WO2012122952A1 - 激活控制方法、装置及系统 - Google Patents

激活控制方法、装置及系统 Download PDF

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Publication number
WO2012122952A1
WO2012122952A1 PCT/CN2012/072482 CN2012072482W WO2012122952A1 WO 2012122952 A1 WO2012122952 A1 WO 2012122952A1 CN 2012072482 W CN2012072482 W CN 2012072482W WO 2012122952 A1 WO2012122952 A1 WO 2012122952A1
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Prior art keywords
enb
counted
reports
services
service
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PCT/CN2012/072482
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English (en)
French (fr)
Inventor
王斌
马子江
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中兴通讯股份有限公司
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Publication of WO2012122952A1 publication Critical patent/WO2012122952A1/zh

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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W4/00Services specially adapted for wireless communication networks; Facilities therefor
    • H04W4/06Selective distribution of broadcast services, e.g. multimedia broadcast multicast service [MBMS]; Services to user groups; One-way selective calling services
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L12/00Data switching networks
    • H04L12/02Details
    • H04L12/16Arrangements for providing special services to substations
    • H04L12/18Arrangements for providing special services to substations for broadcast or conference, e.g. multicast
    • H04L12/189Arrangements for providing special services to substations for broadcast or conference, e.g. multicast in combination with wireless systems
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W24/00Supervisory, monitoring or testing arrangements
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W76/00Connection management
    • H04W76/40Connection management for selective distribution or broadcast

Definitions

  • the present invention relates to the field of communications, and in particular to an activation control method, apparatus, and system.
  • BACKGROUND With the rapid development of the Internet and the popularization of large-screen multi-function mobile phones, a large number of mobile data multimedia services and various high-bandwidth multimedia services, such as video conferencing, television broadcasting, video on demand, video advertising, online education, and interactive games, have emerged. Wait. These mobile data multimedia services and various high-bandwidth multimedia services not only meet the rising business demands of mobile users, but also bring new business growth points to mobile operators. These mobile data multimedia services and various high-bandwidth multimedia services require multiple users to receive the same data at the same time.
  • the 3rd Generation Partnership Project (3GPP) proposes Multimedia Broadcast Multicast Service (MBMS), which is a kind of data from one data.
  • MBMS Multimedia Broadcast Multicast Service
  • the technology of transmitting data to multiple targets realizes the sharing of resources of the network (including the core network and the access network) and improves the utilization of network resources (especially air interface resources).
  • the MBMS service defined by 3GPP can not only realize the multicast and broadcast of plain text low-rate message classes, but also realize the broadcast and multicast of high-speed multimedia services, and provide a variety of rich video, audio and multimedia services, which undoubtedly conforms to the future.
  • the trend of mobile data development provides a better business prospect for the development of 3rd Generation (3G) digital communications.
  • 3G 3rd Generation
  • the MBMS service is introduced in the Long Term Evolution (LTE) version 9 (R9) system and optimized in LTE Release 10 (R10).
  • the MBMS service carries the common transmission of control signaling (MBMS control signaling) and user data (MBMS service) in the system to implement.
  • the control signaling will inform the receiving end (such as the terminal, User Equipment (UE)) corresponding control parameters, and direct the UE to the corresponding location to receive the MBMS service of interest (ie, the corresponding user data). ).
  • the control signaling is through the multicast control channel (Multicast Control) in the LTE R9 and R10 systems.
  • Multicast Control multicast Control
  • MBSFN Multimedia Broadcast Signal Frequency Network
  • the MBSFN Area is composed of a series of cells, generally including one or more. Cells controlled by an evolved base station node (eNB). 1 is a schematic diagram of a logical structure of an MBSFN area according to the related art. As shown in FIG.
  • the MBSFN area (such as in a circle) includes 19 cells, where eNB1 controls cell 1, cell 2, ..., cell 6; B2 controls the cell 7, the cell 8, ..., the cell 13; the e B3 controls the cell 14, the cell 15, ..., the cell 19.
  • eNB1 controls cell 1
  • B2 controls the cell 7, the cell 8, ..., the cell 13
  • the e B3 controls the cell 14, the cell 15, ..., the cell 19.
  • a cell diagram of an MBSFN area is shown.
  • the eNB shown in FIG. 1 can also be in multiple different MBSFN areas, for example: The eNB is in the MBSFN area KMBSFN area 2 MBSFN area 3, MBSFN area 4.
  • one of the 19 cells in the MBSFN Area (as shown in the circle in Figure 1)
  • the transmission control signaling and the user data will be transmitted synchronously using the MBSFN technology in units of cells or eNBs (the purpose is to enable the UE to obtain the corresponding combining gain when receiving), and the MBSFN technology requires each cell in the MBSFN area to be the same.
  • the same data content is sent on the time-frequency resources, so that the resources of each cell need to be uniformly scheduled and planned.
  • a multi-cell/multicast coordination entity (MCE) network element is used for unified scheduling and planning of radio resources.
  • MCE multi-cell/multicast coordination entity
  • an MBMS-related network element includes an e B, an MCE, an MBMS Gateway (MBMS Gateway), and a broadcast multicast service center ( Broadcast Multicast Service Centre (abbreviated as BM-SC) and Mobility Management Entity (MME), where BM-SC is used as Session Start, Session Stop, and Service Update (Session).
  • BM-SC Broadcast Multicast Service Centre
  • MME Mobility Management Entity
  • the MBMS GW sends the MBMS service data to the corresponding eNB through the M1 interface; the MBMS GW sends the control plane information generated by the BM-SC through the Sm interface (eg, Session Start message Session Stop message Session Updated).
  • the message is sent to the MME; the MME is completely used as a forwarding network element, and the control plane information sent by the MBMS GW is forwarded to the MCE through the M3 interface; the MCE sends the corresponding control plane information to the corresponding eNB; by such processing, the eNB will Obtain MBMS service data and corresponding control plane information.
  • the UE uplink feedback mechanism is introduced.
  • the uplink feedback mechanism is mainly applied to the number of users (or the number of UEs) that are interested in receiving/receiving each MBMS service on the network side; Optimize the transmission of MBMS services, for example: deactivation, or not to send.
  • MBMS services with less interest/receiving users, activation, or transmission.
  • the network side can send a counting command (counting command) to make sense.
  • the UE that is interested in receiving the MBMS service performs uplink feedback to inform the UE of the current state of receiving the MBMS.
  • the network side can apply the information obtained through the uplink feedback (that is, how many interested/received UEs are available for a certain MBMS) to the activation or deactivation operation of the MBMS service; in other words, The network side may determine, according to the information obtained by the uplink feedback, whether the MBMS service is deactivated into the air interface.
  • FIG. 3 is a schematic diagram of a MBMS service counting process according to the related art. As shown in FIG.
  • Step S302 The MCE first configures a plurality of MBSFN area to be counted services for the eNB by using one or more MBMS service count request messages (MBMS SERVICE COUNTING REQUEST messages), and each MBMS SERVICE COUNTING REQUEST message can only contain one MBSFN area.
  • the business to be counted The eNB receives the counting request from the MCE in response to the MBMS SERVICE COUNTING RESPONSE message.
  • Step S306 The eNB will send a counting request on the MCCH corresponding to the MBSFN area (Counting)
  • the message is that the UE receives the Counting Request message carried on the MCCH, and learns that the eNB is counting the number of users of certain MBMS services.
  • Step S308 The corresponding UE (ie, the UE that is interested in receiving and receiving the MBMS service) is fed back to the eNB through a Counting Response message; considering that the number of corresponding UEs under the eNB may be large, The eNB will collect corresponding feedback information for a period of time, which may be an MCCH Modification period, for example: 5.12 seconds or 10.24 seconds.
  • Step S310 When the eNB completes collection of UE feedback information.
  • Step S312 The eNB reports the corresponding statistical result to the MCE.
  • step S302 and step S304 the M2 interface between the MCE and the eNB is used to start the MBMS service counting, and the step S306 and the step S308 are performed, and the Uu interface between the eNB and the UE is used to complete the eNB on the MCCH.
  • the service to be counted is configured, the UE receives the service to be counted, and the UE feeds back the result to the eNB.
  • Each request message includes one or more MBSFN areas to be counted; considering that the MCCH modification period MP (Modification Period, MP for short) corresponding to different MBSFN areas is different, and the MCCH update of each MBSFN area The time (MCCH updated time) is different, which causes the eNB to simultaneously generate (or call it "receive") the counting result of the service to be counted from multiple MBSFN areas; and for these simultaneously generated counting results, the eNB needs Report it to MCE.
  • MP Modification Period, MP for short
  • the present invention provides an activation control method, apparatus, and system, to at least solve the above related art. After an eNB receives a count result of a service to be counted in multiple MBSFN areas at the same time, the eNB cannot report these to be counted to the MCE.
  • an activation control method including: an evolved base station eNB acquires a count result of a plurality of services to be counted, where a plurality of to-be-counted services belong to one or more eNBs The multicast broadcast single frequency network area MBSFN area; the eNB generates one or more reports by using the counting result, where each of the multiple reports includes: a counting result of the plurality of to-be-counted services in one MBSFN area to which the eNB belongs The eNB sends one or more reports to the multi-cell/multicast coordination entity MCE for performing activation control on the MBMS to-count service.
  • the method further includes: the MCE sending the MBMS service counting request message to the eNB, where the MBMS service counting request message carries the configuration information of the service to be counted.
  • the eNB generates one or more reports by using the counting result, including: the eNB uses the counting result to generate one or more MBMS service counting result report messages MBMS SERVICE COUNTING RESULTS REPORT message.
  • An activation control processing method comprising: a multi-cell/multicast coordination entity (MCE) receiving one or more reports sent by an evolved base station (eNB), wherein one or more reports carry a plurality of services to be counted Counting results, wherein the plurality of to-be-counted services belong to one or more MBSFN areas to which the eNB belongs, and each of the plurality of reports includes: multiple to be counted The result of counting the service within one MBSFN area to which the eNB belongs; the MCE uses one or more reports to perform activation control on the service to be counted.
  • MCE multi-cell/multicast coordination entity
  • the method further includes: sending, by the MCE, an MBMS service count request message to the eNB, where the MBMS service count request message carries configuration information of the service to be counted.
  • an activation control apparatus which is applied to an evolved base station (e B), and includes: an obtaining module, configured to obtain a counting result of a plurality of services to be counted, where The plurality of to-be-counted services belong to one or more multicast broadcast single frequency network areas (MBSFN area) to which the eNB belongs; the generating module is configured to generate one or more reports by using multiple counting results, where each of the multiple reports The report includes: a counting result of the plurality of to-be-counted services in an MBSFN area to which the eNB belongs; and a sending module, configured to send one or more reports to the multi-cell/multicast coordination entity MCE, for the MBMS to be counted service Perform activation control.
  • MBSFN area multicast broadcast single frequency network areas
  • an activation control apparatus for a multi-cell/multicast coordination entity (MCE), including: a receiving module, a receiving module, configured to receive an evolved base station (eNB) And one or more reports sent, where one or more reports carry a count result of a plurality of services to be counted, wherein the plurality of services to be counted belong to one or more MBSFN areas to which the eNB belongs, in multiple reports
  • MCE multi-cell/multicast coordination entity
  • eNB evolved base station
  • reports carry a count result of a plurality of services to be counted, wherein the plurality of services to be counted belong to one or more MBSFN areas to which the eNB belongs, in multiple reports
  • Each report includes: a counting result of a plurality of to-be-counted services in an MBSFN area to which the eNB belongs; and a processing module configured to perform activation control using one or more reports to be counted.
  • the foregoing apparatus further includes: a sending module, configured to send an MBMS service count request message to the eNB, where the MBMS service count request message carries configuration information of the service to be counted.
  • a sending module configured to send an MBMS service count request message to the eNB, where the MBMS service count request message carries configuration information of the service to be counted.
  • the eNB after the eNB receives the counting result of the plurality of to-be-counted services, it generates one or more reports and sends the same to the MCE for activation control, which solves the related art when the eNB receives multiple times to be counted simultaneously.
  • the eNB After the counting result of the service, the eNB cannot report the counting result of the service to be counted to the MCE, which leads to the problem that the MBMS to be counted service activation control is inaccurate, thereby achieving the effect of improving the accuracy of the MBMS service activation control.
  • FIG. 1 is a schematic diagram of a logical structure of an MBSFN area according to the related art
  • FIG. 2 is a schematic structural diagram of an MBMS control system according to the related art
  • FIG. 3 is a schematic diagram of an MBMS service counting flow according to the related art
  • FIG. 5 is a flow chart 2 of an activation control method according to an embodiment of the present invention
  • FIG. 6 is a flowchart 1 of a method for transmitting an MBSFN area counting result according to an embodiment of the present invention
  • 7 is a flowchart 2 of a method for transmitting an MBSFN area counting result according to an embodiment of the present invention
  • FIG. 8 is a flowchart 1 of an eNB reporting a counting result according to an embodiment of the present invention
  • FIG. 9 is an eNB reporting number according to an embodiment of the present invention.
  • Figure 2 is a block diagram showing the structure of an activation control device according to an embodiment of the present invention
  • Figure 11 is a block diagram showing the structure of an activation control device according to an embodiment of the present invention
  • Figure 12 is an activation according to an embodiment of the present invention.
  • a preferred block diagram of the control device is shown in FIG.
  • FIG. 13 is a block diagram showing the structure of the activation control system according to an embodiment of the present invention.
  • BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. It should be noted that the embodiments in the present application and the features in the embodiments may be combined with each other without conflict.
  • This embodiment provides an activation control processing method.
  • FIG. 4 is a flowchart of an activation control method according to an embodiment of the present invention. As shown in FIG.
  • Step S402 The eNB acquires a counting result of the plurality of to-be-counted services, where the plurality of to-be-counted services belong to one or more multicast broadcast single frequency network areas MBSFN area to which the eNB belongs.
  • Step S404 The eNB generates one or more reports by using the counting result, where each of the multiple reports includes: a counting result of the plurality of to-be-counted services in one MBSFN area to which the eNB belongs.
  • Step S406 The eNB sends one or more reports to the multi-cell/multicast coordination entity MCE for performing activation control on the service to be counted.
  • the eNB After the eNB receives the counting result of the multiple to-be-counted services, the eNB generates one or more reports and sends the same to the MCE to perform the activation control, which overcomes the related technologies in the eNB simultaneously receiving multiple to-be-counted results.
  • the report cannot be reported, resulting in incorrect activation control of the MBMS to be counted service, thereby improving the accuracy of the MBMS to be counted service activation control.
  • the method before the eNB obtains the counting result of the to-be-counted service, the method further includes: the MCE sending the MBMS service counting request message to the eNB, where the MBMS service counting request message carries the configuration information of the service to be counted.
  • the MBMS to be counted service is configured by using the prior art, and the signaling load is reduced.
  • the eNB generates one or more reports by using the counting result, including: the eNB uses the counting result to generate one or more MBMS service counting result report messages MBMS SERVICE COUNTING RESULTS REPORT message.
  • the existing signaling bearer report is adopted. The message reduces R&D costs and reduces signaling load.
  • FIG. 5 is a flowchart 2 of an activation control method according to an embodiment of the present invention. As shown in FIG.
  • Step S502 Multi-cell/multicast coordination entity (MCE) Receiving one or more reports sent by the evolved base station (eNB), where one or more reports carry a count result of a plurality of services to be counted, and the plurality of services to be counted belong to one or more MBSFN areas to which the eNB belongs, Each of the plurality of reports includes: a counting result of the plurality of to-be-counted services in one MBSFN area to which the eNB belongs.
  • Step S504 The MCE performs activation control using one or more reports to count the service.
  • the MCE receives one or more reports that are sent by the eNB and carries the counting result of the multiple to-be-counted services, and performs activation control, which overcomes the technical problem that the eNB can simultaneously receive multiple MBSFN areas in the related art.
  • the activation control of the MBMS to be counted service is performed, thereby improving the accuracy of the service activation control to be counted.
  • the method further includes: the MCE sending an MBMS service count request message to the eNB, where the MBMS service count request message carries the configuration information of the MBMS to be counted service.
  • Embodiment 1 provides a method for an eNB to report a count result of a service to be received in the MBSFN area to an MCE.
  • This embodiment combines the foregoing embodiment and a preferred implementation method thereof, where the method includes: After the counting result of the multiple MBSFN areas, the eNB will send the counting result to the MCE in one of the following two ways. The flowcharts of the two modes are shown in FIG. 6 and FIG. 7, respectively. Manner 1: The eNB sends a report to the MCE, which includes the count results of all MBSFN areas.
  • FIG. 6 is a flowchart 1 of a method for transmitting an MBSFN area counting result according to an embodiment of the present invention. As shown in FIG. 6, the method 1 includes performing the following steps: Step S602: The eNB receives a counting result of multiple MBSFN areas; The to-be-counted service of the multiple MBSFN areas is configured by the MCE by using one or more MBMS SERVICE COUNTING REQUEST messages, where each MBMS SERVICE COUNTING REQUEST message includes one or more MBSFN area to be counted services.
  • Step S604 The eNB generates a report, which includes the counting result of all MBSFN areas received by the eNB in step 1.
  • Step S606 The eNB sends the generated report to the MCE. For example, the eNB sends the report generated in the second step to the MCE through an MBMS SERVICE COUNTING RESULTS REPORT message.
  • FIG. 7 is a second flowchart of a method for transmitting an MBSFN area counting result according to an embodiment of the present invention. As shown in FIG.
  • Step S702 The eNB receives a counting result of multiple MBSFN areas;
  • the service to be counted in multiple MBSFN areas is MCE through one or more MBMS SERVICE COUNTING REQUEST messages. Configured, wherein each MBMS SERVICE COUNTING REQUEST message contains one or more MBSFN area to be counted services.
  • Step S704 The eNB generates multiple reports. Specifically, each report includes only the counting result of one MBSFN area received by the eNB in step 1. Further, corresponding to the counting result of multiple MBSFN areas received by the eNB in step S702, The eNB will generate a corresponding number of multiple reports.
  • Step S706 The eNB sends the generated report to the MCE one by one. Specifically, the eNB sends the generated multiple reports to the MCE one by one, where each report only includes the counting result of one MBSFN area in the first step; for example: the eNB reports the message through multiple MBMS service counting results (MBMS SERVICE COUNTING RESULTS REPORT message)
  • the plurality of reports generated in step S704 are sent to the MCE, wherein one MBMS service count result report message includes only one report in step S704.
  • Embodiment 2 This embodiment provides a method for an eNB to report a count result of a service to be received in the MBSFN area to an MCE.
  • This embodiment combines the foregoing embodiment and a preferred implementation method thereof.
  • an MBMS SERVICE is used.
  • the COUNTING RESULTS REPORT message reports the counting result. As shown in FIG.
  • Step S802 The MCE configures two MBSFN area to be counted services to the eNB by using two MBMS SERVICE COUNTING REQUEST messages, respectively, MBSFN area 1 And MBSFN area 2; MBSFN area 1 to be counted services are MBMS service A, MBMS service B and MBMS service C, MBSFN area 2 to be counted services are MBMS service D and MBMS service E; Step S804: eNB receives MBSFN area at the same time 1 and the counting result of the MBSFN area 2; Step S806: The air interface counting process, the eNB generates a report, and the report includes the counting results of the MBSFN area 1 and the MBSFN area 2; specifically, the report includes the service to be counted in the MBSFN area 1 MBMS service A, MBMS service B and MBMS service C, and MBSFN area 2 to be counted are MBMS service D and M The count result of BMS service E
  • Step S808 The eNB uses an MBMS SERVICE COUNTING RESULTS REPORT message, where the eNB generates a report and sends it to the MCE.
  • Embodiment 3 This embodiment provides a method for the e B to report the counting result of the to-be-received service in the MBSFN area to the MCE. This embodiment combines the foregoing embodiment and the preferred implementation method thereof, and multiple embodiments are used in this embodiment.
  • the MBMS SERVICE COUNTING RESULTS REPORT message reports the result of the counting. As shown in FIG.
  • Step S902 The MCE configures two MBSFN area to be counted services, which are MBSFN, respectively, by using two MBMS SERVICE COUNTING REQUEST messages. Area 1 and MBSFN area 2; The service to be counted in MBSFN area 1 is MBMS service A MBMS service B and MBMS service C, and the service to be counted in MBSFN area 2 is MBMS service D and MBMS service E.
  • Step S904 The eNB simultaneously receives the counting results of MBSFN area 1 and MBSFN area 2.
  • Step S906 The air interface counting process.
  • the eNB generates two reports, the report 1 includes the counting result of the MBSFN area 1, and the report 2 includes the counting result of the MBSFN area 2; specifically, the report 1 includes the MBMS service A, the MBMS service B, and the MBMS service in the MBSFN area 1 to be counted.
  • Report 2 contains the counting result of the MBMS service D and the MBMS service E in the MBSFN area 2 to be counted.
  • Step S908 The eNB uses two MBMS SERVICE COUNTING RESULTS REPORT messages, one MBMS SERVICE COUNTING RESULTS REPORT includes the report 1 generated by the eNB, and is sent to the MCE; the other MBMS SERVICE COUNTING RESULTS REPORT includes the report 2 generated by the eNB, and is sent to the MCE.
  • the present embodiment provides an activation control apparatus, which is applied to an evolved base station (e B) for implementing the above-described activation control method
  • FIG. 10 is a structural block diagram 1 of the activation control apparatus according to an embodiment of the present invention, as shown in FIG.
  • the device includes: an obtaining module 102, a generating module 104, and a sending module 106.
  • the obtaining module 102 is configured to obtain a counting result of multiple services to be counted, where multiple to be counted
  • the service belongs to one or more multicast broadcast single frequency network areas MBSFN area to which the eNB belongs
  • the generating module 104 is connected to the obtaining module 102, and is configured to generate one or more reports by using the multiple counting results obtained by the obtaining module 102, where Each of the plurality of reports includes: a counting result of the plurality of to-be-counted services in an MBSFN area to which the eNB belongs
  • the sending module 106 is connected to the generating module 104, and is configured to generate one or more generated by the generating module 104.
  • the report is sent to the multi-cell/multicast coordination entity MCE for activation control of the service to be counted.
  • the generating module 104 is configured to generate one or more MBMS service count result report messages MBMS SERVICE COUNTING RESULTS REPORT message using the plurality of count results.
  • the present embodiment provides an activation control device, which is applied to a multi-cell/multicast coordination entity (MCE).
  • FIG. 11 is a structural block diagram 2 of an activation control device according to an embodiment of the present invention. As shown in FIG.
  • the device includes: The receiving module 112, the processing module 114, the foregoing structure is described in detail:
  • the receiving module 112 is configured to receive one or more reports sent by the evolved base station (e B), where one or more reports carry multiple a count result of the service to be counted, wherein the plurality of services to be counted belong to one or more MBSFN areas to which the e B belongs, and each of the plurality of reports includes: the plurality of services to be counted are in an MBSFN area to which the eNB belongs Counting result; processing module 114, coupled to receiving module 112, configured to perform activation control using one or more reported to-count services received by receiving module 112.
  • FIG. 12 is a block diagram of a preferred structure of an activation control apparatus according to an embodiment of the present invention.
  • the apparatus further includes: a sending module 122.
  • the foregoing structure is described in detail below: a sending module 122 is configured to The eNB sends an MBMS service count request message, where the MBMS service count request message carries configuration information of the service to be counted.
  • the embodiment provides an activation control system for implementing the above activation control method
  • FIG. 13 is a structural block diagram of an activation control system according to an embodiment of the present invention. As shown in FIG.
  • the system includes: an activation control device ( Applied to the eNB) 2 and the activation control device (applied to the MCE) 4, the specific structure of the activation control device (applied to the eNB) 2 is as shown in FIG. 10, and the specific structure of the activation control device (applied to the MCE) 4 is as shown in FIG. 11 or 12, will not repeat them here.
  • an activation control method, apparatus, and system are provided. After receiving the counting result of multiple to-be-counted services, the eNB generates one or more reports and sends them to the MCE for activation control.
  • the eNB receives multiple MBSFN areas at the same time cannot be reported in the related art, which causes incorrect activation control of the MBMS to be counted service, thereby improving the accuracy of the MBMS to count service activation control.
  • the above modules or steps of the present invention can be implemented by a general-purpose computing device, which can be concentrated on a single computing device or distributed over a network composed of multiple computing devices. Alternatively, they may be implemented by program code executable by the computing device, such that they may be stored in the storage device by the computing device and, in some cases, may be different from the order herein.

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  • Mobile Radio Communication Systems (AREA)

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激活控制方法、 装置及系统 技术领域 本发明涉及通信领域, 具体而言, 涉及一种激活控制方法、 装置及系统。 背景技术 随着互联网的迅猛发展和大屏幕多功能手机的普及, 出现了大量移动数据多媒体 业务和各种高带宽多媒体业务, 例如视频会议、 电视广播、 视频点播、 视频广告、 网 上教育、 互动游戏等。 这些移动数据多媒体业务和各种高带宽多媒体业务, 不仅满足 了移动用户不断上升的业务需求, 同时也为移动运营商带来了新的业务增长点。 这些 移动数据多媒体业务和各种高带宽多媒体业务要求多个用户能够同时接收相同数据, 与一般的数据业务相比, 具有数据量大、 持续时间长、 时延敏感等特点。 为了有效地利用移动网络资源, 第三代合作伙伴计划 (3rd Generation Partnership Project, 简称为 3GPP) 提出了多媒体广播多播业务 (Multimedia Broadcast Multicast Service, 简称为 MBMS), MBMS业务是一种从一个数据源向多个目标传送数据的技 术, 实现了网络 (包括核心网和接入网) 资源的共享, 提高了网络资源 (尤其是空中 接口资源) 的利用率。 3GPP定义的 MBMS业务不仅能够实现纯文本低速率的消息类 的组播和广播, 还能够实现高速多媒体业务的广播和组播, 提供多种丰富的视频、 音 频和多媒体业务, 这无疑顺应了未来移动数据发展的趋势, 为第三代(3rd Generation, 简称为 3G) 数字通信的发展提供了更好的业务前景。 目前, 在长期演进(Long Term Evolution, 简称为 LTE)版本 9 (R9)系统中引入 了 MBMS业务, 并在 LTE版本 10 (R10) 中进行了优化。 MBMS业务在系统中承载 需要控制信令(MBMS控制信令)和用户数据(MBMS业务)的共同传输来进行实现。 其中, 控制信令将会告知接收端 (如终端、 用户设备 (User Equipment, 简称为 UE)) 相应的控制参数, 指引 UE到相应的位置去接收其感兴趣的 MBMS业务(即相应的用 户数据)。 其中, 控制信令在 LTE R9、 R10系统中是通过多播控制信道 (Multicast Control
Channel, 简称为 MCCH)、 广播控制信道(Broadcast Control Channel, 简称为 BCCH) 禾口 MCH调度信息(MCH Scheduling Information, 简称为 MSI)来进行传输的; MBMS 业务是通过多播业务信道 (Multicast Traffic Channel, 简称为 MTCH) 来进行传输的。 MBMS控制信令和 MBMS业务是以组播广播单频网(Multimedia Broadcast Signal Frequency Network, 简称为 MBSFN) 区域 (Area)来进行传输的, MBSFN Area是由 一系列小区所组成, 一般包括一个或多个由演进基站节点(eNB)控制下的小区。 图 1 是根据相关技术的 MBSFN area的逻辑结构示意图, 如图 1所示, 该 MBSFN区域(如 圆圈内) 包括 19个小区, 其中 eNBl控制小区 1、 小区 2、 ...、 小区 6; e B2控制小 区 7、 小区 8、 ...、 小区 13; e B3控制小区 14、 小区 15、 ...、 小区 19, 需要说明的 是, 图 1中示出的是一个 MBSFN area的的小区示意图, 图 1中示出的 eNB同样可以 处于多个不同的 MBSFN area中,例如: eNB处于 MBSFN areaKMBSFN area2 MBSFN area3、 MBSFN area4。 考虑到现有技术中, 在 MBSFN Area (如图 1 中圆圈内的 19个小区构成的一个
MBSFN区域) 中发送控制信令和用户数据将以小区或 eNB为单位使用 MBSFN技术 进行同步发送 (目的是使得 UE在接收时可以获得相应的合并增益), MBSFN技术需 要 MBSFN area内各个小区在相同的时频资源上发送相同的数据内容, 这样就需要对 各个小区的资源进行统一的调度和规划。 目前使用多小区 /多播协调实体 (Multi-cell/multicast Coordination Entity, MCE) 网元来进行无线资源的统一调度和规 划, 具体可参考国际标准 3GPP 36.300。 图 2是根据相关技术的 MBMS控制系统结构示意图,如图 2所示,在现有系统中, 与 MBMS相关的网元有 e B、 MCE、 MBMS网关(MBMS Gateway )、 广播组播业务 中心(Broadcast Multicast Service Centre,简称为 BM-SC)以及移动性管理单元(Mobility Management Entity, 简称为 MME), 其中, BM-SC作为业务发起 ( Session Start )、 业 务停止(Session Stop )、 业务更新 (Session Updated)或 MBMS业务数据提供的网元; MBMS GW将 MBMS业务数据通过 Ml接口发送给相应的 eNB; MBMS GW通过 Sm 接口将由 BM-SC生成的控制面信息(例如 Session Start message Session Stop message Session Updated message)发送给 MME; MME完全作为一个转发网元,将 MBMS GW 发送的控制面信息通过 M3接口转发给 MCE; MCE将相应的控制面信息发送给相应 的 eNB; 通过这样的处理, eNB将会获得 MBMS业务数据和相应的控制面信息。 为了进一步优化 MBMS业务发送, 引入了 UE上行反馈机制, 上行反馈机制主要 应用于网络侧获取每个 MBMS业务的感兴趣 /正在接收的用户数 (或 UE个数); 网络 侧通过获取用户数来优化 MBMS业务的发送, 例如: 去激活(deactivation, 或称之为 不发送) 感兴趣 /正在接收用户数少的 MBMS业务、 激活 (activation, 或称之为发送) 感兴趣 /正在接收用户数多的 MBMS 业务。 网络侧为了获知感兴趣 /正在接收某个 MBMS业务的 UE数量(或有 /无), 可以通过发送 counting命令(计数命令), 使得感 兴趣 /正在接收该 MBMS业务的 UE进行上行反馈, 告知该 UE目前接收 MBMS的状 态。 网络侧可以将通过上行反馈获取到的信息 (即对于某个 MBMS有多少感兴趣 /正 在接收的 UE个数),应用于该 MBMS业务的激活(activation)或去激活(deactivation) 操作; 换言之, 网络侧可以根据上行反馈获取到的信息来决定该 MBMS业务在空口上 是 (activation) 否 (deactivation) 进 发送。 图 3是根据相关技术的 MBMS业务计数流程示意图, 如图 3所示, 当有一个或多 个 MBMS业务需要进行计数时, 需要采用下面的步骤: 这些需要进行计数的 MBMS 业务在本发明中称为待计数业务, 且本申请中的业务仅指 MBMS业务。 步骤 S302: MCE首先通过 1个或多个 MBMS业务计数请求消息(MBMS SERVICE COUNTING REQUEST 消息) 为 eNB配置多个 MBSFN area的待计数业务, 且其中 每条 MBMS SERVICE COUNTING REQUEST消息仅能包含一个 MBSFN area的待计 数业务。 步骤 S304: eNB通过 MBMS业务计数响应消息 (MBMS SERVICE COUNTING RESPONSE message) 响应接收到来自于 MCE的计数请求。 步骤 S306: eNB将会在该 MBSFN area所对应的 MCCH上发送计数请求( Counting
Request) 消息, UE通过接收承载在 MCCH上的 Counting Request消息, 获知 eNB正 在统计某些 MBMS业务的用户数。 步骤 S308: 相应的 UE (即感兴趣和 /或正在接收进行计数 MBMS业务的 UE)通 过计数响应(Counting Response)消息向 eNB进行反馈; 考虑到 eNB下相应 UE的个 数可能是大量的, 所以 eNB将在一段时间内收集相应的反馈信息, 这段时间可以是一 个 MCCH修改周期 (MCCH Modification period), 例如: 5.12秒或 10.24秒。 步骤 S310: 当 eNB完成 UE反馈信息的收集。 步骤 S312: eNB将会向 MCE上报相应的统计结果。 其中, 上述的步骤 S302和步骤 S304, 采用 MCE和 eNB之间的 M2接口, 用于 启动 MBMS业务计数, 步骤 S306和步骤 S308, 采用 eNB与 UE之间的 Uu接口, 用 于完成 eNB在 MCCH上配置待计数业务, UE接收到待计数业务和 UE向 eNB反馈结 果。 通过上面的分析, 可以看出, 当 MCE触发的待计数业务属于多个 MBSFN area, MCE可以发送一条或多条 MBMS SERVICE COUNTING REQUEST消息来进行计数, 每条请求消息包括一个或多个 MBSFN区域的待计数业务;考虑到不同的 MBSFN area 所对应的 MCCH修改周期 MP (Modification Period, 简称为 MP) 是不相同的, 且每 个 MBSFN区域的 MCCH更新时间 (MCCH updated time) 不同, 这样就会导致 eNB 同时生成 (或称之为"收到") 来自于多个 MBSFN area的待计数业务的计数结果; 而 对于这些同时生成的计数结果, eNB需要将其上报给 MCE。 针对相关技术中, 当 eNB同时收到多个 MBSFN区域的待计数业务的计数结果之 后, eNB无法向 MCE报告这些待计数业务的计数结果, 导致对 MBMS待计数业务激 活或去激活判决处理不准确的问题, 目前尚未提出有效的解决方案。 发明内容 本发明提供了一种激活控制方法、 装置及系统, 以至少解决上述相关技术中, 当 eNB同时收到多个 MBSFN区域的待计数业务的计数结果之后, eNB无法向 MCE报 告这些待计数业务的计数结果,导致对 MBMS待计数业务激活或去激活判决处理不准 确的问题。 为了实现上述目的, 根据本发明的一个方面, 提供了一种激活控制方法, 包括: 演进型基站 eNB 获取多个待计数业务的计数结果, 其中, 多个待计数业务属于 eNB 所属的一个或多个组播广播单频网区域 MBSFN area; eNB使用计数结果生成一个或 多个报告, 其中, 多个报告中的每一个报告包括: 多个待计数业务在 eNB所属的一个 MBSFN area内的计数结果; eNB将一个或多个报告发送给多小区 /多播协调实体 MCE, 用于对 MBMS待计数业务进行激活控制。 优选地, 在 eNB获取多个待计数业务的计数结果之前, 还包括: MCE向 eNB发 送 MBMS业务计数请求消息, 其中, MBMS业务计数请求消息携带有待计数业务的 配置信息。 优选地, eNB使用计数结果生成一个或多个报告包括: eNB使用计数结果生成一 个或多个 MBMS 业务计数结果报告消息 MBMS SERVICE COUNTING RESULTS REPORT message 为了实现上述目的, 根据本发明的另一方面, 提供了一种激活控制处理方法, 包 括: 多小区 /多播协调实体 (MCE) 接收演进型基站 (eNB) 发送的一个或多个报告, 其中, 一个或多个报告携带有多个待计数业务的计数结果, 其中, 多个待计数业务属 于 eNB所属的一个或多个 MBSFN area, 多个报告中的每一个报告包括: 多个待计数 业务在 eNB所属的一个 MBSFN area内的计数结果; MCE使用一个或多个报告对待计 数业务进行激活控制。 优选地, 在 MCE接收 eNB发送的一个或多个报告之前, 还包括: MCE向 eNB 发送 MBMS业务计数请求消息, 其中, MBMS业务计数请求消息携带有待计数业务 的配置信息。 为了实现上述目的, 根据本发明的再一方面, 提供了一种激活控制装置, 应用于 演进型基站(e B), 包括: 获取模块, 设置为获取多个待计数业务的计数结果, 其中, 多个待计数业务属于 eNB所属的一个或多个组播广播单频网区域 (MBSFN area); 生 成模块, 设置为使用多个计数结果生成一个或多个报告, 其中, 多个报告中的每一个 报告包括:多个待计数业务在 eNB所属的一个 MBSFN area内的计数结果;发送模块, 设置为将一个或多个报告发送给多小区 /多播协调实体 MCE, 用于对 MBMS待计数业 务进行激活控制。 优选地, 生成模块, 设置为使用多个计数结果生成一个或多个 MBMS业务计数结 果报告消息。 为了实现上述目的, 根据本发明的再一方面, 提供了一种激活控制装置, 应用于 多小区 /多播协调实体 (MCE), 包括: 接收模块, 接收模块, 设置为接收演进型基站 (eNB ) 发送的一个或多个报告, 其中, 一个或多个报告携带有多个待计数业务的计 数结果, 其中, 多个待计数业务属于 eNB所属的一个或多个 MBSFN area, 多个报告 中的每一个报告包括:多个待计数业务在 eNB所属的一个 MBSFN area内的计数结果; 处理模块, 设置为使用一个或多个报告对待计数业务进行激活控制。 优选地, 上述装置还包括: 发送模块, 设置为向 eNB发送 MBMS业务计数请求 消息, 其中, MBMS业务计数请求消息携带有待计数业务的配置信息。 为了实现上述目的, 根据本发明的又一方面, 提供了一种激活控制系统, 包括: 上述激活控制装置 (应用于 eNB) 和上述激活控制装置 (应用于 MCE)。 通过本发明, 采用在 eNB接收到多个待计数业务的计数结果后, 将其生成一个或 多个报告, 并发送给 MCE进行激活控制, 解决了相关技术中当 eNB同时收到多个待 计数业务的计数结果之后, eNB无法向 MCE报告这些待计数业务的计数结果, 导致 对 MBMS待计数业务激活控制不准确的问题, 进而达到了提高 MBMS业务激活控制 准确度的效果。 附图说明 此处所说明的附图用来提供对本发明的进一步理解, 构成本申请的一部分, 本发 明的示意性实施例及其说明用于解释本发明, 并不构成对本发明的不当限定。 在附图 中: 图 1是根据相关技术的 MBSFN area的逻辑结构示意图; 图 2是根据相关技术的 MBMS控制系统结构示意图; 图 3是根据相关技术的的 MBMS业务计数流程示意图; 图 4是根据本发明实施例的激活控制方法的流程图一; 图 5是根据本发明实施例的激活控制方法的流程图二; 图 6是根据本发明实施例的 MBSFN area计数结果发送方法的流程图一; 图 7是根据本发明实施例的 MBSFN area计数结果发送方法的流程图二; 图 8是根据本发明实施例的 eNB上报计数结果的流程图一; 图 9是根据本发明实施例的 eNB上报计数结果的流程图二; 图 10是根据本发明实施例的激活控制装置的结构框图一; 图 11是根据本发明实施例的激活控制装置的结构框图二; 图 12是根据本发明实施例的激活控制装置的优选的结构框图二; 以及 图 13是根据本发明实施例的激活控制系统的结构框图。 具体实施方式 下文中将参考附图并结合实施例来详细说明本发明。 需要说明的是, 在不冲突的 情况下, 本申请中的实施例及实施例中的特征可以相互组合。 本实施例提供了一种激活控制处理方法, 图 4是根据本发明实施例的激活控制方 法的流程图, 如图 4所示, 该方法包括: 步骤 S402: eNB获取多个待计数业务的计数结果,其中,多个待计数业务属于 eNB 所属的一个或多个组播广播单频网区域 MBSFN area。 步骤 S404: eNB使用计数结果生成一个或多个报告, 其中, 多个报告中的每一个 报告包括: 多个待计数业务在 eNB所属的一个 MBSFN area内的计数结果。 步骤 S406: eNB将一个或多个报告发送给多小区 /多播协调实体 MCE, 用于对待 计数业务进行激活控制。 通过上述步骤, 在 eNB接收到多个待计数业务的计数结果后, 将其生成一个或多 个报告, 并发送给 MCE进行激活控制, 克服了相关技术中在 eNB同时接收到多个待 计数结果无法上报, 导致对 MBMS 的待计数业务进行错误的激活控制, 从而提高了 MBMS待计数业务激活控制的准确度。 优选地, 在 eNB获取多个待计数业务的计数结果之前, 还包括: MCE向 eNB发 送 MBMS业务计数请求消息, 其中, MBMS业务计数请求消息携带有待计数业务的 配置信息。通过该优选实施例, 采用现有技术对 MBMS待计数业务进行配置, 降低了 信令负荷。 优选地, eNB使用计数结果生成一个或多个报告包括: eNB使用计数结果生成一 个或多个 MBMS 业务计数结果报告消息 MBMS SERVICE COUNTING RESULTS REPORT message 通过该优选实施例, 采用现有的信令承载报告消息, 降低了研发成 本, 并减小了信令负荷。 本实施例提供了一种激活控制方法, 图 5是根据本发明实施例的激活控制方法的 流程图二, 如图 5所示, 该方法包括: 步骤 S502: 多小区 /多播协调实体(MCE)接收演进型基站(eNB)发送的一个或 多个报告, 其中, 一个或多个报告携带有多个待计数业务的计数结果, 多个待计数业 务属于 eNB所属的一个或多个 MBSFN area, 多个报告中的每一个报告包括: 多个待 计数业务在 eNB所属的一个 MBSFN area内的计数结果。 步骤 S504: MCE使用一个或多个报告对待计数业务进行激活控制。 通过上述步骤, MCE接收 eNB发送的携带有多个待计数业务的计数结果的一个 或多个报告,并进行激活控制,克服了相关技术中在 eNB同时接收到多个 MBSFN area 的技术结果无法上报, 导致对 MBMS的待计数业务进行错误的激活控制, 从而提高了 待计数业务激活控制的准确度。 优选地, 在 MCE接收 e B发送的一个或多个报告之前, 还包括: MCE向 eNB 发送 MBMS业务计数请求消息, 其中, MBMS业务计数请求消息携带有 MBMS待计 数业务的配置信息。通过该优选实施例,采用现有技术对 MBMS待计数业务进行配置, 降低了信令负荷。 实施例一 本实施例提供了一种 eNB向 MCE上报这些 MBSFN区域的待接收业务的计数结 果的方法, 本实施例结合了上述实施例及其中的优选实施方法, 该方法包括: 当 eNB 同时收到多个 MBSFN area的计数结果后, eNB将会采用下面两种方式之一将计数结 果发送给 MCE, 两种方式的流程图分别如图 6和图 7所示。 方式一: eNB发送一个报告给 MCE, 该报告包括所有 MBSFN area的计数结果。 方式二: eNB发送多个报告给 MCE, 其中每个报告仅包括一个 MBSFN area的计 数结果。 图 6是根据本发明实施例的 MBSFN area计数结果发送方法的流程图一, 如图 6 所示, 采用方式一进行计数上报包括如下步骤: 步骤 S602: eNB收到多个 MBSFN area的计数结果; 其中, 多个 MBSFN area的 待计数业务是 MCE通过 1条或多条 MBMS SERVICE COUNTING REQUEST信息来 进行配置的, 其中每条 MBMS SERVICE COUNTING REQUEST消息包含一个或多个 MBSFN area的待计数业务。 步骤 S604: eNB生成一个报告,该报告包括步骤一中 eNB收到的所有 MBSFN area 的计数结果。 步骤 S606: eNB将生成的报告发送给 MCE; 例如: eNB通过一条 MBMS业务计 数结果报告消息 (MBMS SERVICE COUNTING RESULTS REPORT message) 将步骤 二中生成的报告发送给 MCE。 图 7是根据本发明实施例的 MBSFN area计数结果发送方法的流程图二, 如图 7 所示, 采用方式二进行计数上报包括如下步骤: 步骤 S702: eNB收到多个 MBSFN area的计数结果; 其中, 多个 MBSFN area的 待计数业务是 MCE通过 1条或多条 MBMS SERVICE COUNTING REQUEST信息来 进行配置的, 其中每条 MBMS SERVICE COUNTING REQUEST消息包含一个或多个 MBSFN area的待计数业务。 步骤 S704: eNB生成多个报告; 具体的, 每个报告仅包括步骤一中 eNB收到的 一个 MBSFN area的计数结果;进一步,对应步骤 S702中 eNB收到的多个 MBSFN area 的计数结果, 此时 eNB将生成对应个数的多个报告。 步骤 S706: eNB将生成的报告逐个发送给 MCE。 具体的, eNB将生成的多个报 告逐个发送给 MCE,其中,每个报告仅包含步骤一中的一个 MBSFN area的计数结果; 例如: eNB通过多条 MBMS业务计数结果报告消息 (MBMS SERVICE COUNTING RESULTS REPORT message) 将步骤 S704中生成的多个报告发送给 MCE, 其中, 一 条 MBMS业务计数结果报告消息仅包含一个步骤 S704中的报告。 通过本实施例,在 eNB接收到多个 MBSFN区域的待接收业务的计数结果后, eNB 通过上述两种方式向 MCE上报 MBSFN区域的待接收业务的计数结果。 实施例二 本实施例提供了一种 eNB向 MCE上报这些 MBSFN区域的待接收业务的计数结 果的方法, 本实施例结合了上述实施例及其中的优选实施方法, 本实施例中使用一条 MBMS SERVICE COUNTING RESULTS REPORT消息上报计数结果,如图 8所示,该 方法包括如下步骤: 步骤 S802: MCE通过两条 MBMS SERVICE COUNTING REQUEST消息向 eNB 配置了两个 MBSFN area的待计数业务, 分别是 MBSFN area 1和 MBSFN area 2; MBSFN area 1中待计数业务为 MBMS service A、MBMS service B和 MBMS service C, MBSFN area 2中待计数业务为 MBMS service D和 MBMS service E ; 步骤 S804: eNB同时收到了 MBSFN area 1和 MBSFN area 2的计数结果; 步骤 S806: 空口计数过程, eNB生成一个报告, 该报告包括 MBSFN area 1和 MBSFN area 2的计数结果; 具体的, 该报告将包含 MBSFN area 1中待计数业务为 MBMS service A、 MBMS service B和 MBMS service C以及 MBSFN area 2中待计数业 务为 MBMS service D和 MBMS service E的计数结果。 步骤 S808: eNB使用一条 MBMS SERVICE COUNTING RESULTS REPORT消息, 其中包含 eNB生成的报告, 发送给 MCE。 实施例三 本实施例提供了一种 e B向 MCE上报这些 MBSFN区域的待接收业务的计数结 果的方法, 本实施例结合了上述实施例及其中的优选实施方法, 本实施例中使用多条 MBMS SERVICE COUNTING RESULTS REPORT消息上报计数结果,如图 9所示,该 方法包括如下步骤: 步骤 S902: MCE通过两条 MBMS SERVICE COUNTING REQUEST消息向 eNB 配置了两个 MBSFN area的待计数业务, 分别是 MBSFN area 1和 MBSFN area 2; MBSFN area 1中待计数业务为 MBMS service A MBMS service B和 MBMS service C, MBSFN area 2中待计数业务为 MBMS service D和 MBMS service E。 步骤 S904: eNB同时收到了 MBSFN area 1和 MBSFN area 2的计数结果。 步骤 S906: 空口计数过程。 eNB生成两个报告, 报告 1包括 MBSFN area 1的计 数结果, 报告 2包括 MBSFN area 2的计数结果; 具体的, 报告 1包含 MBSFN area 1 中待计数业务为 MBMS service A、 MBMS service B和 MBMS service C的计数结果; 报告 2包含 MBSFN area 2中待计数业务为 MBMS service D和 MBMS service E的计数 结果。 步骤 S908: eNB使用两条 MBMS SERVICE COUNTING RESULTS REPORT消息, 其中一条 MBMS SERVICE COUNTING RESULTS REPORT包含 eNB生成的报告 1, 发送给 MCE;另一条 MBMS SERVICE COUNTING RESULTS REPORT包含 eNB生成 的报告 2, 发送给 MCE。 本实施例提供了一种激活控制装置, 应用于演进型基站(e B), 用以实现上述的 激活控制方法, 图 10是根据本发明实施例的激活控制装置的结构框图一, 如图 10所 示, 该装置包括: 获取模块 102、 生成模块 104和发送模块 106, 下面对上述结构进行 详细说明: 获取模块 102, 设置为获取多个待计数业务的计数结果, 其中, 多个待计数业务 属于 eNB所属的一个或多个组播广播单频网区域 MBSFN area; 生成模块 104, 连接 至获取模块 102, 设置为使用获取模块 102获取到的多个计数结果生成一个或多个报 告,其中,多个报告中的每一个报告包括:多个待计数业务在 eNB所属的一个 MBSFN area内的计数结果; 发送模块 106, 连接至生成模块 104, 设置为将生成模块 104生成 的一个或多个报告发送给多小区 /多播协调实体 MCE, 用于对待计数业务进行激活控 制。 生成模块 104, 设置为使用多个计数结果生成一个或多个 MBMS业务计数结果报 告消息 MBMS SERVICE COUNTING RESULTS REPORT message。 本实施例提供一种激活控制装置, 应用于多小区 /多播协调实体(MCE), 图 11是 根据本发明实施例的激活控制装置的结构框图二, 如图 11所示, 该装置包括: 接收模 块 112, 处理模块 114, 下面对上述结构进行详细说明: 接收模块 112, 设置为接收演进型基站(e B)发送的一个或多个报告, 其中, 一 个或多个报告携带有多个待计数业务的计数结果, 其中, 多个待计数业务属于 e B所 属的一个或多个 MBSFN area,多个报告中的每一个报告包括:多个待计数业务在 eNB 所属的一个 MBSFN area内的计数结果; 处理模块 114, 连接至接收模块 112, 设置为 使用接收模块 112接收到的一个或多个报告对待计数业务进行激活控制。 图 12是根据本发明实施例的激活控制装置的优选的结构框图二, 如图 12所示, 上述装置还包括: 发送模块 122, 下面对上述结构进行详细描述: 发送模块 122, 设置为向 eNB发送 MBMS业务计数请求消息, 其中, MBMS业 务计数请求消息携带有待计数业务的配置信息。 本实施例提供了一种激活控制系统,用以实现上述的激活控制方法, 图 13是根据 本发明实施例的激活控制系统的结构框图, 如图 13所示, 该系统包括: 激活控制装置 (应用于 eNB) 2和激活控制装置 (应用于 MCE) 4, 激活控制装置 (应用于 eNB) 2 的具体结构如图 10所示, 激活控制装置 (应用于 MCE) 4的具体结构如图 11或 12 所示, 在此不再赘述。 通过上述实施例, 提供了一种激活控制方法、 装置及系统, 通过在 eNB接收到多 个待计数业务的计数结果后, 将其生成一个或多个报告, 并发送给 MCE进行激活控 制, 克服了相关技术中在 eNB同时接收到多个 MBSFN area的技术结果无法上报, 导 致对 MBMS的待计数业务进行错误的激活控制, 从而提高了 MBMS待计数业务激活 控制的准确度。 显然, 本领域的技术人员应该明白, 上述的本发明的各模块或各步骤可以用通用 的计算装置来实现, 它们可以集中在单个的计算装置上, 或者分布在多个计算装置所 组成的网络上, 可选地, 它们可以用计算装置可执行的程序代码来实现, 从而, 可以 将它们存储在存储装置中由计算装置来执行, 并且在某些情况下, 可以以不同于此处 的顺序执行所示出或描述的步骤, 或者将它们分别制作成各个集成电路模块, 或者将 它们中的多个模块或步骤制作成单个集成电路模块来实现。 这样, 本发明不限制于任 何特定的硬件和软件结合。 以上所述仅为本发明的优选实施例而已, 并不用于限制本发明, 对于本领域的技 术人员来说, 本发明可以有各种更改和变化。 凡在本发明的精神和原则之内, 所作的 任何修改、 等同替换、 改进等, 均应包含在本发明的保护范围之内。

Claims

权 利 要 求 书
1. 一种激活控制方法, 包括:
演进型基站 eNB获取多个待计数业务的计数结果, 其中, 所述多个待计数 业务属于所述 eNB所属的一个或多个组播广播单频网区域 MBSFN area;
所述 eNB使用所述计数结果生成一个或多个报告, 其中, 所述多个报告中 的每一个报告包括: 所述多个待计数业务在所述 eNB所属的一个 MBSFN area 内的计数结果;
所述 eNB将所述一个或多个报告发送给多小区 /多播协调实体 MCE, 用于 对所述待计数业务进行激活控制。
2. 根据权利要求 1所述的方法, 其中, 在所述 eNB获取多个待计数业务的计数结 果之前, 还包括:
所述 MCE向所述 eNB发送 MBMS业务计数请求消息,其中,所述 MBMS 业务计数请求消息携带有所述待计数业务的配置信息。
3. 根据权利要求 1所述的方法, 其中, 所述 eNB使用所述计数结果生成一个或多 个报告包括:
所述 eNB使用所述计数结果生成一个或多个 MBMS业务计数结果报告消 息 MBMS SERVICE COUNTING RESULTS REPORT message。
4. 一种激活控制方法, 包括:
多小区 /多播协调实体 MCE接收演进型基站 eNB发送的一个或多个报告, 其中, 所述一个或多个报告携带有多个待计数业务的计数结果, 所述多个待计 数业务属于所述 eNB所属的一个或多个 MBSFN area, 所述多个报告中的每一 个报告包括: 所述多个待计数业务在所述 eNB所属的一个 MBSFN area内的计 数结果;
所述 MCE使用所述一个或多个报告对所述待计数业务进行激活控制。
5. 根据权利要求 4所述的方法, 其中, 在所述 MCE接收 eNB发送的一个或多个 报告之前, 还包括: 所述 MCE向所述 eNB发送 MBMS业务计数请求消息,其中,所述 MBMS 业务计数请求消息携带有所述待计数业务的配置信息。 一种激活控制装置, 应用于演进型基站 e B, 包括:
获取模块, 设置为获取多个待计数业务的计数结果, 其中, 所述多个待计 数业务属于所述 eNB所属的一个或多个组播广播单频网区域 MBSFN area; 生成模块, 设置为使用所述多个计数结果生成一个或多个报告, 其中, 所 述多个报告中的每一个报告包括:所述多个待计数业务在所述 eNB所属的一个 MBSFN area内的计数结果;
发送模块, 设置为将所述一个或多个报告发送给多小区 /多播协调实体 MCE, 用于对所述 MBMS待计数业务进行激活控制。 根据权利要求 6所述的装置, 其中,
所述生成模块,设置为使用所述计数结果生成一个或多个 MBMS业务计数 结果报告消息 MBMS SERVICE COUNTING RESULTS REPORT message。 一种激活控制装置, 应用于多小区 /多播协调实体 MCE, 包括:
接收模块, 设置为接收演进型基站 eNB发送的一个或多个报告, 其中, 所 述一个或多个报告携带有多个待计数业务的计数结果, 其中, 所述多个待计数 业务属于所述 eNB所属的一个或多个组播广播单频网区域 MBSFN area, 所述 多个报告中的每一个报告包括: 所述多个待计数业务在所述 eNB 所属的一个 MBSFN area内的计数结果;
处理模块, 设置为使用所述一个或多个报告对所述待计数业务进行激活控 制。 根据权利要求 8所述的装置, 其中, 还包括:
发送模块, 设置为向所述 eNB发送 MBMS业务计数请求消息, 其中, 所 述 MBMS业务计数请求消息携带有所述待计数业务的配置信息。 一种激活控制系统, 包括:
根据权利要求 6或 7所述的激活控制装置和根据权利要求 8或 9所述的激 活控制装置。
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