CN102143498B - Method and system for multi-standard joint communication and wireless network control equipment - Google Patents

Abstract

The invention discloses a method and a system for multi-standard joint communication and wireless network control equipment, and belongs to the field of communication. The method comprises the following steps that: a transmission network layer of the wireless network control equipment receives an uplink signaling, and judges the uplink signaling; if the uplink signaling is an uplink signaling of a first standard, the transmission network layer transmits the uplink signaling to a wireless control layer of the first standard of the wireless network control equipment; the wireless control layer of the first standard sends the uplink signaling of the first standard to a core network of the first standard; if the uplink signaling is an uplink signaling of a second standard, the transmission network layer transmits the uplink signaling to the wireless control layer of the second standard of the wireless network control equipment; and the wireless control layer of the second standard sends the uplink signaling of the second standard to the core network of the second standard. By the invention, the first standard communication and the second standard communication can be realized in a wireless access network simultaneously.

Description

Method, system and the wireless network control apparatus of multi-modulation scheme joint communication

Technical field

The present invention relates to the communications field, particularly a kind of method of multi-modulation scheme joint communication, system and wireless network control apparatus.

Background technology

The areas such as current Europe have started from 3G communication network to step into gradually 4G communication network, wherein, because operator has dropped into a huge sum of money in 3G communication network, therefore need to be from 3G communication network smooth evolution to 4G communication network.

Wherein, 3G communication network adopts UMTS(Universal Mobile Telecommunications System, universal mobile telecommunications system) standard, 4G communication network adopts LTE standard, 3G communication network evolution to the key point of 4G communication network is: in the UMTS of 3G communication network wireless access network, realize LTE communication, wherein, UMTS wireless access network comprises NodeB(base station) and RNC(Radio Network Controller, radio network controller), RNC comprises two-layer, be respectively wireless network layer and transport network layer, wireless network layer is mainly made up of higher layer applications software, transport network layer is mainly realized routing function, and the LTE(Long Term Evolution of 4G communication network, 3GPP Long Term Evolution) wireless access network only comprises eNB(enhanced NodeB, enhanced base station).

In order to realize LTE communication in UMTS wireless access network, the scheme adopting is at present: in UMTS wireless access network, the wireless network layer of RNC is moved down into NodeB, only retain transport network layer, so make RNC be degenerated to router, and NodeB is evolved to eNB, makes UMTS wireless access network be evolved to LTE wireless access network, thereby realize LTE communication.

Realizing in process of the present invention, inventor finds that prior art at least exists following problem:

The RNC of UMTS wireless access network is deteriorated to router, and NodeB is evolved to eNB, makes UMTS wireless access network cannot carry out UMTS communication, but also has a large amount of UMTS users, makes operator cannot continue as UMTS user's service.

Summary of the invention

Communicate by letter with LTE in order to make wireless access network realize UMTS communication simultaneously, the invention provides a kind of method, system and wireless network control apparatus of multi-modulation scheme joint communication.

One embodiment of the present of invention provide a kind of method of multi-modulation scheme joint communication, and described method comprises:

The transport network layer of wireless network control apparatus receives the up signaling that Multi-Mode Base Station sends, and described up signaling is judged;

If described up signaling is the up signaling of the first standard, described transport network layer is transferred to the wireless network layer of the first standard of described wireless network control apparatus, and the wireless network layer of described the first standard sends to the up signaling of described the first standard the core net of the first standard;

If described up signaling is the up signaling of the second standard, described transport network layer is transferred to the wireless network layer of the second standard of described wireless network control apparatus, and the wireless network layer of described the second standard sends to the up signaling of described the second standard the core net of the second standard;

Described the first standard is UMTS, W-CDMA(Wideband Code Division Multiple Access, Wideband Code Division Multiple Access (WCDMA)) or TD-CDMA(Time Division-Synchronous Code Division Multiple Access, time division CDMA), described the second standard is Long Term Evolution LTE;

Wherein, described method also comprises:

Described wireless network control apparatus receives frequency spectrum mark and the frequency spectrum congestion information that described Multi-Mode Base Station sends, and according to described frequency spectrum mark and frequency spectrum congestion information, dynamically adjust the frequency spectrum of distributing to the first standard and the frequency spectrum of distributing to the second standard, wherein, described frequency spectrum congestion information comprises communication standard under the congestion condition, frequency spectrum of frequency spectrum and the bandwidth of frequency spectrum;

The frequency spectrum mark of the frequency spectrum mark of the first standard after adjusting and the second standard is sent to described Multi-Mode Base Station by described wireless network control apparatus.

An alternative embodiment of the invention provides a kind of wireless network control apparatus, and described wireless network control apparatus comprises:

Judge module, the up signaling sending for receive Multi-Mode Base Station by transport network layer, and described up signaling is judged;

The first sending module, if the result judging for described judge module is that described up signaling is the up signaling of the first standard, be transferred to the wireless network layer of the first standard by described transport network layer, by the wireless network layer of described the first standard, the up signaling of described the first standard sent to the core net of the first standard;

The second sending module, if the result judging for described judge module is that described up signaling is the up signaling of the second standard, be transferred to the wireless network layer of the second standard by described transport network layer, by the wireless network layer of described the second standard, the up signaling of described the second standard sent to the core net of the second standard;

Described the first standard is UMTS, W-CDMA or TD-CDMA, and described the second standard is Long Term Evolution LTE;

Wherein, described wireless network control apparatus also comprises:

Spectrum allocation may module; the frequency spectrum mark and the frequency spectrum congestion information that send for receiving described Multi-Mode Base Station; and according to described frequency spectrum mark and frequency spectrum congestion information; dynamically adjust the frequency spectrum of distributing to the first standard and the frequency spectrum of distributing to the second standard; the frequency spectrum mark of the frequency spectrum mark of the first standard after adjusting and the second standard is sent to described Multi-Mode Base Station; wherein, described frequency spectrum congestion information comprises communication standard under the congestion condition, frequency spectrum of frequency spectrum and the bandwidth of frequency spectrum.

Another embodiment of the present invention also provides a kind of multi-modulation scheme way integrated communication system, comprising: aforesaid wireless network control apparatus, and the Multi-Mode Base Station communicating with above-mentioned wireless network control apparatus.

In the technical scheme that the embodiment of the present invention provides, the transport network layer of wireless network control apparatus receives up signaling and it is judged, the up signaling of the first standard if, be transferred to the wireless network layer of the first standard, sent it to again the core net of the first standard by the wireless network layer of the first standard, the up signaling of the second standard if, be transferred to the wireless network layer of the second standard, sent it to again the core net of the second standard by the wireless network layer of the second standard, so, make to realize the communication of the first standard and communicating by letter of the second standard in same wireless access network simultaneously, can be that the user of the first standard and the user of the second standard serve simultaneously.

Brief description of the drawings

Fig. 1 is the method flow diagram of a kind of multi-modulation scheme joint communication of providing of the embodiment of the present invention 1;

Fig. 2 is a kind of UMTS/LTE wireless access network schematic diagram that the embodiment of the present invention 2 provides;

Fig. 3 is a kind of RNC schematic diagram that the embodiment of the present invention 2 provides;

Fig. 4 is the method flow diagram of a kind of communication of providing of the embodiment of the present invention 2;

Fig. 5 is a kind of Iub+ interface schematic diagram that the embodiment of the present invention 2 provides;

Fig. 6 is the protocol stack schematic diagram of a kind of RNC of providing of the embodiment of the present invention 2;

Fig. 7 is a kind of IuPS+ interface schematic diagram that the embodiment of the present invention 2 provides;

Fig. 8 is a kind of dynamic assignment frequency spectrum flow chart that the embodiment of the present invention 2 provides;

Fig. 9 is a kind of pilot tone coverage flow chart of adjusting community that the embodiment of the present invention 2 provides;

Figure 10 is the pilot tone coverage flow chart of a kind of allocating cell of providing of the embodiment of the present invention 2;

Figure 11 is a kind of wireless network control apparatus schematic diagram that the embodiment of the present invention 3 provides;

Figure 12 is the schematic diagram of a kind of multi-modulation scheme way integrated communication system of providing of the embodiment of the present invention 4.

Embodiment

For making the object, technical solutions and advantages of the present invention clearer, below in conjunction with accompanying drawing, embodiment of the present invention is described further in detail.

Embodiment 1

As shown in Figure 1, the embodiment of the present invention provides a kind of method of multi-modulation scheme joint communication, comprising:

Step 101: the transport network layer of wireless network control apparatus receives the up signaling that Multi-Mode Base Station sends;

Step 102: transport network layer judges whether the up signaling receiving is the up signaling of the first standard, if so, execution step 103, if not, the up signaling receiving is the up signaling of the second standard, and performs step 105;

Step 103: transport network layer is the wireless network layer to the first standard of wireless network control apparatus by the up signalling of the first standard;

Step 104: the wireless network layer of the first standard sends to the up signaling of the first standard the core net of the first standard;

Step 105: transport network layer is the wireless network layer to the second standard of wireless network control apparatus by the up signalling of the second standard;

Step 106: the wireless network layer of the second standard sends to the up signaling of the second standard the core net of the second standard.

Wherein, the first standard can be UMTS, W-CDMA or TD-CDMA, and the second standard can be LTE, and wireless network control apparatus can be RNC.

In embodiments of the present invention, wireless network control apparatus receives up signaling and it is judged, the up signaling of the first standard if, send it to the core net of the first standard, the up signaling of the second standard if, sends it to the core net of the second standard, so, make to realize the first standard and the second standard joint communication in same wireless access network, can be that the user of the first standard and the user of the second standard serve simultaneously simultaneously.

Embodiment 2

The embodiment of the present invention provides a kind of method of multi-modulation scheme joint communication.Wherein, the present embodiment taking the first standard as UMTS, the second standard describes as RNC as example as LTE and wireless network control apparatus, corresponding, in this embodiment, Multi-Mode Base Station describes as an example of the dual-mode base station of supporting UMTS and LTE example.

The present embodiment is applied UMTS/LTE wireless access network as shown in Figure 2, UMTS/LTE wireless access network is made up of RNC and dual-mode base station, and RNC as shown in Figures 2 and 3 comprises UMTS wireless network layer, LTE wireless network layer, transport network layer, IuPS+ interface, Iub+ interface and Iur+ interface; Wherein, the wireless network layer of UMTS is connected with UMTS core net by IuPS+ interface, and LTE wireless network layer is connected with LTE core net by IuPS+ interface, and transport network layer is connected with dual-mode base station by Iub+ interface.Referring to Fig. 4, the method comprises:

The transport network layer of step 201:RNC receives by Iub+ interface the up signaling that dual-mode base station sends;

Wherein, up signaling comprises the up signaling of UMTS of UMTS user's transmission and/or the up signaling of LTE that LTE user sends.

Wherein, as shown in Figure 5, Iub+ interface comprises Iub interface and X2/S1 interface, and Iub interface is used for receiving the up signaling of UMTS or sends UMTS downlink signaling, and X2/S1 interface is used for receiving the up signaling of LTE or sends LTE downlink signaling.

Particularly, the transport network layer of RNC is received the up signaling of UMTS of dual-mode base station transmission and/or is received by X2/S1 interface the up signaling of LTE that dual-mode base station sends by Iub interface.

Wherein, up UMTS signaling is sent to dual-mode base station by UMTS user, and dual-mode base station is transmitted to RNC again; Up LTE signaling is sent to dual-mode base station by LTE user, and dual-mode base station is transmitted to RNC again.

Wherein, up signaling is carried source IP(Internet Protocol, IP) address, the source IP address that the up signaling of UMTS is carried is the source IP address in UMTS subnet, and the source IP address that the up signaling of LTE is carried is the source IP address in LTE subnet.

The transport network layer of step 202:RNC according to receive up signaling in source IP address to receive up signaling judge, the up signaling of UMTS, performs step 203 if; The up signaling of LTE, performs step 205 if;

Particularly, the transport network layer of RNC parses the source IP address carrying from the up signaling receiving, according to the source IP address of resolving, the up signaling receiving is judged, if the source IP address that the up signaling receiving is carried is the source IP address in UMTS subnet, the up signaling of judging reception is the up signaling of UMTS, if the source IP address that the up signaling receiving is carried is the source IP address in LTE subnet, the up signaling of judging reception is the up signaling of LTE.

Wherein, protocol stack diagram as shown in Figure 6, transport network layer, UMTS wireless network layer and the LTE wireless network layer of RNC all comprise control plane and user plane, and control plane can be processed signaling, and user plane can be processed user data.

Correspondingly, the control plane of transport network layer receives by Iub+ interface the up signaling that dual-mode base station sends, and then the up signaling receiving is successively resolved, and parses the source IP address that up signaling is carried.

The transport network layer of step 203:RNC by receive the up signalling of UMTS to UMTS wireless network layer;

The UMTS wireless network layer of step 204:RNC receives the up signaling of UMTS, and by IuPS+ interface, up the UMTS of reception signaling is sent to UMTS core net.

Wherein, as shown in Figure 7, IuPS+ interface comprises IuPS interface and S1 interface, and the UMTS wireless network layer of RNC is connected with UMTS core net by IuPS interface, and the LTE wireless network layer of RNC is connected with LTE core net by S1 interface.

Correspondingly, the UMTS wireless network layer of RNC sends to UMTS core net by IuPS interface by up the UMTS of reception signaling.

Optionally, can also continue to perform step 207 and 208 after executing this step, and/or continue execution step 209 and 210.

The transport network layer of step 205:RNC by receive the up signalling of LTE to LTE wireless network layer;

The LTE wireless network layer of step 206:RNC receives the up signaling of LTE, and by IuPS+ interface, up the LTE of reception signaling is sent to LTE core net.

Wherein, the LTE wireless network layer of RNC sends to LTE core net by S1 interface by up the LTE of reception signaling.

Optionally, can also continue to perform step 207 and 208 after executing this step, and/or continue execution step 209 and 210.

The UMTS wireless network layer of step 207:RNC receives by IuPS+ interface the UMTS downlink signaling that UMTS core net sends, and the UMTS downlink signaling of reception is transferred to transport network layer;

Wherein, the UMTS wireless network layer of RNC receives by IuPS interface the UMTS downlink signaling that UMTS core net sends.

The transport network layer of step 208:RNC receives the UMTS downlink signaling of UMTS wireless network layer transmission, and sends to dual-mode base station by Iub+ interface;

Wherein, the transport network layer of RNC sends to Dual base stations base station by Iub interface by UMTS downlink signaling;

Correspondingly, dual-mode base station receives UMTS downlink signaling from the Iub interface of RNC, and the UMTS downlink signaling of reception is transmitted to UMTS user.

The LTE wireless network layer of step 209:RNC receives by IuPS+ interface the LTE downlink signaling that LTE core net sends, and the LTE downlink signaling of reception is transferred to transport network layer;

Wherein, the LTE wireless network layer of RNC receives by S1 interface the LTE downlink signaling that LTE core net sends.

The transport network layer of step 210:RNC receives the LTE downlink signaling of LTE wireless network layer transmission, and sends to dual-mode base station by Iub+ interface.

Wherein, the transport network layer of RNC sends to Dual base stations base station by X2/S1 interface by LTE downlink signaling;

Correspondingly, dual-mode base station receives LTE downlink signaling from the X2/S1 interface of RNC, and the LTE downlink signaling of reception is transmitted to LTE user.

Further, the transport network layer of RNC receives uplink user data by Iub+ interface, and the source IP address carrying according to uplink user data, the uplink user data receiving is judged, UMTS uplink user data if, transport network layer sends to UMTS core net by IuPS+ interface, LTE uplink user data if, and transport network layer sends to LTE core net by IuPS+ interface.

Wherein, if uplink user data is carried the source IP address of UMTS, judging uplink user data is UMTS uplink user data; If the source IP address that uplink user data is carried is the IP address in LTE subnet, judging uplink user data is LTE uplink user data, if the source IP address that uplink user data is carried is the IP address in UMTS subnet, judging uplink user data is UMTS uplink user data.

Wherein, referring to Fig. 6, the user plane of transport network layer receives by Iub+ interface the uplink user data that dual-mode base station sends, and then the uplink user data receiving is successively resolved, and parses the source IP address that uplink user data is carried.

Wherein, UMTS user can also send UMTS uplink user data and send it to RNC to dual-mode base station and dual-mode base station; Or LTE user can also send LTE uplink user data and send it to RNC to dual-mode base station and dual-mode base station.

Further, the transport network layer of RNC receives by IuPS+ interface the UMTS down user data that UMTS core net sends, and sends to dual-mode base station by Iub+; Transport network layer receives by IuPS+ interface the LTE down user data that LTE core net sends, and sends to dual-mode base station by Iub+ interface.

Wherein, RNC sends UMTS down user data by Iub interface, sends LTE down user data by X2/S1 interface.

Correspondingly, dual-mode base station receives UMTS down user data and is transmitted to UMTS user from the Iub interface of RNC, receives LTE down user data and is transmitted to LTE user from the X2/S1 interface of RNC.

Further, the transport network layer of RNC receives uplink soft switching data by Iub+ interface, and by Iur+ interface, uplink soft switching data is sent to other RNC.

Wherein, uplink soft switching data comprise UMTS uplink soft switching data and/or LTE uplink soft switching data.UMTS uplink soft switching data are sent to dual-mode base station by UMTS user, and dual-mode base station is transmitted to RNC again; Or LTE uplink soft switching data are sent to dual-mode base station by LTE user, dual-mode base station is transmitted to RNC again.

Wherein, the protocol stack diagram in RNC as shown in Figure 6, RNC receives up signaling or the uplink user data that dual-mode base station sends, and after the up signaling to reception or uplink user data are successively resolved, then sends to UMTS core net or LTE core net; RNC receives downlink signaling or the down user data of UMTS core net or the transmission of LTE core net, the downlink signaling or the down user data that receive is successively resolved, then send to dual-mode base station.

Wherein, in transport network layer, there is eNBAP(enhanced NodeB Application Part; strengthen base station application part) module, eNBAP module is received the up signaling of dual-mode base station transmission and is sent downlink signaling to dual-mode base station by Iub+ interface.

The process that RNC successively resolves up signaling is: dual-mode base station->Iub+ interface->eNBAP->SCTP-> IP->Data Link Layer->PHY Layer->PHY Layer->Data Link Layer->IP->SCTP-GreatT.GreaT .GTIuPS+ interface->UMTS/LTE core net.

The process that RNC successively resolves downlink signaling is: UMTS/LTE core net->IuPS+ interface->SCTP->IP->Dat a Link Layer->PHY Layer->PHY Layer->Data Link Layer IP->SCTP->eNBAP-GreatT.GreaT .GTIub+ interface-> dual-mode base station.

The process that RNC successively resolves uplink user data is: dual-mode base station->Iub+ interface->UDP->IP->Data Link Layer->PHY Layer->PHY Layer->Data Link Layer->IP->UDP-GreatT.GreaT. GTIuPS+ interface->UMTS/LTE core net.

The process that RNC successively resolves down user data is: UMTS/LTE core net->IuPS+ interface->UDP->IP->Data Link Layer->PHY Layer->PHY Layer->Data Link Layer->IP->UDP-GreatT.GreaT. GTIub+ interface-> dual-mode base station.

Wherein, in the present embodiment, dual-mode base station and RNC need to transmit data by frequency spectrum, and frequency spectrum is divided into UMTS frequency spectrum and LTE frequency spectrum two classes in advance, thus on dual-mode base station configured in advance UMTS frequency spectrum and LTE frequency spectrum.Dual-mode base station sends to RNC by UMTS frequency spectrum by up UMTS signaling, UMTS uplink user data and UMTS uplink soft switching data, and receives by UMTS frequency spectrum the descending soft handover data of UMTS downlink signaling, UMTS down user data and UMTS that RNC sends; Or; dual-mode base station sends to RNC by LTE frequency spectrum by up LTE signaling, LTE uplink user data and LTE uplink soft switching data, and receives by LTE frequency spectrum the descending soft handover data of LTE downlink signaling, LTE down user data and LTE that RNC sends.

Wherein, in communication process, often occur that the load on UMTS frequency spectrum is less compared with load large and on LTE frequency spectrum, or the load on LTE frequency spectrum is compared with the less situation of load large and on UMTS frequency spectrum, now, RNC can dynamically distribute UMTS frequency spectrum and LTE frequency spectrum, referring to Fig. 8, the process of dynamic assignment, specifically comprises the step of following 301-304:

301: dual-mode base station periodically, to measuring from each frequency spectrum with it, obtains the frequency spectrum congestion information of each frequency spectrum, by the ID(Identify of each frequency spectrum, mark) and frequency spectrum congestion information send to RNC;

Wherein, dual-mode base station is to measuring from each UMTS frequency spectrum and each LTE frequency spectrum with it.In addition; frequency spectrum congestion information at least comprises communication standard under frequency spectrum congestion condition, frequency spectrum and the bandwidth of frequency spectrum; in the present embodiment; communication standard describes as example to comprise UMTS and LTE; accordingly, dual-mode base station is the dual-mode base station of supporting UMTS and LTE, certainly; also can be the dual-mode base station of supporting UMTS and LTE, the embodiment of the present invention be mainly described as an example of dual-mode base station example.

Step 302:RNC receives ID and the frequency spectrum congestion information of each frequency spectrum of dual-mode base station transmission, and according to the ID of each frequency spectrum and frequency spectrum congestion information, distributes UMTS frequency spectrum and LTE frequency spectrum;

Particularly, RNC receives ID and the frequency spectrum congestion information of each frequency spectrum of dual-mode base station transmission, there is not the number of congested UMTS frequency spectrum and the number of congested LTE frequency spectrum do not occur in statistics, be greater than if there is not the number of congested UMTS frequency spectrum the number that congested LTE frequency spectrum does not occur, the UMTS frequency spectrum of selecting occupied bandwidth minimum, is adjusted into LTE frequency spectrum by the frequency spectrum of selection; Be less than if there is not the number of congested UMTS frequency spectrum the number that congested LTE frequency spectrum does not occur, select the LTE frequency spectrum of occupied bandwidth minimum, the frequency spectrum of selection is adjusted into UMTS frequency spectrum.

The ID of each UMTS frequency spectrum and the ID of each LTE frequency spectrum after distributing are sent to dual-mode base station by step 303:RNC.

Step 304: dual-mode base station receives the ID of each UMTS frequency spectrum and the ID of each LTE frequency spectrum, and the ID of the ID of each UMTS frequency spectrum of having stored and each LTE frequency spectrum is updated to respectively to the ID of each UMTS frequency spectrum and the ID of each LTE frequency spectrum of reception.

Wherein, CoRRM(Cooperation RRM(Radio Resource Management in RNC, RRM), cooperation RRM) module can dynamically distribute UMTS frequency spectrum and LTE frequency spectrum, and above-mentioned steps 301-304 can be carried out by CoRRM.

Wherein, in the present embodiment, UMTS frequency spectrum and LTE frequency spectrum are carried out to dynamic distribution and adjustment, can improve spectrum utilization efficiency.

Optionally, if the dual-mode base station in wireless access network may break down in the process of work or this dual-mode base station exits wireless access network, now this dual-mode base station Shang community all will be deleted from wireless access network, and dual-mode base station is in the time breaking down or exit wireless access network, send network parameter change report to RNC, this network parameter change report comprises pilot tone coverage and the change type of this dual-mode base station Shang Ge community, and change type is for deleting community;

If dual-mode base station is deleted oneself, break down in community or oneself community with it with it, this dual-mode base station sends network parameter change report to RNC, this network parameter change report comprises the community of deletion or pilot tone coverage and the change type of the community of breaking down, and change type is for deleting community;

If dual-mode base station is increasing community from it, this dual-mode base station sends network parameter change report to RNC, and network parameter change report comprises pilot tone coverage and the change type of the community of increase, and change type is for increasing community;

If when certain the new dual-mode base station in wireless access network starts, the all communities on this dual-mode base station all start and add wireless access network, now this dual-mode base station is in the time starting, send network parameter change report to RNC, this network parameter conversion report comprises pilot tone coverage and the change type of this dual-mode base station Shang Ge community, and change type is for increasing community;

Then RNC receives the network parameter change report that dual-mode base station sends, and the pilot tone coverage of the corresponding community on the adjacent dual-mode base station of this dual-mode base station is adjusted.

Referring to Fig. 9, in the time that dual-mode base station sends network parameter change report to RNC, the process that RNC adjusts the pilot tone coverage of the corresponding community on the adjacent dual-mode base station of this dual-mode base station is divided into the step of following 401-405, comprising:

Step 401: dual-mode base station sends network parameter change report, and this network parameter change report comprises pilot tone coverage and the change type of community, and change type is for increasing community or deleting community;

Step 402:RNC receives network parameter change report, obtains the adjacent dual-mode base station of this dual-mode base station, and obtains the pilot tone coverage of the neighbor cell of this adjacent dual-mode base station Shang Gai community;

Wherein, for any dual-mode base station and this dual-mode base station Shang community, obtain in advance the adjacent dual-mode base station of this dual-mode base station and the neighbor cell in adjacent dual-mode base station Shang Gai community, then the corresponding relation between the ID of the ID of this dual-mode base station, this community, the ID of adjacent dual-mode base station obtaining and the ID of neighbor cell is stored in to NMS(Network Management System, network management system) in; In addition, also, in advance by the ID of dual-mode base station, the corresponding relation between ID and the pilot tone coverage three of this dual-mode base station Shang community is stored in NMS.Be understandable that, above-mentioned corresponding relation can be the corresponding relation of the various combinations of above-mentioned several information, such as corresponding relation between any two, and common corresponding relation between three, or the corresponding relation of full detail entirety.

Correspondingly; RNC is according to the ID of this dual-mode base station IDHe Gai community; from NMS, obtain the ID of adjacent dual-mode base station of this dual-mode base station and the ID of the neighbor cell of adjacent dual-mode base station Shang Gai community; according to the ID of the ID of neighbor cell and adjacent dual-mode base station, from NMS, obtain the pilot tone coverage of neighbor cell again.

Step 403:RNC, according to the pilot tone coverage of the neighbor cell of the pilot tone coverage of this community and change type and this community, obtains pilot power and the angle of declination of the neighbor cell of this community;

Particularly, RNC is according to the pilot tone coverage of the neighbor cell of the pilot tone coverage of network parameter change report Zhong Gai community and change type and this community, adjust the pilot tone coverage of the neighbor cell of this community, determine pilot power and the angle of declination of the neighbor cell of this community according to the pilot tone coverage after adjusting.

For example, if the change type of network parameter change report Zhong Gai community is deletion community, RNC adjusts the pilot tone coverage of the neighbor cell of this community, and the pilot tone coverage of the neighbor cell of Shi Gai community can comprise the pilot tone coverage of this community.

Step 404:RNC sends the adjacent dual-mode base station of base station configuration parameter to correspondence, and this base station configuration parameter carries pilot power and the angle of declination of the neighbor cell of this community;

Step 405: this adjacent dual-mode base station receives base station configuration parameter, according to the pilot power in the configuration parameter of base station and angle of declination, adjusts certainly the pilot tone coverage of the neighbor cell of Gai community with it.

Wherein, the CoRRM module in RNC or eNBAP module can be adjusted the pilot tone coverage of community, and above-mentioned steps 401-405 can be carried out by CoRRM module or eNBAP module.

Further, RNC can configure the pilot tone coverage of the each dual-mode base station Shang Ge community in wireless access network, and referring to Figure 10, detailed process is divided into following step 501-504:

Step 501:RNC obtains the pilot tone coverage of the dual-mode base station Shang community in wireless access network from NMS;

Wherein, can in NMS, configure in advance the pilot tone coverage of the each dual-mode base station Shang Ge community in wireless access network.

Step 502:RNC, according to obtaining the pilot tone coverage of Gai community, obtains pilot power and the angle of declination of this community;

Step 503:RNC sends base station configuration parameter and carries pilot power and the angle of declination of this community to this dual-mode base station and this base station configuration parameter;

Step 504: dual-mode base station receives base station configuration parameter, adjusts the pilot tone coverage of this community according to the pilot power of configuration parameter Zhong Gai community, base station and angle of declination.

Wherein, the pilot tone coverage that the CoRRM module in RNC can allocating cell, above-mentioned steps 501-504 can be carried out by CoRRM module.

In embodiments of the present invention, RNC receives up signaling, and the source IP address carrying according to up signaling judges up signaling, and the up signaling of UMTS, sends to UMTS core net if; The up signaling of LTE, sends to LTE core net if, receives the UMTS downlink signaling of UMTS core net transmission and is transmitted to dual-mode base station, and/or receive the LTE downlink signaling of LTE core net transmission and be transmitted to dual-mode base station.So realize and in UMTS/LTE wireless access network, realized UMTS communication simultaneously and communicate by letter with LTE, can be simultaneously for UMTS user and LTE user serve.

Embodiment 3

As shown in figure 11, the embodiment of the present invention provides a kind of wireless network control apparatus, comprising:

Judge module 601, the up signaling sending for receive Multi-Mode Base Station by transport network layer, and this up signaling is judged;

The first sending module 602, if the result judging for judge module 601 is that this up signaling is the up signaling of the first standard, be transferred to the wireless network layer of the first standard by transport network layer, by the wireless network layer of the first standard, the up signaling of this first standard sent to the core net of the first standard;

The second sending module 603, if the result judging for judge module 601 is that this up signaling is the up signaling of the second standard, be transferred to the wireless network layer of the second standard by transport network layer, by the wireless network layer of the second standard, the up signaling of this second standard sent to the second standard core net;

Wherein, the first standard is UMTS, W-CDMA or TD-CDMA, and the second standard is LTE.

Wherein, judge module 601 specifically comprises:

Resolution unit, for receiving the up signaling of Multi-Mode Base Station transmission and parsing the source IP address that this up signaling is carried by transport network layer;

Judging unit, for this up signaling being judged according to this source IP address, if this source IP address is the IP address in the subnet of the first standard, judge the up signaling that this up signaling is the first standard, if this source IP address is the IP address in the subnet of the second standard, judge the up signaling that this up signaling is the second standard.

Wherein, be LTE if the first standard is UMTS and the second standard, up signaling comprises the up signaling of UMTS and/or the up signaling of LTE.

Correspondingly, judge module 601 can receive by transport network layer the up signaling that Multi-Mode Base Station sends from Iub+ interface; The first sending module 602 can send the up signaling of UMTS to UMTS core net from IuPS+ interface, and the second sending module 603 can send the up signaling of LTE to LTE core net from IuPS+ interface.

The process of wherein, the up signaling receiving successively being resolved can be: Multi-Mode Base Station->Iub+ interface->eNBAP->SCTP-> IP->Data Link Layer->PHY Layer->PHY Layer->Data Link Layer->IP->SCTP-GreatT.GreaT .GTIuPS+ interface->UMTS/LTE core net.

Further, this wireless network control apparatus also comprises:

The first downlink signaling processing module, be used for receiving by the wireless network layer of the first standard the downlink signaling of the first standard of the core net transmission of the first standard, and the downlink signaling of the first standard is transferred to transport network layer, by transport network layer, the downlink signaling of described the first standard is sent to Multi-Mode Base Station;

The second downlink signaling processing module; be used for receiving by the wireless network layer of the second standard the downlink signaling of the second standard of the core net transmission of the second standard; and the downlink signaling of the second standard is transferred to transport network layer, by transport network layer, the downlink signaling of the second standard is sent to Multi-Mode Base Station.

Wherein, be LTE if the first standard is UMTS and the second standard, downlink signaling comprise UMTS downlink signaling and/LTE downlink signaling.

Correspondingly, the first downlink signaling processing module can receive UMTS downlink signaling from IuPS+ interface, and sends UMTS downlink signaling to Multi-Mode Base Station from Iub+ interface; The second downlink signaling processing module can receive LTE downlink signaling from IuPS+ interface, and sends LTE downlink signaling to Multi-Mode Base Station from Iub+ interface.

The process of wherein, the up signaling receiving successively being resolved can be: UMTS/LTE core net->IuPS+ interface->SCTP->IP->Dat a Link Layer->PHY Layer->PHY Layer->Data Link Layer IP->SCTP->eNBAP-GreatT.GreaT .GTIub+ interface-> Multi-Mode Base Station.

Further, this wireless network control apparatus also comprises:

Uplink user data processing module, for receiving uplink user data by transport network layer, uplink user data is judged, the uplink user data of the first standard if, by the first standard uplink user data send to the core net of the first standard; The uplink user data of the second standard if, sends to the uplink user data of the second standard the core net of the second standard;

Down user data processing module; for receiving the down user data of the first standard that the core net of the first standard sends by transport network layer and being transmitted to Multi-Mode Base Station, the down user data that receives the second standard that the core net of the second standard sends is also transmitted to Multi-Mode Base Station.

Wherein, be LTE if the first standard is UMTS and the second standard, uplink user data comprises UMTS uplink user data and/or LTE uplink user data, down user data comprises UMTS down user data and/or LTE down user data.

Correspondingly, uplink user data processing module can receive UMTS uplink user data from Iub+ interface, and sends UMTS uplink user data from IuPS+ interface; Down user data processing module can receive LTE downlink signaling from IuPS+ interface, and sends LTE downlink signaling from Iub+ interface.

The process of wherein, uplink user data successively being resolved can be: Multi-Mode Base Station->Iub+ interface->UDP->IP->Data Link Layer->PHY Layer->PHY Layer->Data Link Layer->IP->UDP-GreatT.GreaT. GTIuPS+ interface->UMTS/LTE core net.

The process of wherein, down user data successively being resolved can be: UMTS/LTE core net->IuPS+ interface->UDP->IP->Data Link Layer->PHY Layer->PHY Layer->Data Link Layer->IP->UDP-GreatT.GreaT. GTIub+ interface-> Multi-Mode Base Station.

Further, this wireless network control apparatus also comprises:

Spectrum allocation may module; the frequency spectrum mark and the frequency spectrum congestion information that send for receiving Multi-Mode Base Station; and according to frequency spectrum mark and frequency spectrum congestion information; dynamically adjust the frequency spectrum of distributing to the first standard and the frequency spectrum of distributing to the second standard; the frequency spectrum mark of the first standard after adjusting and the frequency spectrum of the second standard mark are sent to communication standard that Multi-Mode Base Station, frequency spectrum congestion information comprise that congestion condition, the frequency spectrum of frequency spectrum is affiliated and the bandwidth of frequency spectrum.

Wherein, spectrum allocation may module specifically comprises:

Receiving element, mark and the congestion information of each frequency spectrum sending for receiving Multi-Mode Base Station;

Statistic unit, for adding up the number of the frequency spectrum that the first congested standard does not occur and the number of the frequency spectrum of the second congested standard not occurring;

The first allocation units, if be greater than the number of the frequency spectrum that the second congested standard does not occur for there is not the number of frequency spectrum of the first congested standard, select the frequency spectrum of the first standard of occupied bandwidth minimum, the frequency spectrum of selection are adjusted into the frequency spectrum of the second standard;

The second allocation units, if be less than the number of the frequency spectrum that the second congested standard does not occur for there is not the number of frequency spectrum of the first congested standard, select the frequency spectrum of the second standard of occupied bandwidth minimum, the frequency spectrum of selection are adjusted into the frequency spectrum of the first standard;

Transmitting element, for sending to Multi-Mode Base Station by the mark of the frequency spectrum of the mark of the frequency spectrum of the first standard and the second standard.

Further, this wireless network control apparatus also comprises:

The first receiver module, the network parameter change report sending for receiving Multi-Mode Base Station, this network parameter change report carries pilot tone coverage and the change type of community, and types of variables is for increasing community or deleting community;

The first acquisition module, for obtaining the pilot tone coverage of neighbor cell of adjacent Multi-Mode Base Station Shang Gai community of this Multi-Mode Base Station;

The second acquisition module, for according to the pilot tone coverage of this community and types of variables and the pilot tone coverage obtained, obtains pilot power and the angle of declination of the neighbor cell of this community;

The 3rd sending module, for sending base station configuration parameter to adjacent Multi-Mode Base Station, base station configuration parameter carries pilot power and the angle of declination of the neighbor cell of community.

Wherein, the second acquisition module is according to the pilot tone coverage of the neighbor cell of the pilot tone coverage of network parameter change report Zhong Gai community and change type and this community, adjust the pilot tone coverage of the neighbor cell of this community, determine pilot power and the angle of declination of the neighbor cell of this community according to the pilot tone coverage after adjusting.

For example, if the change type of network parameter change report Zhong Gai community is deletion community, RNC adjusts the pilot tone coverage of the neighbor cell of this community, and the pilot tone coverage of the neighbor cell of Shi Gai community can comprise the pilot tone coverage of this community.

Further, this wireless network control apparatus also comprises:

The 3rd acquisition module, for obtaining the pilot tone coverage of community of Multi-Mode Base Station of wireless access network;

The 4th acquisition module, for obtaining pilot power and the angle of declination of this community according to the pilot tone coverage of this community;

The second sending module, for sending base station configuration parameter to this Multi-Mode Base Station, base station configuration parameter carries the correspondence of pilot power and the angle of declination of this community.

In embodiments of the present invention, wireless network control apparatus receives up signaling, and the source IP address carrying according to up signaling judges up signaling, and the up signaling of the first standard if sends to the core net of the first standard; The up signaling of the second standard if; send to the core net of the second standard; receive the first standard core net send the first standard downlink signaling and be transmitted to Multi-Mode Base Station, and/or receive the second standard core net send the second standard downlink signaling and be transmitted to Multi-Mode Base Station.So realized in the first standard/the second standard wireless access network and realized the communication of the first standard and communicating by letter of the second standard simultaneously, can be that the user of the first standard and the user of the second standard serve simultaneously.

Embodiment 4

As shown in figure 12, the embodiment of the present invention provides a kind of multi-modulation scheme way integrated communication system, comprising:

Wireless network control apparatus 701 described in embodiment 3, and the Multi-Mode Base Station 702 communicating with wireless network control apparatus 701.

In embodiments of the present invention, wireless network control apparatus receives Multi-Mode Base Station and sends up signaling, and the source IP address carrying according to up signaling judges up signaling, and the up signaling of the first standard if sends to the core net of the first standard; The up signaling of the second standard if; send to the core net of the second standard; receive the first standard core net send the first standard downlink signaling and be transmitted to Multi-Mode Base Station, and/or receive the second standard core net send the second standard downlink signaling and be transmitted to Multi-Mode Base Station.So realized in the first standard/the second standard wireless access network and realized the communication of the first standard and communicating by letter of the second standard simultaneously, can be that the user of the first standard and the user of the second standard serve simultaneously.

The content of above embodiment of the method and equipment/system embodiment, reference each other and quoting.

All or part of content in the technical scheme that above embodiment provides can realize by software programming, and its software program is stored in the storage medium can read, storage medium for example: hard disk, CD or floppy disk in computer.

The foregoing is only preferred embodiment of the present invention, in order to limit the present invention, within the spirit and principles in the present invention not all, any amendment of doing, be equal to replacement, improvement etc., within all should being included in protection scope of the present invention.

Claims (15)

1. a method for multi-modulation scheme joint communication, is characterized in that, described method comprises:

The transport network layer of wireless network control apparatus receives the up signaling that Multi-Mode Base Station sends, and described up signaling is judged;

If described up signaling is the up signaling of the first standard, described transport network layer is transferred to the wireless network layer of the first standard of described wireless network control apparatus, and the wireless network layer of described the first standard sends to the up signaling of described the first standard the core net of described the first standard;

If described up signaling is the up signaling of the second standard, described transport network layer is transferred to the wireless network layer of the second standard of described wireless network control apparatus, and the wireless network layer of described the second standard sends to the up signaling of described the second standard the core net of described the second standard;

Described the first standard is universal mobile telecommunications system UMTS, Wideband Code Division Multiple Access (WCDMA) W-CDMA or time division CDMA TD-CDMA, and described the second standard is Long Term Evolution LTE;

Wherein, described method also comprises:

Described wireless network control apparatus receives frequency spectrum mark and the frequency spectrum congestion information that described Multi-Mode Base Station sends, and according to described frequency spectrum mark and frequency spectrum congestion information, dynamically adjust the frequency spectrum of distributing to the first standard and the frequency spectrum of distributing to the second standard, wherein, described frequency spectrum congestion information comprises communication standard under the congestion condition, frequency spectrum of frequency spectrum and the bandwidth of frequency spectrum;

The frequency spectrum mark of the frequency spectrum mark of the first standard after adjusting and the second standard is sent to described Multi-Mode Base Station by described wireless network control apparatus.

2. the method for claim 1, is characterized in that, the transport network layer of described wireless network control apparatus receives the up signaling that Multi-Mode Base Station sends, and described up signaling is judged, specifically comprises:

The transport network layer of described wireless network control apparatus receives the up signaling of Multi-Mode Base Station transmission and parses the source internet protocol IP address that described up signaling is carried;

According to described source IP address, described up signaling is judged, if described source IP address is the IP address in the subnet of the first standard, judge the up signaling that described up signaling is the first standard, if described source IP address is the IP address in the subnet of the second standard, judge the up signaling that described up signaling is the second standard.

3. method as claimed in claim 2, is characterized in that, described method also comprises:

The wireless network layer of described the first standard receives the downlink signaling of the first standard of the core net transmission of described the first standard, and the downlink signaling of described the first standard is transferred to described transport network layer, the downlink signaling of described the first standard is sent to Multi-Mode Base Station by described transport network layer;

The wireless network layer of described the second standard receives the downlink signaling of the second standard of the core net transmission of described the second standard; and the downlink signaling of described the second standard is transferred to described transport network layer, the downlink signaling of described the second standard is sent to described Multi-Mode Base Station by described transport network layer.

4. the method for claim 1, is characterized in that, described method also comprises:

Described transport network layer receives the uplink user data that described Multi-Mode Base Station sends, described uplink user data is judged, described uplink user data is the uplink user data of the first standard if, the uplink user data of described the first standard is sent to the core net of described the first standard; If described uplink user data is the uplink user data of the second standard, the uplink user data of described the second standard is sent to the core net of described the second standard;

Described transport network layer receive described the first standard core net send the first standard down user data and be transmitted to described Multi-Mode Base Station;

Described transport network layer receive described the second standard core net send the second standard down user data and be transmitted to described Multi-Mode Base Station.

5. the method for claim 1, is characterized in that, described according to described frequency spectrum mark and frequency spectrum congestion information, dynamically adjusts the frequency spectrum of distributing to the first standard and the frequency spectrum of distributing to the second standard, specifically comprises:

Statistics do not occur the first congested standard frequency spectrum number and there is not the number of the frequency spectrum of the second congested standard;

If the number that the frequency spectrum of the first congested standard does not occur described is greater than the number of the frequency spectrum that the second congested standard does not occur, and selects the frequency spectrum of the first standard of occupied bandwidth minimum, the frequency spectrum of described selection is adjusted into the frequency spectrum of the second standard;

If the number that the frequency spectrum of the first congested standard does not occur described is less than the number of the frequency spectrum that the second congested standard does not occur, and selects the frequency spectrum of the second standard of occupied bandwidth minimum, the frequency spectrum of described selection is adjusted into the frequency spectrum of the first standard.

6. the method as described in claim 1 to 5 any one claim, is characterized in that, described method also comprises:

Described wireless network control apparatus receives the network parameter change report that described Multi-Mode Base Station sends, and described network parameter change report comprises pilot tone coverage and the change type of community, and the change type of described community comprises to be increased community or delete community;

Described wireless network control apparatus obtains the pilot tone coverage of the neighbor cell of the described community on the adjacent Multi-Mode Base Station of described Multi-Mode Base Station;

Described wireless network control apparatus according to the pilot tone coverage of described community and types of variables and described in the pilot tone coverage obtained, obtain pilot power and the angle of declination of described neighbor cell;

Described wireless network control apparatus sends base station configuration parameter to described adjacent Multi-Mode Base Station, and described base station configuration parameter comprises pilot power and the angle of declination of described neighbor cell.

7. the method as described in claim 1 to 5 any one claim, is characterized in that, described method also comprises:

Described wireless network control apparatus obtains the pilot tone coverage of the Multi-Mode Base Station Shang community in wireless access network;

Described wireless network control apparatus obtains pilot power and the angle of declination of described community according to the pilot tone coverage of described community;

Described wireless network control apparatus sends base station configuration parameter to described Multi-Mode Base Station, and described base station configuration parameter carries pilot power and the angle of declination of described community.

8. a wireless network control apparatus, is characterized in that, described wireless network control apparatus comprises:

Judge module, the up signaling sending for receive Multi-Mode Base Station by transport network layer, and described up signaling is judged;

The first sending module, if the judged result for described judge module is that described up signaling is the up signaling of the first standard, be transferred to the wireless network layer of the first standard by described transport network layer, by the wireless network layer of described the first standard, the up signaling of described the first standard sent to the core net of the first standard;

The second sending module, if the judged result for described judge module is that described up signaling is the up signaling of the second standard, be transferred to the wireless network layer of the second standard by described transport network layer, by the wireless network layer of described the second standard, the up signaling of described the second standard sent to the core net of the second standard;

Described the first standard is universal mobile telecommunications system UMTS, Wideband Code Division Multiple Access (WCDMA) W-CDMA or time division CDMA TD-CDMA, and described the second standard is Long Term Evolution LTE;

Wherein, described wireless network control apparatus also comprises:

Spectrum allocation may module; the frequency spectrum mark and the frequency spectrum congestion information that send for receiving described Multi-Mode Base Station; and according to described frequency spectrum mark and frequency spectrum congestion information; dynamically adjust the frequency spectrum of distributing to the first standard and the frequency spectrum of distributing to the second standard; the frequency spectrum mark of the frequency spectrum mark of the first standard after adjusting and the second standard is sent to described Multi-Mode Base Station; wherein, described frequency spectrum congestion information comprises communication standard under the congestion condition, frequency spectrum of frequency spectrum and the bandwidth of frequency spectrum.

9. wireless network control apparatus as claimed in claim 8, is characterized in that, described judge module specifically comprises:

Resolution unit, for receiving the up signaling of Multi-Mode Base Station transmission and parsing the source internet protocol IP address that described up signaling is carried by described transport network layer;

Judging unit, for described up signaling being judged according to described source IP address, if described source IP address is the IP address in the subnet of the first standard, judge the up signaling that described up signaling is the first standard, if described source IP address is the IP address in the subnet of the second standard, judge the up signaling that described up signaling is the second standard.

10. wireless network control apparatus as claimed in claim 8, is characterized in that, described wireless network control apparatus also comprises:

The first downlink signaling processing module, be used for receiving by the wireless network layer of described the first standard the downlink signaling of the first standard of the core net transmission of the first standard, and the downlink signaling of described the first standard is transferred to described transport network layer, by described transport network layer, the downlink signaling of described the first standard is sent to Multi-Mode Base Station;

The second downlink signaling processing module; be used for receiving by the wireless network layer of described the second standard the downlink signaling of the second standard of the core net transmission of the second standard; and the downlink signaling of described the second standard is transferred to described transport network layer, by described transport network layer, the downlink signaling of described the second standard is sent to described Multi-Mode Base Station.

11. wireless network control apparatus as claimed in claim 8, is characterized in that, described wireless network control apparatus also comprises:

Uplink user data processing module, for receiving uplink user data by described transport network layer, described uplink user data is judged to the uplink user data of the first standard if sends to the uplink user data of described the first standard the core net of described the first standard; The uplink user data of the second standard if, sends to the uplink user data of described the second standard the core net of described the second standard;

Down user data processing module; for by described transport network layer receive described the first standard core net send the first standard down user data and be transmitted to described Multi-Mode Base Station, receive described the second standard core net send the second standard down user data and be transmitted to described Multi-Mode Base Station.

12. wireless network control apparatus as claimed in claim 8, is characterized in that, described spectrum allocation may module specifically comprises:

Receiving element, mark and the congestion information of each frequency spectrum sending for receiving Multi-Mode Base Station;

Statistic unit, for adding up the number of the frequency spectrum that the first congested standard does not occur and the number of the frequency spectrum of the second congested standard not occurring;

The first allocation units, if be greater than the number of the frequency spectrum that the second congested standard does not occur for the number of the described frequency spectrum that the first congested standard does not occur, select the frequency spectrum of the first standard of occupied bandwidth minimum, the frequency spectrum of described selection is adjusted into the frequency spectrum of the second standard;

The second allocation units, if be less than the number of the frequency spectrum that the second congested standard does not occur for the number of the described frequency spectrum that the first congested standard does not occur, select the frequency spectrum of the second standard of occupied bandwidth minimum, the frequency spectrum of described selection is adjusted into the frequency spectrum of the first standard;

Transmitting element, for sending to described Multi-Mode Base Station by the mark of the frequency spectrum of the mark of the frequency spectrum of described the first standard and the second standard.

13. wireless network control apparatus as claimed in claim 8, is characterized in that, described wireless network control apparatus also comprises:

The first receiver module, the network parameter change report sending for receiving Multi-Mode Base Station, described network parameter change report carries pilot tone coverage and the change type of community;

The first acquisition module, for obtaining the pilot tone coverage of neighbor cell of the described community on the adjacent Multi-Mode Base Station of described Multi-Mode Base Station;

The second acquisition module, for according to the pilot tone coverage of described community and change type and described in the pilot tone coverage obtained, obtain pilot power and the angle of declination of the neighbor cell of described community;

The 3rd sending module, for sending base station configuration parameter to described adjacent Multi-Mode Base Station, described base station configuration parameter carries pilot power and the angle of declination of the neighbor cell of described community.

14. wireless network control apparatus as claimed in claim 8, is characterized in that, described wireless network control apparatus also comprises:

The 3rd acquisition module, for obtaining the pilot tone coverage of Multi-Mode Base Station Shang community of wireless access network;

The 4th acquisition module, for obtaining pilot power and the angle of declination of described community according to the pilot tone coverage of described community;

The 4th sending module, for sending base station configuration parameter to described Multi-Mode Base Station, described base station configuration parameter carries pilot power and the angle of declination of described community.

15. 1 kinds of multi-modulation scheme way integrated communication systems, comprising:

Wireless network control apparatus as described in claim 8 to 14 any one, and the Multi-Mode Base Station communicating with described wireless network control apparatus.