WO2013127326A1 - 多模无线通信系统的控制方法、控制服务器和终端 - Google Patents

多模无线通信系统的控制方法、控制服务器和终端 Download PDF

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Publication number
WO2013127326A1
WO2013127326A1 PCT/CN2013/071902 CN2013071902W WO2013127326A1 WO 2013127326 A1 WO2013127326 A1 WO 2013127326A1 CN 2013071902 W CN2013071902 W CN 2013071902W WO 2013127326 A1 WO2013127326 A1 WO 2013127326A1
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WO
WIPO (PCT)
Prior art keywords
communication system
terminal
service
link
wireless communication
Prior art date
Application number
PCT/CN2013/071902
Other languages
English (en)
French (fr)
Inventor
李汉涛
黄敏
Original Assignee
华为技术有限公司
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 华为技术有限公司 filed Critical 华为技术有限公司
Priority to EP13755343.4A priority Critical patent/EP2814297B1/en
Priority to KR1020147027223A priority patent/KR101632254B1/ko
Priority to EP16202633.0A priority patent/EP3223576B1/en
Priority to JP2014559073A priority patent/JP5930442B2/ja
Priority to ES13755343.4T priority patent/ES2625387T3/es
Publication of WO2013127326A1 publication Critical patent/WO2013127326A1/zh
Priority to US14/470,625 priority patent/US9832765B2/en
Priority to US15/725,009 priority patent/US10383104B2/en

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Classifications

    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W48/00Access restriction; Network selection; Access point selection
    • H04W48/18Selecting a network or a communication service
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W76/00Connection management
    • H04W76/10Connection setup
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W72/00Local resource management
    • H04W72/20Control channels or signalling for resource management
    • H04W72/23Control channels or signalling for resource management in the downlink direction of a wireless link, i.e. towards a terminal
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W24/00Supervisory, monitoring or testing arrangements
    • H04W24/08Testing, supervising or monitoring using real traffic
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W24/00Supervisory, monitoring or testing arrangements
    • H04W24/10Scheduling measurement reports ; Arrangements for measurement reports
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W36/00Hand-off or reselection arrangements
    • H04W36/0005Control or signalling for completing the hand-off
    • H04W36/0055Transmission or use of information for re-establishing the radio link
    • H04W36/0066Transmission or use of information for re-establishing the radio link of control information between different types of networks in order to establish a new radio link in the target network
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W72/00Local resource management
    • H04W72/20Control channels or signalling for resource management
    • H04W72/21Control channels or signalling for resource management in the uplink direction of a wireless link, i.e. towards the network
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W76/00Connection management
    • H04W76/10Connection setup
    • H04W76/15Setup of multiple wireless link connections
    • H04W76/16Involving different core network technologies, e.g. a packet-switched [PS] bearer in combination with a circuit-switched [CS] bearer
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W88/00Devices specially adapted for wireless communication networks, e.g. terminals, base stations or access point devices
    • H04W88/18Service support devices; Network management devices
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W68/00User notification, e.g. alerting and paging, for incoming communication, change of service or the like
    • H04W68/12Inter-network notification
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W88/00Devices specially adapted for wireless communication networks, e.g. terminals, base stations or access point devices
    • H04W88/02Terminal devices
    • H04W88/06Terminal devices adapted for operation in multiple networks or having at least two operational modes, e.g. multi-mode terminals

Definitions

  • Control method, control server and terminal for multi-mode wireless communication system The present application claims a control method, control server and terminal for multi-mode wireless communication system, which is filed on February 29, 2012, with the application number 201210050093.X. The priority of the Chinese application, the entire contents of which is incorporated herein by reference.
  • the present invention relates to the field of mobile communication technologies, and in particular, to a control method, a control server, and a terminal of a multimode wireless communication system. Background technique
  • Embodiments of the present invention provide a control method, a control server, and a terminal of a multimode wireless communication system to improve radio resource utilization and user experience of a multimode wireless communication system.
  • an embodiment of the present invention provides a control method for a multimode wireless communication system, including: a control server establishing a basic link between a terminal and any communication system in a multimode wireless communication system according to a first setting condition;
  • the control server determines a target communication system for service transmission for each service of the terminal in the multimode wireless communication system according to the second setting condition;
  • the control server sends control information to the terminal on the base link, and the control information is used to indicate the service communication system for each service transmission of the terminal.
  • the embodiment of the present invention further provides a control method for a multimode wireless communication system, including: the terminal receives control information sent by a control server on a basic link, and the control information is used to indicate Each service of the terminal transmits a service communication system, and the basic link is established between the terminal and any communication system in the multimode wireless communication system, and the service communication system is controlled by the control server in the multimode wireless communication system. determine;
  • the terminal establishes and/or releases a corresponding link for each service according to the service communication system indicated by the control information.
  • an embodiment of the present invention further provides a control server, including:
  • a processor configured to establish a basic link between the terminal and any communication system in the multimode wireless communication system according to the first setting condition; and configured to be a terminal in the multimode wireless communication system according to the second setting condition
  • Each service determines the service communication system for service transmission
  • the transceiver is configured to send control information to the terminal on the basic link, where the control information is used to indicate a service communication system used by each service of the terminal.
  • the present invention provides a terminal, including:
  • a transceiver configured to receive, on a first basic link, control information sent by a control server, where the control information is used to indicate a service communication system used by each service of the terminal, and the basic link is used in the terminal and the multimode wireless communication system.
  • the service communication system is determined by the control server in the multi-mode wireless communication system for each service of the terminal;
  • a processor configured to establish and/or release a corresponding link for each service according to the service communication system indicated by the control information.
  • control server disposed on the radio access network side first establishes a basic link between the terminal and a communication system, and then based on the basic link
  • the terminal sends control information, and the control terminal establishes or releases a corresponding link according to the service communication system of each service determined by the control server, thereby improving the radio resource utilization rate and the user of the multi-mode wireless communication system in the environment of the multi-mode wireless communication system.
  • 1 is a flowchart of an embodiment of a control method of a multimode wireless communication system provided by the present invention
  • 2 is a flowchart of still another embodiment of a control method of a multimode wireless communication system according to the present invention
  • FIG. 3 is a flow chart of an embodiment of establishing a base link and updating a base link according to the present invention
  • FIG. 4 is a flowchart of an embodiment of a basic link control terminal based on a basic link control terminal for performing service transmission using various communication systems;
  • FIG. 5 is a flowchart of still another embodiment of a basic link control terminal for performing service transmission using various communication systems according to the present invention.
  • FIG. 6 is a schematic structural diagram of an embodiment of a control server provided by the present invention.
  • FIG. 7 is a schematic structural diagram of an embodiment of a terminal provided by the present invention.
  • FIG. 8 is a schematic structural diagram of still another embodiment of a terminal provided by the present invention.
  • FIG. 1 is a flow chart of an embodiment of a method for controlling a multi-mode wireless communication system according to the present invention. As shown in FIG. 1, the method includes:
  • the control server establishes a basic link between the terminal and any one of the communication systems in the multimode wireless communication system according to the first setting condition.
  • the control server determines, according to the second setting condition, a service communication system for service transmission of each service of the terminal in the multimode wireless communication system;
  • the control server sends control information to the terminal on the basic link, where the control information is used to indicate a service communication system used by each service of the terminal.
  • the MI RADIO Control Server of the above steps may be a device that is independently installed on the radio access network (RAN) or other device on the radio access network side, for example, an evolved base station. (evolved Node B, eNodeB, Radio Network Controller (RNC) and other device integration settings, that is, the control server can be a function module of other devices on the radio access network side.
  • the control server can Providing an application programming interface for each communication system in a multimode wireless communication system on the wireless access network side
  • API Application Programming Interface
  • the multi-mode wireless communication system may specifically include: Global System of Mobile Communication (GSM) in the 3rd Generation Partnership Project (3GPP), Wideband Code Division (Wideband Code Division) Multiple Access (WCDMA), Time Division-Synchronous Code Division Multiple Access (TD-SCDMA), Long Term Evolution (LTE), etc., may also include non-3GPP global wave interconnection access ( Worldwide Interoperability for Microwave Access, WIMAX), Code Division Multiple Access (CDMA), Wireless Local Area Networks (WLAN), Bluetooth, Zigbee, etc.
  • GSM Global System of Mobile Communication
  • 3GPP 3rd Generation Partnership Project
  • WCDMA Wideband Code Division
  • TD-SCDMA Time Division-Synchronous Code Division Multiple Access
  • LTE Long Term Evolution
  • WIMAX Worldwide Interoperability for Microwave Access
  • CDMA Code Division Multiple Access
  • WLAN Wireless Local Area Networks
  • Bluetooth Zigbee, etc.
  • the control server set on the RAN side can first establish a basic link between the terminal and any communication system in the multimode wireless communication system according to the first setting condition.
  • the first setting condition may include one or a combination of the following information: continuous coverage of each communication system in the multi-mode wireless communication system, load status of each communication system, service processing capability of the terminal, and operator policy. That is, the control server can first select an optimal wireless communication system in the multimode wireless communication system based on the above information, and establish a basic link between the terminal and the wireless communication communication.
  • the control server may determine, according to actual requirements of the terminal service transmission, which of the first set conditions are selected to select the base link.
  • the continuous coverage of each communication system in the multimode wireless communication system refers to: Whether the wireless communication system can achieve seamless continuous coverage.
  • the control server may select a wireless communication system with better coverage to establish a basic link, for example, in a dual-mode wireless communication system composed of a Universal Mobile Telecommunications System (UMTS) and LTE, the control server may select UMTS with better coverage; in a multi-mode wireless communication system composed of UMTS, LTE, and WLAN, the control server can select UMTS or LTE, and does not select a WLAN that does not support handover or poor coverage.
  • UMTS Universal Mobile Telecommunications System
  • the basic link Since the basic link needs to be used as a control link to carry control information sent by the control server to the terminal, the basic link needs to remain active during the transmission of the terminal service, which causes a certain overhead to the wireless communication system. , the control server needs to select the underlying link Consider the load condition of the wireless communication system to ensure that there are available radio resources on the underlying link.
  • the load status of each communication system also includes terminal information of the user in the current service area, and the like. The load status of each communication system may be reported by each communication system, or may be queried by the control server.
  • the service processing capability of the terminal may specifically include: whether the terminal supports each communication system in the multi-mode wireless communication system, the rate information of the terminal receiving and transmitting service data, and the hardware configuration of the terminal.
  • the server can query the service processing capability of the terminal in the network side device. Alternatively, the terminal may report the service processing capability information to the control server.
  • the operator policy may be a policy specified by an operator of each communication system in the multi-mode wireless communication system according to actual service requirements, for example: a service with low added value may be transmitted through WIFI, and a voice call or video call service may be transmitted through a 3G network. Wait.
  • the control server may also use other information, such as: link quality of each communication system, as the first setting condition according to actual needs, and establish a basic link between the terminal and any wireless communication system in the multimode wireless communication system. .
  • the control server disposed on the network side may directly select a communication system in each multi-mode wireless communication system according to the first setting condition. Establishing a basic link between the selected communication system and the terminal;
  • the terminal may first establish an initial link to initiate a service to the network side, where the initial link may be a default link between the terminal and the multi-mode wireless communication system ( The default link may be a pre-agreed by the terminal and the network side, and the link of the wireless communication system is used as the initial link when the terminal initiates the service, or may be the last time the terminal transmits the service and the multimode wireless system.
  • the terminal can report the service processing capability information of the terminal to the control server through the initial link, and the control server can select the basic link according to the first setting condition, and determine whether the selected basic link and the initial link are the same wireless communication.
  • the link of the system if yes, the control server may use the initial link as a basic link, and send control information to the terminal through the link to control the service transmission of the terminal; if not, the control server may initiate the initial link to the basic Link switching.
  • the terminal establishes a basic chain between any wireless communication system in the multimode wireless communication system PDP) connection and Radio Resource Control (RRC) connection.
  • PDP multimode wireless communication system
  • RRC Radio Resource Control
  • the control server may be in each wireless communication system for each service of the terminal in each wireless communication system according to the second setting condition.
  • the service communication system involved in the embodiment of the present invention is a communication system carrying terminal services.
  • the service communication system may be a communication system corresponding to the basic link, or may be another communication system.
  • the communication system can include a communication system as well as a variety of communication systems.
  • the control server can also determine which of the second set conditions to select the service communication system based on the actual needs of the terminal service transmission.
  • the second setting condition may include one or a combination of the following information: service requirements of the terminal, load status of each communication system in the multi-mode wireless communication system, link quality of each communication system, operator policy, and user policy .
  • the service requirements of the terminal may include: service attributes, for example: service type, specifically including Hypertext Transport Protocol (HTTP), File Transfer Protocol (FTP), streaming media, etc.; quality of service requirements
  • service attributes for example: service type, specifically including Hypertext Transport Protocol (HTTP), File Transfer Protocol (FTP), streaming media, etc.
  • quality of service requirements The requirements of the Quality Of Service (QOS) may include: delay, bit error rate, rate, and the like.
  • the video call of the mobile terminal needs to be transmitted in the 3GPP communication system, and the video file of the terminal needs to be transmitted in the WiFi communication mode.
  • the link quality of each communication system can be detected by the terminal and reported to the control server.
  • the terminal can receive the pilot signals of each communication system, and determine the link quality of each communication system according to the strength of the pilot signals.
  • the terminal can also measure the link quality of each communication system by other existing methods, which is not enumerated here.
  • the terminal can report the detected link quality of each communication system to the control server based on the basic link.
  • the network equipment in each communication system for example, the base station in LTE, the access point in the WiFi, etc., can measure the link quality in each communication system, and report the link quality to the control server.
  • the control server may also use other information as a second setting condition according to actual needs to determine a service communication system of each service of the terminal.
  • User policies can include: WIFI or LTE for low value-added services.
  • the terminal can report the service requirements of the terminal and the user policy to the control server through the basic link.
  • the carrier policy may be, for example, in a multi-mode wireless communication system composed of WLAN and 3G, which can carry a large amount of data through the WLAN, and a low QoS requirement service; in a multi-mode wireless communication system composed of GSM and LTE, the LTE bearer can be used. Large data volume service, carrying voice services in GSM Or UMTS, etc.
  • the control server may send control information to the terminal on the base link established between the terminal and the multimode wireless communication system, the control information being used to indicate the service communication system carried by the terminal for each service.
  • the terminal After receiving the control information sent by the control server, the terminal may perform a corresponding operation of establishing or releasing a link according to the service communication system determined by the control server for each service.
  • the basic link established between the terminal and the multi-mode wireless communication system keeps the connection state as much as possible during the service transmission process of the terminal, so that the control server can send control information to the terminal based on the basic link.
  • the terminal can report the service processing capability of the terminal, the user policy, and the link quality of each communication system measured by the terminal to the control server through the basic link, so that the control server can determine the service communication system for the terminal according to the information. That is, in the embodiment of the present invention, in the multi-mode wireless communication system, the control server transmits control information to the terminal on the basic link established between the terminal and the multi-mode wireless communication system, so that the control server management terminal of the RAN side uses each A wireless communication system performs service transmission.
  • connection between the control server and the terminal on the basic link may be carried as a special data service on a Data Radio Bearer (DRB) (as a high priority service), or as a type of message.
  • DRB Data Radio Bearer
  • the bearer is carried on a Signaling Radio Bearer (SRB) and can also be transmitted as a special service on a specific physical channel.
  • SRB Signaling Radio Bearer
  • the control server disposed on the radio access network side first establishes a basic link between the terminal and a communication system, and then sends control information to the terminal based on the basic link, and controls The terminal establishes or releases a corresponding link according to the service communication system of each service determined by the control server, thereby improving the wireless resource utilization and user experience of the multi-mode wireless communication system in the environment of the multi-mode wireless communication system.
  • FIG. 2 is a flow chart of still another embodiment of a control method for a multimode wireless communication system according to the present invention. As shown in FIG. 2, the method includes:
  • the terminal receives, on the basic link, control information sent by the control server, where the control information is used to indicate a service communication system used by each service of the terminal, and the basic link is in any communication system between the terminal and the multimode wireless communication system. Inter-establishment, the service communication system is determined by the control server in the multi-mode wireless communication system for each service of the terminal;
  • the terminal establishes and/or releases a corresponding link for each service according to the service communication system indicated by the control information.
  • the execution body of the above steps is a terminal, which may be a user equipment such as a mobile phone, a data card, or a PAD.
  • the client (MI RADIO Client) can be set to interact with the control server on the RAN side.
  • the network side control server may directly select a communication system in the multimode wireless communication system according to the first setting condition, and A basic link is established between the terminal and the communication system.
  • the first setting condition may include one or a combination of the following information: continuous coverage of each communication system in the multi-mode wireless communication system, load status of each communication system, service processing capability of the terminal, and operator policy. That is, the control server can first select an optimal link as the base link between the terminal and the multimode wireless communication system based on the above information.
  • the terminal may first establish an initial link to initiate a service to the network side, where the initial link may be a terminal and multi-mode wireless communication.
  • the default link between systems can also be the basic link established between the last service transmission of the terminal and the multimode wireless system.
  • the terminal may report the service processing capability information of the terminal to the control server by using the initial link, and the control server may select the basic link according to the first setting condition, and determine whether the selected basic link and the initial link are the same wireless communication system.
  • Link if yes, the control server can use the initial link as the basic link, and send control information to the terminal through the link to control the service transmission of the terminal; if not, the control server can initiate the initial link to the base chain. Road switching.
  • the control server can determine the service communication system for the service transmission for each service of the terminal in the multi-mode wireless communication system according to the second setting condition.
  • the second setting condition may include one or a combination of the following: service requirements of the terminal, load status of each communication system in the multi-mode wireless communication system, link quality of each communication system, operator policy, and user policy.
  • the control server may also use other information as a second setting condition according to actual needs to determine a service communication system for service transmission for each service of the terminal in the multimode wireless communication system.
  • the control server may send control information to the terminal on the basic link established between the terminal and the multimode wireless communication system, and the service communication system indicating the services of the terminal through the control information.
  • the terminal After receiving the control information sent by the control server on the first basic link, the terminal may perform the corresponding operation of establishing or releasing the link according to the service communication system determined by the control server for each service.
  • the control server disposed on the radio access network side transmits control information to the terminal based on the base link of the terminal and the RAN side, and the terminal indicates each of the control information sent by the control server according to the control information sent by the control server.
  • the service communication system of the service establishes or releases a corresponding link, thereby improving the radio resource utilization and user experience of the multimode wireless communication system in the environment of the multimode wireless communication system.
  • the above embodiment describes the control method of the multimode wireless communication system provided by the present invention through the control server and the terminal provided on the RAN side, respectively.
  • An embodiment of establishing a basic link and updating a basic link in a control method of a multimode wireless communication system is provided below. As shown in FIG. 3, the method includes:
  • the terminal includes a plurality of wireless communication modules, and each of the wireless communication modules can be used for one of a wireless communication module (which may be a network device) corresponding to the RAN side and a multimode wireless communication system.
  • the communication system establishes a connection.
  • the wireless communication module of the terminal has the same identifier as the wireless communication module corresponding to the RAN side, for example: both are the wireless communication module 1, or the wireless communication module 2, and the like.
  • the control server disposed on the network side selects a wireless communication system in the multi-mode wireless communication system according to the first setting condition, and establishes a basic link between the terminal and the wireless communication link.
  • the wireless communication module 1 in the terminal establishes a basic link with the wireless communication module 1 on the RAN side, and the basic link is an initial basic link.
  • the first setting condition may include: continuous coverage of each communication system in the multi-mode wireless communication system, load status of each communication system, service processing capability of the terminal, and operator policy.
  • the control server on the network side can directly perform any communication system in the terminal and the multi-mode wireless communication system according to the first setting condition.
  • Establishing a basic link between the terminal if the service between the terminal and the network side is initiated by the terminal, the terminal may first establish an initial link with the multimode wireless communication system, and the initial link may be terminal and multimode wireless communication.
  • the default link between systems can also be the basic link established between the last service transmission of the terminal and the multimode wireless system.
  • the terminal can report its own service processing capability information to the control server through the initial link.
  • the control server may select the basic link according to the first setting condition, and determine whether the selected basic link is the same as the initial link.
  • the link of the wireless communication system if yes, the control server can use the initial link as a basic link, and send control information to the terminal through the link to control the service transmission of the terminal; if not, the control server can initiate the initial link Switch to the underlying link.
  • the control server determines whether to trigger reselection of the basic link. If yes, S303 can be executed; otherwise, the process ends, or the control server can re-execute S302 at intervals.
  • the terminal can perform real-time detection on the basic link, and report the link quality of the detected basic link to the control server.
  • the terminal can report the link quality of the basic link to the control server through the basic link.
  • the link quality of the basic link can be reported to the control server by the network device corresponding to the basic link.
  • the control server can determine which of the first set conditions to select the base link based on the actual needs of the terminal service transmission. If the link quality of the underlying link does not meet the first set condition, the control server can trigger the reestablishment of the underlying link between the terminal and any of the communication systems in the multimode wireless communication system.
  • the setting condition can be determined by the control server according to the actual transmission situation.
  • the control server may determine whether to start measuring the current signal quality of the communication system other than the communication system corresponding to the basic link in the multimode wireless communication system. If the measurement is not started, execute S307 directly, otherwise execute S304.
  • the control server may determine that other than the initial basic link Whether the underlying link can serve as the underlying link. Specifically, the terminal may first determine, in other non-base links, whether the link in the service communication system can be used as an optional base link, and if so, the control server may not trigger the multi-mode wireless communication system.
  • the control server may trigger the base link in the multimode wireless communication system Measurement of current signal quality of other communication systems other than the corresponding communication system.
  • the control server uses the link between the terminal and the service communication system as the basic link of the reselection, the establishment manner of the initial basic link may be used to re-establish according to the first set condition.
  • the underlying link between the terminal and the multimode wireless communication system may be used to re-establish according to the first set condition.
  • the control server sends a first measurement indication to the terminal, where the first measurement indication is used to indicate The current signal quality of other communication systems other than the communication system corresponding to the basic link in the multimode wireless communication system is measured.
  • the first measurement indication may carry cell information of other cells associated with the current service communication system specified by the control server, for example, information such as a cell ID and a frequency point number.
  • the terminal can perform signal quality measurement of the corresponding cell according to the cell information.
  • the other cells associated with the current service communication system may be cells that can be used to transmit terminal services in the current service communication system.
  • S305. The terminal measures a current signal quality of a communication system other than the communication system corresponding to the basic link in the multimode wireless communication system.
  • the terminal may measure the signal quality of the corresponding cell according to the cell information of the other cell that is carried by the control server in the first measurement indication and cooperates with the current service communication system.
  • the terminal reports the current signal quality of the other communication system except the communication system corresponding to the basic link in the multi-mode wireless communication system to the control server.
  • the control server re-establishes the basic link between the terminal and any one of the communication systems in the multi-mode wireless communication system according to the first setting condition.
  • the basic link re-established in S307 is called a newly established basic link.
  • the newly created basic link is established by the wireless communication module 2 in the terminal and the wireless communication module 2 on the RAN side.
  • the terminal reports the result of establishing a new basic link to the control server.
  • the terminal can report the success of the newly created basic link, and the IP address information of the terminal is reported to the control server through the newly established basic link.
  • the initial base link is released between the terminal and the multimode wireless communication system.
  • the wireless communication module 1 of the terminal and the wireless communication module 1 on the RAN side perform the release of the initial basic link operation.
  • the present invention further provides an embodiment in which the control server controls the terminal to use various communication systems for service transmission based on the basic link after the establishment of the basic link.
  • the method includes:
  • the control server determines, according to the third setting condition, whether to re-determine the service communication system for the terminal, where the third setting condition includes one or a combination of the following information: traffic of the terminal, each communication in the multi-mode wireless communication system. The system's load status, carrier policy, and user policy. If it is determined again, S402 is performed, otherwise S401 is re-executed. For example: When the traffic of the terminal exceeds a certain demand, or when the load of the service communication system is too heavy, or when one or more services of the terminal are more suitable for transmission under other communication systems, the control server can start multi-mode wireless. The management of the communication system re-determines the service communication system for various services of the terminal. The control server may add a service communication system to the service of the terminal to enable the service to be transmitted in at least two service communication systems; or, the control server may also reduce the service communication system of the service transmission of the terminal.
  • control server instructs the terminal to measure signal quality of the communication system other than the basic link and the current communication communication system in the multimode wireless communication system.
  • the communication system with the current service may be a communication system that can be used to transmit terminal services in the current service communication system. For example: In a multimode wireless communication system composed of a G network and a WLAN, it is necessary to determine whether the current G network is associated with an WLAN access point (Access Point, AP); in the UMTS and LTE boosting mode, whether the UMTS network is There is associated LTE. If the current service communication system has an associated other communication system, the terminal may be instructed to measure the signal quality of the communication system corresponding to the basic link and the communication system of the current service communication system in the multimode wireless communication system. Signal quality.
  • the control server sends a second measurement indication to the terminal, where the second measurement indication is used to indicate a signal quality of the communication system other than the basic link and the communication system other than the current service communication system in the measurement multi-mode wireless communication system.
  • the terminal measures, according to the second measurement indication, a signal quality of the communication system corresponding to the basic link and the communication system other than the current service communication system in the multimode wireless communication system.
  • the terminal reports the signal quality of the communication system corresponding to the basic link and the communication system other than the current service communication system to the control server in the multi-mode wireless communication system.
  • the control server determines, according to the second setting condition, a service communication system for service transmission of each service of the terminal in the multimode wireless communication system.
  • the second set condition may include one or a combination of the following: service requirements of the terminal, load status of each communication system in the multimode wireless communication system, link quality of each communication system, operator policy, and user policy.
  • the control server sends control information to the terminal on the basic link, where the control information is used to indicate a service communication system used by each service of the terminal.
  • the terminal performs off, on, or sleep control on the at least one wireless communication module according to the service communication system indicated by the control information.
  • a terminal may generally include multiple wireless communication modules, and each wireless communication module may be used to communicate with a multi-mode wireless communication system through a wireless communication module (which may be a network device) corresponding to the RAN side.
  • a communication system in the middle establishes a connection.
  • the wireless communication module of the terminal has the same identifier as the wireless communication module corresponding to the RAN side, for example: all are the wireless communication module 1, or the wireless communication module 2, and the like.
  • the wireless communication module 1 in the terminal establishes a basic link with the wireless communication module 1 on the RAN side.
  • the terminal may determine which wireless communication module needs to be used according to the target wireless communication system indicated by the control information, and which wireless communication module is temporarily unnecessary. For a wireless communication module that needs to establish a connection with a wireless communication module corresponding to the RAN side, the terminal may activate the wireless communication module to establish a link with a corresponding wireless communication system; for a wireless communication module that is not currently used, the terminal may be closed. The module or controls the module to enter a sleep state, thereby reducing the power consumption overhead of the terminal. For example, as shown in FIG. 4, after receiving the control information, the terminal turns on the wireless communication module 2. The wireless communication module 3 enters a sleep state, and the wireless communication module 1 is turned off.
  • the terminal may decide which wireless communication modules are closed or which wireless communication modules enter a sleep state according to factors such as the service usage requirements of the service communication system and the wireless communication module corresponding to the service communication system, and the wireless communication module enters a sleep state. time. For example, if the service communication system does not include WIFI, the terminal can close the wireless communication module corresponding to the WIFI mode, or enable the wireless communication module to enter a sleep state, and the sleep time can be set to, for example, 30 minutes. After reaching 30 minutes, the wireless communication module can If the service communication system indicated by the control information sent by the control server still does not include the WIFI, the terminal can close the wireless communication module corresponding to the WIFI mode. The terminal can determine whether each wireless communication module is turned on, off, or hibernated according to a specific implementation scenario.
  • control server may instruct the terminal to perform the operation of shutting down, sleeping, or starting the wireless communication module according to the current terminal load status, service attribute, user priority, and the like. Further, the control server may further indicate The sleep time of the terminal wireless communication module, etc., the terminal may control the corresponding wireless communication module to be turned on, hibernated or turned off according to the instruction of the control server. S409. The terminal establishes and/or releases a corresponding link for each service according to the service communication system indicated by the control information.
  • S410-S412 is an optional step. If any downlink service of the terminal is transmitted in at least two service communication systems, the control server may trigger the network device corresponding to the terminal or the service communication system to measure the link quality of the current service communication system. And enabling the control server to determine the proportion of data transmitted by the downlink service of the terminal in the at least two service communication systems according to the link quality of the current service communication system reported by the terminal.
  • the control server sends a third measurement indication to the terminal, where the third measurement indication is used to indicate that the link quality of the current service communication system is measured.
  • control server may further send a third measurement indication to the network device in the current service communication system, instructing the network device to report the link quality of the current service communication system.
  • the terminal measures the link quality of the service communication system.
  • the terminal reports the link quality of the service communication system to the control server.
  • the control server determines, according to load conditions and/or link quality of the at least two service communication systems, a proportion of data transmitted by any downlink service in the at least two service communication systems.
  • the control server sends the first offload information to the terminal on the basic link, where the first offload information is used to indicate a proportion of data transmitted by any downlink service of the terminal in the at least two service communication systems.
  • the terminal determines, according to the feature information of the at least two service communication systems, a receiving sequence of any downlink task in the at least two service communication systems.
  • the terminal reports the service transmission management result to the control server.
  • the feature information of the service communication system in S415 may include, for example, information such as a delay, a bit error rate, and the like.
  • the terminal may determine the receiving order of the downlink task in the at least two service communication systems according to the information such as the delay and the bit error rate of the service communication system.
  • S413-S415 may not be executed, and S410-S412 may or may not be executed.
  • S413-S415 may be performed, and then S410-S412 may be performed, that is, the control server may send the first offload information to the terminal, and the terminal may use the first offload information and the time of the service communication system.
  • Information such as delay and bit error rate determine that the downlink task is at least The order of reception in two service communication systems.
  • the feature information of the service communication system in S415 may include: first offload information and information such as a delay and a bit error rate of the service communication system.
  • S410-S416 is applicable to an implementation scenario in which a terminal has a downlink service that is concurrently transmitted in at least two service communication systems.
  • the control server determines the proportion of data transmitted by the downlink service in at least two service communication systems. And sending the first offload information to the terminal.
  • the terminal may combine the feature information of the at least two service communication systems according to the proportion of the data indicated in the first offload information, for example, information such as delay and bit error rate to determine that the downlink task is in at least two services.
  • the embodiment also provides an implementation scenario in which the terminal has uplink services that are concurrently transmitted in the at least two service communication systems.
  • the terminal may determine the proportion of data transmitted by the uplink service in the at least two service communication systems. And sending the second offload information to the control server.
  • the control server may determine the order of the uplink task in the at least two service communication systems according to the information of the delay and the bit error rate of the service communication system; or, the control server may according to the data ratio indicated in the second offload information and at least two services.
  • the characteristic information of the delay and the bit error rate of the communication system determines the receiving order of the uplink task in the at least two service communication systems, and controls the at least two service communication systems to receive the uplink service data from the terminal according to the receiving order.
  • the control server in a service transmission process between the terminal and the network, if there is no continuous coverage of any service communication system connected to the terminal, the control server is outside the coverage of the service communication system.
  • the terminal can control the service transmission between the terminal and the network side through the basic link, so that the link between the terminal and the service communication system (for example, WLAN) does not have continuous coverage, and the control server can ensure the continuity of the terminal service through the basic link. transmission.
  • the control server can complete the link between the terminal and the service communication system through the base link. Chaining (eg WLAN) ensures continuity of the terminal service.
  • the control server can assist the handover of the non-base link of the terminal through the basic link.
  • the control server can send the cell ID of the non-base link to the terminal through the basic link. , frequency information, etc. It is assumed that there is coordinated UMTS and LTE between the terminal and the network side within the current serving cell of the terminal, and the terminal performs service transmission through the link of the UMTS and the link of the LTE.
  • the control server may assist the control terminal to access the next cell through the basic link.
  • FIG. 5 is still another embodiment of the control server provided by the control server based on the basic link control terminal for performing service transmission by using various communication systems.
  • the multimode wireless communication system provided in this embodiment is LTE/UMTS and A carrier aggregation network of a WLAN.
  • the method specifically includes:
  • the control server disposed on the radio access network side is combined according to one or the following information: the traffic volume of the terminal, the load status of each communication system in the multi-mode wireless communication system, the operator policy, and the user policy, determining whether The service communication system is re-determined for the terminal in a multi-mode wireless communication system. If it is determined again, S502 is performed, otherwise S501 is re-executed.
  • the basic link is a link established between the terminal and the UMTS/LTE, and the control server determines whether the traffic is based on the traffic of the current terminal, the load status of each communication system in the multi-mode wireless communication system, the operator policy, and the user policy.
  • the terminal re-determines the service communication system to determine whether to re-determine the service communication system for the terminal in each communication system. For example: When the terminal traffic exceeds a certain demand, or when the UMTS/LTE load is too heavy, or the terminal service is more suitable for transmission under the WLAN communication system, the control server can initiate management of the multimode wireless communication system, which is the terminal Various services determine the business communication system.
  • control server instructs the terminal to measure signal quality of the communication system other than the basic link and the current service communication system in the multimode wireless communication system.
  • the control server may according to whether there is an associated WLAN network in the current UMTS/LTE mobile communication network, and if not, no further processing is performed; otherwise, S503 is performed.
  • the control server sends a second measurement indication to the terminal, where the second measurement indication is used to indicate signal quality of the communication system other than the basic link and the current communication communication system in the measurement multi-mode wireless communication system.
  • the terminal measures, according to the second communication system measurement indication, a signal quality of the communication system corresponding to the basic link and the other communication system except the current service communication system in the multimode wireless communication system.
  • the terminal reports the signal quality of the communication system corresponding to the basic link and the communication system other than the current service communication system to the control server in the multi-mode wireless communication system.
  • the control server determines, according to the second setting condition, a service communication system for service transmission for each service of the terminal in the multimode wireless communication system.
  • the control server can determine the most of the terminal according to the service requirements of the current terminal, the load status of each communication system in the multi-mode wireless communication system, the link quality of each communication system, the operator policy, and the user policy.
  • Excellent resource usage for example: Whether to use WLAN to transmit services, or to use multiple communication systems to transmit services concurrently.
  • the control server can usually send the terminal to the terminal on the basic link when the terminal and the network side have two modes of the wireless communication system. Control information, the control terminal accesses the WLAN, that is, after executing S501, the operation of S507 can be directly performed.
  • the control server sends control information to the terminal on the basic link, where the control information is used to indicate a service communication system used by each service of the terminal.
  • the control server can send control information to the terminal on the base link of the UMTS/LTE system.
  • the terminal performs off, on, or hibernation control on the at least one wireless communication module according to the service communication system indicated by the control information.
  • the control server can decide whether to initiate WIFI to perform traffic off according to factors such as network load and terminal service requirements, and send control information to the terminal through the 3G link.
  • the terminal receives the control information and can perform the corresponding operation of establishing or releasing the link. Specifically, if the control information indicates that the WLAN AP is only transmitted on the 3G link or the current cell is not bound to the WLAN AP, the terminal may turn off the WIFI module, thereby solving the problem that the terminal consumes power when the WIFI is turned on for a long time; if the control information indicates that the WIFI offload is started, The terminal can start the WIFI module to perform AP search and link establishment. If the control information indicates that the WLAN offload is temporarily stopped, the terminal can put the WIFI module into a sleep state.
  • This embodiment is applicable to a multimode communication system, and a mode is selected as a basic link for control.
  • the transmission of information can effectively solve the effective utilization of multiple resources between the terminal and the network in the multi-mode system, and determine the most effective transmission network and transmission mode for the terminal, which improves the user experience and greatly reduces the terminal of multi-mode and multi-standby. Power consumption problem.
  • the terminal establishes and/or releases a corresponding link for each service according to the service communication system indicated by the control information.
  • the terminal starts the WLAN module according to the control information, performs search, authentication, and chain establishment of the corresponding WLAN AP, and replies to the network side.
  • the control server can perform service transmission through UMTS/LTE, and enters a new one.
  • the WLAN coverage area of the cooperative function completes the establishment and service transmission of the WLAN network through the UMTS/LTE basic link.
  • the embodiment is applicable to a multi-mode communication system, and a communication system is selected as a basic link for transmitting control information, which can effectively solve the unified management problem of switching, concurrency and the like among the communication systems in the multi-mode wireless communication system.
  • the multimode wireless communication system provided in this embodiment is a carrier aggregation network of LTE/UMTS and WLAN, and for other types of multimode wireless communication systems, for example, a terminal service transmission control method corresponding to a multimode wireless communication system composed of UMTS and L See this embodiment.
  • the aforementioned program can be stored in a computer readable storage medium.
  • the program when executed, performs the steps including the above-described method embodiments; and the foregoing storage medium includes: a medium that can store program codes, such as a ROM, a RAM, a magnetic disk, or an optical disk.
  • control server includes: a processor 11 and a transceiver 12;
  • the processor 11 is configured to establish a basic link between the terminal and any one of the communication systems of the multimode wireless communication system according to the first setting condition, and configured to be in the multimode wireless communication system according to the second setting condition
  • Each service of the terminal determines a service communication system for service transmission;
  • the transceiver 12 is configured to send control information to the terminal on the basic link, where the control information is used to indicate a service communication system used by each service of the terminal.
  • the present invention further provides another embodiment of the control server.
  • the first setting condition may include one or a combination of the following information: each communication in the multi-mode wireless communication system. Continuous coverage of the system, load status of each communication system, service processing capability of the terminal, and operator policy.
  • the second setting condition may include one or a combination of the following information: service requirements of the terminal, load status of each communication system in the multi-mode wireless communication system, link quality of each communication system, operator policy, and User policy.
  • the processor 12 may be further configured to: determine, according to the first setting condition, an initial link established by the terminal as a basic link; or initiate an initial link to a basic link established by the terminal.
  • the initial link is the default link between the terminal and the multimode wireless communication system or the basic link established between the terminal and the multimode wireless communication system during the last service transmission.
  • the transceiver 11 may be configured to: receive the link quality of the basic link reported by the terminal, or receive the link quality of the basic link reported by the network device corresponding to the basic link;
  • the processor 12 is further configured to: if the link quality of the basic link does not meet the set condition, re-establish between the terminal and any communication system in the multi-mode wireless communication system according to the first setting condition.
  • the underlying link is further configured to: if the link quality of the basic link does not meet the set condition, re-establish between the terminal and any communication system in the multi-mode wireless communication system according to the first setting condition.
  • the underlying link is further configured to: if the link quality of the basic link does not meet the set condition, re-establish between the terminal and any communication system in the multi-mode wireless communication system according to the first setting condition.
  • the first setting condition may further include: a current signal quality of the communication system other than the communication system corresponding to the basic link in the multimode wireless communication system;
  • the transceiver 11 is further configured to: send a first measurement indication to the terminal, where the first measurement indication is used to indicate a current signal of the communication system other than the communication system corresponding to the basic link in the measurement multi-mode wireless communication system. Quality; and receiving the current signal quality of other communication systems other than the communication system corresponding to the basic link in the multi-mode wireless communication system reported by the terminal.
  • the processor 12 is further configured to: determine, according to the third setting condition, whether to re-determine the service communication system for the terminal, where the third setting condition is one or a combination of the following information: traffic of the terminal, multi-mode wireless Load status, operator policy, and user policy for each communication system in the communication system.
  • the second setting condition may further include: a signal quality of the communication system other than the communication system corresponding to the basic link and the current communication system in the multimode wireless communication system;
  • the transceiver 11 is further configured to: send a second measurement indication to the terminal, where the second measurement indication is used to indicate that the communication system corresponding to the basic link and the current service communication system in the multi-mode wireless communication system are measured Signal quality of the system; multimode wireless communication system reported by the receiving terminal The signal quality of other communication systems other than the communication system corresponding to the basic link and the current service communication system.
  • the processor 12 may be further configured to: determine any one of the following according to load conditions and/or link quality of the at least two service communication systems. The proportion of data transmitted by the line service in at least two service communication systems;
  • the transceiver 11 is further configured to: send the first offload information to the terminal on the basic link, where the first offload information is used to indicate the proportion of data transmitted by any downlink service of the terminal in the at least two service communication systems. .
  • the transceiver 11 is further configured to: send, to the terminal or the network device of the service communication system, a third measurement indication, where the third measurement indication is used to measure a link quality of the current service communication system; and the receiving terminal or the service communication system The link quality of the current service communication system reported by the network device.
  • the processor 12 is further configured to: determine, according to the feature information of the at least two service communication systems, that at least any uplink service of the terminal is at least The receiving order in the two service communication systems is such that the network side receives the uplink service data of the terminal in the at least two service communication systems according to the receiving order.
  • the feature information of the service communication system may include second offload information, where the second offload information is used to indicate a proportion of data transmitted by any uplink service of the terminal in the at least two service communication systems;
  • the transceiver 11 is further configured to: receive the second offload information sent by the terminal on the basic link.
  • the control server provided by the embodiment of the present invention which corresponds to the system control method of the multi-mode wireless communication system provided by the embodiment of the present invention, is an execution device of the system control method of the multi-mode wireless communication system provided by the embodiment of the present invention, and performs the same.
  • the specific process of the system control method of the multi-mode wireless communication system can be implemented by referring to the system control method of the multi-mode wireless communication system, and details are not described herein again.
  • the control server provided by the embodiment of the present invention may be a device that is independently configured on the radio access network side, or may be integrated with other devices on the radio access network side, for example, an eNodeB, an RNC, etc., that is, may be used as a radio access.
  • the control server can provide an API interface for each communication system in the multi-mode wireless communication system on the radio access network side, facilitating transmission control of each communication system.
  • the control server provided by the embodiment of the present invention establishes a basic chain between the terminal and a communication system. And transmitting control information to the terminal based on the basic link, and the control terminal establishes or releases the corresponding link according to the service communication system of each service determined by the control server, thereby improving multi-mode wireless in the environment of the multi-mode wireless communication system. Radio resource utilization and user experience of the communication system.
  • Figure 7 is a schematic structural diagram of an embodiment of a terminal provided by the present invention. As shown in Figure 7, the terminal includes: a transceiver 21 and a processor 22;
  • the transceiver 21 is configured to receive control information sent by the control server on the basic link, where the control information is used to indicate a service communication system used by each service of the terminal, and the basic link is controlled by the control server in the terminal and the multimode wireless communication system.
  • the service communication system is determined by the control server in the multi-mode wireless communication system for each service of the terminal;
  • the processor 22 is configured to establish and/or release a corresponding link for each service according to the service communication system indicated by the control information.
  • FIG. 8 is a schematic structural diagram of still another embodiment of a terminal according to the present invention.
  • the terminal includes: a transceiver 21, a processor 22, and a plurality of wireless communication modules 23, each of the wireless communication modules and the multimode wireless Corresponding to a communication system in the communication system;
  • the wireless communication module 23 is configured to: establish or release a link with a corresponding communication system under the control of the processor 22.
  • the processor 22 is further configured to: perform, disable, or control the at least one wireless communication module 23 according to the service communication system indicated by the control information.
  • the transceiver 21 can be configured to: establish an initial link with the multi-mode wireless communication system as a default link between the terminal and the multi-mode wireless communication system, or when the terminal transmits the last service The underlying link established between the modular wireless communication systems.
  • the processor 22 is further configured to: detect a link quality of the basic link;
  • the transceiver 21 is further configured to: report the link quality of the basic link to the control server, so that the control server determines whether to re-establish the basic link between the terminal and any communication system in the multi-mode wireless communication system. .
  • the transceiver 21 is further configured to: receive a first measurement indication sent by the control server, where the first measurement indication is used to indicate that the communication system other than the communication system corresponding to the basic link in the measurement multi-mode wireless communication system is currently Signal quality;
  • the processor 22 is further configured to: measure current signal quality of the communication system other than the communication system corresponding to the basic link in the multimode wireless communication system;
  • the transceiver 21 is further configured to: report the current signal quality of the communication system other than the communication system corresponding to the basic link in the multi-mode wireless communication system to the control server.
  • the transceiver 21 is further configured to: receive a second measurement indication sent by the control server, where the second measurement indication is used to indicate that the communication system corresponding to the basic link and the current service communication system in the measurement multi-mode wireless communication system are Signal quality of other communication systems;
  • the processor 22 can also be configured to: measure signal quality of a communication system other than the basic link and other communication systems other than the current service communication system in the multimode wireless communication system;
  • the transceiver 21 can also be configured to: report the signal quality of the communication system corresponding to the basic link and the communication system other than the current service communication system to the control server in the multi-mode wireless communication system.
  • the processor 22 is further configured to: determine, according to the feature information of the at least two service communication systems, that at least one downlink task of the terminal is at least The order of reception in the two service communication systems, and receiving downlink service data in at least two communication systems according to the order of reception.
  • the feature information of the service communication system includes the first offload information, where the first offload information is used to indicate the proportion of data transmitted by any downlink service of the terminal in the at least two service communication systems; correspondingly, the transceiver may also be used.
  • the processor 22 may be further configured to: determine any uplink according to load conditions and/or link quality of the at least two service communication systems. The proportion of data transmitted by the service in at least two service communication systems;
  • the transceiver 21 is further configured to: send the second offload information to the control server on the basic link, where the second offload information is used to indicate the proportion of data transmitted by any uplink service of the terminal in the at least two service communication systems.
  • the terminal provided by the embodiment of the present invention corresponding to the system control method of the multi-mode wireless communication system provided by the embodiment of the present invention, is an execution device of the system control method of the multi-mode wireless communication system provided by the embodiment of the present invention, and the execution thereof is performed.
  • the specific process of the system control method of the mode wireless communication system refer to the implementation of the system control method of the multimode wireless communication system, and details are not described herein again.
  • the terminal provided by the embodiment of the present invention first establishes a basic link with a communication system, and then receives control information sent by the radio access network side control server based on the basic link, and the terminal establishes according to the service communication system of each service determined by the control server. Or release the corresponding link to improve the wireless resource utilization and user experience of the multi-mode wireless communication system in the environment of the multi-mode wireless communication system.

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Abstract

本发明实施例提供一种多模无线通信系统的控制方法、控制服务器和终端。一种方法包括:控制服务器根据第一设定条件,在终端与多模无线通信系统中任一通信系统之间建立基础链路;控制服务器根据第二设定条件,在多模无线通信系统中为终端的各业务确定业务传输的业务通信系统;控制服务器在基础链路上向终端发送控制信息,控制信息用于指示终端的各业务传输采用的业务通信系统。本发明实施例,提高多模通信系统的无线资源利用率和用户体验。

Description

多模无线通信系统的控制方法、 控制服务器和终端 本申请要求了 2012年 02月 29 日提交的、 申请号为 201210050093.X、 发明名称为"多模无线通信系统的控制方法、 控制服务器和终端"的中国申请 的优先权, 其全部内容通过引用结合在本申请中。
技术领域
本发明涉及移动通信技术领域, 尤其涉及一种多模无线通信系统的控制 方法、 控制服务器和终端。 背景技术
现有移动通信系统包括各种无线网络, 每种无线接入技术在容量、覆盖、 数据速率和移动性支持能力等方面各具特色。 随着已有的无线接入技术不断 演进, 新型无线接入技术也不断出现, 它们相互补充、 融合和集成。 目前, 各类多模无线通信系统的整合方案层出不穷, 这些多模无线系统的整合方案 为用户提供统一的无线服务。 现有技术中, 釆用多模制式的终端在使用不同的业务时, 核心网侧的网 关根据业务的特性将业务数据分发到不同的无线通信系统中。 然而, 这种方 法使得多模无线通信系统的无线资源的利用率低。 发明内容
本发明实施例提供一种多模无线通信系统的控制方法、 控制服务器和终 端, 以提高多模无线通信系统的无线资源利用率和用户体验。
一方面, 本发明实施例提供一种多模无线通信系统的控制方法, 包括: 控制服务器根据第一设定条件, 在终端与多模无线通信系统中任一通信 系统之间建立基础链路;
控制服务器根据第二设定条件, 在多模无线通信系统中为终端的各业务 确定业务传输的目标通信系统;
控制服务器在基础链路上向终端发送控制信息, 控制信息用于指示终 端的各业务传输釆用的业务通信系统。
本发明实施例还提供一种多模无线通信系统的控制方法, 包括: 终端在基础链路上接收控制服务器发送的控制信息, 控制信息用于指示 终端的各业务传输釆用的业务通信系统, 基础链路在终端与多模无线通信 系统中任一通信系统之间建立, 业务通信系统由控制服务器在多模无线通信 系统中为终端的各业务确定;
终端根据控制信息所指示的业务通信系统, 为各业务建立和 /或释放相应 的链路。
另一方面, 本发明实施例还提供一种控制服务器, 包括:
处理器, 用于根据第一设定条件, 在终端与多模无线通信系统中任一通 信系统之间建立基础链路; 并用于根据第二设定条件, 在多模无线通信系统 中为终端的各业务确定业务传输的业务通信系统;
收发器, 用于在基础链路上向终端发送控制信息, 控制信息用于指示 终端的各业务传输釆用的业务通信系统。
再一方面, 本发明还提供一种终端, 包括:
收发器, 用于在第一基础链路上接收控制服务器发送的控制信息, 控制 信息用于指示终端的各业务传输釆用的业务通信系统, 基础链路在终端与 多模无线通信系统中任一通信系统之间建立, 业务通信系统由控制服务器在 多模无线通信系统中为终端的各业务确定;
处理器, 用于根据控制信息所指示的业务通信系统, 为各业务建立和 /或 释放相应的链路。
本发明实施例提供的多模无线通信系统的控制方法、控制服务器和终端, 设置在无线接入网侧的控制服务器首先在终端与一个通信系统间建立基础链 路, 再基于该基础链路向终端发送控制信息, 控制终端根据控制服务器确定 的各业务的业务通信系统建立或释放相应的链路, 从而在多模无线通信系统 的环境下, 提高多模无线通信系统的无线资源利用率和用户体验。 附图说明 为了更清楚地说明本发明实施例或现有技术中的技术方案, 下面将对实 施例或现有技术描述中所需要使用的附图作简单地介绍, 显而易见地, 下面 描述中的附图是本发明的一些实施例, 对于本领域普通技术人员来讲, 在不 付出创造性劳动性的前提下, 还可以根据这些附图获得其他的附图。
图 1 为本发明提供的多模无线通信系统的控制方法一个实施例的流程 图; 图 2为本发明提供的多模无线通信系统的控制方法又一个实施例的流程 图;
图 3为本发明提供的建立基础链路以及更新基础链路的一个实施例的流 程图;
图 4为本发明提供的基于基础链路控制终端使用各种通信系统进行业务 传输的一个实施例的流程图;
图 5为本发明提供的基于基础链路控制终端使用各种通信系统进行业务 传输的又一个实施例的流程图;
图 6为本发明提供的控制服务器一个实施例的结构示意图;
图 7为本发明提供的终端一个实施例的结构示意图;
图 8为本发明提供的终端又一个实施例的结构示意图。
具体实施方式 为使本发明实施例的目的、 技术方案和优点更加清楚, 下面将结合本发 明实施例中的附图, 对本发明实施例中的技术方案进行清楚、 完整地描述, 显然, 所描述的实施例是本发明一部分实施例, 而不是全部的实施例。 基于 本发明中的实施例, 本领域普通技术人员在没有做出创造性劳动前提下所获 得的所有其他实施例, 都属于本发明保护的范围。 图 1 为本发明提供的多模无线通信系统的控制方法一个实施例的流程 图, 如图 1所示, 该方法包括:
5101、 控制服务器根据第一设定条件, 在终端与多模无线通信系统中任 一通信系统之间建立基础链路;
5102、 控制服务器根据第二设定条件, 在多模无线通信系统中为终端的 各业务确定业务传输的业务通信系统;
5103、 控制服务器在基础链路上向终端发送控制信息, 控制信息用于 指示终端的各业务传输釆用的业务通信系统。
以上步骤的执行主体控制服务器(MI RADIO Control Server ) , 可以为 独立设置在无线接入网侧( Radio Access Network, RAN )的设备, 也可以与 无线接入网侧的其他设备, 例如: 演进基站(evolved Node B, eNodeB、 无 线网络控制器(Radio Network Controller, RNC )等设备集成设置, 即, 该控 制服务器可以为无线接入网侧其他设备中的一个功能模块。 控制服务器可以 为无线接入网侧的多模无线通信系统中各通信系统提供应用程序编程接口
( Application Programming Interface, API ) , 便于对各通信系统的传输控制。
本发明实施例中, 终端与 RAN侧之间存在多模无线通信系统, 即, 终端 可以同时使用一个或多个无线通信系统的业务。 该多模无线通信系统具体可 以包括: 第三代合作伙伴计划( The 3rd Generation Partnership Project, 3 GPP ) 中的全球移动通信系统 ( Global System of Mobile communication, GSM ) 、 宽带码多分址(Wideband Code Division Multiple Access, WCDMA ) 、 时分 同步码多分址 ( Time Division- Synchronous Code Division Multiple Access, TD-SCDMA ) 、 长期演进(Long Term Evolution, LTE )等, 也可以包括非 3 GPP的全球 波互联接入 ( Worldwide Interoperability for Microwave Access, WIMAX ) 、 码多分址(Code Division Multiple Access, CDMA ) , 无线局域 网络(Wireless Local Area Networks, WLAN ) 、 蓝牙、 紫蜂( Zigbee )等。
设置在 RAN侧的控制服务器首先可以根据第一设定条件,在终端与多模 无线通信系统中任一通信系统之间建立基础链路。 其中, 第一设定条件可以 包括以下信息中的一种或组合: 多模无线通信系统中各通信系统的连续覆盖 性、 各通信系统的负载状况、 终端的业务处理能力和运营商策略。 即, 控制 服务器可以根据上述信息, 首先在多模无线通信系统中选择一个最优的无线 通信系统, 在终端与该无线通信通信之间建立基础链路。
其中, 控制服务器可以根据终端业务传输的实际需求, 来确定根据第一 设定条件中的哪些因素选择基础链路。
具体的, 多模无线通信系统中各通信系统的连续覆盖性是指: 无线通信 系统是否能够实现无缝连续覆盖。 优选的, 控制服务器可以选择覆盖性较好 的无线通信系统建立基础链路,例如:在通用移动通信系统( Universal Mobile Telecommunications System, UMTS )和 LTE构成的双模无线通信系统中, 控 制服务器可以选择覆盖性能较好的 UMTS; 而在 UMTS、 LTE和 WLAN等构 成的多模无线通信系统中, 控制服务器可以选择 UMTS或 LTE, 而不选择不 支持切换、 覆盖性较差的 WLAN等。
由于基础链路需要作为控制链路来承载控制服务器向终端发送的控制信 息, 因此, 基础链路需要在终端业务的传输过程中保持激活状态, 这就会对 无线通信系统造成一定的开销, 因此, 控制服务器在选择基础链路时, 需要 考虑无线通信系统的负载状况, 以保证基础链路上具有可用的无线资源。 另 外, 各通信系统的负载状况还包括了用户在当前服务区中的终端信息等。 其 中, 各通信系统的负载状况可以由各通信系统上报, 也可以由控制服务器查 询获知。
终端的业务处理能力可以具体包括: 终端对多模无线通信系统中的各通 信系统是否支持,终端收发业务数据的速率信息以及终端的硬件配置情况等。 服务器可以在网络侧设备中查询终端的业务处理能力。 或者, 终端也可以将 业务处理能力信息上报给控制服务器。
运营商策略可以是多模无线通信系统中各通信系统的运营商根据实际业 务需要指定的策略, 例如: 低附加值的业务可以通过 WIFI来传输, 语音通话 或视频通话业务可以通过 3G网络来传输等。
控制服务器还可以根据实际需要, 将其他信息, 例如: 各通信系统的链 路质量等信息作为第一设定条件, 在终端与多模无线通信系统中的任意无线 通信系统之间建立基础链路。
需要说明的是, 在一种实施场景下, 如果业务由网络侧发起, 则设置在 网络侧的控制服务器可以直接根据第一设定条件, 在各多模无线通信系统中 选择一通信系统, 在所选择的通信系统和该终端之间建立基础链路;
在另一种实施场景下, 如果业务由终端发起, 则终端可以首先建立一条 初始链路来向网络侧发起业务, 该初始链路可以是终端与多模无线通信系统 之间的默认链路(其中, 该默认链路可以是终端与网络侧预先约定的, 在终 端发起业务时釆用哪个无线通信系统的链路作为初始链路) , 也可以是终 端最近一次业务传输时与多模无线系统之间建立的基础链路。 终端可以通过 初始链路将终端自身的业务处理能力信息上报给控制服务器, 控制服务器可 以根据第一设定条件选择基础链路, 再判断所选择的基础链路与初始链路是 否为同一无线通信系统的链路, 如果是, 则控制服务器可以将初始链路作为 基础链路, 通过该链路向终端发送控制信息来控制终端的业务传输; 如果不 是, 则控制服务器可以发起初始链路到基础链路的切换。
其中, 终端与多模无线通信系统中的任一无线通信系统之间建立基础链 PDP )连接和无线资源控制 (Radio Resource Control, RRC )连接。
终端与多模无线通信系统中的任一无线通信系统之间建立基础链路后, 控制服务器可以根据第二设定条件, 在各个无线通信系统中为终端的每个业 务在哪个无线通信系统中传输, 本发明实施例中涉及的业务通信系统, 为承 载终端业务的通信系统。 其中, 业务通信系统可以是基础链路对应的通信系 统, 也可以是其他通信系统。 业务通信系统可以包括一种通信系统, 也可以 包括多种通信系统。
控制服务器同样可以根据终端业务传输的实际需求, 来确定根据第二设 定条件中的哪些因素选择业务通信系统。 其中, 第二设定条件可以包括以下 信息中的一种或组合: 终端的业务需求、 多模无线通信系统中各通信系统的 负载状况、 各通信系统的链路质量、 运营商策略和用户策略。
其中, 终端的业务需求可以包括: 业务属性, 例如: 业务类型, 具体可 以包括超文本传输协议(Hypertext Transport Protocol, HTTP ) 、 文本传输协 议( File Transfer Protocol, FTP )、流媒体等;服务质量要求( Quality Of Service, QOS ) 的要求, 具体可以包括: 时延、 误码率、 速率等。 例如: 移动终端的 视频通话需要在 3GPP通信系统中传输, 终端的视频文件需要在 WiFi通信模 式中传输等。
各通信系统的链路质量可以由终端进行检测并上报给控制服务器,例如: 终端可以接收各通信系统的导频信号, 根据导频信号的强度确定各通信系统 的链路质量。 终端还可以通过现有的其他方式测量各通信系统的链路质量, 在此不——列举。 终端可以基于基础链路将检测得到的各通信系统的链路质 量上报给控制服务器。 或者, 各通信系统中的网络设备, 例如: LTE中的基 站, WiFi中的接入点等, 可以测量得到各通信系统中的链路质量, 并将链路 质量上报给控制服务器。 控制服务器还可以根据实际需要, 将其他信息作为 第二设定条件, 来确定终端各业务的业务通信系统。
用户策略可以包括: 对于低附加值的业务优先选择 WIFI或 LTE等。 终 端可以通过基础链路向控制服务器上报终端的业务需求以及用户策略。
运营商策略可以是,例如:在 WLAN和 3G构成的多模无线通信系统中, 可以通过 WLAN承载大数据量, 低 QoS要求业务; GSM和 LTE构成的多模 无线通信系统中,可以通过 LTE承载大数据量业务,将语音业务承载在 GSM 或者 UMTS等。
控制服务器可以在终端与多模无线通信系统之间建立的基础链路上向终 端发送控制信息, 该控制信息用于为终端的各业务指示所承载的业务通信系 统。 终端接收到控制服务器发送的控制信息后, 可以根据控制服务器对各个 业务确定的业务通信系统执行相应的建立或释放链路的操作。
需要说明的是, 终端与多模无线通信系统之间建立的基础链路, 在终端 的业务传输过程中尽量保持连接状态, 以便控制服务器可以基于基础链路向 终端发送控制信息。 或者, 能够使终端通过基础链路向控制服务器上报终端 的业务处理能力、 用户策略、 终端测量的各通信系统的链路质量等信息, 以 使控制服务器能够根据这些信息为终端确定业务通信系统。 即, 本发明实施 例, 在多模无线通信系统下, 控制服务器通过在终端与多模无线通信系统之 间建立的基础链路上向终端发送控制信息,实现 RAN侧的控制服务器管理终 端使用各种无线通信系统进行业务传输。
可选的, 基础链路上的控制服务器与终端的连接可以作为一种特殊的数 据业务承载在数据无线承载(Data Radio Bearer, DRB )上(作为高优先级业 务),也可以作为一种信令承载在信号无线承载( Signaling Radio Bearer, SRB ) 上, 还可以作为特殊业务在特定的物理信道上传输。
本实施例提供的多模无线通信系统的控制方法, 设置在无线接入网侧的 控制服务器首先在终端与一个通信系统间建立基础链路, 再基于该基础链路 向终端发送控制信息, 控制终端根据控制服务器确定的各业务的业务通信系 统建立或释放相应的链路, 从而在多模无线通信系统的环境下, 提高多模无 线通信系统的无线资源利用率和用户体验。
图 2为本发明提供的多模无线通信系统的控制方法又一个实施例的流程 图, 如图 2所示, 该方法包括:
5201、 终端在基础链路上接收控制服务器发送的控制信息, 控制信息用 于指示终端的各业务传输釆用的业务通信系统, 基础链路在终端与多模无 线通信系统中任一通信系统之间建立, 业务通信系统由控制服务器在多模无 线通信系统中为终端的各业务确定;
5202、 终端根据控制信息所指示的业务通信系统, 为各业务建立和 /或释 放相应的链路。 以上步骤的执行主体为终端, 可以是手机、 数据卡、 PAD等用户设备。 终端上可以设置客户端 ( MI RADIO Client )与 RAN侧的控制服务器交互。
作为一种可行的实施方式,如果终端与网络侧之间的业务由网络侧发起, 则网络侧的控制服务器可以直接根据第一设定条件, 在多模无线通信系统中 选择一通信系统, 并在终端与该通信系统之间建立基础链路。 其中, 第一设 定条件可以包括以下信息中的一种或组合: 多模无线通信系统中各通信系统 的连续覆盖性、各通信系统的负载状况、 终端的业务处理能力和运营商策略。 即, 控制服务器可以根据上述信息, 首先在终端和多模无线通信系统之间选 择一条最优的链路作为基础链路。
作为另一种可行的实施方式,如果终端与网络侧之间的业务由终端发起, 则终端可以首先建立一条初始链路来向网络侧发起业务, 该初始链路可以是 终端与多模无线通信系统之间的默认链路, 也可以是终端最近一次业务传输 时与多模无线系统之间建立的基础链路。 终端可以通过初始链路将自身的业 务处理能力信息上报给控制服务器, 控制服务器可以根据第一设定条件选择 基础链路, 再判断所选择的基础链路与初始链路是否为同一无线通信系统的 链路, 如果是, 则控制服务器可以将初始链路作为基础链路, 通过该链路向 终端发送控制信息来控制终端的业务传输; 如果不是, 则控制服务器可以发 起初始链路到基础链路的切换。
终端与多模无线通信系统之间建立基础链路后, 控制服务器可以根据第 二设定条件, 在多模无线通信系统中为终端的各业务确定业务传输的业务通 信系统。 第二设定条件可以包括以下信息中的一种或种组合: 终端的业务需 求、 多模无线通信系统中各通信系统的负载状况、 各通信系统的链路质量、 运营商策略和用户策略。 控制服务器还可以根据实际需要, 将其他信息作为 第二设定条件, 来在多模无线通信系统中为终端的各业务确定业务传输的业 务通信系统。
控制服务器可以在终端与多模无线通信系统之间建立的基础链路上向终 端发送控制信息, 通过该控制信息来指示终端的各业务的业务通信系统。
终端在第一基础链路上接收到控制服务器发送的控制信息后, 可以根据 控制服务器为各个业务确定的业务通信系统, 执行相应的建立或释放链路的 操作。 本实施例提供的多模无线通信系统的控制方法, 设置在无线接入网侧的 控制服务器基于终端与 RAN侧的基础链路向终端发送控制信息,终端根据控 制服务器发送的控制信息指示的各业务的业务通信系统, 建立或释放相应的 链路, 从而在多模无线通信系统的环境下, 提高多模无线通信系统的无线资 源利用率和用户体验。
以上实施例分别通过设置在 RAN侧的控制服务器和终端,对本发明提供 的多模无线通信系统的控制方法进行说明。 以下提供多模无线通信系统的控 制方法中, 建立基础链路以及更新基础链路的一个实施例, 如图 3所示, 该 方法包括:
图 3所示的实施例中, 终端中包括多个无线通信模块, 每个无线通信模 块可以用于通过 RAN侧对应的一个无线通信模块(可以是网络设备)与多模 无线通信系统中的一个通信系统建立连接。 为了便于描述, 本实施例中, 终 端的无线通信模块与 RAN侧对应的无线通信模块具有相同的标识, 例如: 均 为无线通信模块 1, 或无线通信模块 2等。
S301、 设置在网络侧的控制服务器根据第一设定条件, 在多模无线通信 系统选择一无线通信系统, 在终端与该无线通信链路之间建立基础链路。
其中,终端中的无线通信模块 1与 RAN侧的无线通信模块 1建立起基础 链路, 该基础链路为初始的基础链路。
第一设定条件可以包括: 多模无线通信系统中各通信系统的连续覆盖性、 各通信系统的负载状况、 终端的业务处理能力和运营商策略。
其中, 第一设定条件中包括的各种信息具体可参见前述实施例中的相关 描述, 在此不再赘述。
需要说明的是,如果终端与多模无线通信系统之间的业务由网络侧发起, 则网络侧的控制服务器可以直接根据第一设定条件, 在终端与多模无线通信 系统中任一通信系统之间建立基础链路; 如果终端与网络侧之间的业务由终 端发起, 则终端可以首先与多模无线通信系统之间建立一条初始链路, 该初 始链路可以是终端与多模无线通信系统之间的默认链路, 也可以是终端最近 一次业务传输时与多模无线系统之间建立的基础链路。 终端可以通过该初始 链路将自身的业务处理能力信息上报给控制服务器。 控制服务器可以根据第 一设定条件选择基础链路, 再判断所选择的基础链路与初始链路是否为同一 无线通信系统的链路, 如果是, 则控制服务器可以将初始链路作为基础链路, 通过该链路向终端发送控制信息来控制终端的业务传输; 如果不是, 则控制 服务器可以发起初始链路到基础链路的切换。
5302、 控制服务器判断是否触发基础链路的重选。 若是, 则可以执行 S303 ; 否则流程结束, 或者控制服务器还可以间隔一段时间重新执行 S302。
终端与多模无线通信系统之间建立基础链路之后, 可以由终端对基础链 路进行实时检测, 并将检测的基础链路的链路质量上报给控制服务器。 其中, 终端可以通过基础链路将基础链路的链路质量上报给控制服务器。 还可以由 基础链路对应的网络设备将基础链路的链路质量上报给控制服务器。
控制服务器可以根据终端业务传输的实际需求, 来确定根据第一设定条 件中的哪些因素选择基础链路。 如果基础链路的链路质量不满足第一设定条 件, 则控制服务器可以触发在终端与多模无线通信系统中任一通信系统之间 重新建立基础链路。 其中, 设定条件可以由控制服务器根据实际传输情况来 确定。
5303、 基础链路重选触发后, 控制服务器可以确定是否启动测量多模无 线通信系统中除基础链路对应的通信系统之外的其他通信系统当前的信号质 量。 如果不启动测量, 直接执行 S307 , 否则执行 S304。
具体的, 如果终端与业务通信系统之间的链路已经建立, 在终端的业务 传输过程中需要触发基础链路的重选, 则控制服务器可以判断除初始的基础 链路之外, 其他的非基础链路是否可以作为基础链路。 具体的, 终端可以在 其他的非基础链路中首先判断是否可以在业务通信系统中的链路是否可以作 为备选的基础链路, 如果可以, 则控制服务器可以不触发多模无线通信系统 中除基础链路对应的通信系统之外的其他通信系统当前的信号质量的测量; 如果业务通信系统中的链路不能作为基础链路, 则控制服务器可以触发多模 无线通信系统中除基础链路对应的通信系统之外的其他通信系统当前的信号 质量的测量。
需要说明的是, 如果控制服务器将终端与业务通信系统之间的链路作为 重选的基础链路, 则可以釆用类似于初始的基础链路的建立方式, 根据第一 设定条件重新建立终端与多模无线通信系统之间基础链路。
5304、 控制服务器向终端发送第一测量指示, 该第一测量指示用于指示 测量多模无线通信系统中除基础链路对应的通信系统之外的其他通信系统当 前的信号质量。
作为一种可行的实施方式, 第一测量指示中可以携带控制服务器指定的 与当前业务通信系统相关联的其他小区的小区信息, 例如: 小区 ID、 频点号 等信息。 终端可以根据这些小区信息进行相应小区的信号质量测量。 其中, 与当前业务通信系统相关联的其他小区可以是, 可以用于传输当前业务通信 系统中终端业务的小区。 S305、 终端对多模无线通信系统中除基础链路对应 的通信系统之外的其他通信系统当前的信号质量进行测量。
与 S304对应的,终端可以根据控制服务器在第一测量指示中携带的与当 前业务通信系统协同的其他小区的小区信息, 对对应小区的信号质量进行测 量。
5306、 终端将多模无线通信系统中除基础链路对应的通信系统之外的其 他通信系统当前的信号质量上报给控制服务器。
5307、 控制服务器根据第一设定条件, 在终端与多模无线通信系统中任 一通信系统之间重新建立基础链路。
S307中重新建立的基础链路称为新建的基础链路。 如图 3所示, 该新建 的基础链路通过终端中的无线通信模块 2与 RAN侧的无线通信模块 2建立。
5308、 终端向控制服务器上报新建基础链路的建链结果。
终端可以将新建的基础链路建立成功信息, 终端的 IP地址信息等通过新 建的基础链路上报给控制服务器。
5309、 终端与多模无线通信系统之间释放初始的基础链路。
终端的无线通信模块 1与 RAN侧的无线通信模块 1执行释放初始的基础 链路操作。
进一步的, 本发明还提供了基础链路建立后, 控制服务器基于基础链路 控制终端使用各种通信系统进行业务传输的一个实施例, 如图 4所示, 该方 法包括:
S401、 控制服务器根据第三设定条件确定是否为终端重新确定业务通信 系统, 其中, 第三设定条件包括以下信息中的一种或组合: 终端的业务量、 多模无线通信系统中各通信系统的负载状况、 运营商策略和用户策略。 如果 重新确定, 则执行 S402, 否则重新执行 S401。 例如: 当终端的业务量超过一定需求时, 或者, 业务通信系统的负载过 重时, 或者终端的某一种或多种业务更适合在其他通信系统下传输时, 控制 服务器可以启动多模无线通信系统的管理, 为终端的各种业务重新确定业务 通信系统。 其中, 控制服务器可以为终端的某以业务增加业务通信系统, 使 该业务在至少两个业务通信系统中传输; 或者, 控制服务器也可以减少终 端某一业务传输的业务通信系统。
5402、 若当前业务通信系统存在相关联的其他通信系统, 则控制服务器 指示终端测量多模无线通信系统中除基础链路对应的通信系统和当前业务通 信系统之外其他通信系统的信号质量。
其中, 与当前业务通信系统可以是, 能够用于传输当前业务通信系统中 终端业务的通信系统。 例如: 在 G网络和 WLAN构成的多模无线通信系统 中,需要确定当前的 G网络是否相关联的 WLAN接入点( Access Point, AP ); UMTS和 LTE推进(boosting )模式下, UMTS网络是否有相关联的 LTE。 如果当前业务通信系统存在相关联的其他通信系统, 则可以指示终端测量多 模无线通信系统中除基础链路对应的通信系统和当前业务通信系统之外其他 通信系统的信号质量当前业务通信系统的信号质量。
5403、 控制服务器向终端发送第二测量指示, 第二测量指示用于指示测 量多模无线通信系统中除基础链路对应的通信系统和当前业务通信系统之外 其他通信系统的信号质量。
5404、 终端根据第二测量指示, 对多模无线通信系统中除基础链路对应 的通信系统和当前业务通信系统之外其他通信系统的信号质量进行测量。
5405、 终端将多模无线通信系统中除基础链路对应的通信系统和当前业 务通信系统之外其他通信系统的信号质量上报给控制服务器。
5406、 控制服务器根据第二设定条件, 在多模无线通信系统中为终端的 各业务确定业务传输的业务通信系统。
第二设定条件可以包括以下信息中的一种或种组合: 终端的业务需求、 多模无线通信系统中各通信系统的负载状况、 各通信系统的链路质量、 运营 商策略和用户策略。
5407、 控制服务器在基础链路上向终端发送控制信息, 控制信息用于 指示终端的各业务传输釆用的业务通信系统。 S408、 终端才艮据控制信息所指示的业务通信系统, 对至少一个无线通信 模块进行关闭、 开启或休眠控制。
需要说明的是, 图 4所示, 终端中通常可以包括多个无线通信模块, 每 个无线通信模块可以用于通过 RAN侧对应的一个无线通信模块(可以是网络 设备) 与多模无线通信系统中的一个通信系统建立连接。 为了便于描述, 本 实施例中,终端的无线通信模块与 RAN侧对应的无线通信模块具有相同的标 识, 例如: 均为无线通信模块 1 , 或无线通信模块 2等。 其中, 终端中的无 线通信模块 1与 RAN侧的无线通信模块 1建立起基础链路。
终端在基础链路上接收到控制服务器发送的控制信息后, 可以根据控制 信息指示的目标无线通信系统, 确定哪个或哪些无线通信模块需要使用, 哪 个或哪些无线通信模块暂时不需要用。对于需要与 RAN侧对应的无线通信模 块建立连接的无线通信模块, 终端可以启动该无线通信模块, 以实现与相应 的无线通信系统建立链路; 对于当前暂时不使用的无线通信模块, 终端可以 关闭该模块或控制该模块进入休眠状态, 从而减少了终端的耗电开销。 例如: 图 4所示, 终端接收到控制信息后, 开启无线通信模块 2、 使无线通信模块 3 进入休眠状态, 关闭无线通信模块 1。
作为一种可行的实施方式, 终端可以根据自身业务使用需求以及业务通 信系统对应的无线通信模块等因素, 决策哪些无线通信模块关闭或哪些无线 通信模块进入休眠状态, 以及无线通信模块进入休眠状态的时间。 例如: 业 务通信系统不包括 WIFI, 则终端可以关闭对应 WIFI模式的无线通信模块, 或者使该无线通信模块进入休眠状态, 休眠时间可以设置为例如 30分钟, 达 到 30分钟后, 该无线通信模块可以重新开启; 或者, 达到 30分钟后, 若控 制服务器发送的控制信息所指示的业务通信系统仍不包括 WIFI, 则终端可以 关闭对应 WIFI模式的无线通信模块。终端可以根据具体的实施场景确定各无 线通信模块的开启、 关闭或休眠。
作为另一种可行的实施方式,控制服务器可以根据当前终端的负载状况、 业务属性、 用户优先级等因素指示终端对无线通信模块执行关闭、 休眠或启 动的操作, 进一步的, 控制服务器还可以指示终端无线通信模块的休眠时间 等, 终端可以根据控制服务器的指示控制相应的无线通信模块开启、 休眠或 者关闭。 5409、 终端根据控制信息所指示的业务通信系统, 为各业务建立和 /或释 放相应的链路。
S410-S412为可选步骤,如果终端的任一下行业务在至少两个业务通信系 统中传输, 则控制服务器可以触发终端或业务通信系统对应的网络设备对当 前业务通信系统的链路质量进行测量, 并使控制服务器能够根据终端上报的 当前业务通信系统的链路质量确定终端的下行业务在至少两个业务通信系统 中传输的数据比例。 具体的:
5410、 控制服务器向终端发送第三测量指示, 该第三测量指示用于指示 测量当前业务通信系统的链路质量。
作为另一种可行的实施方式, 控制服务器还可以向当前业务通信系统中 的网络设备发送第三测量指示, 指示网络设备来上报当前业务通信系统的链 路质量。
5411、 终端对业务通信系统的链路质量进行测量。
5412、 终端将业务通信系统的链路质量上报给控制服务器。
5413、 控制服务器根据至少两个业务通信系统的负载状况和 /或链路质 量, 确定任一下行业务在至少两个业务通信系统中传输的数据比例。
5414、控制服务器在基础链路上向终端发送第一分流信息, 第一分流信 息用于指示终端的任一下行业务在至少两个业务通信系统中传输的数据比 例。
5415、 终端根据至少两个业务通信系统的特征信息, 确定任一下行任务 在至少两个业务通信系统中的接收顺序。
5416、 终端将业务传输管理结果上报给控制服务器。
需要说明的是, 其中, S413-S415为可选步骤。 具体的, 作为一种可行的 实施方式, S415中的业务通信系统的特征信息可以包括, 例如: 时延、 误码 率等信息。 终端可以根据业务通信系统的这些时延、 误码率等信息确定下行 任务在至少两个业务通信系统中的接收顺序。 在这种事实场景下, 则可以不 执行 S413-S415 , 进而也可以不执行 S410-S412。
作为另一种可行的实施方式, 可以执行 S413-S415 , 进而也可以执行 S410-S412 , 即, 控制服务器可以向终端发送第一分流信息, 终端可以根据第 一分流信息和业务通信系统的这些时延、 误码率等信息确定下行任务在至少 两个业务通信系统中的接收顺序。 在这种实施场景下, S415中的业务通信系 统的特征信息可以包括: 第一分流信息以及业务通信系统的时延、 误码率等 信息。
S410-S416 适用于终端具有在至少两个业务通信系统中并发传输的下行 业务的实施场景, 在这种实施场景下, 可以由控制服务器确定下行业务在至 少两个业务通信系统中传输的数据比例, 并向终端发送第一分流信息。 终端 接收到第一分流信息后, 可以根据第一分流信息中指示的数据比例, 结合至 少两个业务通信系统的特征信息, 例如: 时延、 误码率等信息确定下行任务 在至少两个业务通信系统中的接收顺序, 并根据该接收顺序在至少两个业务 通信系统上接收来自网络侧的下行业务数据。
本实施例还提供了终端具有在至少两个业务通信系统中并发传输的上行 业务的实施场景, 在这种实施场景下, 可以由终端确定上行业务在至少两个 业务通信系统中传输的数据比例, 并向控制服务器发送第二分流信息。 控制 服务器可以根据业务通信系统的时延、 误码率的信息确定上行任务在至少两 个业务通信系统中的顺序; 或者, 控制服务器可以根据第二分流信息中指示 的数据比例以及至少两个业务通信系统的时延、 误码率等特征信息, 确定上 行任务在至少两个业务通信系统中的接收顺序, 并控制至少两个业务通信系 统根据该接收顺序接收来自终端的上行业务数据。
可选的, 作为一种可行的实施方式, 在终端与网络侧的业务传输过程中, 如果与终端连接的任一业务通信系统无连续覆盖, 则在业务通信系统的覆 盖范围之外, 控制服务器可以控制终端通过基础链路与网络侧进行业务传 输, 使得在终端与业务通信系统之间的链路(例如: WLAN )无连续覆盖 的情况, 控制服务器可以通过基础链路保证终端业务的连续性传输。 当终 端由业务通信系统的覆盖范围之外进入业务通信系统的覆盖范围之内 (进 入信道业务传输的区域内) , 则控制服务器可以通过基础链路完成终端与 该业务通信系统之间的链路 (例如: WLAN ) 的建链, 从而保证终端业务 的连续性。
作为另一种可行的实施方式, 在基础链路与业务通信系统中的非基础 链路不能协同(即基础链路对应的网络设备与非基础链路对应的网络设备 不同协同, 例如: 站点不能协同) , 或者, 业务通信系统中存在多个非基 础链路, 则在终端移动通信的过程中, 控制服务器可以通过基础链路协助 进行终端的非基础链路的切换, 例如: 控制服务器可以通过基础链路向终 端发送非基础链路的小区 ID、频点信息等。假设在终端当前服务小区范围 内, 终端与网络侧之间存在协同的 UMTS和 LTE, 终端通过 UMTS的链 路和 LTE的链路进行业务传输。 而当终端进入下一服务小区范围内, 下一 服务小区范围内不存在协同的 UMTS和 LTE,则控制服务器可以通过基础 链路协助控制终端接入下一小区。
图 5为本发明提供的控制服务器基于基础链路控制终端使用各种通信系 统进行业务传输的又一个实施例, 如图 5所示, 本实施例提供的多模无线通 信系统为 LTE/UMTS和 WLAN的载波聚合网络, 在该实施场景下, 该方法 具体包括:
5501、 设置在无线接入网侧的控制服务器根据以下信息中的一种或种组 合: 终端的业务量、 多模无线通信系统中各通信系统的负载状况、 运营商策 略和用户策略, 确定是否在多模无线通信系统中为终端重新确定业务通信系 统。 如果重新确定, 则执行 S502, 否则重新执行 S501。
其中, 基础链路为终端与 UMTS/LTE之间建立的链路, 控制服务器根据 当前的终端的业务量、 多模无线通信系统中各通信系统的负载状况、 运营商 策略和用户策略, 确定是否在多模无线通信系统中为终端重新确定业务通信 系统确定是否在各通信系统中为终端重新确定业务通信系统。 例如: 当终端 业务量超过一定需求时, 或者 UMTS/LTE的负载过重时, 或者终端业务更适 合在 WLAN通信系统下传输时,则控制服务器可以启动多模无线通信系统的 管理, 为终端的各种业务确定业务通信系统。
5502、 若当前业务通信系统存在相关联的其他通信系统, 则控制服务器 指示终端测量多模无线通信系统中除基础链路对应的通信系统和当前业务通 信系统之外其他通信系统的信号质量。
控制服务器可以根据当前 UMTS/LTE移动通信网络中是否存在相关联的 WLAN网络, 如果没有, 则不再做任何处理; 否则执行 S503。
5503、 控制服务器向终端发送第二测量指示, 第二测量指示用于指示测 量多模无线通信系统中除基础链路对应的通信系统和当前业务通信系统之外 其他通信系统的信号质量。 5504、 终端根据第二通信系统测量指示, 对多模无线通信系统中除基础 链路对应的通信系统和当前业务通信系统之外其他通信系统的信号质量进行 测量。
5505、 终端将多模无线通信系统中除基础链路对应的通信系统和当前业 务通信系统之外其他通信系统的信号质量上报给控制服务器。
5506、 控制服务器根据第二设定条件, 在多模无线通信系统中为终端的 各业务确定业务传输的业务通信系统。
控制服务器可以根据当前终端的业务需求、 多模无线通信系统中各通信 系统的负载状况、 各通信系统的链路质量、 运营商策略和用户策略中的一种 或种组合信息, 确定终端的最优的资源使用方式, 例如: 釆用 WLAN传输业 务, 还是釆用多种通信系统并发传输业务。
需要说明的时, 当终端与网络侧之间存在两种模式的无线通信系统时, 例如: 本实施例提供的 LTE/UMTS和 WLAN通信系统, 则控制服务器通常 可以在基础链路上向终端发送控制信息,控制终端接入 WLAN,即,执行 S501 之后, 可以直接执行 S507的操作。
5507、 控制服务器在基础链路上向终端发送控制信息, 控制信息用于 指示终端的各业务传输釆用的业务通信系统。
控制服务器可以在 UMTS/LTE系统的基础链路上,向终端发送控制信息。
5508、 终端才艮据控制信息所指示的业务通信系统, 对至少一个无线通信 模块进行关闭、 开启或休眠控制。
例如: 终端与 RAN侧建立 3G链路作为基础链路后, 控制服务器可以根 据网络负载、终端业务需求等因素决策是否启动 WIFI进行分流,并将控制信 息通过 3G链路发送给终端。
终端接收控制信息, 可以执行相应的建立或释放链路的操作。 具体的: 如果控制信息指示仅在 3G链路传输或者当前小区无绑定 WLAN AP时, 终 端可以关闭 WIFI模块, 从而解决长期开启 WIFI造成终端耗电的问题; 如果 控制信息指示启动 WIFI分流时, 终端可以启动 WIFI模块, 进行 AP搜索和 建链; 如果控制信息指示暂时停止 WLAN分流时, 则终端可以使 WIFI模块 进入休眠状态。
该实施例适用于多模通信系统下, 选定一种模式作为基础链路进行控制 信息的传输, 可以有效解决多模系统下终端与网络间多种资源的有效利用, 为终端确定了最有效的传输网络和传输方式, 提升了用户体验, 同时大大降 低多模多待下的终端耗电问题。
S509、 终端根据控制信息所指示的业务通信系统, 为各业务建立和 /或释 放相应的链路。
终端根据控制信息开启 WLAN模块, 进行相应 WLAN AP的搜索、认证 与建链, 并向网络侧回复。
作为一种可行的实施方式, 由于 WLAN无连续覆盖, 因此, 在 WLAN 作为业务通信系统的实施场景下, 在 WLAN覆盖范围之外, 控制服务器 可以通过 UMTS/LTE进行业务传输, 在进入新的具有协同功能的 WLAN 覆盖区域式, 通过 UMTS/LTE基础链路完成 WLAN网络的建链和业务传 输。
该实施例适用于多模通信系统下, 选定一种通信系统作为基础链路进行 控制信息的传输, 可以有效解决多模无线通信系统下的各通信系统模式间切 换、 并发等统一管理问题。
本实施例提供的多模无线通信系统为 LTE/UMTS和 WLAN的载波聚合 网络, 对于其他类型的多模无线通信系统, 例如: UMTS和 L构成的多模无 线通信系统对应的终端业务传输控制方式可参见该实施例。
本领域普通技术人员可以理解: 实现上述各方法实施例的全部或部分步 骤可以通过程序指令相关的硬件来完成。 前述的程序可以存储于计算机可读 取存储介质中。 该程序在执行时, 执行包括上述各方法实施例的步骤; 而前 述的存储介质包括: ROM, RAM, 磁碟或者光盘等各种可以存储程序代码的 介质。
图 6为本发明提供的控制服务器一个实施例的结构示意图,如图 6所示, 该控制服务器包括: 处理器 11和收发器 12;
处理器 11 , 用于根据第一设定条件, 在终端与多模无线通信系统中任一 通信系统之间建立基础链路; 并用于根据第二设定条件, 在多模无线通信系 统中为终端的各业务确定业务传输的业务通信系统;
收发器 12, 用于在基础链路上向终端发送控制信息, 控制信息用于指 示终端的各业务传输釆用的业务通信系统。 在前一实施例的基础上, 本发明还提供了控制服务器的另一实施例, 可 选的, 第一设定条件可以包括以下信息中的一种或组合: 多模无线通信系统 中各通信系统的连续覆盖性、 各通信系统的负载状况、 终端的业务处理能力 和运营商策略。
可选的, 第二设定条件可以包括以下信息中的一种或组合: 终端的业务 需求、 多模无线通信系统中各通信系统的负载状况、 各通信系统的链路质量、 运营商策略和用户策略。
作为一种可行的实施方式, 处理器 12还可以用于: 根据第一设定条件, 确定将终端建立的初始链路作为基础链路; 或者发起终端建立的初始链路至 基础链路的切换, 初始链路为终端与多模无线通信系统之间的默认链路或终 端最近一次业务传输时与多模无线通信系统之间建立的基础链路
进一步的,收发器 11还可以用于:接收终端上报的基础链路的链路质量, 或者接收基础链路对应的网络设备上报的基础链路的链路质量;
相应的,处理器 12还可以用于:若基础链路的链路质量不满足设定条件, 则根据第一设定条件, 在终端与多模无线通信系统中任一通信系统之间重新 建立基础链路。
进一步的, 第一设定条件还可以包括: 多模无线通信系统中除基础链路 对应的通信系统之外的其他通信系统当前的信号质量;
相应的, 收发器 11还可以用于: 向终端发送第一测量指示, 第一测量指 示用于指示测量多模无线通信系统中除基础链路对应的通信系统之外的其他 通信系统当前的信号质量; 并接收终端上报的多模无线通信系统中除基础链 路对应的通信系统之外的其他通信系统当前的信号质量。
进一步的, 处理器 12还可以用于: 根据第三设定条件确定是否为终端重 新确定业务通信系统, 第三设定条件为以下信息中的一种或组合: 终端的业 务量、 多模无线通信系统中各通信系统负载状况、 运营商策略和用户策略。
进一步的, 第二设定条件还可以包括: 多模无线通信系统中除基础链路 对应的通信系统和当前业务通信系统之外其他通信系统的信号质量;
相应的, 收发器 11还可以用于: 向终端发送第二测量指示, 第二测量指 示用于指示测量多模无线通信系统中除基础链路对应的通信系统和当前业务 通信系统之外其他通信系统的信号质量; 接收终端上报的多模无线通信系统 中除基础链路对应的通信系统和当前业务通信系统之外其他通信系统的信号 质量。
可选的, 若终端的任一下行业务在至少两个业务通信系统中传输, 则处 理器 12还可以用于: 根据至少两个业务通信系统的负载状况和 /或链路质量, 确定任一下行业务在至少两个业务通信系统中传输的数据比例;
可选的,收发器 11还可以用于:在基础链路上向终端发送第一分流信息, 第一分流信息用于指示终端的任一下行业务在至少两个业务通信系统中传输 的数据比例。
可选的, 收发器 11还可以用于: 向终端或业务通信系统的网络设备发送 第三测量指示, 第三测量指示用于测量当前业务通信系统的链路质量; 接收 终端或业务通信系统的网络设备上报的当前业务通信系统的链路质量。
可选的, 若终端的任一上行业务在至少两个业务通信系统中传输, 则处 理器 12还可以用于: 根据至少两个业务通信系统的特征信息, 确定终端的任 一上行业务在至少两个业务通信系统中的接收顺序, 以使网络侧根据接收顺 序在至少两个业务通信系统中接收终端的上行业务数据。
可选的, 业务通信系统的特征信息可以包括第二分流信息, 第二分流信 息用于指示终端的任一上行业务在至少两个业务通信系统中传输的数据比 例;
相应的, 收发器 11还可以用于: 接收终端在基础链路上发送的第二分流 信息。
本发明实施例提供的控制服务器, 与本发明实施例提供的多模无线通信 系统的系统控制方法相对应, 为本发明实施例提供的多模无线通信系统的系 统控制方法的执行设备, 其执行多模无线通信系统的系统控制方法的具体过 程可参见多模无线通信系统的系统控制方法实施, 在此不再赘述。
本发明实施例提供的控制服务器, 可以为独立设置在无线接入网侧的设 备, 也可以与无线接入网侧的其他设备, 例如: eNodeB、 RNC等集成设置, 即, 可以作为无线接入网侧其他设备中的一个功能模块。 控制服务器可以为 无线接入网侧的多模无线通信系统中各通信系统提供 API接口, 便于对各通 信系统的传输控制。
本发明实施例提供的控制服务器, 在终端与一个通信系统间建立基础链 路, 再基于该基础链路向终端发送控制信息, 控制终端根据控制服务器确定 的各业务的业务通信系统建立或释放相应的链路, 从而在多模无线通信系统 的环境下, 提高多模无线通信系统的无线资源利用率和用户体验。
图 7为本发明提供的终端一个实施例的结构示意图, 如图 7所示, 该终 端包括: 收发器 21和处理器 22;
收发器 21 , 用于在基础链路上接收控制服务器发送的控制信息, 控制信 息用于指示终端的各业务传输釆用的业务通信系统, 基础链路由控制服务 器在终端与多模无线通信系统中任一通信系统之间建立, 业务通信系统由控 制服务器在多模无线通信系统中为终端的各业务确定;
处理器 22, 用于根据控制信息所指示的业务通信系统, 为各业务建立和 /或释放相应的链路。
图 8为本发明提供的终端又一个实施例的结构示意图, 如图 8所示, 该 终端包括: 收发器 21、 处理器 22和多个无线通信模块 23 , 每个无线通信模 块与多模无线通信系统中的一个通信系统相对应;
无线通信模块 23用于: 在处理器 22的控制下, 与对应的通信系统之间 建立或释放链路。
可选的, 处理器 22还可以用于: 根据控制信息所指示的业务通信系统, 对至少一个无线通信模块 23进行关闭、 开启或休眠控制。
作为一种可行的实施方式, 收发器 21可以用于: 与多模无线通信系统之 间建立初始链路为终端与多模无线通信系统之间的默认链路或终端最近一次 业务传输时与多模无线通信系统之间建立的基础链路。
进一步的, 处理器 22还可以用于: 检测基础链路的链路质量;
相应的, 收发器 21还可以用于: 将基础链路的链路质量上报给控制服务 器, 以使控制服务器确定是否在终端与多模无线通信系统中任一通信系统之 间重新建立基础链路。
进一步的,收发器 21还可以用于:接收控制服务器发送的第一测量指示, 第一测量指示用于指示测量多模无线通信系统中除基础链路对应的通信系统 之外的其他通信系统当前的信号质量;
相应的, 处理器 22还可以用于: 对多模无线通信系统中除基础链路对应 的通信系统之外的其他通信系统当前的信号质量进行测量; 相应的, 收发器 21还可以用于: 并将多模无线通信系统中除基础链路对 应的通信系统之外的其他通信系统当前的信号质量上报给控制服务器。
进一步的,收发器 21还可以用于:接收控制服务器发送的第二测量指示, 第二测量指示用于指示测量多模无线通信系统中除基础链路对应的通信系统 和当前业务通信系统之外其他通信系统的信号质量;
处理器 22还可以用于:对多模无线通信系统中除基础链路对应的通信系 统和当前业务通信系统之外其他通信系统的信号质量进行测量;
收发器 21还可以用于:将多模无线通信系统中除基础链路对应的通信系 统和当前业务通信系统之外其他通信系统的信号质量上报给控制服务器。
可选的, 若终端的任一下行业务在至少两个业务通信系统中传输, 则处 理器 22还可以用于: 根据至少两个业务通信系统的特征信息, 确定终端的任 一下行任务在至少两个业务通信系统中的接收顺序, 并根据接收顺序在至少 两个通信系统中接收下行业务数据。
可选的, 业务通信系统的特征信息包括第一分流信息, 第一分流信息用 于指示终端的任一下行业务在至少两个业务通信系统中传输的数据比例; 相应的, 收发器还可以用于: 接收控制服务器发送的第一分流信息。 可选的, 若终端的任一上行业务在至少两个通信系统中传输, 则处理器 22还可以用于: 根据至少两个业务通信系统的负载状况和 /或链路质量, 确定 任一上行业务在至少两个业务通信系统中传输的数据比例;
收发器 21还可以用于: 在基础链路上向控制服务器发送第二分流信息, 第二分流信息用于指示终端的任一上行业务在至少两个业务通信系统中传输 的数据比例。
本发明实施例提供的终端, 与本发明实施例提供的多模无线通信系统的 系统控制方法相对应, 为本发明实施例提供的多模无线通信系统的系统控制 方法的执行设备, 其执行多模无线通信系统的系统控制方法的具体过程可参 见多模无线通信系统的系统控制方法实施, 在此不再赘述。
本发明实施例提供的终端, 首先与一个通信系统间建立基础链路, 再基 于该基础链路接收无线接入网侧控制服务器发送控制信息, 终端根据控制服 务器确定的各业务的业务通信系统建立或释放相应的链路, 从而在多模无线 通信系统的环境下, 提高多模无线通信系统的无线资源利用率和用户体验。 最后应说明的是: 以上各实施例仅用以说明本发明的技术方案, 而非对 其限制; 尽管参照前述各实施例对本发明进行了详细的说明, 本领域的普通 技术人员应当理解:其依然可以对前述各实施例所记载的技术方案进行修改, 或者对其中部分或者全部技术特征进行等同替换; 而这些修改或者替换, 并 不使相应技术方案的本质脱离本发明各实施例技术方案的范围。

Claims

权利要求
1、 一种多模无线通信系统的控制方法, 其特征在于, 包括: 控制服务器根据第一设定条件, 在终端与多模无线通信系统中任一通信 系统之间建立基础链路;
所述控制服务器根据第二设定条件, 在所述多模无线通信系统中为所述 终端的各业务确定所述各业务传输的业务通信系统;
所述控制服务器在所述基础链路上向所述终端发送控制信息, 所述控 制信息用于指示所述终端的所述各业务传输釆用的所述业务通信系统。
2、 根据权利要求 1 所述的方法, 其特征在于, 所述第一设定条件包 括以下一种或组合: 所述多模无线通信系统中各通信系统的连续覆盖性、 所 述各通信系统的负载状况、 所述终端的业务处理能力和运营商策略。
3、 根据权利要求 1或 2所述的方法, 其特征在于, 所述第二设定条件包 括以下一种或组合: 所述终端的业务需求、 所述多模无线通信系统中各通信 系统的负载状况、 所述各通信系统的链路质量、 运营商策略和用户策略。
4、 根据权利要求 1-3任一项所述的方法, 其特征在于, 所述在终端与多 模无线通信系统中任一通信系统之间建立基础链路, 包括:
所述控制服务器根据所述第一设定条件, 确定将所述终端建立的初始链 路作为所述基础链路;
或者所述控制服务器发起所述终端建立的初始链路至所述基础链路的切 换, 所述初始链路为所述终端与所述多模无线通信系统之间的默认链路或所 述终端最近一次业务传输时与所述多模无线通信系统之间建立的基础链路。
5、 根据权利要求 1-4任一项所述的方法, 其特征在于, 所述在终端与多 模无线通信系统中任一通信系统之间建立基础链路之后, 还包括:
所述控制服务器接收所述终端上报的所述基础链路的链路质量, 或者所 述控制服务器接收所述基础链路对应的网络设备上报的所述基础链路的链路 质量;
若所述基础链路的链路质量不满足设定条件, 则所述控制服务器根据所 述第一设定条件, 在所述终端与所述多模无线通信系统中任一通信系统之间 建立新的基础链路。
6、根据权利要求 5所述的方法,其特征在于,所述第一设定条件还包括: 所述多模无线通信系统中除所述基础链路对应的通信系统之外的其他通信系 统当前的信号质量;
所述在所述终端与所述多模无线通信系统中任一通信系统之间建立新的 基础链路之前, 还包括:
所述控制服务器向所述终端发送第一测量指示, 所述第一测量指示用于 指示测量所述多模无线通信系统中除所述基础链路对应的通信系统之外的其 他通信系统当前的信号质量;
所述控制服务器接收所述终端上报的所述多模无线通信系统中除所述基 础链路对应的通信系统之外的其他通信系统当前的信号质量。
7、 根据权利要求 1-6任一项所述的方法, 其特征在于, 所述在所述多模 无线通信系统中为所述终端的各业务确定业务传输的目标系统之前,还包括: 所述控制服务器根据第三设定条件确定是否为所述终端确定新的业务通 信系统, 所述第三设定条件为以下一种或组合: 所述终端的业务量、 所述多 模无线通信系统中各通信系统的负载状况、 运营商策略和用户策略。
8、 根据权利要求 1-7任一项所述的方法, 其特征在于, 所述第二设定条 件还包括: 多模无线通信系统中除所述基础链路对应的通信系统和当前业务 通信系统之外其他通信系统的信号质量;
所述在所述多模无线通信系统中为所述终端的各业务确定业务传输的业 务通信系统之前, 还包括:
所述控制服务器向所述终端发送第二测量指示, 所述第二测量指示用于 指示测量所述多模无线通信系统中除所述基础链路对应的通信系统和当前业 务通信系统之外其他通信系统的信号质量;
所述控制服务器接收所述终端上报的多模无线通信系统中除基础链路对 应的通信系统和当前业务通信系统之外其他通信系统的信号质量。
9、 根据权利要求 1-8任一项所述的方法, 其特征在于, 若所述终端的任 一下行业务在至少两个所述业务通信系统中传输, 则在所述基础链路上向所 述终端发送控制信息之后, 还包括:
所述控制服务器根据所述至少两个业务通信系统的负载状况和 /或链路 质量, 确定所述任一下行业务在至少两个所述业务通信系统中传输的数据比 例; 所述控制服务器在所述基础链路上向所述终端发送第一分流信息, 所述 第一分流信息用于指示所述终端的所述任一下行业务在至少两个所述业务通 信系统中传输的数据比例或数据量。
10、 根据权利要求 9所述的方法, 其特征在于, 所述确定所述任一下行 业务在至少两个所述业务通信系统中传输的数据比例之前, 还包括:
所述控制服务器向所述终端或所述业务通信系统的网络设备发送第三测 量指示, 所述第三测量指示用于测量所述业务通信系统的链路质量;
接收所述终端或所述业务通信系统的网络设备上报的当前所述业务通信 系统的链路质量。
11、 根据权利要求 1-8任一项所述的方法, 其特征在于, 若所述终端的 任一上行业务在至少两个所述业务通信系统中传输, 则所述控制服务器在所 述基础链路上向所述终端发送控制信息之后, 还包括:
所述控制服务器根据至少两个所述业务通信系统的特征信息, 确定所述 终端的所述任一上行业务在至少两个所述业务通信系统中的接收顺序, 以使 网络侧根据所述接收顺序在至少两个所述业务通信系统中接收所述终端的上 行业务数据。
12、 根据权利要求 11所述的方法, 其特征在于, 所述业务通信系统的特 征信息包括第二分流信息, 所述第二分流信息用于指示所述终端的所述任一 上行业务在至少两个所述业务通信系统中传输的数据比例;
所述控制服务器根据至少两个所述业务通信系统的特征信息, 确定所述 终端的所述任一上行业务在至少两个所述业务通信系统中的接收顺序之前还 包括:
所述控制服务器接收所述终端在所述基础链路上发送的所述第二分流信 息。
13、 一种多模无线通信系统的控制方法, 其特征在于, 包括:
终端在基础链路上接收控制服务器发送的控制信息, 所述控制信息用于 指示所述终端的各业务传输釆用的业务通信系统, 所述基础链路在所述终 端与多模无线通信系统中任一通信系统之间建立, 所述业务通信系统由所述 控制服务器在所述多模无线通信系统中为所述终端的各业务确定;
所述终端根据所述控制信息所指示的所述业务通信系统, 为所述各业务 建立和 /或释放相应的链路。
14、 根据权利要求 13所述的方法, 其特征在于, 所述终端在基础链路上 接收控制服务器发送的控制信息之前, 还包括:
所述终端与所述多模无线通信系统之间建立初始链路, 所述初始链路为 所述终端与所述多模无线通信系统之间的默认链路或所述终端最近一次业务 传输时与所述多模无线通信系统之间建立的基础链路。
15、 根据权利要求 13或 14所述的方法, 其特征在于, 所述终端在基础 链路上接收控制服务器发送的控制信息之后, 还包括:
所述终端检测所述基础链路的链路质量, 并将所述基础链路的链路质量 上报给所述控制服务器, 以使所述控制服务器确定是否在所述终端与所述多 模无线通信系统中任一通信系统之间建立新的基础链路。
16、 根据权利要求 15所述的方法, 其特征在于, 所述终端在基础链路上 接收控制服务器发送的控制信息之后, 还包括:
所述终端接收所述控制服务器发送的第一测量指示, 所述第一测量指示 用于指示测量所述多模无线通信系统中除基础链路对应的通信系统之外的其 他通信系统当前的信号质量;
所述终端对所述多模无线通信系统中除基础链路对应的通信系统之外的 其他通信系统当前的信号质量进行测量, 并将所述多模无线通信系统中除基 础链路对应的通信系统之外的其他通信系统当前的信号质量上报给所述控制 服务器。
17、 根据权利要求 13-16任一项所述的方法, 其特征在于, 所述终端在 基础链路上接收控制服务器发送的控制信息之前, 还包括:
所述终端接收所述控制服务器发送的第二测量指示, 所述第二测量指示 用于指示测量所述多模无线通信系统中除所述基础链路对应的通信系统和当 前业务通信系统之外其他通信系统的信号质量;
对所述多模无线通信系统中除所述基础链路对应的通信系统和当前业务 通信系统之外其他通信系统的信号质量进行测量, 并将所述多模无线通信系 统中除所述基础链路对应的通信系统和当前业务通信系统之外其他通信系统 的信号质量上报给所述控制服务器。
18、 根据权利要求 13-17任一项所述的方法, 其特征在于, 若所述终端 的任一下行业务在至少两个所述业务通信系统中传输, 则所述终端在基础链 路上接收控制服务器发送的控制信息之后, 还包括:
所述终端根据至少两个所述业务通信系统的特征信息, 确定所述终端的 所述任一下行任务在至少两个所述业务通信系统中的接收顺序, 并根据所述 接收顺序在至少两个所述通信系统中接收下行业务数据。
19、 根据权利要求 18所述的方法, 其特征在于, 所述业务通信系统的特 征信息包括第一分流信息, 所述第一分流信息用于指示所述终端的所述任一 下行业务在至少两个所述业务通信系统中传输的数据比例或数据量;
所述终端根据至少两个所述业务通信系统的特征信息, 确定所述终端的 所述任一下行任务在至少两个所述业务通信系统中的接收顺序之前,还包括: 接收所述控制服务器发送的所述第一分流信息。
20、 根据权利要求 13-17任一项所述的方法, 其特征在于, 若所述终端 的任一上行业务在至少两个所述通信系统中传输, 则所述终端在基础链路上 接收控制服务器发送的控制信息之后, 还包括:
所述终端根据至少两个所述业务通信系统的负载状况和 /或链路质量, 确 定所述任一上行业务在至少两个所述业务通信系统中传输的数据比例;
所述终端在所述基础链路上向所述控制服务器发送第二分流信息, 所述 第二分流信息用于指示所述终端的所述任一上行业务在至少两个所述业务通 信系统中传输的数据比例。
21、 一种控制服务器, 其特征在于, 包括:
处理器, 用于根据第一设定条件, 在终端与多模无线通信系统中任一通 信系统之间建立基础链路; 并用于根据第二设定条件, 在所述多模无线通信 系统中为所述终端的各业务确定业务传输的业务通信系统;
收发器, 用于在所述基础链路上向所述终端发送控制信息, 所述控制 信息用于指示所述终端的各业务传输釆用的所述业务通信系统。
22、 根据权利要求 21 所述的控制服务器, 其特征在于, 所述第一设 定条件包括以下一种或组合: 所述多模无线通信系统中各通信系统的连续覆 盖性、 所述各通信系统的负载状况、 终端的业务处理能力和运营商策略。
23、 根据权利要求 21或 22所述的控制服务器, 其特征在于, 所述第二 设定条件包括以下一种或组合: 所述终端的业务需求、 所述多模无线通信系 统中各通信系统的负载状况、 所述各通信系统的链路质量、 运营商策略和用 户策略。
24、 根据权利要求 21-22任一项所述的控制服务器, 其特征在于, 所述 处理器还用于: 根据所述第一设定条件, 确定将所述终端建立的初始链路作 为所述基础链路;或者发起所述终端建立的初始链路至所述基础链路的切换, 所述初始链路为所述终端与所述多模无线通信系统之间的默认链路或所述终 端最近一次业务传输时与所述多模无线通信系统之间建立的基础链路。
25、 根据权利要求 21-24任一项所述的控制服务器, 其特征在于, 所述 收发器还用于: 接收所述终端上报的所述基础链路的链路质量, 或者接收所 述基础链路对应的网络设备上报的所述基础链路的链路质量;
所述处理器还用于: 若所述基础链路的链路质量不满足设定条件, 则根 据所述第一设定条件, 在所述终端与所述多模无线通信系统中任一通信系统 之间重新建立基础链路。
26、 根据权利要求 25所述的控制服务器, 其特征在于, 所述第一设定条 件还包括: 所述多模无线通信系统中除基础链路对应的通信系统之外的其他 通信系统当前的信号质量;
所述收发器还用于: 向所述终端发送第一测量指示, 所述第一测量指示 用于指示测量所述多模无线通信系统中除所述基础链路对应的通信系统之外 的其他通信系统当前的信号质量; 并接收所述终端上报的所述多模无线通信 系统中除所述基础链路对应的通信系统之外的其他通信系统当前的信号质 量。
27、 根据权利要求 21-26任一项所述的控制服务器, 其特征在于, 所述 处理器还用于: 根据第三设定条件确定是否为终端重新确定业务通信系统, 所述第三设定条件为以下一种或组合: 所述终端的业务量、 所述多模无线通 信系统中各通信系统负载状况、 运营商策略和用户策略。
28、 根据权利要求 21-27任一项所述的控制服务器, 其特征在于, 所述 第二设定条件还包括: 多模无线通信系统中除基础链路对应的通信系统和当 前业务通信系统之外其他通信系统的信号质量;
所述收发器还用于: 向所述终端发送第二测量指示, 所述第二测量指示 用于指示测量所述多模无线通信系统中除所述基础链路对应的通信系统和当 前业务通信系统之外其他通信系统的信号质量; 接收所述终端上报的多模无 线通信系统中除基础链路对应的通信系统和当前业务通信系统之外其他通信 系统的信号质量。
29、 根据权利要求 21-28任一项所述的控制服务器, 其特征在于, 若所 述终端的任一下行业务在至少两个所述业务通信系统中传输, 则所述处理器 还用于: 根据所述至少两个业务通信系统的负载状况和 /或链路质量, 确定所 述任一下行业务在至少两个所述业务通信系统中传输的数据比例;
所述收发器还用于: 在所述基础链路上向所述终端发送第一分流信息, 所述第一分流信息用于指示所述终端的所述任一下行业务在至少两个所述业 务通信系统中传输的数据比例。
30、 根据权利要求 29所述的控制服务器, 其特征在于, 所述收发器还用 于: 向所述终端或所述业务通信系统的网络设备发送第三测量指示, 所述第 三测量指示用于测量当前所述业务通信系统的链路质量; 接收所述终端或所 述业务通信系统的网络设备上报的当前所述业务通信系统的链路质量。
31、 根据权利要求 21-30任一项所述的控制服务器, 其特征在于, 若所 述终端的任一上行业务在至少两个所述业务通信系统中传输, 则所述处理器 还用于: 根据至少两个所述业务通信系统的特征信息, 确定所述终端的所述 任一上行业务在至少两个所述业务通信系统中的接收顺序, 以使网络侧根据 所述接收顺序在至少两个所述业务通信系统中接收所述终端的上行业务数 据。
32、 根据权利要求 31所述的控制服务器, 其特征在于, 所述业务通信系 统的特征信息包括第二分流信息, 所述第二分流信息用于指示所述终端的所 述任一上行业务在至少两个所述业务通信系统中传输的数据比例或数据量; 所述收发器还用于: 接收所述终端在所述基础链路上发送的所述第二分 流信息。
33、 一种终端, 其特征在于, 包括:
收发器, 用于在基础链路上接收控制服务器发送的控制信息, 所述控制 信息用于指示所述终端的各业务传输釆用的业务通信系统, 所述基础链路 在所述终端与多模无线通信系统中任一通信系统之间建立, 所述业务通信系 统由所述控制服务器在所述多模无线通信系统中为所述终端的各业务确定; 处理器, 用于根据所述控制信息所指示的所述业务通信系统, 为所述各 业务建立和 /或释放相应的链路。
34、 根据权利要求 33所述的终端, 其特征在于, 还包括: 多个无线通信 模块, 每个所述无线通信模块与所述多模无线通信系统中的一个通信系统相 对应;
所述无线通信模块用于: 在所述处理器的控制下, 与对应的所述通信系 统之间建立或释放链路。
35、 根据权利要求 34所述的终端, 其特征在于, 所述处理器还用于: 根 据所述控制信息所指示的所述业务通信系统, 对至少一个所述无线通信模块 进行关闭、 开启或休眠控制。
36、 根据权利要求 33-35任一项所述的终端, 其特征在于, 所述收发器 还用于: 与所述多模无线通信系统之间建立初始链路, 所述初始链路为所述 终端与所述多模无线通信系统之间的默认链路或所述终端最近一次业务传输 时与所述多模无线通信系统之间建立的基础链路。
37、 根据权利要求 33-36任一项所述的终端, 其特征在于, 所述处理器 还用于: 检测所述基础链路的链路质量;
所述收发器还用于:将所述基础链路的链路质量上报给所述控制服务器, 以使所述控制服务器确定是否在所述终端与所述多模无线通信系统中任一通 信系统之间建立新的基础链路。
38、 根据权利要求 37所述的终端, 其特征在于, 所述收发器还用于: 接 收所述控制服务器发送的第一测量指示, 所述第一测量指示用于指示测量所 述多模无线通信系统中除基础链路对应的通信系统之外的其他通信系统当前 的信号质量;
所述处理器还用于: 对所述多模无线通信系统中除所述基础链路对应的 通信系统之外的其他通信系统当前的信号质量进行测量;
所述收发器还用于: 并将所述多模无线通信系统中除基础链路对应的通 信系统之外的其他通信系统当前的信号质量上报给所述控制服务器。
39、 根据权利要求 33-38任一项所述的终端, 其特征在于, 所述收发器 还用于: 接收所述控制服务器发送的第二测量指示, 所述第二测量指示用于 指示测量所述多模无线通信系统中除所述基础链路对应的通信系统和当前业 务通信系统之外其他通信系统的信号质量;
所述处理器还用于: 对所述多模无线通信系统中除所述基础链路对应的 通信系统和当前业务通信系统之外其他通信系统的信号质量进行测量;
所述收发器还用于: 将所述多模无线通信系统中除所述基础链路对应的 通信系统和当前业务通信系统之外其他通信系统的信号质量上报给所述控制 服务器。
40、 根据权利要求 33-39任一项所述的终端, 其特征在于, 若所述终端 的任一下行业务在至少两个所述业务通信系统中传输,则所述处理器还用于: 根据至少两个所述业务通信系统的特征信息, 确定所述终端的所述任一下行 任务在至少两个所述业务通信系统中的接收顺序, 并根据所述接收顺序在至 少两个所述通信系统中接收下行业务数据。
41、 根据权利要求 35任一项所述的终端, 其特征在于, 所述业务通信系 统的特征信息包括第一分流信息, 所述第一分流信息用于指示所述终端的所 述任一下行业务在至少两个所述业务通信系统中传输的数据比例或数据量; 所述收发器还用于: 接收所述控制服务器发送的所述第一分流信息。
42、 根据权利要求 33-39任一项所述的终端, 其特征在于, 若所述终端 的任一上行业务在至少两个所述通信系统中传输, 则所述处理器还用于: 根 据至少两个所述业务通信系统的负载状况和 /或链路质量, 确定所述任一上行 业务在至少两个所述业务通信系统中传输的数据比例或数据量;
所述收发器还用于: 在所述基础链路上向所述控制服务器发送第二分流 信息, 所述第二分流信息用于指示所述终端的所述任一上行业务在至少两个 所述业务通信系统中传输的数据比例。
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