CN102143498A - Method and system for multi-standard joint communication and wireless network control equipment - Google Patents
Method and system for multi-standard joint communication and wireless network control equipment Download PDFInfo
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- CN102143498A CN102143498A CN2011100309613A CN201110030961A CN102143498A CN 102143498 A CN102143498 A CN 102143498A CN 2011100309613 A CN2011100309613 A CN 2011100309613A CN 201110030961 A CN201110030961 A CN 201110030961A CN 102143498 A CN102143498 A CN 102143498A
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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
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
Areas such as present Europe have begun from the 3G communication network to step into gradually the 4G communication network, wherein, because operator has dropped into a huge sum of money in the 3G communication network, therefore need be to the 4G communication network from 3G communication network smooth evolution.
Wherein, the 3G communication network adopts UMTS (Universal Mobile Telecommunications System, universal mobile telecommunications system) standard, the 4G communication network adopts the LTE standard, the key point of 3G communication network evolution to the 4G communication network is: in the UMTS of 3G communication network wireless access network, realize LTE communication, wherein, the 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 mainly is made up of higher layer applications software, and transport network layer is mainly realized routing function; And the LTE of 4G communication network (Long Term Evolution, 3GPP Long Term Evolution) wireless access network only comprises eNB (enhanced NodeB, enhanced base station).
In order in the UMTS wireless access network, to realize LTE communication, the scheme that adopts is at present: in the UMTS wireless access network, the wireless network layer of RNC is moved down into NodeB, only keep transport network layer, make that so RNC is degenerated to router, and NodeB is evolved to eNB, makes the UMTS wireless access network be evolved to the LTE wireless access network, thereby realizes LTE communication.
In realizing process of the present invention, the inventor finds that there is following problem at least in prior art:
The RNC of UMTS wireless access network is deteriorated to router, and NodeB is evolved to eNB, makes the UMTS wireless access network can't carry out UMTS communication, yet also has a large amount of UMTS users, makes operator can't continue as UMTS user's service.
Summary of the invention
In order to make wireless access network realize that simultaneously UMTS communication communicates by letter with LTE, 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 first standard, then described transport network layer is transferred to the wireless network layer of first standard of described wireless network control apparatus with it, and the wireless network layer of described first standard sends to the up signaling of described first standard core net of first standard;
If described up signaling is the up signaling of second standard, then described transport network layer is transferred to the wireless network layer of second standard of described wireless network control apparatus with it, and the wireless network layer of described second standard sends to the up signaling of described second standard core net of second standard;
Described 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 second standard is Long Term Evolution LTE.
An alternative embodiment of the invention provides a kind of wireless network control apparatus, and described wireless network control apparatus comprises:
Judge module is used for receiving the up signaling that Multi-Mode Base Station sends by transport network layer, and described up signaling is judged;
First sending module, if being used for the result of described judge module judgement is that described up signaling is the up signaling of first standard, then it is transferred to the wireless network layer of first standard, the up signaling of described first standard is sent to the core net of first standard by the wireless network layer of described first standard by described transport network layer;
Second sending module, if being used for the result of described judge module judgement is that described up signaling is the up signaling of second standard, then it is transferred to the wireless network layer of second standard, the up signaling of described second standard is sent to the core net of second standard by the wireless network layer of described second standard by described transport network layer;
Described first standard is UMTS, W-CDMA or TD-CDMA, and described second standard is Long Term Evolution LTE.
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 that communicates with above-mentioned wireless network control apparatus.
In the technical scheme that the embodiment of the invention provides, the transport network layer of wireless network control apparatus receives up signaling and it is judged, if be the up signaling of first standard, then be transferred to the wireless network layer of first standard, send it to the core net of first standard again by the wireless network layer of first standard, if be the up signaling of second standard, then be transferred to the wireless network layer of second standard, send it to the core net of second standard again by the wireless network layer of second standard, so, making the communicating by letter of the communication that realizes first standard in same wireless access network simultaneously and second standard, can be that the user of first standard and the user of second standard serve simultaneously.
Description of drawings
Fig. 1 is the method flow diagram of a kind of multi-modulation scheme joint communication of providing of the embodiment of the invention 1;
Fig. 2 is a kind of UMTS/LTE wireless access network schematic diagram that the embodiment of the invention 2 provides;
Fig. 3 is a kind of RNC schematic diagram that the embodiment of the invention 2 provides;
Fig. 4 is a kind of method for communicating flow chart that the embodiment of the invention 2 provides;
Fig. 5 is a kind of Iub+ interface schematic diagram that the embodiment of the invention 2 provides;
Fig. 6 is the protocol stack schematic diagram of a kind of RNC of providing of the embodiment of the invention 2;
Fig. 7 is a kind of IuPS+ interface schematic diagram that the embodiment of the invention 2 provides;
Fig. 8 is a kind of dynamic assignment frequency spectrum flow chart that the embodiment of the invention 2 provides;
Fig. 9 is a kind of pilot tone coverage flow chart of adjusting the sub-district that the embodiment of the 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 invention 2;
Figure 11 is a kind of wireless network control apparatus schematic diagram that the embodiment of the 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 invention 4.
Embodiment
For making the purpose, technical solutions and advantages of the present invention clearer, embodiment of the present invention is described further in detail below in conjunction with accompanying drawing.
Embodiment 1
As shown in Figure 1, the embodiment of the 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 that receives is the up signaling of first standard, if, execution in step 103, if not, then the up signaling of Jie Shouing is the up signaling of second standard, and execution in step 105;
Step 103: transport network layer is transferred to the up signaling of first standard wireless network layer of first standard of wireless network control apparatus;
Step 104: the wireless network layer of first standard sends to the up signaling of first standard core net of first standard;
Step 105: transport network layer is transferred to the up signaling of second standard wireless network layer of second standard of wireless network control apparatus;
Step 106: the wireless network layer of second standard sends to the up signaling of second standard core net of second standard.
Wherein, first standard can be UMTS, W-CDMA or TD-CDMA, and 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, if be the up signaling of first standard, then send it to the core net of first standard, if be the up signaling of second standard, then send it to the core net of second standard, so, making and realize first standard and the second standard joint communication simultaneously in same wireless access network, can be that the user of first standard and the user of second standard serve simultaneously.
Embodiment 2
The embodiment of the invention provides a kind of method of multi-modulation scheme joint communication.Wherein, present embodiment is that UMTS, second standard are that LTE and wireless network control apparatus are that RNC is that example describes with first standard, and is corresponding, and among this embodiment, Multi-Mode Base Station is that example describes with the dual-mode base station of supporting UMTS and LTE.
Present embodiment is used UMTS/LTE wireless access network as shown in Figure 2, the UMTS/LTE wireless access network is made up of RNC and dual-mode base station, and the RNC shown in Fig. 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 the UMTS core net by the IuPS+ interface, and the LTE wireless network layer is connected with the LTE core net by the IuPS+ interface, and transport network layer is connected with dual-mode base station by the Iub+ interface.Referring to Fig. 4, this method comprises:
The transport network layer of step 201:RNC receives the up signaling that dual-mode base station sends by the Iub+ interface;
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, the Iub+ interface comprises Iub interface and X2/S1 interface, and Iub interface is used to receive the up signaling of UMTS or sends the UMTS downlink signaling, and the X2/S1 interface is used to receive the up signaling of LTE or sends the LTE downlink signaling.
Particularly, the transport network layer of RNC receives the up signaling of UMTS of dual-mode base station transmission and/or receives the up signaling of LTE that dual-mode base station sends by the X2/S1 interface by Iub interface.
Wherein, UMTS user sends to dual-mode base station with the up signaling of UMTS, and dual-mode base station is transmitted to RNC again; LTE user sends to dual-mode base station with the up signaling of LTE, and dual-mode base station is transmitted to RNC again.
Wherein, up signaling is carried source IP (Internet Protocol, IP) address, and the source IP address that the up signaling of UMTS is carried is the source IP address in the UMTS subnet, and the source IP address that carries of the up signaling of LTE is the source IP address in the LTE subnet.
The transport network layer of step 202:RNC judges that to the up signaling that receives if be the up signaling of UMTS, then execution in step 203 according to the source IP address in the up signaling that receives; If be the up signaling of LTE, then execution in step 205;
Particularly, the transport network layer of RNC parses the source IP address that carries from the up signaling that receives, according to the source IP address of resolving, the up signaling that receives is judged, if the source IP address that the up signaling that receives is carried is the source IP address in the UMTS subnet, the up signaling of then judging reception is the up signaling of UMTS, if the source IP address that the up signaling that receives is carried is the source IP address in the LTE subnet, the up signaling of then judging reception is the up signaling of LTE.
Wherein, protocol stack diagram as shown in Figure 6, the transport network layer of RNC, UMTS wireless network layer and LTE wireless network layer all comprise control plane and user plane, and control plane can be handled signaling, and user plane can be handled user data.
Correspondingly, the control plane of transport network layer receives the up signaling that dual-mode base station sends by the Iub+ interface, then the up signaling that receives is successively resolved, and parses the source IP address that up signaling is carried.
The transport network layer of step 203:RNC is transferred to the UMTS wireless network layer with the up signaling of UMTS that receives;
The UMTS wireless network layer of step 204:RNC receives the up signaling of UMTS, and by the IuPS+ interface the up signaling of UMTS that receives is sent to the UMTS core net.
Wherein, as shown in Figure 7, the IuPS+ interface comprises IuPS interface and S1 interface, and the UMTS wireless network layer of RNC is connected with the UMTS core net by the IuPS interface, and the LTE wireless network layer of RNC is connected with the LTE core net by the S1 interface.
Correspondingly, the UMTS wireless network layer of RNC sends to the UMTS core net by the IuPS interface with the up signaling of UMTS that receives.
Optionally, can also continue execution in step 207 and 208 after executing this step, and/or continue execution in step 209 and 210.
The transport network layer of step 205:RNC is transferred to the LTE wireless network layer with the up signaling of LTE that receives;
The LTE wireless network layer of step 206:RNC receives the up signaling of LTE, and by the IuPS+ interface the up signaling of LTE that receives is sent to the LTE core net.
Wherein, the LTE wireless network layer of RNC sends to the LTE core net by the S1 interface with the up signaling of LTE that receives.
Optionally, can also continue execution in step 207 and 208 after executing this step, and/or continue execution in step 209 and 210.
The UMTS wireless network layer of step 207:RNC receives the UMTS downlink signaling that the UMTS core net sends by the IuPS+ interface, and the UMTS downlink signaling that receives is transferred to transport network layer;
Wherein, the UMTS wireless network layer of RNC receives the UMTS downlink signaling that the UMTS core net sends by the IuPS interface.
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 the Iub+ interface;
Wherein, the transport network layer of RNC sends to base station, double-basis station by Iub interface with the UMTS downlink signaling;
Correspondingly, dual-mode base station receives the UMTS downlink signaling from the Iub interface of RNC, and the UMTS downlink signaling that receives is transmitted to UMTS user.
The LTE wireless network layer of step 209:RNC receives the LTE downlink signaling that the LTE core net sends by the IuPS+ interface, and the LTE downlink signaling that receives is transferred to transport network layer;
Wherein, the LTE wireless network layer of RNC receives the LTE downlink signaling that the LTE core net sends by the S1 interface.
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 the Iub+ interface.
Wherein, the transport network layer of RNC sends to base station, double-basis station by the X2/S1 interface with the LTE downlink signaling;
Correspondingly, dual-mode base station receives the LTE downlink signaling from the X2/S1 interface of RNC, and the LTE downlink signaling that receives is transmitted to LTE user.
Further, the transport network layer of RNC receives uplink user data by the Iub+ interface, and the source IP address that carries according to uplink user data, the uplink user data that receives is judged, if be the UMTS uplink user data, then transport network layer sends to the UMTS core net by the IuPS+ interface, if be the LTE uplink user data, then transport network layer sends to the LTE core net by the IuPS+ interface.
Wherein, if uplink user data is carried the source IP address of UMTS, then judging uplink user data is the UMTS uplink user data; If the source IP address that uplink user data is carried is the IP address in the LTE subnet, then judging uplink user data is the LTE uplink user data, if the source IP address that uplink user data is carried is the IP address in the UMTS subnet, then judging uplink user data is the UMTS uplink user data.
Wherein, referring to Fig. 6, the user plane of transport network layer receives the uplink user data that dual-mode base station sends by the Iub+ interface, then the uplink user data that receives is successively resolved, and parses the source IP address that uplink user data is carried.
Wherein, UMTS user can also send the UMTS uplink user data and send it to RNC to dual-mode base station and dual-mode base station; Perhaps, LTE user can also send the 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 the UMTS down user data that the UMTS core net sends by the IuPS+ interface, and sends to dual-mode base station by Iub+; Transport network layer receives the LTE down user data that the LTE core net sends by the IuPS+ interface, and sends to dual-mode base station by the Iub+ interface.
Wherein, RNC sends the UMTS down user data by Iub interface, sends the LTE down user data by the X2/S1 interface.
Correspondingly, dual-mode base station receives the UMTS down user data and is transmitted to UMTS user from the Iub interface of RNC, receives the 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 up soft handover data by the Iub+ interface, and up soft handover data is sent to other RNC by the Iur+ interface.
Wherein, up soft handover data comprise up soft handover data of UMTS and/or the up soft handover data of LTE.UMTS user sends to dual-mode base station with the up soft handover data of UMTS, and dual-mode base station is transmitted to RNC again; Perhaps, LTE user sends to dual-mode base station with the up soft handover data of LTE, and dual-mode base station is transmitted to RNC again.
Wherein, the protocol stack diagram among the 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 that receives or uplink user data are successively resolved, sends to UMTS core net or LTE core net again; RNC receives the downlink signaling or the down user data of UMTS core net or the transmission of LTE core net, and the downlink signaling or the down user data that receive are successively resolved, and sends to dual-mode base station again.
Wherein, have eNBAP (enhanced NodeB Application Part, strengthen a base station application part) module in the transport network layer, the eNBAP module receives the up signaling that dual-mode base station sends and sends downlink signaling to dual-mode base station by the Iub+ interface.
The process that RNC successively resolves up signaling is: dual-mode base station->the Iub+ interface->eNBAP->SCTP->IP->Data Link Layer->PHY Layer->PHY Layer->Data Link Layer->IP->SCTP->IuPS+ interface->the UMTS/LTE core net.
The process that RNC successively resolves downlink signaling is: the UMTS/LTE core net->the IuPS+ interface->SCTP->IP->Data Link Layer->PHY Layer->PHY Layer->Data Link LayerIP->SCTP->eNBAP->Iub+ interface->dual-mode base station.
The process that RNC successively resolves uplink user data is: dual-mode base station->the Iub+ interface->UDP->IP->Data Link Layer->PHY Layer->PHY Layer->Data Link Layer->IP->UDP->IuPS+ interface->the UMTS/LTE core net.
The process that RNC successively resolves down user data is: the UMTS/LTE core net->the IuPS+ interface->UDP->IP->Data Link Layer->PHY Layer->PHY Layer->Data LinkLayer->IP->UDP->Iub+ interface->dual-mode base station.
Wherein, in the present embodiment, dual-mode base station and RNC need 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 the UMTS frequency spectrum with the up soft handover data of the up signaling of UMTS, UMTS uplink user data and UMTS, and receives the descending soft handover data of UMTS downlink signaling, UMTS down user data and UMTS that RNC sends by the UMTS frequency spectrum; Perhaps; dual-mode base station sends to RNC by the LTE frequency spectrum with the up soft handover data of the up signaling of LTE, LTE uplink user data and LTE, and receives the descending soft handover data of LTE downlink signaling, LTE down user data and LTE that RNC sends by the LTE frequency spectrum.
Wherein, in communication process, it is big and load on the LTE frequency spectrum is less load on the UMTS frequency spectrum often to occur, perhaps big and the less situation of load on the UMTS frequency spectrum of the load on the LTE frequency spectrum, at this moment, 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 one's body each frequency spectrum, obtains the frequency spectrum congestion information of each frequency spectrum, and the ID (Identify, sign) and the frequency spectrum congestion information of each frequency spectrum sent to RNC;
Wherein, dual-mode base station is to measuring from one's body each UMTS frequency spectrum and each LTE frequency spectrum.In addition; the frequency spectrum congestion information comprises the communication standard under the frequency spectrum congestion condition, frequency spectrum and the bandwidth of frequency spectrum at least; in the present embodiment; communication standard is to comprise that UMTS and LTE are that example describes; accordingly, dual-mode base station is for supporting the dual-mode base station of UMTS and LTE, certainly; also can be the dual-mode base station of supporting UMTS and LTE, the embodiment of the invention mainly be that example is described with the dual-mode base station.
Step 302:RNC receives the ID and the frequency spectrum congestion information of each frequency spectrum that dual-mode base station sends, and according to the ID and the frequency spectrum congestion information of each frequency spectrum, distributes UMTS frequency spectrum and LTE frequency spectrum;
Particularly, RNC receives the ID and the frequency spectrum congestion information of each frequency spectrum of dual-mode base station transmission, the number of congested UMTS frequency spectrum does not take place and the number of congested LTE frequency spectrum does not take place in statistics, if the number that congested UMTS frequency spectrum does not take place is greater than the number that congested LTE frequency spectrum does not take place, then select the UMTS frequency spectrum of occupied bandwidth minimum, the frequency spectrum of selecting is adjusted into the LTE frequency spectrum; If the number that congested UMTS frequency spectrum does not take place is then selected the LTE frequency spectrum of occupied bandwidth minimum less than the number that congested LTE frequency spectrum does not take place, the frequency spectrum of selecting is adjusted into the UMTS frequency spectrum.
The ID of each the UMTS frequency spectrum after step 303:RNC will distribute and the ID of each LTE frequency spectrum send to dual-mode base station.
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 the UMTS frequency spectrum that will store and each LTE frequency spectrum is updated to the ID of each UMTS frequency spectrum of reception and the ID of each LTE frequency spectrum respectively.
Wherein, CoRRM among the RNC (Cooperation RRM (Radio Resource Management, RRM), the cooperation RRM) module can dynamically distribute UMTS frequency spectrum and LTE frequency spectrum, and promptly above-mentioned steps 301-304 can be carried out by CoRRM.
Wherein, in the present embodiment, UMTS frequency spectrum and LTE frequency spectrum are distributed and adjustment dynamically, can improve spectrum utilization efficiency.
Optionally, if the dual-mode base station in the wireless access network may break down in the process of work or this dual-mode base station withdraws from wireless access network, then the sub-district on this dual-mode base station this moment all will be deleted from wireless access network, and dual-mode base station is when breaking down or withdraw from wireless access network, send the network parameter change report to RNC, the pilot tone coverage and the change type that comprise each sub-district on this dual-mode base station in this network parameter change report, and change type is the deletion sub-district;
If break down in oneself sub-district or oneself sub-district on one's body on one's body of dual-mode base station deletion, then this dual-mode base station sends the network parameter change report to RNC, the pilot tone coverage and the change type of the sub-district that comprises the sub-district of deletion in this network parameter change report or break down, and change type is the deletion sub-district;
If dual-mode base station is increasing the sub-district from one's body, then this dual-mode base station sends the network parameter change report to RNC, comprises the pilot tone coverage and the change type of the sub-district of increase in the network parameter change report, and change type is for increasing the sub-district;
When if the dual-mode base station that certain in the wireless access network is new starts, then all sub-districts on this dual-mode base station all start and add wireless access network, this moment, this dual-mode base station was when starting, send the network parameter change report to RNC, the pilot tone coverage and the change type that comprise each sub-district on this dual-mode base station in this network parameter conversion report, and change type is for increasing the sub-district;
RNC receives the network parameter change report that dual-mode base station sends then, and the pilot tone coverage of the corresponding sub-district on the adjacent dual-mode base station of this dual-mode base station is adjusted.
Referring to Fig. 9, when dual-mode base station sent the network parameter change report to RNC, the process that RNC adjusts the pilot tone coverage of the corresponding sub-district on the adjacent dual-mode base station of this dual-mode base station was divided into the step of following 401-405, comprising:
Step 401: dual-mode base station sends the network parameter change report, and this network parameter change report comprises the pilot tone coverage and the change type of sub-district, and change type is for increasing sub-district or deletion sub-district;
Step 402:RNC receives the network parameter change report, obtains the adjacent dual-mode base station of this dual-mode base station, and the pilot tone coverage of obtaining the neighbor cell of this sub-district on this adjacent dual-mode base station;
Wherein, for the sub-district on any dual-mode base station and this dual-mode base station, obtain the adjacent dual-mode base station of this dual-mode base station and the neighbor cell of this sub-district on adjacent dual-mode base station in advance, then the corresponding relation between the ID of the ID of the ID of the ID of this dual-mode base station, this sub-district, the adjacent dual-mode base station that obtains and neighbor cell is stored among the NMS (Network Management System, network management system); In addition, also in advance with the ID of dual-mode base station, the corresponding relation between the ID of the sub-district on this dual-mode base station and the pilot tone coverage three is stored among the 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, common corresponding relation between the three, the perhaps corresponding relation of full detail integral body.
Correspondingly; RNC is according to the ID of this dual-mode base station and the ID of this sub-district; from NMS, obtain the ID of the neighbor cell of the ID of adjacent dual-mode base station of this dual-mode base station and this sub-district on the adjacent dual-mode base station; according to the ID of neighbor cell and the ID of adjacent dual-mode base station, from NMS, obtain the pilot tone coverage of neighbor cell again.
Step 403:RNC obtains the pilot power and the angle of declination of the neighbor cell of this sub-district according to the pilot tone coverage of the neighbor cell of the pilot tone coverage of this sub-district and change type and this sub-district;
Particularly, RNC is according to the pilot tone coverage of the neighbor cell of the pilot tone coverage of this sub-district in the network parameter change report and change type and this sub-district, adjust the pilot tone coverage of the neighbor cell of this sub-district, determine the pilot power and the angle of declination of the neighbor cell of this sub-district according to adjusted pilot tone coverage.
For example, if the change type of this sub-district in the network parameter change report is the deletion sub-district, then RNC adjusts the pilot tone coverage of the neighbor cell of this sub-district, makes the pilot tone coverage of the neighbor cell of this sub-district can comprise the pilot tone coverage of this sub-district.
Step 404:RNC sends the adjacent dual-mode base station of base station configuration parameter to correspondence, and this base station configuration parameter is carried the pilot power and the angle of declination of the neighbor cell of this sub-district;
Step 405: this adjacent dual-mode base station receives base station configuration parameter, according to pilot power in the base station configuration parameter and angle of declination, adjusts the pilot tone coverage from the neighbor cell of on one's body this sub-district.
Wherein, CoRRM module among the RNC or eNBAP module can be adjusted the pilot tone coverage of sub-district, and promptly above-mentioned steps 401-405 can be carried out by CoRRM module or eNBAP module.
Further, RNC can dispose the pilot tone coverage of each sub-district on each dual-mode base station in the 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 sub-district on the dual-mode base station in the wireless access network from NMS;
Wherein, can be in advance in NMS the pilot tone coverage of each sub-district on each dual-mode base station in the configuration wireless access network.
Step 502:RNC obtains the pilot power and the angle of declination of this sub-district according to the pilot tone coverage of this sub-district that obtains;
Step 503:RNC sends the base station configuration parameter and carries the pilot power and the angle of declination of this sub-district to this dual-mode base station and this base station configuration parameter;
Step 504: dual-mode base station receives the base station configuration parameter, the pilot tone coverage of adjusting this sub-district according to the pilot power and the angle of declination of this sub-district in the base station configuration parameter.
Wherein, the pilot tone coverage that the CoRRM module among the RNC can allocating cell, promptly above-mentioned steps 501-504 can be carried out by the CoRRM module.
In embodiments of the present invention, RNC receives up signaling, according to the source IP address that up signaling is carried up signaling is judged, if be the up signaling of UMTS, then sends to the UMTS core net; If be the up signaling of LTE, then send to the LTE core net, receive the UMTS downlink signaling of UMTS core net transmission and be 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.Realized so in the UMTS/LTE wireless access network, realizing simultaneously that UMTS communication communicates by letter with LTE, can serve for UMTS user and LTE user simultaneously.
Embodiment 3
As shown in figure 11, the embodiment of the invention provides a kind of wireless network control apparatus, comprising:
First sending module 602, if being used for the result of judge module 601 judgements is that this up signaling is the up signaling of first standard, then it is transferred to the wireless network layer of first standard, the up signaling of this first standard is sent to the core net of first standard by the wireless network layer of first standard by transport network layer;
Wherein, first standard is UMTS, W-CDMA or TD-CDMA, and second standard is LTE.
Wherein, judge module 601 specifically comprises:
Resolution unit is used 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, be used 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 first standard, then judge the up signaling that this up signaling is first standard, if this source IP address is the IP address in the subnet of second standard, then judge the up signaling that this up signaling is second standard.
Wherein, be LTE if first standard is the UMTS and second standard, then up signaling comprises up signaling of UMTS and/or the up signaling of LTE.
Correspondingly, judge module 601 can receive the up signaling that Multi-Mode Base Station sends by transport network layer from the Iub+ interface; First sending module 602 can send the up signaling of UMTS to the UMTS core net from the IuPS+ interface, and second sending module 603 can send the up signaling of LTE to the LTE core net from the IuPS+ interface.
Wherein, the process that the up signaling that receives is successively resolved can for: Multi-Mode Base Station->the Iub+ interface->eNBAP->SCTP->IP->Data Link Layer->PHY Layer->PHY Layer->Data Link Layer->IP->SCTP->IuPS+ interface->the UMTS/LTE core net.
Further, this wireless network control apparatus also comprises:
The first downlink signaling processing module, the downlink signaling that is used for first standard that core net that wireless network layer by first standard receives first standard sends, and the downlink signaling of first standard is transferred to transport network layer, by transport network layer the downlink signaling of described first standard is sent to Multi-Mode Base Station;
The second downlink signaling processing module; the downlink signaling that is used for second standard that core net that wireless network layer by second standard receives second standard sends; and the downlink signaling of second standard is transferred to transport network layer, by transport network layer the downlink signaling of second standard is sent to Multi-Mode Base Station.
Wherein, be LTE if first standard is the UMTS and second standard, then downlink signaling comprise the UMTS downlink signaling and/the LTE downlink signaling.
Correspondingly, the first downlink signaling processing module can receive the UMTS downlink signaling from the IuPS+ interface, and sends the UMTS downlink signaling to Multi-Mode Base Station from the Iub+ interface; The second downlink signaling processing module can receive the LTE downlink signaling from the IuPS+ interface, and sends the LTE downlink signaling to Multi-Mode Base Station from the Iub+ interface.
Wherein, the process that the up signaling that receives is successively resolved can for: UMTS/LTE core net->the IuPS+ interface->SCTP->IP->Data Link Layer->PHY Layer->PHY Layer->DataLink Layer IP->SCTP->eNBAP->Iub+ interface->Multi-Mode Base Station.
Further, this wireless network control apparatus also comprises:
The uplink user data processing module, be used for receiving uplink user data by transport network layer, uplink user data is judged, if be the uplink user data of first standard, then with first standard uplink user data send to the core net of first standard; If be the uplink user data of second standard, then the uplink user data of second standard is sent to the core net of second standard;
The down user data processing module; be used for receiving the down user data of first standard that the core net of first standard sends and being transmitted to Multi-Mode Base Station, receive the down user data of second standard that the core net of second standard sends and be transmitted to Multi-Mode Base Station by transport network layer.
Wherein, be LTE if first standard is the UMTS and second standard, then 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, the uplink user data processing module can receive the UMTS uplink user data from the Iub+ interface, and sends the UMTS uplink user data from the IuPS+ interface; The down user data processing module can receive the LTE downlink signaling from the IuPS+ interface, and sends the LTE downlink signaling from the Iub+ interface.
Wherein, the process that uplink user data is successively resolved can for: Multi-Mode Base Station->the Iub+ interface->UDP->IP->Data Link Layer->PHY Layer->PHY Layer->Data Link Layer->IP->UDP->IuPS+ interface->the UMTS/LTE core net.
Wherein, the process that down user data is successively resolved can for: UMTS/LTE core net->the IuPS+ interface->UDP->IP->Data Link Layer->PHY Layer->PHY Layer->DataLink Layer->IP->UDP->Iub+ interface->Multi-Mode Base Station.
Further, this wireless network control apparatus also comprises:
The spectrum allocation may module; be used to receive frequency spectrum sign and the frequency spectrum congestion information that Multi-Mode Base Station sends; and according to frequency spectrum sign and frequency spectrum congestion information; dynamically adjust the frequency spectrum of distributing to first standard and the frequency spectrum of distributing to second standard; the frequency spectrum sign of adjusted first standard and the frequency spectrum sign of second standard are sent to Multi-Mode Base Station, and the frequency spectrum congestion information comprises congestion condition, the communication standard under the frequency spectrum and the bandwidth of frequency spectrum of frequency spectrum.
Wherein, the spectrum allocation may module specifically comprises:
Receiving element is used to receive the sign and the congestion information of each frequency spectrum that Multi-Mode Base Station sends;
Statistic unit is used to add up the number of the frequency spectrum that the first congested standard does not take place and the number of the frequency spectrum of the second congested standard does not take place;
First allocation units if the number of frequency spectrum that is used for not taking place the first congested standard is then selected the frequency spectrum of first standard of occupied bandwidth minimum greater than the number of the frequency spectrum that the second congested standard does not take place, are adjusted into the frequency spectrum of selecting the frequency spectrum of second standard;
Second allocation units if the number of frequency spectrum that is used for not taking place the first congested standard is then selected the frequency spectrum of second standard of occupied bandwidth minimum less than the number of the frequency spectrum that the second congested standard does not take place, are adjusted into the frequency spectrum of selecting the frequency spectrum of first standard;
Transmitting element is used for the sign of the frequency spectrum of the sign of the frequency spectrum of first standard and second standard is sent to Multi-Mode Base Station.
Further, this wireless network control apparatus also comprises:
First receiver module is used to receive the network parameter change report that Multi-Mode Base Station sends, and this network parameter change report carries the pilot tone coverage and the change type of sub-district, and types of variables is for increasing sub-district or deletion sub-district;
First acquisition module is used to obtain the pilot tone coverage of the neighbor cell of this sub-district on the adjacent Multi-Mode Base Station of this Multi-Mode Base Station;
Second acquisition module is used for obtaining the pilot power and the angle of declination of the neighbor cell of this sub-district according to the pilot tone coverage of this sub-district and types of variables and the pilot tone coverage obtained;
The 3rd sending module is used to send the base station configuration parameter to adjacent Multi-Mode Base Station, and the base station configuration parameter is carried the pilot power and the angle of declination of the neighbor cell of sub-district.
Wherein, second acquisition module is according to the pilot tone coverage of the neighbor cell of the pilot tone coverage of this sub-district in the network parameter change report and change type and this sub-district, adjust the pilot tone coverage of the neighbor cell of this sub-district, determine the pilot power and the angle of declination of the neighbor cell of this sub-district according to adjusted pilot tone coverage.
For example, if the change type of this sub-district in the network parameter change report is the deletion sub-district, then RNC adjusts the pilot tone coverage of the neighbor cell of this sub-district, makes the pilot tone coverage of the neighbor cell of this sub-district can comprise the pilot tone coverage of this sub-district.
Further, this wireless network control apparatus also comprises:
The 3rd acquisition module is used for obtaining the pilot tone coverage of sub-district of the Multi-Mode Base Station of wireless access network;
The 4th acquisition module is used for obtaining according to the pilot tone coverage of this sub-district the pilot power and the angle of declination of this sub-district;
Second sending module is used to send the base station configuration parameter to this Multi-Mode Base Station, and the base station configuration parameter is carried the correspondence of the pilot power and the angle of declination of this sub-district.
In embodiments of the present invention, wireless network control apparatus receives up signaling, according to the source IP address that up signaling is carried up signaling is judged, if be the up signaling of first standard, then sends to the core net of first standard; If be the up signaling of second standard; then send to the core net of second standard; receive the downlink signaling of first standard that the core net of first standard sends and be transmitted to Multi-Mode Base Station, and/or receive the downlink signaling of second standard that the core net of second standard sends and be transmitted to Multi-Mode Base Station.So having realized realizing the communication of first standard and communicating by letter of second standard simultaneously in first standard/second standard wireless access network, can be that the user of first standard and the user of second standard serve simultaneously.
Embodiment 4
As shown in figure 12, the embodiment of the invention provides a kind of multi-modulation scheme way integrated communication system, comprising:
Embodiment 3 described wireless network control apparatus 701, and the Multi-Mode Base Station 702 that communicates 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, according to the source IP address that up signaling is carried up signaling is judged, if be the up signaling of first standard, then sends to the core net of first standard; If be the up signaling of second standard; then send to the core net of second standard; receive the downlink signaling of first standard that the core net of first standard sends and be transmitted to Multi-Mode Base Station, and/or receive the downlink signaling of second standard that the core net of second standard sends and be transmitted to Multi-Mode Base Station.So having realized realizing the communication of first standard and communicating by letter of second standard simultaneously in first standard/second standard wireless access network, can be that the user of first standard and the user of second standard serve simultaneously.
The content of above method embodiment and equipment/system embodiment, reference each other and quoting.
All or part of content in the technical scheme that above embodiment provides can realize that its software program is stored in the storage medium that can read by software programming, storage medium for example: the hard disk in the computer, CD or floppy disk.
The above only is preferred embodiment of the present invention, and is in order to restriction the present invention, within the spirit and principles in the present invention not all, any modification of being done, is equal to replacement, improvement etc., all should be included within protection scope of the present invention.
Claims (17)
1. the method for a 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 first standard, then described transport network layer is transferred to the wireless network layer of first standard of described wireless network control apparatus with it, and the wireless network layer of described first standard sends to the up signaling of described first standard core net of described first standard;
If described up signaling is the up signaling of second standard, then described transport network layer is transferred to the wireless network layer of second standard of described wireless network control apparatus with it, and the wireless network layer of described second standard sends to the up signaling of described second standard core net of described second standard;
Described first standard is universal mobile telecommunications system UMTS, Wideband Code Division Multiple Access (WCDMA) W-CDMA or time division CDMA TD-CDMA, and described second standard is Long Term Evolution LTE.
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 first standard, then judge the up signaling that described up signaling is first standard, if described source IP address is the IP address in the subnet of second standard, then judge the up signaling that described up signaling is second standard.
3. method as claimed in claim 2 is characterized in that, described method also comprises:
The wireless network layer of described first standard receives the downlink signaling of first standard that the core net of described first standard sends, and the downlink signaling of described first standard is transferred to described transport network layer, described transport network layer sends to Multi-Mode Base Station with the downlink signaling of described first standard;
The wireless network layer of described second standard receives the downlink signaling of second standard that the core net of described second standard sends; and the downlink signaling of described second standard is transferred to described transport network layer, described transport network layer sends to described Multi-Mode Base Station with the downlink signaling of described second standard.
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, if, then the uplink user data of described first standard is sent to the core net of described first standard for described uplink user data is the uplink user data of first standard; If described uplink user data is the uplink user data of second standard, then the uplink user data of described second standard is sent to the core net of described second standard;
Described transport network layer receives the down user data of first standard that the core net of described first standard sends and is transmitted to described Multi-Mode Base Station;
Described transport network layer receives the down user data of second standard that the core net of described second standard sends and is transmitted to described Multi-Mode Base Station.
5. the method for claim 1 is characterized in that, described method also comprises:
Described wireless network control apparatus receives frequency spectrum sign and the frequency spectrum congestion information that described Multi-Mode Base Station sends, and according to described frequency spectrum sign and frequency spectrum congestion information, dynamically adjust the frequency spectrum of distributing to first standard and the frequency spectrum of distributing to second standard, wherein, described frequency spectrum congestion information comprises congestion condition, the communication standard under the frequency spectrum and the bandwidth of frequency spectrum of frequency spectrum;
Described wireless network control apparatus sends to described Multi-Mode Base Station with the frequency spectrum sign of adjusted first standard and the frequency spectrum sign of second standard.
6. method as claimed in claim 5 is characterized in that, and is described according to described frequency spectrum sign and frequency spectrum congestion information, dynamically adjusts the frequency spectrum of distributing to first standard and the frequency spectrum of distributing to second standard, specifically comprises:
Statistics do not take place the first congested standard frequency spectrum number and the number of the frequency spectrum of the second congested standard does not take place;
If the number of the described frequency spectrum that the first congested standard do not take place greater than the number of the frequency spectrum that the second congested standard does not take place, is then selected the frequency spectrum of first standard of occupied bandwidth minimum, the frequency spectrum of described selection is adjusted into the frequency spectrum of second standard;
If the number of the described frequency spectrum that the first congested standard do not take place less than the number of the frequency spectrum that the second congested standard does not take place, is then selected the frequency spectrum of second standard of occupied bandwidth minimum, the frequency spectrum of described selection is adjusted into the frequency spectrum of first standard.
7. as the described method of each claim of claim 1 to 6, it 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 the pilot tone coverage and the change type of sub-district, and the change type of described sub-district comprises increases sub-district or deletion sub-district;
Described wireless network control apparatus obtains the pilot tone coverage of the neighbor cell of the described sub-district on the adjacent Multi-Mode Base Station of described Multi-Mode Base Station;
Described wireless network control apparatus obtains the pilot power and the angle of declination of described neighbor cell according to pilot tone coverage and the types of variables and the described pilot tone coverage of obtaining of described sub-district;
Described wireless network control apparatus sends the base station configuration parameter to described adjacent Multi-Mode Base Station, and described base station configuration parameter comprises the pilot power and the angle of declination of described neighbor cell.
8. as the described method of each claim of claim 1 to 6, it is characterized in that described method also comprises:
Described wireless network control apparatus obtains the pilot tone coverage of the sub-district on the Multi-Mode Base Station in the wireless access network;
Described wireless network control apparatus obtains the pilot power and the angle of declination of described sub-district according to the pilot tone coverage of described sub-district;
Described wireless network control apparatus sends the base station configuration parameter to described Multi-Mode Base Station, and described base station configuration parameter is carried the pilot power and the angle of declination of described sub-district.
9. a wireless network control apparatus is characterized in that, described wireless network control apparatus comprises:
Judge module is used for receiving the up signaling that Multi-Mode Base Station sends by transport network layer, and described up signaling is judged;
First sending module, if be used for the judged result of described judge module is that described up signaling is the up signaling of first standard, then it is transferred to the wireless network layer of first standard, the up signaling of described first standard is sent to the core net of first standard by the wireless network layer of described first standard by described transport network layer;
Second sending module, if be used for the judged result of described judge module is that described up signaling is the up signaling of second standard, then it is transferred to the wireless network layer of second standard, the up signaling of described second standard is sent to the core net of second standard by the wireless network layer of described second standard by described transport network layer;
Described first standard is universal mobile telecommunications system UMTS, Wideband Code Division Multiple Access (WCDMA) W-CDMA or time division CDMA TD-CDMA, and described second standard is Long Term Evolution LTE.
10. wireless network control apparatus as claimed in claim 9 is characterized in that, described judge module specifically comprises:
Resolution unit is used 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, be used 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 first standard, then judge the up signaling that described up signaling is first standard, if described source IP address is the IP address in the subnet of second standard, then judge the up signaling that described up signaling is second standard.
11. wireless network control apparatus as claimed in claim 9 is characterized in that, described wireless network control apparatus also comprises:
The first downlink signaling processing module, the downlink signaling that is used for first standard that core net that wireless network layer by described first standard receives first standard sends, and the downlink signaling of described first standard is transferred to described transport network layer, by described transport network layer the downlink signaling of described first standard is sent to Multi-Mode Base Station;
The second downlink signaling processing module; the downlink signaling that is used for second standard that core net that wireless network layer by described second standard receives second standard sends; and the downlink signaling of described second standard is transferred to described transport network layer, by described transport network layer the downlink signaling of described second standard is sent to described Multi-Mode Base Station.
12. wireless network control apparatus as claimed in claim 9 is characterized in that, described wireless network control apparatus also comprises:
The uplink user data processing module, be used for receiving uplink user data by described transport network layer, described uplink user data is judged,, then the uplink user data of described first standard is sent to the core net of described first standard if be the uplink user data of first standard; If be the uplink user data of second standard, then the uplink user data of described second standard is sent to the core net of described second standard;
The down user data processing module; be used for receiving the down user data of first standard that the core net of described first standard sends and being transmitted to described Multi-Mode Base Station, receive the down user data of second standard that the core net of described second standard sends and be transmitted to described Multi-Mode Base Station by described transport network layer.
13. wireless network control apparatus as claimed in claim 9 is characterized in that, described wireless network control apparatus also comprises:
The spectrum allocation may module; be used to receive frequency spectrum sign and the frequency spectrum congestion information that described Multi-Mode Base Station sends; and according to described frequency spectrum sign and frequency spectrum congestion information; dynamically adjust the frequency spectrum of distributing to first standard and the frequency spectrum of distributing to second standard; the frequency spectrum sign of adjusted first standard and the frequency spectrum sign of second standard are sent to described Multi-Mode Base Station; wherein, described frequency spectrum congestion information comprises congestion condition, the communication standard under the frequency spectrum and the bandwidth of frequency spectrum of frequency spectrum.
14. wireless network control apparatus as claimed in claim 13 is characterized in that, described spectrum allocation may module specifically comprises:
Receiving element is used to receive the sign and the congestion information of each frequency spectrum that Multi-Mode Base Station sends;
Statistic unit is used to add up the number of the frequency spectrum that the first congested standard does not take place and the number of the frequency spectrum of the second congested standard does not take place;
First allocation units, if be used for the number of the number of the described frequency spectrum that the first congested standard do not take place greater than the frequency spectrum that the second congested standard does not take place, then select the frequency spectrum of first standard of occupied bandwidth minimum, the frequency spectrum of described selection is adjusted into the frequency spectrum of second standard;
Second allocation units, if be used for the number of the number of the described frequency spectrum that the first congested standard do not take place less than the frequency spectrum that the second congested standard does not take place, then select the frequency spectrum of second standard of occupied bandwidth minimum, the frequency spectrum of described selection is adjusted into the frequency spectrum of first standard;
Transmitting element is used for the sign of the frequency spectrum of the sign of the frequency spectrum of described first standard and second standard is sent to described Multi-Mode Base Station.
15., it is characterized in that described wireless network control apparatus also comprises as the described wireless network control apparatus of each claim of claim 9 to 14:
First receiver module is used to receive the network parameter change report that Multi-Mode Base Station sends, and described network parameter change report carries the pilot tone coverage and the change type of sub-district;
First acquisition module is used to obtain the pilot tone coverage of the neighbor cell of the described sub-district on the adjacent Multi-Mode Base Station of described Multi-Mode Base Station;
Second acquisition module is used for pilot tone coverage and change type and the described pilot tone coverage of obtaining according to described sub-district, and obtains the pilot power and the angle of declination of the neighbor cell of described sub-district;
The 3rd sending module is used to send the base station configuration parameter to described adjacent Multi-Mode Base Station, and described base station configuration parameter is carried the pilot power and the angle of declination of the neighbor cell of described sub-district.
16., it is characterized in that described wireless network control apparatus also comprises as the described wireless network control apparatus of each claim of claim 9 to 14:
The 3rd acquisition module is used for obtaining the pilot tone coverage of the sub-district on the Multi-Mode Base Station of wireless access network;
The 4th acquisition module is used for obtaining according to the pilot tone coverage of described sub-district the pilot power and the angle of declination of described sub-district;
The 4th sending module is used to send the base station configuration parameter to described Multi-Mode Base Station, and described base station configuration parameter is carried the pilot power and the angle of declination of described sub-district.
17. a multi-modulation scheme way integrated communication system comprises:
As each described wireless network control apparatus of claim 9 to 16, and the Multi-Mode Base Station that communicates with described wireless network control apparatus.
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| PCT/CN2012/070735 WO2012100744A1 (en) | 2011-01-28 | 2012-01-29 | Multi-standard joint communication method and system, and radio network control device |
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| CN104066204B (en) * | 2014-06-27 | 2018-05-15 | 京信通信系统(中国)有限公司 | Data back system under dual-mode base station |
| WO2016187971A1 (en) * | 2015-05-25 | 2016-12-01 | 中兴通讯股份有限公司 | Method and apparatus for adjusting spectrum resources |
| CN105611587A (en) * | 2015-09-22 | 2016-05-25 | 镇江锐捷信息科技有限公司 | Wireless network seamless switching method using virtual IP |
| CN105430665A (en) * | 2015-11-30 | 2016-03-23 | 京信通信技术(广州)有限公司 | Method and system for realizing multi-network mixed scale networking |
| CN105430665B (en) * | 2015-11-30 | 2018-12-28 | 京信通信系统(中国)有限公司 | Realize the method and system of more net mixing scale networkings |
| CN108712789A (en) * | 2018-05-10 | 2018-10-26 | 国家电网公司 | A kind of equipment of the core network and its processing method for distinguishing different frequency range base station |
| CN108712789B (en) * | 2018-05-10 | 2023-05-16 | 国家电网公司 | Core network equipment for distinguishing base stations with different frequency bands and processing method thereof |
| CN110392452A (en) * | 2019-08-12 | 2019-10-29 | 京信通信系统(中国)有限公司 | Multi-standard base station system and data processing method |
Also Published As
| Publication number | Publication date |
|---|---|
| CN102143498B (en) | 2014-07-30 |
| WO2012100744A1 (en) | 2012-08-02 |
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