CN101820636A - Interference measuring method, device and system in wireless network - Google Patents

Interference measuring method, device and system in wireless network Download PDF

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CN101820636A
CN101820636A CN200910105677A CN200910105677A CN101820636A CN 101820636 A CN101820636 A CN 101820636A CN 200910105677 A CN200910105677 A CN 200910105677A CN 200910105677 A CN200910105677 A CN 200910105677A CN 101820636 A CN101820636 A CN 101820636A
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base station
monitoring
relay station
indication
measurement
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CN101820636B (en
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卢磊
梁文亮
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Huawei Technologies Co Ltd
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Huawei Technologies Co Ltd
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Abstract

The embodiment of the invention discloses an interference measuring method, an interference measuring device and an interference measuring system in a wireless network to realize interference measurement in the wireless network by spanning BS. The interference measuring method comprises that: a first base station and a second base station receive a monitoring request from a monitoring control entity, wherein the monitoring request carries an initial frame number and a project measuring instruction; the first base station and the second base station instruct sites in respective coverage range to transmit a monitoring signal according to the initial frame number; and the first base station and the second base calculate a measured result corresponding to the project measuring instruction according to measurement parameters contained in the monitoring signal, and transmit a monitoring response to the monitoring control entity, wherein the monitoring response carries the measured result. The interference measuring device is the base station, which comprises a receiving module, an indication module, a calculation module and a transmitter module. The interference measuring system comprises the monitoring control entity, and the first base station and the second base which can communicate with the monitoring control entity.

Description

The method of interferometry, device and system in a kind of wireless network
Technical field
The invention belongs to communication technical field, relate in particular to method, device and the system of interferometry in a kind of wireless network.
Background technology
WiMAX (Worldwide Interoperability for Microwave Access), Chinese full name are that the microwave interoperability is inserted in the whole world, are a kind of wireless metropolitan area network technologies based on IEEE 802.16 standards.Fig. 1 is a WiMAX network architecture reference model, mainly comprise three parts: client (mobile station/subscriber station, be called for short MS/SS, be portable terminal/registration terminal), accessing business network (AccessService Network, be called for short ASN) and connect service network (Connectivity Service Network is called for short CSN).
Wherein, ASN can comprise base station (Base Station is called for short BS) and accessing business network gate (Access Service Network Gateway is called for short ASN GW); CSN can comprise logic entities such as PPS (Prepaid Service, pre-payment) server, AAA (Authorization, Authentication andAccounting, authentication) server.
In existing protocol, communicate by the interface from R1 to R6 between the logic entity between MS/SS, ASN, the CSN, as Fig. 1, wherein the R1 interface is a wireless air interface, mainly define by IEEE802.16d/e, R2 is a logic interfacing, and R3, R5 interface are wireline interface, and R4, R6 interface can be wireline interface or wave point.
Interface section aloft, BS provides access service by the R1 interface for MS.As shown in Figure 2.BS1 and BS2 provide serving base station for MS.As seen from the figure, the coverage of BS1 and BS2 has part to occur simultaneously.BS1 provides access service by the R1 interface for MS1.BS2 provides access service by the R1 interface for MS2 and MS3.And when described MS2 was positioned at the common factor of coverage of described BS1 and BS2, described MS2 can also also communicate with described BS1.
In order better to realize distributing rationally of network, for example the allocation of carriers mode of BS, power control etc. need be measured the interference under the base station range.The inventor finds, though IEEE (Institute ofElectrical and Electronics Engineers, Institute of Electrical and Electronics Engineers) defines up sounding (monitoring) process and carried out interferometry under the base station range, but WiMAX NWG (WiMAX Networking Group, WiMAX network work group) does not support to stride the interferometry of BS.Thereby can't carry out optimizing and revising in the network-wide basis.
Summary of the invention
The embodiment of the invention discloses method, device and the system of interferometry in a kind of wireless network, carry out interferometry to stride BS in the wireless network in realizing.
The embodiment of the invention discloses the method for interferometry in a kind of wireless network, this method comprises:
First base station and second base station receive the interception request from monitoring control entity, carry the indication of initial frame number and measurement project in the described interception request;
Described first base station and second base station are indicated separately respectively, and the interior website of coverage sends monitoring signal according to described initial frame number;
The corresponding measurement result of described measurement project indication is calculated according to the measurement parameter that comprises in the described monitoring signal in described first base station and second base station, and sends snoop responses to described monitoring control entity, carries described measurement result in the described snoop responses.
The embodiment of the invention discloses the method for interferometry in the another kind of wireless network, this method comprises:
First base station and second base station receive the interception request from monitoring control entity, carry initial frame number, the indication of measurement project in the described interception request, and the relay station sign;
Described first base station and second base station are indicated separately respectively, and the interior website of coverage sends monitoring signal according to described initial frame number;
Described first base station and second base station identify according to described relay station, and the indication of described measurement project is sent to corresponding relay station in the coverage separately respectively, and indicate the corresponding relay station in the coverage separately to receive described monitoring signal;
Described first base station and second base station receive the measurement result from the described relay station in the coverage separately respectively, described measurement result is that described relay station calculates according to the measurement parameter that comprises in the described monitoring signal, with the corresponding measurement result of described measurement project indication;
Described first base station and second base station send snoop responses to described monitoring control entity, carry the corresponding measurement result of described measurement project indication in the described snoop responses.
The embodiment of the invention also discloses a kind of base station, comprising:
Receiver module: be used to receive interception request, carry the indication of initial frame number and measurement project in the described interception request;
Indicating module: be used to indicate the website in the coverage to send monitoring signal according to described initial frame number;
Computing module: be used for calculating the corresponding measurement result of described measurement project indication according to the measurement parameter that described monitoring signal comprises;
Sending module: be used to send snoop responses, carry described measurement result in the described snoop responses.
The embodiment of the invention further discloses the system of interferometry in a kind of wireless network, comprises monitoring control entity, and first base station and second base station that can communicate by letter with described monitoring control entity, wherein,
Described monitoring control entity is used for sending interception request to described first base station and described second base station, carries the indication of initial frame number and measurement project in the described interception request;
Described first base station and described second base station are used to receive described interception request, and indicating separately respectively, the interior website of coverage sends monitoring signal according to described initial frame number;
Described first base station and second base station also are used for calculating the corresponding measurement result of described measurement project indication according to the measurement parameter of described monitoring signal;
Described monitoring control entity also is used to receive the snoop responses from described first module and second module, carries described measurement result in the described snoop responses.
By using embodiment of the invention disclosed method, device and system, monitoring control entity can send interception request to two above base stations, the interior website of coverage sends monitoring signal simultaneously so that each base station is indicated separately, carry out interferometry, and receive the measurement result that described each base station reports, to realize striding the interferometry of base station.
Description of drawings
Fig. 1 is WiMAX network architecture reference model figure;
Fig. 2 is the disclosed interferometry scene of an embodiment of the invention schematic diagram;
Fig. 3 is the deployment model figure of RRC and RRA in the disclosed cordless communication network of the embodiment of the invention;
Fig. 4 is the method flow diagram of interferometry in the disclosed cordless communication network of the embodiment of the invention;
Fig. 5 is the method flow diagram of interferometry in the disclosed cordless communication network of the embodiment of the invention;
Fig. 6 is the network architecture reference model figure of the disclosed relaying technique of the embodiment of the invention;
Fig. 7 is the deployment model figure of RRC and RRA in the disclosed junction network of the embodiment of the invention;
Fig. 8 is an interferometry scene schematic diagram in the disclosed junction network of the embodiment of the invention;
Fig. 9 is the method flow diagram of interferometry in the disclosed junction network of the embodiment of the invention;
Figure 10 is the disclosed architecture of base station schematic diagram of the embodiment of the invention;
Figure 11 is that the disclosed interferometry of embodiment of the invention system constitutes schematic diagram.
Embodiment
For making the purpose, technical solutions and advantages of the present invention clearer, the specific embodiment of the invention is described in further detail below in conjunction with accompanying drawing.
In order to support handover decisions better, functions such as load balance, WiMAX NWG has also defined RRM (Radio Resource Management, RRM) functional entity, comprise RRA (RadioResource Agent, radio resource agent) and RRC (Radio Resource Controller, radio resource controller), and the related procedure of RRM and message, be used for realizing the RRM function.
In one embodiment of the invention, disclosed in the wireless network,, disposed the mode of respective wireless resource management entity RRC and RRA in order to realize management to Radio Resource.The deployment of RRC and RRA can have dual mode, respectively as shown in Figure 3.
Fig. 3 a is depicted as RRC and is positioned at ASN GW, and RRA is positioned at the scene of BS.As seen from the figure, an ASNGW can have one or more BS under its command.RRC of each ASN GW deploy, RRA of each BS deploy.Between the RRC on the ASN GW by Interface R4 communication.RRA on the BS that the ASN GW at RRC and its place has under its command is by the R6 interface communication.BS directly provides service by the R1 interface to MS.
Fig. 3 b is depicted as RRC Relay and is positioned at ASN GW, and RRC and RRA are positioned at the scene of BS.As seen from the figure, an ASN GW can have one or more BS under its command.RRCRelay of each ASN GW deploy (Radio Resource control repeater), RRC of each BS deploy and a RRA.Described RRC Relay does not have the function of Radio Resource control, and only is responsible for the communication transfer between the RRC.RRC on the BS carries out the function of Radio Resource control, finishes RRM with corresponding RRA.Between the RRC Relay on the ASN GW by Interface R4 communication.RRC on the BS that the ASN GW at RRC Relay and its place has under its command is by the R6 interface communication.RRC on the BS communicates by letter by the internal agreement of described BS with RRA.BS directly provides service by the R1 interface to MS.
RRC need obtain the interference parameter of striding the base station in order to carry out the optimization decision-making of network-wide basis.In order to realize carrying out interferometry to striding BS in the wireless network, one embodiment of the present of invention disclose the method for interferometry in a kind of wireless network.In an embodiment of the present invention, defined a monitoring control entity (sounding controlled entity).Described sounding controlled entity is used to indicate its subordinate's BS to initiate interferometry, and receives measurement result.Described sounding controlled entity can be positioned at the RRC on ASN GW or the BS, also can be the independent functional entity that is positioned on ASN GW or the BS.In one embodiment of the invention, the RRC that initiates interferometry can send interception request to the BS of its indication, so that described BS carries out interferometry, and receives the measurement result that described BS reports.Described method as shown in Figure 4, concrete steps are as follows:
Step 401, Sounding controlled entity send interception request at least two BS.Sending interception request with the sounding controlled entity to two BS is example, and as shown in the figure, the sounding controlled entity sends Sounding_REQ message to BS1 and BS2.Carry initial frame number Start Frame Number in the described interception request (diagram Sounding_REQ message), and the indication of measurement project.Concrete, described measurement project indication can be at least one in following two requests: audit area specific carriers interference-to-noise ratio request Sounding Zone-specific CINR request (CINR, carrier-to-interference-and-noiseratio, the carrier-in-interference noise ratio), the specific received signal intensity of audit area indication request SoundingZone-specific RSSI request (RSSI, receive signal strength indicator, the indication of received signal intensity).Described initial frame number is used to indicate described BS1 and BS2 which frame to carry out the Sounding process at, carries out interferometry.It is the specific carriers interference-to-noise ratio of audit area that the request of described audit area specific carriers interference-to-noise ratio is used to indicate the parameter of this time measuring.It is the specific received signal intensity indication of audit area that the specific received signal intensity of described audit area indication request is used to indicate the parameter of this time measuring.Optionally, can also carry the site information vector of station of the website that needs transmission monitoring signal sounding signals in the described interception request, described site information can be to send the MS of monitoring signal and/or the information of relay station RS, and follow-up optimization embodiment can continue the situation that the branch situation is discussed described website.Described sounding controlled entity can be to send simultaneously to described BS1 and described BS2 transmission interception request, also can not send simultaneously.Do not send simultaneously, need guarantee that all BS can carry out the Sounding process simultaneously according to the initial frame number in the described interception request, carry out interferometry.
Described sounding controlled entity can be the RRC on the ASN GW shown in Fig. 3 a, also can be the RRC on the BS shown in Fig. 3 b, or be positioned at independent functional entity on the ASN GW shown in Fig. 3 a, or be positioned at the independent functional entity on the BS shown in Fig. 3 b.In the scene shown in Fig. 3 a, described interception request transmits between described sounding controlled entity and BS by Interface R4.In the scene shown in Fig. 3 b, be that RRC on the BS2 is an example with described sounding controlled entity.Can omit alternately between described RRC and the described BS2.The path that described interception request sends to described BS1 is: at first send to RRC Relay on its corresponding ASN GW2 by the R6 interface, RRC Relay on the described ASNGW2 then sends to described interception request the RRC Relay on the ASN GW1 of described BS1 correspondence by Interface R4, the RRC Relay on the described ASN GW1 sends to described BS1 with described interception request by the R6 interface again.
Step 402, described BS1 and BS2 are respectively according to the site information vector ofstation in the described interception request, also can be according to MS and/or the RS channel information itself safeguarded, in vector of station, increase corresponding M S and/or RS, indicate the interior corresponding website of coverage separately, be MS and/or RS, according to described initial frame number, and carry out the Sounding process between the BS that can communicate by letter, send monitoring signal.Concrete, it is at one time that described BS1 and BS2 respectively and separately carry out the Sounding process between the respective site in the coverage, carries out with same frequency, can be with reference to the up Sounding process that defines among the IEEE 802.16e in the prior art.
Step 403, described BS1 and BS2 send snoop responses to described sounding controlled entity respectively, report and described measurement corresponding items measurement result.As shown in the figure, described BS1 and BS2 send Sounding_RSP message to described sounding controlled entity respectively.Carry described measurement result in the described diagram Sounding_RSP message.Described measurement result is that described BS1 and BS2 calculate according to the measurement parameter in the described monitoring signal, is corresponding with described measurement project indication.Concrete, described measurement result can be report of audit area specific carriers interference-to-noise ratio or the specific received signal intensity of audit area order report, concrete, corresponding with audit area specific carriers interference-to-noise ratio request of carrying in the interception request described in the step 401 or the specific received signal intensity of audit area indication request.Be in the step 401 request which is, which described interference value just comprises.Similar with step 401, described snoop responses can be to send to described sounding controlled entity simultaneously from different BS, also can not send simultaneously.
The transmission path of described snoop responses and the transmission path of the interception request described in the step 401 are reverse.
Described interception request and snoop responses can be the special message according to WiMAX signaling protocol or RADIUS (Remote Authentication Dial in User Service, remote subscriber is dialled in authentication business) agreement or Diameter redetermination.Concrete, in described interception request and the snoop responses as described above embodiment describe comprise parameters.Other parts can repeat no more with reference to the message component part indication of described agreement herein.
Need to prove that if adopted the relaying access technology in the system, then described BS also can be multi-hop relay base station MRBS, in various embodiments of the present invention, when discussing BS, if scene conversion is the system that has adopted the relaying access technology, then described BS is exactly MRBS, follow-up no longer special instruction.
By using the described method of the foregoing description, the sounding controlled entity can be by carrying initial frame number in interception request, indicate at least two BS to carry out interferometry simultaneously, by in interception request, carrying interference-to-noise ratio request of audit area specific carriers or the specific received signal intensity of audit area indication request, indicate described BS to carry out the project of interferometry, and measuring the measurement result that reception described BS in end back reports.
For the superiority of the technical scheme that further specifies the embodiment of the invention, following preferred embodiment will illustrate the method for interferometry in the wireless network that the embodiment of the invention discloses in more detailed mode.In the description of follow-up various embodiments of the present invention, described sounding controlled entity all is positioned on the RRC, for the purpose of the convenience of describing, uses RRC as description object.Need to prove that in each embodiment of the present invention, the function that described RRC carries out all is to realize that by the described sounding controlled entity on it therefore independent sounding controlled entity also should be realized the function of RRC in the embodiment of the invention.If described sounding controlled entity is independent functional entity, itself and similar with described embodiment description of communicating by letter of other network elements.Figure 5 shows that a preferred embodiment of the present invention.In this embodiment, RRC indication BS1 and BS2 stride the interferometry of BS.Diagram MS1 inserts BS1 to obtain access service, and diagram MS2 and MS3 insert BS2 to obtain access service.And described MS2 is in the common factor place of the coverage of BS1 and BS2, and described BS1 also can receive the signal from MS2.Concrete network model can be with reference to figure 2.
Introduce the method for interferometry in the disclosed wireless network embodiment illustrated in fig. 5 below in detail.Referenced in schematic, concrete steps are as follows:
Step 501, RRC send Sounding_REQ message to BS1 and BS2.Carry initial frame number Start Frame Number in the described interception request (diagram Sounding_REQ message), and the indication of measurement project.Concrete, in the present embodiment, described measurement project indication can be audit area specific carriers interference-to-noise ratio request Sounding Zone-specific CINR request (CINR, carrier-to-interference-and-noise ratio, the carrier-in-interference noise ratio), and/or the specific received signal intensity of audit area indication request Sounding Zone-specific RSSI request (RSSI, receivesignal strength indicator, the indication of received signal intensity).Optionally, the indication of described monitoring project can also comprise uplink signal-channel quality information measurement type indication Type of UL CQI Measurement (UL, Up link, up; CQI, Channel Quality Information, channel quality information).Described Type of UL CQI Measurement is used in reference to and is shown in the type that needs the subsidiary uplink signal-channel quality information of measuring in the interferometry process.Optionally, can also carry the site information vector of station of the website that needs transmission monitoring signal sounding signals in the described interception request, described site information can be the information of MS1, MS2 and MS3.Optionally, in a further advantageous embodiment, described RRC can also periodically carry out interferometry to require described BS1 and BS2 by carry monitor report cycle Sounding ReportPeriod in described Sounding_REQ message, and the reporting measurement result.Described RRC can be to send simultaneously to described BS1 and described BS2 transmission Sounding_REQ message, also can not send simultaneously.Do not send simultaneously, need guarantee that all MS that participate in this interferometry can initiate the Sounding process simultaneously according to the initial frame number in the described interception request, carry out interferometry.
Step 502, BS1 send report request REP-REQ (Report Request) message to MS1, BS2 sends REP-REQ message to MS2 and MS3, carry the information of carrying in the message of Sounding_REQ described in the step 501 in the described REP-REQ message, notify each MS to send the Sounding signal at specific audit area SoundingZone.Described Sounding Zone is a time-frequency region.Described BS1 is to MS1, and it can be simultaneously that BS2 sends described REP-REQ message to MS2 and MS3, also can be asynchronous.Do not send simultaneously, need guarantee that described MS1, MS2 and MS3 can be according to the initial frame number in the described interception request, execution in step 503 is carried out interferometry simultaneously.Described BS1 and BS2 determine which MS to send described report request to according to the site information vector of stations in the described interception request.If do not comprise described site information vector of stations in the described interception request, described BS1 and BS2 determine to participate in the MS of this interferometry in also can own MS from coverage, and send described report request to them.Described BS1 and BS2 also can be outside the MS that the site information of described interception request is indicated, and the MS that increases voluntarily in the coverage participates in this interferometry, and to the MS of described indication and the MS of increase described report request takes place all.
Step 503, described MS1, MS2 and MS3 simultaneously, with same frequency, send Sounding Signals to the BS that can communicate by letter separately according to described initial frame number Start Frame Number in sounding zone.The described BS that can communicate by letter comprises that not only it inserts the BS with the service of obtaining, and also comprises the non-serving BS broadcasts that it can be communicated by letter.With MS2 is example, and its serving BS broadcasts is BS2, but because its intersection area for the coverage of BS1 and BS2, so BS1 also can receive the signal of its transmission, and at this moment, the Sounding Signals that described MS2 sends also sends to described BS1.Comprise monitoring project indication corresponding parameters information in the message of Sounding_REQ described in the step 501 among the described Sounding Signals, calculate the corresponding measurement result of described monitoring project indication for described BS1 and BS2.
Step 504, described BS1 and described BS2 calculate measurement result according to described Sounding Signals, concrete, it can be the specific received signal intensity indication of audit area specific carriers interference-to-noise ratio and/or audit area, indication will be measured uplink signal-channel quality information in the step 501, here also comprise uplink signal-channel quality information, and the measurement result that calculates is carried at sends to described RRC in the Sounding_RSP message.In this step, optionally,, carry the indication Failure Indication that makes mistakes in the then described Sounding_RSP message, to make mistakes to described RRC report executing if fail to finish response measurement result's calculating.Similar with step 501, described Sounding_RSP message can be to send to described RRC simultaneously from different BS, also can not send simultaneously.
Step 505, alternatively, described RRC sends to monitor to described BS1 and BS2 and confirms (Sounding_ACK message as shown), and optionally, described monitoring confirms to comprise the sub-carrier distribution manner and the transmitting power of suggestion.Described sub-carrier distribution manner and transmitting power be described RRC according to the described measurement result that reports, the situation of comprehensive the whole network draws.
Optionally, optimize among the embodiment at one, if carry monitor report cycle Sounding Report Period in the Sounding_REQ message in the step 501, then the described REP-REQ message in the step 502 is also carried described monitor report cycle Sounding Report Period.Described MS1, MS2 and MS3 are from described initial frame number, according to indicated cycle in described monitor report cycle, execution in step 503.After the each execution of step 503, step 504 order is carried out, and optionally, step 505 also can be carried out.
The transmission path of Sounding_REQ and Sounding_RSP message can be with reference to the associated description of step 401 and step 403 among the figure 4 described embodiment in step 501 and the step 504.Repeat no more herein.The transmission path of Sounding_ACK message is consistent with Sounding_REQ message in the step 501 in the step 505, repeats no more herein.
Described Sounding_REQ, Sounding_RSP and Sounding_ACK message can be the special message according to WiMAX signaling protocol or RADIUS (Remote Authentication Dial in User Service, remote subscriber is dialled in authentication business) agreement or Diameter redetermination.Concrete, in described Sounding_REQ and the Sounding_RSP message as described above embodiment describe comprise parameters.Other parts can repeat no more with reference to the message component part indication of described agreement herein.
By using the described method of the foregoing description, RRC can be by carrying initial frame number in Sounding_REQ message, indication BS1 and BS2 carry out interferometry simultaneously, by in Sounding_REQ message, carrying interference-to-noise ratio request of audit area specific carriers or the specific received signal intensity of audit area indication request, indicate each BS to carry out the project of interferometry, and measuring the measurement result that reception each BS in end back reports.Further, can also carry uplink signal-channel quality information measurement type indication Type of UL CQI Measurement in the described Sounding_REQ message, with the additional uplink signal-channel quality information of measuring in described interferometry process.Further, monitor report cycle Sounding Report Period be can also carry in the described Sounding_REQ message, interferometry and reporting measurement result periodically carried out to indicate.Make mistakes if measure, can also report the indication that makes mistakes.Further, described RRC can also be according to the measurement result that reports, issues the sub-carrier distribution manner and the transmitting power of suggestion by Sounding_ACK message, realizes striding the low interference optimization configuration of BS.
Along with the development of wireless access technology, a kind of wireless access technology that is called relaying technique begins should be used on a large scale.Relaying technique claims Relay again, also claims the multi-hop technology, is to make that wireless signal can be through repeatedly transmitting a kind of transmission technology that (multi-hop) arrives the destination.In the wireless transmission net, the relaying technique network architecture is made up of three essential parts as shown in Figure 6:
(1) MRBS (Multihop Relay Base Station, multi-hop relay base station): a kind ofly be connected the equipment of management and control for relay station provides with user terminal.
(2) RS (Relay Station, relay station): a kind of MRBS that depends on for other RS or user terminal provide the equipment of connection, is the transfer website of data between base station and the terminal.The RS that has also can provide management and control for subordinate RS or user terminal.Between RS and SS eat dishes without rice or wine with MRBS and SS between to eat dishes without rice or wine be identical.
(3) SS/MS (Subscriber Station/Mobile Station, user terminal/portable terminal): generally be called for short terminal, the user uses this equipment to insert Radio Access Network.
In existing relay system, the safe mode of relay station has two kinds: centralized safety and distributed security.Centralized safety is meant that RS is without any the key information relevant with MS or the RS of subordinate (key that is used for data with the integrality that guarantees administrative messag of encrypted transmission), so it transfers non-decrypting user data or checking MAC administrative messag with in simple only.Its security association is based upon between MS or RS of subordinate and the MRBS, perhaps is based upon between MS or the RS of subordinate and the higher level RS.Distributed security is meant that RS preserves the key information of its subordinate MS, and the key between RS and MS is different with the key between RS and MRBS.RS need be decrypted and encrypt again message or the data of receiving.(distributed security is only different to the key information between the MRBS with access RS to the key information that inserts RS for MS, does not have the different situation of key information between several RS.)
After relaying technique introduced WiMAX, because the relay station access base station, the disturbed condition of base station cell was complicated more.Introduce relaying technique in the WiMAX system after, BS becomes the multi-hop relay base station MRBS that can support relaying technique, and RS inserts MRBS, and MS is by the RS access network, perhaps directly by the MRBS access network.Under this scene, the deployment of RRC and RRA can have three kinds of modes, respectively as shown in Figure 7.
Fig. 7 a is depicted as RRC and is positioned at ASN GW, and RRA is positioned at the scene of MRBS or RS.As seen from the figure, an ASN GW can have one or more MRBS under its command.RRC of each ASN GW deploy, RRA of each MRBS and RS deploy.Between the RRC on the ASN GW by Interface R4 communication.RRA on the MRBS that the ASN GW at RRC and its place has under its command is by the R6 interface communication.MRBS can accept the access of one or more RS, also can directly provide service to MS.Have at MRBS under the situation of RS access, RRA on the MRBS communicates by letter with RRA on the RS that inserts described MRBS by the R1 interface, and perhaps, the RRC on the ASN GW also can pass through the R6 interface, via the RRA transfer on the MRBS, communicate by letter with RRA on the described RS by the R1 interface again.
Fig. 7 b is depicted as RRC Relay and is positioned at ASN GW, and RRC and RRA are positioned at MRBS, also is deployed with the scene of RRA on the RS.As seen from the figure, an ASN GW can have one or more MRBS under its command.RRC Relay of each ASN GW deploy (Radio Resource control repeater), RRC of each MRBS deploy and a RRA.Described RRC Relay does not have the function of Radio Resource control, and only is responsible for the communication transfer between the RRC.RRC on the MRBS carries out the function of Radio Resource control, finishes RRM with corresponding RRA.Between the RRC Relay on the ASN GW by Interface R4 communication.RRC on the MRBS that the ASN GW at RRCRelay and its place has under its command is by the R6 interface communication.RRC on the MRBS communicates by letter by the internal agreement of described MRBS with RRA.MRBS can accept the access of one or more RS, also can directly provide service to MS.Have under the situation that RS inserts at MRBS, the RRC on the MRBS directly communicates by letter by the RRA on the RS of R1 interface and the described MRBS of access.
Fig. 7 c is depicted as RRC Relay and is positioned at ASN GW, all is deployed with the scene of RRC and RRA on MRBS and the RS.As seen from the figure, an ASN GW can have one or more MRBS under its command.RRC Relay of each ASN GW deploy, RRC of each MRBS deploy and a RRA.Between the RRC Relay on the ASN GW by Interface R4 communication.RRC on the MRBS that the ASN GW at RRC Relay and its place has under its command is by the R6 interface communication.RRC on the MRBS communicates by letter by the internal agreement of described MRBS with RRA.MRBS can accept the access of one or more RS, also can directly provide service to MS.Have at MRBS under the situation of RS access, RRC of each RS deploy and a RRA, described RRC communicates by letter by the internal agreement of described RS with RRA.RRC on the MRBS directly communicates by letter with RRC on the RS that inserts described MRBS by the R1 interface.
In various deployment way shown in Figure 7, shown in Fig. 7 a be deployed in RRC on the ASN GW and the RRC on the MRBS of being deployed in shown in Fig. 7 b and Fig. 7 c has the ability of initiating interferometry, the RRC that is deployed on the RS shown in Fig. 7 c does not then temporarily have this ability.Therefore, in embodiment discussed below, the transmission path of interception request and snoop responses still with embodiment illustrated in fig. 4 in associated description similar, repeat no more.
In one embodiment of the invention, disclosed under the scene that has inserted relay station RS in the network, striden the method for the interferometry of MRBS.The network access environment of the scene that the embodiment of the invention is described as shown in Figure 8.With reference to figure 8 as can be known, RS1 inserts MRBS1, and R2 inserts MRBS2, and RS3 inserts RS2, and MS1 inserts RS1, and MS2 inserts RS2, and above-mentioned access is all finished by the R1 interface.Wherein MS2 is in the common factor of the coverage of RS2 and RS1, and MS2 sends to the signal of RS2, and RS1 also can receive.The RRC that initiates interferometry can be positioned on the MRBS2, also can be positioned on the ASN GW (not shown) of described MRBS2 access.Under this scene, the method that the described MRBS of striding carries out interferometry as shown in Figure 9, concrete steps are as follows:
Step 901, RRC send interception request Sounding_REQ message to MRBS1 and MRBS2.Carry initial frame number Start Frame Number in the described Sounding_REQ message, and the indication of measurement project.Concrete, in the present embodiment, described measurement project indication can be at least one in following two requests: audit area specific carriers interference-to-noise ratio request Sounding Zone-specific CINRrequest (CINR, carrier-to-interference-and-noise ratio, the carrier-in-interference noise ratio), the specific received signal intensity of audit area indication request Sounding Zone-specific RSSI request (RSSI, receive signal strength indicator, the indication of received signal intensity).Optionally, can also carry in the indication of described measurement project uplink signal-channel quality information measurement type indication Type of ULCQI Measurement (UL, Up link, up; CQI, Channel Quality Information, channel quality information).Described Type of UL CQI Measurement is used in reference to and is shown in the type that needs the subsidiary uplink signal-channel quality information of measuring in the interferometry process.Optionally, can also carry the site information vector of station of the website that needs transmission monitoring signal sounding signals in the described interception request, described site information can be the information that sends the MS of monitoring signal.Have RS to insert and described RS participates under the scene of this interferometry at described MRBS, described site information Vector of Stations also is included in the information of the RS that needs to send sounding signals in the measuring process.Described in the present embodiment site information Vector of Stations instruct MS 1, MS2 and RS3 send SoundingSignals in the Sounding process.In addition, object at described interferometry comprises under the situation of RS, when promptly needing to measure the interference of a certain RS, and the information that can also carry described RS in the described Sounding_REQ message, be called RS sign RS ID in the present embodiment, receive Sounding Signals to indicate described RS.At this moment, the MS of described site information indication and/or RS should partly or entirely be the RS access networks by described RS ID indication.In the present embodiment, described RS ID comprises the ID of RS1 and RS2.Optionally, in a further advantageous embodiment, described RRC can also periodically carry out interferometry to require described MRBS1 and MRBS2 by carry monitor report cycle Sounding Report Period in described Sounding_REQ message, and the reporting measurement result.In a preferred embodiment, the concrete constituted mode of described Sounding_REQ message can be as shown in table 1.Table 1 is described Sounding_REQ message field definition list, is the mode of the described Sounding_REQ message of definition in a preferred embodiment of the present invention.
Sounding_REQ
?IE
?RS?Sounding?Info
?>RS?ID
?>RS?sounding?Report?period
?>Start?Frame?Number
?>RS?Sounding?Zone-specific?5?CINR?request
?>RS?Sounding?Zone-specific?RSSI?request
?>Vector?of?Stations
?>Type?of?UL?CQI?Measurement
Table 1
Described RRC can be to send simultaneously to described MRBS1 and described MRBS2 transmission Sounding_REQ message, also can not send simultaneously.Do not send simultaneously, need guarantee that all MS that participate in this interferometry can initiate the Sounding process simultaneously according to the initial frame number in the described interception request, carry out interferometry.
Step 902, described MRBS1 send report request REP-REQ message to RS1 and MS1, and described MRBS2 sends report request REP-REQ message to RS2, MS2 and RS3, can comprise described measurement project indication in the described REP-REQ message.Concrete, if described RS1 is under the distributed security pattern, described MRBS1 sends report request REP-REQ message to RS1, RS1 is after the relevant information of resolving the RS1 that wherein carries, the report request REP-REQ message of having deleted the related content of RS1 is sent to MS1, this moment, then described MRBS or described RS can add the indication to MS1 in the website indication if do not carry in site information or the site information not instruct MS 1 in the step 901, participated in sending monitoring signal to indicate described MS1.If described RS1 is under the centralized safe mode, the report request REP-REQ message that described MRBS1 sends at RS1 arrives RS1; Transmission is arrived RS1 at the REP-REQ message of MS1, and this message of RS1 relaying is to MS1.This moment is not if carry in site information or the site information not instruct MS 1 in the step 901, then described MRBS1 or described RS1 can add the indication to MS1 in the website indication, be specially to RS2 and MS2 to indicate described MS1 to participate in sending the described MRBS2 transmission of monitoring signal REP-REQ message: if described RS2 is under the distributed security pattern, described MRBS2 sends report request REP-REQ message to RS2, RS2 sends to MS2 with the report request REP-REQ message of having deleted the related content of RS2 after the relevant information of resolving the RS2 that wherein carries.If described RS2 is under the centralized safe mode, the report request REP-REQ message that described MRBS2 sends at RS2 arrives RS2; Transmission is arrived RS2 at the REP-REQ message of MS2, and this message of RS2 relaying is to MS2.This moment, then described MRBS2 or described RS2 can add the indication to MS1 in the website indication if do not carry in site information or the site information not instruct MS 2 in the step 901, participated in sending monitoring signal to indicate described MS1.No matter described RS2 is for which kind of safe mode, and the REP-REQ message that described MRBS2 sends to described RS3 is relayed to described RS3 by RS2.Do not indicate RS3 as if carrying in site information or the site information in the step 901 this moment, and then described MRBS2 can add the indication to RS3 in the website indication, participates in sending monitoring signal to indicate described RS3.The REP-REQ message of described RS1 of mailing to and RS2 is used to notify described RS1 and RS2 to receive monitoring signal sounding signals, and reports in the monitoring signal and the corresponding measurement parameter of described measurement project indication.The REP-REQ message of the described MS1 of mailing to, MS2 and RS3 is used to notify described MS1, MS2 and RS3 to send the Sounding signal at specific audit area Sounding Zone.Described Sounding Zone is a time-frequency region.Described MRBS1 is to MS1 and RS1, and it can be simultaneously that described MRBS2 sends described REP-REQ message to MS2, RS2 and RS3, also can be asynchronous.Do not send simultaneously, need guarantee that described MS1, MS2 and RS3 can be according to the initial frame number in the described interception request, execution in step 903 is carried out interferometry simultaneously.
Step 903, described MS1, MS2 and RS3 simultaneously, with same frequency, send monitoring signal Sounding Signals according to described initial frame number Start Frame Number.As shown in the figure, described RS1 and described RS2 receive described monitoring signal Sounding Signals according to the indication of the RS ID in the Sounding_REQ message in the step 901.Concrete, the SoundingSignals that described RS 1 receives from described MS1, described RS2 receives the Sounding Signals from described MS2 and described RS3.Because described MS2 is in the common factor of coverage of described RS1 and described RS2, the SoundingSignals that described MS2 sends, described RS1 also can receive.The information that comprises the parameter of indication measurement in the message of Sounding_REQ described in the step 901 among the described Sounding Signals is calculated the parameter of described indication measurement for described MRBS1 and MRBS2.
Step 904, described RS1 send report response REP-RSP (Report Response) message to described MRBS1, the corresponding measurement parameter of measurement project indication shown in comprising in the Sounding signal from MS1 that feedback receives; Described RS2 sends report response REP-RSP message to described MRBS2, the corresponding measurement parameter of measurement project indication shown in comprising in the Sounding signal from MS2 and RS3 that feedback receives.
Step 905, the corresponding measurement parameter of measurement project indication calculates the corresponding measurement result of described measurement project indication shown in comprising in the Sounding signal that described MRBS1 and described MRBS2 report according to described RS1 and RS2 respectively, concrete, it can be audit area specific carriers interference-to-noise ratio, and/or, the specific received signal intensity indication of audit area, project survey indication in the step 901 comprises the indication of uplink signal-channel quality information measurement type, described measurement result also comprises uplink signal-channel quality information, and the measurement result that calculates is carried at sends to described RRC in the Sounding_RSP message.In this step, optionally,, carry the indication Failure Indication that makes mistakes in the then described Sounding_RSP message, to make mistakes to described RRC report executing if fail to finish response measurement result's calculating.Similar with step 901, described Sounding_RSP message can be to send to described RRC simultaneously from different MRBS, also can not send simultaneously.
In a preferred embodiment, the concrete constituted mode of described Sounding_RSP message can be as shown in table 2.Table 2 is described Sounding_RSP message field definition list, is the mode of the described Sounding_RSP message of definition in a preferred embodiment of the present invention.
Sounding_RSP
?IE
?Failure?Indication
?RS?Sounding?Info
?>RS?ID?M
?>UL?Sounding?CINR?Repor
?>UL?Sounding?RS?SI?Report
?>Vector?of?stations
?>UL?CINR?Report
Table 2
In an alternate embodiment, the function of the calculating measurement result described in the step 905 also can realize on described RS1 and RS2 respectively in step 904, and directly reports the measurement result after the calculating, perhaps reports the indication that makes mistakes.In step 905, the then direct reporting measurement result of described MRBS1 and MRBS2 perhaps reports the indication that makes mistakes.
Step 906, alternatively, RRC sends to monitor to the MRBS1 of institute and MRBS2 and confirms (Sounding_ACK message as shown), and optionally, described monitoring confirms to comprise the sub-carrier distribution manner and the transmitting power of suggestion.
Step 907, if the monitoring in the step 906 includes sub-carrier distribution manner and transmitting power in confirming, then described MRBS1 and MRBS2 send RS configuration order (diagram RS_Config_CMD message) to described RS1 and RS2 respectively, indicate new sub-carrier distribution manner and transmitting power.
Optionally, optimize among the embodiment at one, if carry monitor report cycle Sounding Report Period in the Sounding_REQ message in the step 901, then the described REP-REQ message in the step 902 is also carried described monitor report cycle Sounding Report Period.Described MS1, MS2 and MS3 are from described initial frame number, according to indicated cycle in described monitor report cycle, execution in step 903.After the each execution of step 903, step 904 and step 905 order are carried out, and optionally, step 906 and step 907 also can be carried out.
By using the described method of the foregoing description, RRC can be by carrying initial frame number in Sounding_REQ message, RS and MS that indication MRBS1 and MRBS2 have under its command participate in interferometry simultaneously, by in Sounding_REQ message, carrying interference-to-noise ratio request of audit area specific carriers or the specific received signal intensity of audit area indication request, indicate each MRBS to carry out the project of interferometry, and measuring the measurement result that reception each MRBS in end back reports.Further, can also carry uplink signal-channel quality information measurement type indication Type of UL CQIMeasurement in the described Sounding_REQ message, with the additional uplink signal-channel quality information of measuring in described interferometry process.Further, monitor report cycle Sounding ReportPeriod be can also carry in the described Sounding_REQ message, interferometry and reporting measurement result periodically carried out to indicate.Make mistakes if measure, can also report the indication that makes mistakes.Further, described RRC can also issue the sub-carrier distribution manner and the transmitting power of suggestion according to measurement result, and the RS that has MRBS to notify to have under its command realizes striding the low interference optimization configuration of MRBS.
More than each embodiment, describe during technical scheme in explanation for convenient, be that example describes all with two BS or MRBS.But the technical scheme of various embodiments of the present invention is equally applicable to the situation of unnecessary two BS or MRBS.Under the scene of a plurality of BS or MRBS, concrete operation and two s' scene is that similarly those skilled in the art can promptly learn method of operation without creative work, therefore repeats no more.
The embodiment of the invention also discloses a kind of base station, as shown in figure 10, comprise receiver module 1000, indicating module 1002, computing module 1004 and sending module 1006, wherein, described receiver module 1000 is used to receive interception request, carries the indication of initial frame number and measurement project in the described interception request; Described indicating module 1002 is used to indicate the website in the coverage to send monitoring signal according to described initial frame number; Described computing module 1004 is used for calculating the corresponding measurement result of described measurement project indication according to the measurement parameter that described monitoring signal comprises; Described sending module 1006 is used to send snoop responses, carries described measurement result in the described snoop responses.
Optionally, described receiver module 1000 also is used for receiving monitoring to be confirmed, carries the base station sub-carrier distribution manner and the base station transmitting power of suggestion during described monitoring is confirmed.
Optionally, described receiver module 1000 also is used for receiving the relay station sign that described interception request is carried; Described indicating module 1002 also is used to indicate the corresponding relay station of described relay station sign in the coverage to receive described monitoring signal; Described computing module 1004 also is used to receive the described measurement parameter from described relay station.
Optionally, described receiver module 1000 also is used for receiving monitoring to be confirmed, carries the relay station sub-carrier distribution manner and the relay station transmitting power of suggestion during described monitoring is confirmed; The described relay station that described indicating module 1002 also is used in coverage identifies relay station sub-carrier distribution manner and the relay station transmitting power that corresponding relay station sends described suggestion.
Realize the method for described base station functions, can reference method embodiment the corresponding description of part, repeat no more herein.
By using the base station of the embodiment of the invention, can receive interception request, and carry out interferometry according to interception request indication subordinate's website.Under the scene of disposing two the above base stations, can carry out described interferometry simultaneously, and the reporting measurement result, to realize striding the interferometry of base station.
The embodiment of the invention also discloses the system of interferometry in a kind of wireless network, as shown in figure 11, comprise monitoring control entity 1100, and first base station 1102 that can communicate by letter with described monitoring control entity and second base station 1104, wherein,
Described monitoring control entity 1100 is used for sending interception request to described first base station 1102 and described second base station 1104, carries the indication of initial frame number and measurement project in the described interception request; Described first base station 1102 and described second base station 1104 are used to receive described interception request, indicate the interior website of coverage separately respectively, send monitoring signal according to described initial frame number; Described first base station 1102 and described second base station 1104 also are used for calculating the corresponding measurement result of described measurement project indication according to the measurement parameter of described monitoring signal; Described monitoring control entity 1100 also is used to receive the snoop responses from described first module 1102 and second module 1104, carries described measurement result in the described snoop responses.
Optionally, described monitoring control entity 1100 also is used for sending the monitoring affirmation to described first base station 1102 and second base station 1104, carries the base station sub-carrier distribution manner and the base station transmitting power of suggestion during described monitoring is confirmed.
Optionally, described system also comprises the relay station 1106 (it is example that diagram is communicated by letter with described second base station 1104 with described relay station 1106) of communicating by letter with described first base station 1102 or second base station 1104, wherein, described monitoring control entity 1100 also is used for carrying described relay station sign in described interception request; Described first base station 1102 or second base station 1104 also are used for according to described relay station sign, and the described relay station 1106 in the indication coverage receives described monitoring signal; Described relay station 1106 is used to receive described monitoring signal, and sends the measurement parameter that is included in the described monitoring signal to described first base station 1102 or second base station 1104.
Further alternative, described monitoring control entity 1100 also is used for sending the monitoring affirmation to described first base station 1102 and second base station 1104, carries the relay station sub-carrier distribution manner and the relay station transmitting power of suggestion during described monitoring is confirmed; Described first base station 1102 or second base station 1104 also are used for sending to described relay station the relay station sub-carrier distribution manner and the relay station transmitting power of described suggestion.
The method that the concrete function of native system is realized can repeat no more with reference to the method embodiment corresponding description partly of the embodiment of the invention herein.
By using the described system of the embodiment of the invention, monitoring control entity can send interception request to two above base stations, and each base station can indicate subordinate's website to carry out interferometry simultaneously, and the reporting measurement result, to realize striding the interferometry of base station.Further, described monitoring control entity can also issue the sub-carrier distribution manner and the transmitting power of suggestion.Further, can also comprise relay station in the described system, and participate in described interferometry, described monitoring control entity can also send the relay station sub-carrier distribution manner and the relay station transmitting power of suggestion, and the corresponding base station that is inserted by described relay station is transmitted to described relay station.
By using embodiment of the invention disclosed method, device and system, monitoring control entity can send interception request to two above base stations, the interior website of coverage sends monitoring signal simultaneously so that each base station is indicated separately, carry out interferometry, and receive the measurement result that described each base station reports, to realize striding the interferometry of base station.
Through the above description of the embodiments, the those skilled in the art can be well understood to the present invention and can realize by the mode that software adds essential general hardware platform, can certainly pass through hardware, but the former is better execution mode under a lot of situation.Based on such understanding, the part that technical scheme of the present invention contributes to prior art in essence in other words can embody with the form of software product, this computer software product is stored in the storage medium that can read, floppy disk as computer, hard disk or CD etc., comprise some instructions with so that computer equipment (can be personal computer, server, the perhaps network equipment etc.) carry out the described method of each embodiment of the present invention.
Above embodiment only in order to technical scheme of the present invention to be described, is not intended to limit; Although with reference to previous embodiment the present invention is had been described in detail, those of ordinary skill in the art is to be understood that: it still can be made amendment to the technical scheme that aforementioned each embodiment put down in writing, and perhaps part technical characterictic wherein is equal to replacement; And these modifications or replacement do not make the essence of appropriate technical solution break away from the spirit and scope of various embodiments of the present invention technical scheme.

Claims (20)

1. the method for interferometry in the wireless network is characterized in that this method comprises:
First base station and second base station receive the interception request from monitoring control entity, carry the indication of initial frame number and measurement project in the described interception request;
Described first base station and second base station are indicated separately respectively, and the interior website of coverage sends monitoring signal according to described initial frame number;
The corresponding measurement result of described measurement project indication is calculated according to the measurement parameter that comprises in the described monitoring signal in described first base station and second base station, and sends snoop responses to described monitoring control entity, carries described measurement result in the described snoop responses.
2. the method for claim 1 is characterized in that,
Described website sends monitoring signal: at one time, with same frequency, send monitoring signal.
3. the method for claim 1 is characterized in that,
Also carry site information in the described interception request, described site information is used to indicate needs to send the website of monitoring signal;
Described first base station and second base station are indicated respective site in the coverage separately respectively according to described site information, send monitoring signal according to described initial frame number.
4. the method for claim 1 is characterized in that,
Described measurement project is designated as interference-to-noise ratio request of audit area specific carriers and/or the specific received signal intensity of audit area indication request;
Described measurement result is the specific received signal intensity indication of corresponding audit area specific carriers interference-to-noise ratio and/or audit area.
5. method as claimed in claim 4 is characterized in that,
Described measurement project indication also comprises the indication of uplink signal-channel quality information measurement type;
Described measurement result also comprises corresponding uplink signal-channel quality information.
6. the method for claim 1 is characterized in that, further comprises step:
Described first base station and second base station also receive from the monitoring of described monitoring control entity to be confirmed, carries the base station sub-carrier distribution manner and the base station transmitting power of suggestion during described monitoring is confirmed.
7. the method for claim 1 is characterized in that,
Also carry the monitor report cycle in the described interception request;
Described website periodically sends monitoring signal according to the described monitor report cycle;
Described first base station and second base station periodically send snoop responses to described monitoring control entity.
8. the method for claim 1 is characterized in that,
Described website is terminal and/or relay station.
9. the method for claim 1 is characterized in that,
Also carry the relay station sign in the described interception request;
Also comprised before described website sends monitoring signal: described first base station and second base station indicate the relay station of the correspondence in the coverage separately to receive described monitoring signal respectively according to described relay station sign;
Described first base station and second base station also comprise before calculating described measurement result:
Described first base station and second base station receive the measurement parameter from the corresponding relay station of the described relay station sign in the coverage separately respectively, and described measurement parameter is included in the monitoring signal that described relay station receives.
10. method as claimed in claim 9 is characterized in that, further comprises:
Described first base station and second base station also receive from the monitoring of described monitoring control entity to be confirmed, carries the relay station sub-carrier distribution manner and the relay station transmitting power of suggestion during described monitoring is confirmed;
Described first base station and second the base station corresponding relay station of described relay station sign in coverage separately respectively send the relay station sub-carrier distribution manner and the relay station transmitting power of described suggestion.
11. the method for interferometry in the wireless network is characterized in that this method comprises:
First base station and second base station receive the interception request from monitoring control entity, carry initial frame number, the indication of measurement project in the described interception request, and the relay station sign;
Described first base station and second base station are indicated separately respectively, and the interior website of coverage sends monitoring signal according to described initial frame number;
Described first base station and second base station identify according to described relay station, and the indication of described measurement project is sent to corresponding relay station in the coverage separately respectively, and indicate the corresponding relay station in the coverage separately to receive described monitoring signal;
Described first base station and second base station receive the measurement result from the described relay station in the coverage separately respectively, described measurement result is that described relay station calculates according to the measurement parameter that comprises in the described monitoring signal, with the corresponding measurement result of described measurement project indication;
Described first base station and second base station send snoop responses to described monitoring control entity, carry the corresponding measurement result of described measurement project indication in the described snoop responses.
12. method as claimed in claim 11 is characterized in that,
Also carry site information in the described interception request, described site information is used to indicate needs to send the website of monitoring signal;
Described first base station and second base station are indicated respective site in the coverage separately respectively according to described site information, send monitoring signal according to described initial frame number.
13. a base station is characterized in that, comprising:
Receiver module: be used to receive interception request, carry the indication of initial frame number and measurement project in the described interception request;
Indicating module: be used to indicate the website in the coverage to send monitoring signal according to described initial frame number;
Computing module: be used for calculating the corresponding measurement result of described measurement project indication according to the measurement parameter that described monitoring signal comprises;
Sending module: be used to send snoop responses, carry described measurement result in the described snoop responses.
14. base station as claimed in claim 13 is characterized in that,
Described receiver module also is used for receiving monitoring to be confirmed, carries the base station sub-carrier distribution manner and the base station transmitting power of suggestion during described monitoring is confirmed.
15. base station as claimed in claim 13 is characterized in that,
Described receiver module also is used for receiving the relay station sign that described interception request is carried;
Described indicating module also is used to indicate the corresponding relay station of described relay station sign in the coverage to receive described monitoring signal;
Described computing module also is used to receive the described measurement parameter from described relay station.
16. base station as claimed in claim 15 is characterized in that,
Described receiver module also is used for receiving monitoring to be confirmed, carries the relay station sub-carrier distribution manner and the relay station transmitting power of suggestion during described monitoring is confirmed;
The described relay station that described indicating module also is used in coverage identifies relay station sub-carrier distribution manner and the relay station transmitting power that corresponding relay station sends described suggestion.
17. the system of interferometry is characterized in that in the wireless network, comprises monitoring control entity, and first base station and second base station that can communicate by letter with described monitoring control entity, wherein,
Described monitoring control entity is used for sending interception request to described first base station and described second base station, carries the indication of initial frame number and measurement project in the described interception request;
Described first base station and described second base station are used to receive described interception request, and indicating separately respectively, the interior website of coverage sends monitoring signal according to described initial frame number;
Described first base station and second base station also are used for calculating the corresponding measurement result of described measurement project indication according to the measurement parameter of described monitoring signal;
Described monitoring control entity also is used to receive the snoop responses from described first module and second module, carries described measurement result in the described snoop responses.
18. system as claimed in claim 17 is characterized in that,
Described monitoring control entity also is used for sending the monitoring affirmation to described first base station and second base station, carries the base station sub-carrier distribution manner and the base station transmitting power of suggestion during described monitoring is confirmed.
19. system as claimed in claim 17 is characterized in that, also comprises the relay station with described first base station or second base station communication, wherein,
Described monitoring control entity also is used for carrying described relay station sign in described interception request;
Described first base station or second base station also are used for, and according to described relay station sign, the described relay station in the indication coverage receives described monitoring signal;
Described relay station is used to receive described monitoring signal, and sends the measurement parameter that is included in the described monitoring signal to described first base station or second base station.
20. system as claimed in claim 19 is characterized in that,
Described monitoring control entity also is used for sending the monitoring affirmation to described first base station and second base station, carries the relay station sub-carrier distribution manner and the relay station transmitting power of suggestion during described monitoring is confirmed;
Described first base station or second base station also are used for sending to described relay station the relay station sub-carrier distribution manner and the relay station transmitting power of described suggestion.
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