WO2016008219A1 - 一种混合组网的实现方法、系统、设备及计算机存储介质 - Google Patents
一种混合组网的实现方法、系统、设备及计算机存储介质 Download PDFInfo
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- WO2016008219A1 WO2016008219A1 PCT/CN2014/087816 CN2014087816W WO2016008219A1 WO 2016008219 A1 WO2016008219 A1 WO 2016008219A1 CN 2014087816 W CN2014087816 W CN 2014087816W WO 2016008219 A1 WO2016008219 A1 WO 2016008219A1
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L61/00—Network arrangements, protocols or services for addressing or naming
- H04L61/50—Address allocation
- H04L61/5007—Internet protocol [IP] addresses
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W76/00—Connection management
- H04W76/10—Connection setup
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W88/00—Devices specially adapted for wireless communication networks, e.g. terminals, base stations or access point devices
- H04W88/08—Access point devices
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W88/00—Devices specially adapted for wireless communication networks, e.g. terminals, base stations or access point devices
- H04W88/12—Access point controller devices
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L2101/00—Indexing scheme associated with group H04L61/00
- H04L2101/60—Types of network addresses
- H04L2101/618—Details of network addresses
- H04L2101/659—Internet protocol version 6 [IPv6] addresses
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W84/00—Network topologies
- H04W84/02—Hierarchically pre-organised networks, e.g. paging networks, cellular networks, WLAN [Wireless Local Area Network] or WLL [Wireless Local Loop]
- H04W84/04—Large scale networks; Deep hierarchical networks
- H04W84/042—Public Land Mobile systems, e.g. cellular systems
- H04W84/045—Public Land Mobile systems, e.g. cellular systems using private Base Stations, e.g. femto Base Stations, home Node B
Definitions
- the present invention relates to a home base station technology, and in particular, to a hybrid network implementation method, system, device, and computer storage medium.
- the Long Term Evolution (LTE) system is an evolution of the third generation mobile communication system.
- 1 is a schematic diagram of a network architecture of an LTE system; as shown in FIG. 1 , an LTE system consists of an evolved base station (eNB, Evolved Node B) 11, an EVC (Evolved Packet Core) 12, and a user equipment (UE, User Equipment). ) 13 three parts.
- the EPC includes a Mobility Management Entity (MME) and a Serving Gateway (S-GW); wherein the Evolved Universal Terrestrial Radio Access Network (E-URTAN) is on the side of the Evolved Universal Terrestrial Radio Access Network (E-URTAN).
- the plurality of eNBs 11 access the MME 121/S-GW 122 through the S1 interface, and the eNBs 11 are connected through an X2 interface.
- a home base station (Femto) system which uses public broadband or carrier transmission.
- the access is accessed through the Internet to the security gateway and the operator's core network to provide wireless coverage for the user.
- the home base station system is mainly composed of a home base station and a home base station gateway.
- the home base station is classified into a home base station (HNB) using a 3G system and a home base station (HeNB) using an LTE system according to different wireless technologies used by the home base station.
- HNB home base station
- HeNB home base station
- FIG. 2 is a schematic diagram of a network element architecture of a home base station system in an LTE system.
- a home base station gateway (HeNB GW) 21 is introduced in an LTE system, and a plurality of home base stations (HeNBs) 22 are linked.
- the HeNB GW 21 is connected to the at least one HeNB 22 through the S1 link.
- the HeNB GW 21 also accesses the core network device 23 through the S1 link, and the core network device 23 may specifically be the MME.
- the HeNB 22 can also directly access the core network device 23 through the S1 link.
- IP bearer may be the fourth version of the Internet Protocol (IPV4, Internet Protocol Version 4) or the sixth version of the Internet Protocol (IPV6, Internet Protocol Version 6), whether it is IPV4 or not. Or IPV6 requires neighboring network elements to use the same IP bearer.
- IPV4 Internet Protocol Version 4
- IPV6, Internet Protocol Version 6
- S1 "INITIAL UE MESSAGE"
- the MME can only determine the service bearer type to be allocated to the user through the S1 signaling bearer type, that is, the service bearer type is the same as the S1 signaling bearer type. There is no problem when the HeNB 22 is directly connected to the MME.
- the HeNB 22 When the HeNB 22 is connected to the MME through the HeNB GW 21, there is no problem as long as the HeNB GW 21 can support the conversion between the IPV 4 and the IPV 6.
- the HeNB 22 links the MME through the HeNB GW 21 and the user plane does not pass through the HeNB GW 21, that is, the service bearer between the HeNB 22 and the MME is directly connected, and the MME cannot know the bearer type of the HeNB 22, and if the MME allocates the IPV6 address and the HeNB only Supporting IPV4, the service bearer between the HeNB 22 and the MME cannot be established successfully.
- the embodiments of the present invention provide a method, a system, a device, and a computer storage medium for implementing a hybrid networking, which can solve the problem that a home base station cannot establish a service bearer in a hybrid network based on the LTE standard.
- An embodiment of the present invention provides a method for implementing a hybrid networking, which is applied to a home base station.
- the method includes:
- the home base station sends the associated Internet Protocol IP type to the home base station gateway;
- the home base station acquires an IP address sent by the home base station gateway, and establishes a service bearer according to the IP address.
- the home base station sends the belonging IP type to the home base station gateway, including:
- the home base station sends the belonging IP type to the home base station gateway by using an S1 message.
- the S1 message is an S1 interface public message
- the S1 interface public message is one of the following messages:
- the S1 message is an S1 interface UE-specific message
- the S1 interface UE-specific message is one of the following messages:
- the embodiment of the invention further provides a method for implementing a hybrid networking, which is applied to a home base station gateway; the method includes:
- the home base station gateway acquires an IP type to which the home base station belongs; acquires an IPV4 address and/or an IPV6 address sent by the mobility management entity MME;
- the home base station gateway sends an IP address matching the IP type to which the home base station belongs to the home base station.
- the home base station gateway sends an IP address matching the IP type to the home base station, including:
- the home base station gateway receives an IPV4 address and an IPV6 address sent by the MME;
- IPV4 address and IPV6 address Selecting between the IPV4 address and the IPV6 address according to the IP type to which the home base station belongs Sending the IPV4 address or IPV6 address to the home base station with an IPV4 address or an IPV6 address matching the IP type.
- the home base station gateway sends an IP address matching the IP type to the home base station, including:
- the home base station gateway sends the IP type to which the home base station belongs to the MME;
- the home base station gateway receives an IPV4 address or an IPV6 address that is sent by the MME and matches the IP type, and sends the IPV4 address or an IPV6 address to the home base station.
- the embodiment of the present invention further provides a method for implementing a hybrid networking, which is applied to an MME.
- the method includes:
- the MME obtains the assigned IPV4 address and IPV6 address
- the MME sends an IPV4 address and/or an IPV6 address to the home base station gateway.
- the MME sends an IPV4 address and/or an IPV6 address to the home base station gateway, including:
- the MME sends the allocated IPV4 address and IPV6 address to the home base station gateway.
- the MME sends an IPV4 address and/or an IPV6 address to the home base station gateway, including:
- the embodiment of the invention further provides a method for implementing a hybrid networking, the method comprising:
- the home base station sends the belonging IP type to the home base station gateway;
- the home base station gateway acquires an IP type to which the home base station belongs; acquires an IPV4 address and/or an IPV6 address sent by the MME, and matches an IP address that matches the IP type to which the home base station belongs. Sending to the home base station;
- the home base station acquires an IP address sent by the home base station gateway, and establishes a service bearer according to the IP address.
- the home base station gateway acquires an IPV4 address and/or an IPV6 address sent by the MME, and sends an IP address matching the IP type to which the home base station belongs to the home base station, including:
- the home base station gateway receives an IPV4 address and an IPV6 address sent by the MME, and selects an IPV4 address or an IPV6 address that matches the IP type among the IPV4 address and the IPV6 address according to the IP type to which the home base station belongs.
- the IPV4 address or IPV6 address is sent to the home base station.
- the home base station gateway acquires an IPV4 address and/or an IPV6 address sent by the MME, and sends an IP address matching the IP type to which the home base station belongs to the home base station, including:
- the home base station gateway sends the IP type to which the home base station belongs to the MME;
- the home base station gateway receives an IPV4 address or an IPV6 address that is sent by the MME and matches the IP type, and sends the IPV4 address or an IPV6 address to the home base station.
- the embodiment of the present invention further provides a home base station, where the home base station includes: a first processing unit, a first sending unit, and a first receiving unit;
- the first sending unit is configured to send the belonging IP type to the home base station gateway;
- the first receiving unit is configured to acquire an IP address sent by the home base station gateway;
- the first processing unit is configured to establish a service bearer according to the IP address obtained by the first receiving unit.
- the first sending unit is configured to send the belonging IP type to the home base station gateway by using an S1 message.
- the embodiment of the present invention further provides a home base station gateway, where the home base station gateway includes: a second receiving unit and a second sending unit;
- the second receiving unit is configured to receive an IP type to which the home base station belongs, and is further configured to receive an IPV4 address and/or an IPV6 address sent by the MME.
- the second sending unit is configured to send, to the home base station, an IP address that is matched by the second receiving unit and that matches an IP type to which the home base station belongs.
- the home base station gateway further includes a second processing unit
- the second receiving unit is further configured to receive an IPV4 address and an IPV6 address sent by the MME, and send the IPV4 address and the IPV6 address to the second processing unit;
- the second processing unit is configured to select an IPV4 address or an IPV6 address matching the IP type among the IPV4 address and the IPV6 address according to the IP type of the home base station that is received by the second receiving unit, and Sending the IPV4 address or the IPV6 address to the second sending unit;
- the second sending unit is configured to send the IPV4 address or an IPV6 address to the home base station.
- the second sending unit is further configured to send, by the second receiving unit, an IP type to which the home base station belongs to the MME, and configured to receive the second receiving unit. Sending the IPV4 address or the IPV6 address to the home base station;
- the second receiving unit is further configured to receive an IPV4 address or an IPV6 address that is sent by the MME to match an IP type to which the home base station belongs, and send the IPV4 address or an IPV6 address to the second sending unit.
- An embodiment of the present invention further provides an MME, where the MME includes: an obtaining unit and a third sending unit;
- the obtaining unit is configured to obtain an allocated IPV4 address and an IPV6 address;
- the third sending unit is configured to send an IPV4 address and/or an IPV6 address to the home base station gateway.
- the third sending unit is configured to send the allocated IPV4 address and the IPV6 address acquired by the acquiring unit to the home base station gateway.
- the MME further includes a third receiving unit and a third processing unit;
- the third receiving unit is configured to receive an IP type to which the home base station sent by the home base station gateway belongs, and send the IP type to the third processing unit;
- the third processing unit is configured to select an IPV4 address or an IPV6 address that matches the IP type in the allocated IPV4 address and IPV6 address acquired by the acquiring unit according to the IP type, and the IPV4 address is Or sending an IPV6 address to the third sending unit;
- the third sending unit is configured to send the IPV4 address or an IPV6 address to the home base station gateway.
- the embodiment of the present invention further provides a system for implementing a hybrid networking, where the system includes: a home base station, a home base station gateway, and an MME;
- the home base station is configured to send an IP type to the home base station gateway; and configured to acquire an IP address sent by the home base station gateway, and establish a service bearer according to the IP address;
- the home base station gateway is configured to acquire an IP type to which the home base station belongs, and obtain an IPV4 address and/or an IPV6 address sent by the MME; and send an IP address matching the IP type to which the home base station belongs to Home base station
- the MME is configured to obtain an allocated IPV4 address and an IPV6 address; and is further configured to send an IPV4 address and/or an IPV6 address to the home base station gateway.
- the MME is configured to send the allocated IPV4 address and an IPV6 address to the home base station gateway;
- the home base station gateway is configured to receive an IPV4 address and an IPV6 address sent by the MME, and select an IPV4 address or an IPV6 matching the IP type among the IPV4 address and the IPV6 address according to an IP type to which the home base station belongs.
- the address is sent to the home base station by the IPV4 address or the IPV6 address.
- the home base station gateway is configured to send an IP type to which the home base station belongs to the MME, and is further configured to receive an IPV4 address or an IPV6 address that is sent by the MME and matches the IP type. Sending the IPV4 address or IPV6 address to the home base station;
- the MME is configured to receive an IP type of the home base station that is sent by the home base station gateway, and select an IPV4 address or an IPV6 address that matches the IP type in the allocated IPV4 address and the IPV6 address according to the IP type. Sending the IPV4 address or IPV6 address to the home base station gateway.
- the embodiment of the present invention further provides a computer storage medium, where the computer storage medium stores computer executable instructions, and the computer executable instructions are used to perform the hybrid group applied in the home base station according to the embodiment of the present invention.
- the implementation method of the network is not limited to the embodiment of the present invention.
- the embodiment of the present invention further provides a computer storage medium, where the computer storage medium stores computer executable instructions, and the computer executable instructions are used to perform the mixing applied to the home base station gateway according to the embodiment of the present invention.
- the embodiment of the present invention further provides a computer storage medium, where the computer storage medium stores computer executable instructions, and the computer executable instructions are used to perform the hybrid networking applied to the MME according to the embodiment of the present invention. Implementation method.
- the method, system, device and computer storage medium for implementing the hybrid networking send the IP type to the home base station gateway through the home base station; the home base station gateway acquires the IPV4 address and/or IPV6 sent by the MME. Address; will be associated with the home base station
- the IP address matched by the IP type is sent to the home base station; the home base station acquires an IP address sent by the home base station gateway, and establishes a service bearer according to the IP address.
- the home base station in the hybrid network based on the LTE system is configured to establish a service bearer.
- FIG. 1 is a schematic diagram of a network architecture of an LTE system
- FIG. 2 is a schematic diagram of a network element architecture of a home base station system in an LTE system
- FIG. 3 is a schematic flowchart of a method for implementing a hybrid networking according to Embodiment 1 of the present invention
- FIG. 4 is a schematic flowchart of a method for implementing a hybrid networking according to Embodiment 2 of the present invention.
- FIG. 5 is a schematic flowchart of a method for implementing a hybrid networking according to Embodiment 3 of the present invention.
- FIG. 6 is a schematic flowchart of a method for implementing a hybrid networking according to Embodiment 4 of the present invention.
- FIG. 7 is a schematic flowchart of a method for implementing a hybrid networking according to Embodiment 5 of the present invention.
- FIG. 8 is a schematic flowchart of a method for implementing a hybrid networking according to Embodiment 6 of the present invention.
- FIG. 9 is a schematic flowchart of a method for implementing a hybrid networking according to Embodiment 7 of the present invention.
- FIG. 10 is a schematic structural diagram of a system for implementing a hybrid networking according to an embodiment of the present invention.
- FIG. 11 is a schematic structural diagram of a structure of a home base station according to an embodiment of the present invention.
- FIG. 12 is a schematic structural diagram of a structure of a home base station gateway according to an embodiment of the present invention.
- FIG. 13 is a schematic structural diagram of a structure of an MME according to an embodiment of the present invention.
- FIG. 3 is a schematic flowchart of a method for implementing a hybrid networking according to Embodiment 1 of the present invention.
- Step 301 The home base station sends the belonging IP type to the home base station gateway.
- the associated IP type is that the home base station supports IPV4 or supports IPV6, and the home base station sends the support situation of the IPV4 or IPV6 to the home base station gateway.
- the home base station sends the IP type to the home base station gateway by using an S1 message.
- the S1 message may be an S1 interface public message, and the S1 interface public message may be one of the following messages: an S1 setup request (SETUP REQUEST), and a base station configuration update (ENB CONFIGURATION UPDATE), not limited to the foregoing.
- the S1 message may be an S1 interface UE-specific message, and the S1 interface UE-specific message is one of the following messages: UE message initialization (INITIAL UE MESSAGE), path switching request (PATH SWITCH REQUEST), no Limited to the above two kinds of messages.
- Step 302 The home base station acquires an IP address sent by the home base station gateway, and establishes a service bearer according to the IP address.
- the home base station gateway forwards the matched IP address selected by the MME to the home base station to the home base station, or the IPV4 address and IPV6 sent by the home base station gateway from the MME according to the IP type of the home base station.
- a matching IP address is selected in the address, and the IP address is sent to the home base station.
- the embodiment of the present invention further provides a computer storage medium, where the computer storage medium stores computer executable instructions, and the computer executable instructions are used to perform the hybrid group applied in the home base station according to the embodiment of the present invention.
- the implementation method of the network is not limited to the embodiment of the present invention.
- FIG. 4 is a schematic flowchart of a method for implementing a hybrid networking according to Embodiment 2 of the present invention. Methods include:
- Step 401 The home base station gateway acquires an IP type to which the home base station belongs, and acquires an IPV4 address and/or an IPV6 address sent by the MME.
- the home base station gateway acquires an IP sent by the home base station. After the type, the IP type is sent to the MME, and the MME selects an IPV4 address or an IPV6 address that matches the IP type according to the IP type; wherein the home base station gateway passes the S1 interface message The IP type is sent to the MME.
- the home base station gateway acquires the IP type sent by the home base station
- the IP type is saved; and the IPV4 address and the IPV6 address sent by the MME are received, according to the saved IP type, And selecting, by the IPV4 address and the IPV6 address, an IPV4 address or an IPV6 address that matches the IP type; wherein the MME sends the IPV4 address or the IPV6 address to the home base station gateway by using an S1 interface message.
- Step 402 The home base station gateway sends an IP address matching the IP type to which the home base station belongs to the home base station.
- the home base station gateway sends the IPV4 address or IPV6 address to the home base station through an S1 interface message.
- the embodiment of the present invention further provides a computer storage medium, where the computer storage medium stores computer executable instructions, and the computer executable instructions are used to perform the mixing applied to the home base station gateway according to the embodiment of the present invention.
- FIG. 5 is a schematic flowchart of a method for implementing a hybrid networking according to Embodiment 3 of the present invention.
- Step 501 The MME acquires the allocated IPV4 address and the IPV6 address.
- the S-GW allocates an IP address, the IP address including an IPV4 address and an IPV6 address, and the IPV4 address and the IPV6 address are sent to the MME.
- Step 502 The MME sends an IPV4 address and/or an IPV6 address to the home base station gateway.
- the MME receives an IP type sent by a home base station gateway, and selects and performs the selected IPV4 address and an IPV6 address according to the IP type. Transmitting the IPV4 address or the IPV6 address to the home base station gateway by using an IPV4 address or an IPV6 address that matches the IP type; wherein the MME sends the IPV4 address or the IPV6 address to the home base station by using an S1 interface message Gateway.
- the MME directly sends the allocated IPV4 address and IPV6 address to the home base station gateway; wherein the MME sends the IPV4 address and the IPV6 address to the IP address through an S1 interface message to The home base station gateway.
- the embodiment of the present invention further provides a computer storage medium, where the computer storage medium stores computer executable instructions, and the computer executable instructions are used to perform the hybrid networking applied to the MME according to the embodiment of the present invention. Implementation method.
- FIG. 6 is a schematic flowchart of a method for implementing a hybrid networking according to Embodiment 4 of the present invention; as shown in FIG. 6, the method includes:
- Step 601 The home base station sends the belonging IP type to the home base station gateway.
- the IP type of the home base station is that the home base station supports IPV4 or supports IPV6, and the home base station sends the support situation of the IPV4 or IPV6 to the home base station gateway.
- the home base station sends the IP type to the home base station gateway by using an S1 message.
- the S1 message may be an S1 interface public message, and the S1 interface public message may be one of the following messages: an S1 setup request (SETUP REQUEST), and a base station configuration update (ENB CONFIGURATION UPDATE), not limited to the foregoing.
- the S1 message may be an S1 interface UE-specific message, and the S1 interface UE-specific message is one of the following messages: UE message initialization (INITIAL UE MESSAGE), path switching request (PATH SWITCH REQUEST), no Limited to the above two kinds of messages.
- Step 602 The home base station gateway acquires an IP type to which the home base station belongs, and acquires an IPV4 address and/or an IPV6 address sent by the MME.
- the home base station gateway acquires the IP type sent by the home base station
- the IP type is sent to the MME
- the MME selects the IP type according to the IP type.
- An IPV4 address or an IPV6 address wherein the home base station gateway sends the IP type to the MME through an S1 interface message.
- the MME receives an IP type sent by the home base station gateway, and selects an IPV4 address or an IPV6 address matching the IP type according to the IP type in the allocated IPV4 address and the IPV6 address, and the IPV4 address is used. Or sending an IPV6 address to the home base station gateway; wherein the MME sends the IPV4 address or the IPV6 address to the home base station gateway by using an S1 interface message.
- the home base station gateway acquires the IP type sent by the home base station
- the IP type is saved; and the IPV4 address and the IPV6 address sent by the MME are received, according to the saved IP type, And selecting, by the IPV4 address and the IPV6 address, an IPV4 address or an IPV6 address that matches the IP type; wherein the MME sends the IPV4 address or the IPV6 address to the home base station gateway by using an S1 interface message.
- the MME directly sends the allocated IPV4 address and the IPV6 address to the home base station gateway; wherein the MME sends the IPV4 address and the IPV6 address to the home base station gateway by using an S1 interface message.
- Step 603 The home base station gateway sends an IP address matching the IP type to which the home base station belongs to the home base station.
- the home base station gateway sends the IPV4 address or IPV6 address to the home base station through an S1 interface message.
- Step 604 The home base station acquires an IP address sent by the home base station gateway, and establishes a service bearer according to the IP address.
- the home base station gateway forwards the matched IP address selected by the MME to the home base station to the home base station, or the home base station gateway according to the IP type of the home base station Selecting a matching IP address from the IPV4 address and the IPV6 address sent by the MME, and transmitting the IP address to the home base station.
- the home base station is the HeNB and the home base station gateway is the HeNB GW.
- the embodiment of the present invention is further described in detail.
- FIG. 7 is a schematic flowchart of a method for implementing a hybrid networking according to Embodiment 5 of the present invention; as shown in FIG. 7, the method includes:
- Step 701 The HeNB sends the IP type of the network to the HeNB GW through the S1 interface public message.
- the S1 interface common message may be one of the following messages: S1 SETUP REQUEST, ENB CONFIGURATION UPDATE, and is not limited to the above two messages.
- the IP type is carried by the public message of the S1 interface, and the IP type is sent to the HeNB GW.
- the IP type is whether the HeNB supports IPV4 or IPV6.
- Step 702 The HeNB GW carries the IP type of the HeNB to the MME through the uplink S1 interface public message.
- the S1 interface common message may be one of the following messages: S1 SETUP REQUEST, ENB CONFIGURATION UPDATE, and is not limited to the above two messages.
- the identifier information of the HeNB that is connected to the HeNB GW is carried by the public message of the S1 interface, where the identifier information of the HeNB may include: a global ID of the HeNB and an IP type supported by the HeNB, where the IP type indicates that the HeNB supports the IPV4. Still support IPV6.
- Step 703 The MME selects an IP address that matches the IP type according to the IP type, and sends the IP address to the HeNB GW in a downlink S1 interface message.
- the MME supports the IPV type of the IPV4 or the IPV6 according to whether the HeNB supports IPV4.
- the IPV4 address or IPV6 address matching the IP type is selected, and the IPV4 address or IPV6 address is sent to the HeNB GW.
- Step 704 The HeNB GW forwards the allocated IP address to the HeNB.
- the HeNB GW sends the IPV4 address or IPV6 address to the HeNB through an S1 interface message.
- Step 705 The HeNB establishes a service bearer according to the received IP address.
- FIG. 8 is a schematic flowchart of a method for implementing a hybrid networking according to Embodiment 6 of the present invention; as shown in FIG. 8, the method includes:
- Step 801 The HeNB sends the IP type of the network to the HeNB GW through the S1 interface UE-specific message.
- the S1 interface UE-specific message is one of the following messages: UE message initialization (INITIAL UE MESSAGE), path switching request (PATH SWITCH REQUEST), and is not limited to the above two messages.
- the IP type is carried by the UE dedicated message of the S1 interface, and the IP type is sent to the HeNB GW.
- the IP type is whether the HeNB supports IPV4 or IPV6.
- Step 802 The HeNB GW carries the IP type of the HeNB to the MME by using the uplink S1 interface UE-specific message.
- the S1 interface UE-specific message is one of the following messages: UE message initialization (INITIAL UE MESSAGE), path switching request (PATH SWITCH REQUEST), and is not limited to the above two messages.
- the identifier information of the HeNB that is connected to the HeNB GW is carried by the UE-specific message of the S1 interface, where the identifier information of the HeNB may include: a global ID of the HeNB and an IP type supported by the HeNB, where the IP type represents the HeNB support. IPV4 still supports IPV6.
- Step 803 The MME selects an IP address that matches the IP type according to the IP type. And sent to the HeNB GW in the downlink message.
- the MME selects an IPV4 address or an IPV6 address that matches the IP type according to whether the HeNB supports IPV4 or an IP type supporting IPV6, and sends the IPV4 address or IPV6 address to the HeNB GW.
- Step 804 The HeNB GW forwards the allocated IP address to the HeNB.
- the HeNB GW sends the IPV4 address or IPV6 address to the HeNB through an S1 interface message.
- Step 805 The HeNB establishes a service bearer according to the received IP address.
- FIG. 9 is a schematic flowchart of a method for implementing a hybrid networking according to Embodiment 7 of the present invention; as shown in FIG. 9, the method includes:
- Step 901 The HeNB sends the IP type of the network to the HeNB GW through the S1 interface public message.
- the S1 interface common message may be one of the following messages: S1 SETUP REQUEST, ENB CONFIGURATION UPDATE, and is not limited to the above two messages.
- the IP type is carried by the public message of the S1 interface, and the IP type is sent to the HeNB GW.
- the IP type is whether the HeNB supports IPV4 or IPV6.
- Step 902 The HeNB GW saves the IP type.
- Step 903 The MME sends the S-GW allocation IPV4 address and the IPV6 address to the HeNB GW in the downlink message.
- the MME sends the IPV4 address and the IPV6 address to the HeNB GW through a downlink S1 interface message.
- Step 904 The HeNB GW selects an IPV4 address or an IPV6 address that matches the IP type in the IPV4 address and the IPV6 address sent by the MME according to the IP type of the HeNB.
- the HeNB GW selects an IPV4 address or an IPV6 address that matches the IP type according to whether the HeNB supports IPV4 or an IP type supporting IPV6.
- Step 905 Send the IPV4 address or IPV6 address to the HeNB.
- the HeNB GW sends the IPV4 address or IPV6 address to the HeNB through an S1 interface message.
- Step 906 The HeNB establishes a service bearer according to the received IP address.
- the embodiment of the invention further provides an implementation system of a hybrid networking.
- 10 is a schematic structural diagram of a system for implementing a hybrid networking according to an embodiment of the present invention; as shown in FIG. 10, the system includes: a home base station 1001, a home base station gateway 1002, and an MME 1003;
- the home base station 1001 is configured to send an IP type to the home base station gateway 1002, and configured to acquire an IP address sent by the home base station gateway 1002, and establish a service bearer according to the IP address;
- the home base station gateway 1002 is configured to acquire an IP type to which the home base station is sent by the home base station 1001, acquire an IPV4 address and/or an IPV6 address sent by the MME 1003, and obtain an IP address that matches an IP type to which the home base station belongs. Send to the home base station 1001;
- the MME 1003 is configured to acquire an assigned IPV4 address and an IPV6 address; and is further configured to send an IPV4 address and/or an IPV6 address to the home base station gateway 1002.
- the home base station 1001 is configured to send the IP type to the home base station gateway 1002 by using an S1 message.
- the S1 message may be an S1 interface public message, and the S1 interface public message may be one of the following messages: an S1 setup request (SETUP REQUEST), and a base station configuration update (ENB CONFIGURATION UPDATE), not limited to the foregoing.
- the S1 message may be an S1 interface UE-specific message, and the S1 interface UE-specific message is one of the following messages: UE message initialization (INITIAL UE MESSAGE), path switching request (PATH SWITCH REQUEST), no Limited to the above Two kinds of messages.
- the home base station gateway 1002 is configured to acquire an IP type sent by the home base station 1001, and is further configured to receive an IPV4 address and an IPV6 address sent by the MME 1003; according to the IP type to which the home base station 1001 belongs. Selecting an IPV4 address or an IPV6 address matching the IP type from the IPV4 address and the IPV6 address, and transmitting the IPV4 address or IPV6 address to the home base station 1001;
- the MME 1003 is configured to directly send the allocated IPV4 address and the IPV6 address to the home base station gateway 1002.
- the home base station gateway 1002 is configured to acquire an IP type to which the home base station 1001 belongs, and send the IP type to the MME 1003.
- the eNB 1003 is further configured to receive the MME 1003. Sending an IPV4 address or an IPV6 address matching the IP type, and transmitting the IPV4 address or IPV6 address to the home base station 1001;
- the MME 1003 is configured to receive an IP type that the home base station 1001 sends by the home base station gateway 1002, and select an IP type that matches the IP type in the allocated IPV4 address and the IPV6 address according to the IP type.
- the IPV4 address or the IPV6 address is sent to the home base station gateway 1002.
- FIG. 11 is a schematic structural diagram of a configuration of a home base station according to an embodiment of the present invention; as shown in FIG. 11, the home base station includes: a first processing unit 1101, and a first sending unit 1102. And a first receiving unit 1103; wherein
- the first sending unit 1102 is configured to send an IP type to the home base station gateway;
- the first receiving unit 1103 is configured to acquire an IP address sent by the home base station gateway;
- the first processing unit 1101 is configured to establish a service bearer according to the IP address obtained by the first receiving unit 1103.
- the first sending unit 1102 is configured to send the IP type to the home base station gateway by using an S1 message.
- the S1 message may be an S1 interface public message, and the S1 interface public message may be one of the following messages: an S1 setup request (SETUP REQUEST), a base station configuration update (ENB CONFIGURATION UPDATE), not limited to the above two messages.
- the S1 message may be an S1 interface UE-specific message, and the S1 interface UE-specific message is one of the following messages: UE message initialization (INITIAL UE MESSAGE), path switching request (PATH SWITCH REQUEST), not limited to the above Two kinds of messages.
- the first processing unit 1101 in the home base station may be implemented by a central processing unit (CPU, Central Processing Unit) and a digital signal processor (DSP, Digital Signal Processor) in the home base station. Or a Field-Programmable Gate Array (FPGA) implementation; the first transmitting unit 1102 in the home base station may be implemented by a transmitter or a transmitter in the home base station in an actual application; The first receiving unit 1103 in the actual application may be implemented by a receiver or a receiver in the home base station.
- CPU Central Processing Unit
- DSP Digital Signal Processor
- FPGA Field-Programmable Gate Array
- FIG. 12 is a schematic structural diagram of a home base station gateway according to an embodiment of the present invention. As shown in FIG. 12, the home base station gateway includes: a second receiving unit 1201 and a second a sending unit 1202; wherein
- the second receiving unit 1201 is configured to receive an IP type to which the home base station belongs; Receiving an IPV4 address and/or an IPV6 address sent by the MME;
- the second sending unit 1202 is configured to send an IP address that is matched by the second receiving unit 1201 and that matches the IP type to which the home base station belongs, to the home base station.
- the home base station gateway further includes a second processing unit 1203;
- the second receiving unit 1201 is further configured to receive an IPV4 address and an IPV6 address sent by the MME, and send the IPV4 address and the IPV6 address to the second processing unit 1203;
- the second processing unit 1203 is configured to select, according to the IP type of the home base station that the second receiving unit 1201 belongs to, an IPV4 address or an IPV6 address that matches the IP type in the IPV4 address and the IPV6 address. Sending the IPV4 address or IPV6 address to the second sending unit 1202;
- the second sending unit 1202 is configured to send the IPV4 address or the IPV6 address to the home base station.
- the second sending unit 1202 is further configured to send the IP type of the home base station that is received by the second receiving unit 1201 to the MME, and further configured to: The IPV4 address or IPV6 address received by the receiving unit 1201 is sent to the home base station;
- the second receiving unit 1201 is further configured to receive an IPV4 address or an IPV6 address that is sent by the MME to match an IP type to which the home base station belongs, and send the IPV4 address or an IPV6 address to the second sending unit. 1202.
- the second processing unit 1203 in the home base station gateway may be implemented by a CPU, a DSP, or an FPGA in the home base station gateway; the second sending unit 1202 in the home base station gateway is In a practical application, it may be implemented by a transmitter or a transmitter in the home base station gateway; in a practical application, the second receiving unit 1201 in the home base station gateway may be implemented by a receiver or a receiver in the home base station gateway. .
- FIG. 13 is a schematic structural diagram of a structure of an MME according to an embodiment of the present invention; as shown in FIG. 13, the MME includes: an obtaining unit 1301 and a third sending unit 1302;
- the obtaining unit 1301 is configured to obtain an allocated IPV4 address and an IPV6 address;
- the third sending unit 1302 is configured to send an IPV4 address and/or an IPV6 address to the home base station gateway.
- the third sending unit 1302 is configured to send the allocated IPV4 address and the IPV6 address acquired by the acquiring unit 1301 to the home base station gateway.
- the MME further includes a third receiving unit 1303 and a third processing unit 1304;
- the third receiving unit 1303 is configured to receive an IP type that the home base station sends by the home base station gateway, and send the IP type to the third processing unit 1304;
- the third processing unit 1304 is configured to select an IPV4 address or an IPV6 address that matches the IP type in the allocated IPV4 address and IPV6 address acquired by the acquiring unit 1301 according to the IP type, and the Sending an IPV4 address or an IPV6 address to the third sending unit 1302;
- the third sending unit 1302 is configured to send the IPV4 address or an IPV6 address to the home base station gateway.
- the third processing unit 1304 in the MME may be implemented by a CPU, a DSP, or an FPGA in the MME in an actual application; the third sending unit 1302 in the MME may be used in an actual application.
- the implementation of the transmitter or the transmitter in the MME; the third receiving unit 1303 and the obtaining unit 1301 in the MME may be implemented by a receiver or a receiver in the MME in practical applications.
- embodiments of the present invention can be provided as a method, system, or computer program product. Accordingly, the present invention can take the form of a hardware embodiment, a software embodiment, or a combination of software and hardware. Moreover, the invention can take the form of a computer program product embodied on one or more computer-usable storage media (including but not limited to disk storage and optical storage, etc.) including computer usable program code.
- the computer program instructions can also be stored in a computer readable memory that can direct a computer or other programmable data processing device to operate in a particular manner, such that the computer is readable and stored
- the instructions in the reservoir produce an article of manufacture comprising an instruction device that implements the functions specified in one or more blocks of the flow or in a flow or block diagram of the flowchart.
- These computer program instructions can also be loaded onto a computer or other programmable data processing device such that a series of operational steps are performed on a computer or other programmable device to produce computer-implemented processing for execution on a computer or other programmable device.
- the instructions provide steps for implementing the functions specified in one or more of the flow or in a block or blocks of a flow diagram.
- the home base station gateway selects an IPV4 address or an IPV6 address matching the IP type in the assigned IPV4 address and the IPV6 address according to the IP type to which the home base station belongs, and sends the IPV4 address or the IPV6 address to the home base station. Or selecting, by the MME, an IPV4 address or an IPV6 address matching the IP type among the assigned IPV4 address and the IPV6 address according to the IP type to which the home base station belongs, and transmitting the IPV4 address or the IPV6 address to the home base station through the home base station gateway.
- the home base station in the hybrid network based on the LTE system is configured to establish a service bearer.
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Abstract
Description
Claims (27)
- 一种混合组网的实现方法,应用于家庭基站中;所述方法包括:家庭基站将所属的互联网协议IP类型发送至家庭基站网关;所述家庭基站获取所述家庭基站网关发送的IP地址,根据所述IP地址建立业务承载。
- 根据权利要求1所述的方法,其中,所述家庭基站将所属的IP类型发送至家庭基站网关,包括:所述家庭基站将所属的IP类型通过S1消息发送至所述家庭基站网关。
- 根据权利要求2所述的方法,其中,所述S1消息为S1接口公共消息,所述S1接口公共消息为以下消息的其中之一:S1建立请求、基站配置更新。
- 根据权利要求2所述的方法,其中,所述S1消息为S1接口用户设备UE专用消息,所述S1接口UE专用消息为以下消息的其中之一:UE消息初始化、路径切换请求。
- 一种混合组网的实现方法,应用于家庭基站网关中;所述方法包括:家庭基站网关获取家庭基站所属的IP类型;获取移动管理实体MME发送的IPV4地址和/或IPV6地址;所述家庭基站网关将与所述家庭基站所属的IP类型匹配的IP地址发送至家庭基站。
- 根据权利要求5所述的方法,其中,所述家庭基站网关将与所述IP类型匹配的IP地址发送至家庭基站,包括:所述家庭基站网关接收MME发送的IPV4地址和IPV6地址;根据所述家庭基站所属的IP类型在所述IPV4地址和IPV6地址中选择与所述IP类型匹配的IPV4地址或IPV6地址,将所述IPV4地址或IPV6地址发送至家庭基站。
- 根据权利要求5所述的方法,其中,所述家庭基站网关将与所述IP类型匹配的IP地址发送至家庭基站,包括:所述家庭基站网关将所述家庭基站所属的IP类型发送至MME;所述家庭基站网关接收所述MME发送的与所述IP类型匹配的IPV4地址或IPV6地址,将所述IPV4地址或IPV6地址发送至家庭基站。
- 一种混合组网的实现方法,应用于MME中;所述方法包括:MME获取分配的IPV4地址和IPV6地址;所述MME向家庭基站网关发送IPV4地址和/或IPV6地址。
- 根据权利要求8所述的方法,其中,所述MME向家庭基站网关发送IPV4地址和/或IPV6地址,包括:所述MME将所述分配的IPV4地址和IPV6地址发送至所述家庭基站网关。
- 根据权利要求8所述的方法,其中,所述MME向家庭基站网关发送IPV4地址和/或IPV6地址,包括:所述MME接收所述家庭基站网关发送的家庭基站所属的IP类型;根据所述IP类型在所述IPV4地址和IPV6地址中选择与所述IP类型匹配的IPV4地址或IPV6地址,将所述IPV4地址或IPV6地址发送至所述家庭基站网关。
- 一种混合组网的实现方法,所述方法包括:家庭基站将所属的IP类型发送至家庭基站网关;所述家庭基站网关获取家庭基站所属的IP类型;获取MME发送的IPV4地址和/或IPV6地址,将与所述家庭基站所属的IP类型匹配的IP地址发送至所述家庭基站;所述家庭基站获取所述家庭基站网关发送的IP地址,根据所述IP地址建立业务承载。
- 根据权利要求11所述的方法,其中,所述家庭基站网关获取MME发送的IPV4地址和/或IPV6地址,将与所述家庭基站所属的IP类型匹配的IP地址发送至所述家庭基站,包括:所述MME将分配的IPV4地址和IPV6地址发送至所述家庭基站网关;所述家庭基站网关接收所述MME发送的IPV4地址和IPV6地址,根据所述家庭基站所属的IP类型在所述IPV4地址和IPV6地址中选择与所述IP类型匹配的IPV4地址或IPV6地址,将所述IPV4地址或IPV6地址发送至家庭基站。
- 根据权利要求11所述的方法,其中,所述家庭基站网关获取MME发送的IPV4地址和/或IPV6地址,将与所述家庭基站所属的IP类型匹配的IP地址发送至所述家庭基站,包括:所述家庭基站网关将所述家庭基站所属的IP类型发送至MME;所述MME接收所述家庭基站网关发送的所述家庭基站所属的IP类型,根据所述IP类型在分配的IPV4地址和IPV6地址中选择与所述IP类型匹配的IPV4地址或IPV6地址,将所述IPV4地址或IPV6地址发送至所述家庭基站网关;所述家庭基站网关接收所述MME发送的与所述IP类型匹配的IPV4地址或IPV6地址,将所述IPV4地址或IPV6地址发送至家庭基站。
- 一种家庭基站,所述家庭基站包括:第一处理单元、第一发送单元和第一接收单元;其中,所述第一发送单元,配置为将所属的IP类型发送至家庭基站网关;所述第一接收单元,配置为获取所述家庭基站网关发送的IP地址;所述第一处理单元,配置为根据所述第一接收单元获取的所述IP地址建立业务承载。
- 根据权利要求14所述的家庭基站,其中,所述第一发送单元,配 置为将所属的IP类型通过S1消息发送至所述家庭基站网关。
- 一种家庭基站网关,所述家庭基站网关包括:第二接收单元和第二发送单元;其中,所述第二接收单元,配置为接收家庭基站所属的IP类型;还配置为接收MME发送的IPV4地址和/或IPV6地址;所述第二发送单元,配置为将与所述第二接收单元接收的与所述家庭基站所属的IP类型匹配的IP地址发送至家庭基站。
- 根据权利要求16所述的家庭基站网关,其中,所述家庭基站网关还包括第二处理单元;所述第二接收单元,还配置为接收MME发送的IPV4地址和IPV6地址,将所述IPV4地址和IPV6地址发送至所述第二处理单元;所述第二处理单元,配置为根据所述第二接收单元接收的所述家庭基站所属的IP类型在所述IPV4地址和IPV6地址中选择与所述IP类型匹配的IPV4地址或IPV6地址,将所述IPV4地址或IPV6地址发送至所述第二发送单元;所述第二发送单元,配置为将所述IPV4地址或IPV6地址发送至家庭基站。
- 根据权利要求16所述的家庭基站网关,其中,所述第二发送单元,还配置为将所述第二接收单元接收的所述家庭基站所属的IP类型发送至MME;还配置为将所述第二接收单元接收的所述IPV4地址或IPV6地址发送至家庭基站;所述第二接收单元,还配置为接收所述MME发送的与所述家庭基站所属的IP类型匹配的IPV4地址或IPV6地址,将所述IPV4地址或IPV6地址发送至所述第二发送单元。
- 一种MME,所述MME包括:获取单元和第三发送单元;其中,所述获取单元,配置为获取分配的IPV4地址和IPV6地址;所述第三发送单元,配置为向家庭基站网关发送IPV4地址和/或IPV6地址。
- 根据权利要求19所述的MME,其中,所述第三发送单元,配置为将所述获取单元获取的所述分配的IPV4地址和IPV6地址发送至家庭基站网关。
- 根据权利要求19所述的MME,其中,所述MME还包括第三接收单元和第三处理单元;其中,所述第三接收单元,配置为接收家庭基站网关发送的家庭基站所属的IP类型,将所述IP类型发送至所述第三处理单元;所述第三处理单元,配置为根据所述IP类型在所述获取单元获取的所述分配的IPV4地址和IPV6地址中选择与所述IP类型匹配的IPV4地址或IPV6地址,将所述IPV4地址或IPV6地址发送至所述第三发送单元;所述第三发送单元,配置为将所述IPV4地址或IPV6地址发送至所述家庭基站网关。
- 一种混合组网的实现系统,所述系统包括:家庭基站、家庭基站网关和MME;其中,所述家庭基站,配置为将所属的IP类型发送至家庭基站网关;还配置为获取所述家庭基站网关发送的IP地址,根据所述IP地址建立业务承载;所述家庭基站网关,配置为获取家庭基站发送的所述家庭基站所属的IP类型,获取MME发送的IPV4地址和/或IPV6地址;将与所述家庭基站所属的IP类型匹配的IP地址发送至家庭基站;所述MME,配置为获取分配的IPV4地址和IPV6地址;还配置为向家庭基站网关发送IPV4地址和/或IPV6地址。
- 根据权利要求22所述的系统,其中,所述MME,配置为将所述 分配的IPV4地址和IPV6地址发送至所述家庭基站网关;所述家庭基站网关,配置为接收所述MME发送的IPV4地址和IPV6地址,根据所述家庭基站所属的IP类型在所述IPV4地址和IPV6地址中选择与所述IP类型匹配的IPV4地址或IPV6地址,将所述IPV4地址或IPV6地址发送至家庭基站。
- 根据权利要求22所述的系统,其中,所述家庭基站网关,配置为将所述家庭基站所属的IP类型发送至MME;还配置为接收所述MME发送的与所述IP类型匹配的IPV4地址或IPV6地址,将所述IPV4地址或IPV6地址发送至家庭基站;所述MME,配置为接收所述家庭基站网关发送的所述家庭基站所属的IP类型,根据所述IP类型在分配的IPV4地址和IPV6地址中选择与所述IP类型匹配的IPV4地址或IPV6地址,将所述IPV4地址或IPV6地址发送至所述家庭基站网关。
- 一种计算机存储介质,所述计算机存储介质中存储有计算机可执行指令,所述计算机可执行指令用于执行权利要求1至4任一项所述的混合组网的实现方法。
- 一种计算机存储介质,所述计算机存储介质中存储有计算机可执行指令,所述计算机可执行指令用于执行权利要求5至7任一项所述的混合组网的实现方法。
- 一种计算机存储介质,所述计算机存储介质中存储有计算机可执行指令,所述计算机可执行指令用于执行权利要求8至10任一项所述的混合组网的实现方法。
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US20170238348A1 (en) | 2017-08-17 |
EP3171663A1 (en) | 2017-05-24 |
JP2017528948A (ja) | 2017-09-28 |
CN105262648B (zh) | 2019-10-29 |
EP3171663B1 (en) | 2019-12-25 |
US10412770B2 (en) | 2019-09-10 |
JP6452800B2 (ja) | 2019-01-16 |
CN105262648A (zh) | 2016-01-20 |
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