascending resource and the transmission time of decision HSUPA UE.The E-TFC of the actual use of HSUPA UE gives NodeB by the E-DPCCH channel feedback simultaneously by HSUPA UE decision.HSUPA UE is by the satisfaction of Happy Bit feedback to current scheduling of resource, so that NodeB changes resource allocation information next time.

Based on above analysis, the embodiment of the invention provides the method for the resource scheduling location of a kind of HSUPA of being applied to, as shown in Figure 4, comprising:

The data volume of S401, observation RNC statistics when the data volume of RNC statistics is 0, is carried out S402;

S402, determine and the resource allocation information of configuration NodeB side, make NodeB send this resource allocation information to HSUPAUE according to the foreseen outcome of scheduling of resource;

When the data volume of RNC statistics is 0, need carry out the concrete link of positioning problems to determine to go wrong of scheduling of resource.Generate the resource allocation information of NodeB side according to the foreseen outcome of scheduling of resource, the resource parameters information that resource allocation information comprises the identification information of detected HSUPA UE, distributes for detected HSUPA UE.This resource allocation information is pre-configured in the NodeB side with the form of test signaling, and this test signaling comprises AG parameter, RG parameter and detection range parameter, according to test signaling the HSUPA UE in the sub-district is carried out resource allocation.The range of application of this resource allocation determines that by the detection range parameter detection range parameter comprises the identification information of all detected HSUPA UE, and detection range can be HSUPA UE all in the sub-district, also can be the HSUPA UE of appointment; AG parameter and RG parameter have been set the resource parameters information of distributing for detected HSUPA UE in the mode of fixed numbers, and absolute grant information and the relative authorization information of indication HSUPA UE are so that carry out resource allocation to the HSUPA UE in the application scope; NodeB issues after this test signaling, thereby the detected HSUPAUE that has only appointment in the detection range parameter could be correctly decoded this signaling that receives and obtain resource parameters information, and other HSUPA UE then abandons this signaling owing to being correctly decoded in the sub-district;

Whether S403, the execution result that detects the resource allocation information that HSUPA UE sends NodeB be consistent with foreseen outcome, if inconsistent then carry out S404, if unanimity then carry out S405;

Detect the execution result of the interior HSUPA UE of range of application to resource allocation information, detection to execution result comprises whether the absolute grant information and the relative authorization information that detect AG parameter and RG parameter regulation come into force, if come into force then execution result is consistent with foreseen outcome, if do not come into force then execution result and foreseen outcome are inconsistent;

The data transmission link of S404, location NodeB to HSUPA UE goes wrong;

S405, the data transmission link of getting rid of NodeB to HSUPA UE go wrong, and whether detect NodeB consistent with the upstream data of HSUPA UE transmission to the decoding information of upstream data, if inconsistent then carry out S406, if unanimity then carry out S407;

The data transmission link of S406, location HSUPA UE to NodeB goes wrong;

The data transmission link of S407, eliminating HSUPA UE to NodeB goes wrong, and the scheduling of resource of location NodeB side goes wrong;

After the scheduling of resource of location NodeB side goes wrong, also can further carry out positioning problems to the scheduling of resource of NodeB side, whether detect feedback informations such as the MAC-e functional entity of NodeB side received happy bit, E-TFC, SI consistent according to the feedback information of the scheduling of resource generation of NodeB side with HSUPA UE, if inconsistent, then locate the internal data transfer link fails of the up processing unit of NodeB side to the MAC-e functional entity;

If consistent, the scheduling processing of then locating the MAC-e functional entity of NodeB side goes wrong.

HSUPA UE in detecting range of application is during to the execution result of resource allocation information, on the E-HICH channel, send the E-DCH downlink signaling to this HSUPA UE as usual, but shield the system resource distribution information that NodeB generates voluntarily according to feedback informations such as happy bit, E-TFC, SI.

The positioning problems method of the scheduling of resource that is applied to HSUPA that the embodiment of the invention provides, by isolating HSUPA UE and NodeB, localizing environment when the scheduling of resource of simplification HSUPA goes wrong, thereby improved location efficiency, guaranteed the realization of HSUPA resource dispatching strategy, the method simple possible.

The method and the device of the resource scheduling location that the embodiment of the invention provides, be not only applicable to the quick resource scheduling scheme of NodeB in the HSUPA technology, also be applicable to the scheduling of resource in other wireless communication system, the R99 version of WCDMA for example, TD-SCDMA (Time Division-Synchronous CDMA) system etc., by determining and the resource allocation assignment information according to foreseen outcome in base station side, reach the purpose of isolating base station and subscriber equipment, thereby the simplification localizing environment improves location efficiency;

The method and the device of resource scheduling that the embodiment of the invention provides location are not only applicable to the test to system, are applicable to when system breaks down that to failure location, widely applicable, method is simply efficient yet.

Obviously, those skilled in the art can carry out various changes and modification to the present invention and not break away from the spirit and scope of the present invention.Like this, if of the present invention these are revised and modification belongs within the scope of claim of the present invention and equivalent technologies thereof, then the present invention also is intended to comprise these changes and modification interior.

Claims (10)

1. the method for a resource scheduling location is characterized in that, comprising:

When scheduling of resource goes wrong, detect the execution result of subscriber equipment to the resource allocation information that sends by the base station, the resource allocation information that described base station sends be to determine and dispose according to the foreseen outcome of scheduling of resource; And

Go wrong according to described execution result and the inconsistent locating base station of described foreseen outcome data transmission link to subscriber equipment.

2. method according to claim 1 is characterized in that, also comprises:

Consistent according to described execution result with described foreseen outcome, and the base station is inconsistent to the upstream data that the decoding information of upstream data and subscriber equipment send, locating user devices to the data transmission link of base station goes wrong; Perhaps,

Consistent according to described execution result with described foreseen outcome, and the base station is consistent with the upstream data that subscriber equipment sends to the decoding information of upstream data, the scheduling of resource of locating base station side goes wrong.

3. as method as described in the claim 2, it is characterized in that, after the scheduling of resource of described locating base station side goes wrong, also comprise:

Whether the feedback information that the scheduling of resource functional entity of base stations detected side is received and subscriber equipment be consistent according to the feedback information that the scheduling of resource of base station side generates, if inconsistent, the internal data transfer link fails of locating base station side then;

If consistent, then the scheduling of the scheduling of resource functional entity of locating base station side is handled and is gone wrong.

4. the method for claim 1 is characterized in that, when detecting the execution result of the described resource allocation information that subscriber equipment sends the base station, and the system resource distribution information that the shielding base station generates.

5. the method for claim 1 is characterized in that, described resource allocation information comprises: the identification information of detected subscriber equipment, be the resource parameters information of detected user equipment allocation.

6. as the arbitrary described method of claim 1 to 5, it is characterized in that the foundation that described scheduling of resource goes wrong is: the data volume that the subscriber equipment of radio network controller statistics sends is zero.

7. the device of a resource scheduling location is characterized in that, comprising:

Detecting unit: be used for when scheduling of resource goes wrong, detect the execution result of subscriber equipment to the resource allocation information that sent by the base station, the resource allocation information that described base station sends be to determine and dispose according to the foreseen outcome of scheduling of resource;

Positioning problems unit: be used for going wrong according to described execution result and the inconsistent locating base station of described foreseen outcome data transmission link to subscriber equipment.

8. device as claimed in claim 7, it is characterized in that, described positioning problems unit is also consistent with described foreseen outcome according to described execution result, and the base station is inconsistent to the upstream data that the decoding information of upstream data and subscriber equipment send, and locating user devices to the data transmission link of base station goes wrong; Perhaps,

Consistent according to described execution result with described foreseen outcome, and the base station is consistent with the upstream data that subscriber equipment sends to the decoding information of upstream data, the scheduling of resource of locating base station side goes wrong.

9. device as claimed in claim 7 is characterized in that, described device also comprises:

Screen unit: be used for when detecting the execution result of the resource allocation information that subscriber equipment sends the base station system resource distribution information that the shielding base station generates.

10. as claim 7 or 8 or 9 described devices, it is characterized in that described device also comprises:

Trigger element: be used for when the data volume of radio network controller statistics is zero, triggering described detecting unit.

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