CN111698687A - Terminal residing method based on 5G co-construction sharing, network equipment and communication network - Google Patents
Terminal residing method based on 5G co-construction sharing, network equipment and communication network Download PDFInfo
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- CN111698687A CN111698687A CN201911134923.5A CN201911134923A CN111698687A CN 111698687 A CN111698687 A CN 111698687A CN 201911134923 A CN201911134923 A CN 201911134923A CN 111698687 A CN111698687 A CN 111698687A
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W16/00—Network planning, e.g. coverage or traffic planning tools; Network deployment, e.g. resource partitioning or cells structures
- H04W16/14—Spectrum sharing arrangements between different networks
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
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- H04W48/16—Discovering, processing access restriction or access information
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Abstract
The disclosure provides a terminal residing method based on 5G co-construction sharing, network equipment and a communication network, and relates to the technical field of communication. The terminal residing method comprises the following steps: the base station sends PLMN information to the terminal so that the terminal can be matched with the PLMN information of the base station according to the pre-stored PLMN information, wherein under the condition that the base station is an NSA shared anchor base station: the PLMN information sent by the base station is 5G PLMN information; and in case of successful matching, allowing the terminal to reside in the current 5G network. By the method, the 4G terminal is difficult to access the shared anchor base station by deploying the shared anchor base station with the 5G PLMN, so that limited NSA shared anchor base station resources are supplied to the 5G terminal for use, the 4G base station is prevented from being idle while the network performance of the 5G terminal is ensured, and the utilization rate of network resources is improved.
Description
Technical Field
The disclosure relates to the technical field of communication, and in particular to a terminal residing method based on 5G co-construction sharing, network equipment and a communication network.
Background
The 5G operating frequency band is high, the number of required base stations is large, the construction cost is high, the power consumption of the base stations is also high, about 3 times of that of the 4G base stations, and the 5G base stations are inevitably constructed and shared with other operators in order to construct the 5G base stations with low cost and high efficiency.
For the established 5G base station, it needs to be fully applied to reduce the input-output ratio.
Disclosure of Invention
The inventor finds that, in the NSA stage, network sharing is performed for 5G users, which may cause that both 4G terminals and 5G terminals are concentrated in a shared network, network resources cannot be shared, and the original 4G network is idle, thereby reducing the utilization rate of base station resources and affecting user experience.
One object of the present disclosure is to improve utilization of base station resources.
According to an aspect of some embodiments of the present disclosure, a terminal camping method is provided, including: the base station sends PLMN (Public Land Mobile Network) information to the terminal so that the terminal can be matched with the PLMN information of the base station according to the pre-stored PLMN information, wherein when the base station is a Non-stand alone (NSA) shared anchor base station: the PLMN information sent by the base station is 5G PLMN information; the terminal supporting the 5G function prestores 5GPLMN information, and the terminal not supporting the 5G function does not have the 5G PLMN information; and allowing the terminal to reside in the current 5G network under the condition that the matching between the 5G PLMN information prestored in the terminal and the 5G PLMN information of the base station is successful.
In some embodiments, the terminal residing method further includes: and under the condition that the PLMN information prestored by the terminal is not matched with the 5G PLMN information of the base station successfully, the terminal cannot stay in the current 5G network.
In some embodiments, when the base station is a 4G base station, the PLMN information sent by the base station is 4G PLMN information, and the terminal supporting the 4G function has the 4G PLMN information prestored; the terminal residing method further comprises the following steps: under the condition that 4G PLMN information prestored in the terminal is successfully matched with 4G PLMN information of the base station, the 4G base station judges whether the terminal supports a 5G function or not; and under the condition that the terminal is determined to support the 5G function, issuing a special frequency priority to the terminal, wherein in the special frequency priority, the frequency priority of the NSA shared anchor point base station is higher than that of the 4G base station, so that the terminal can access the network according to the special frequency priority.
In some embodiments, the terminal residing method further includes: and in the case that the 4G base station determines that the terminal does not support the 5G function, allowing the terminal to reside in the current 4G network.
In some embodiments, the determining, by the 4G base station, whether the terminal supports the 5G function includes: and the 4G base station determines whether the terminal supports the 5G function according to the terminal capability information reported by the terminal in the service attachment process.
By the method, the 4G terminal is difficult to access the NSA shared anchor point base station by a mode that the NSA shared anchor point base station is deployed to have the 5G PLMN, so that the limited NSA shared anchor point base station resources are supplied to the 5G terminal for use, the 4G base station is prevented from being idle while the network performance of the 5G terminal is ensured, and the utilization rate of the network resources is improved.
According to an aspect of some embodiments of the present disclosure, a terminal camping method of a 5G terminal is provided, including: receiving Public Land Mobile Network (PLMN) information from a base station; the terminal is matched with the PLMN information of the base station based on the pre-stored PLMN information, wherein: if the base station is a non-independent networking NSA shared anchor point base station, the PLMN information sent by the base station is 5G PLMN information, the terminal supporting the 5G function pre-stores the 5G PLMN information, and the terminal not supporting the 5G function does not have the 5G PLMN information; and under the condition of successful matching, the terminal resides in the current network, wherein if the base station is a non-independent networking NSA shared anchor base station, the terminal resides in the current 5G network.
In some embodiments, if the base station is a 4G base station, the matching, by the terminal, of the PLMN information of the base station based on the pre-stored PLMN information includes: the terminal is matched with the 4G PLMN information of the base station based on the pre-stored 4G PLMN information; under the condition of successful matching, the terminal reports the terminal capability information to the base station; receiving a proprietary frequency priority from a 4G base station, wherein in the proprietary frequency priority, the NSA shared anchor base station frequency priority is higher than the 4G base station frequency; re-accessing the network according to the dedicated frequency priority.
In some embodiments, the reporting, by the terminal, the terminal capability information to the base station includes: and the terminal reports the terminal capability information to the base station in the service attachment process.
By the method, the 5G terminal is provided with the 5G PLMN matched with the NSA shared anchor point base station, so that the 4G terminal is difficult to access the NSA shared anchor point base station, limited NSA shared anchor point base station resources are supplied to the 5G terminal for use, the 4G base station is prevented from being idle while the network performance of the 5G terminal is ensured, and the utilization rate of the network resources is improved.
According to an aspect of some embodiments of the present disclosure, there is provided a base station, including: an information sending unit configured to send Public Land Mobile Network (PLMN) information to a terminal so that the terminal matches the PLMN information of a base station according to pre-stored PLMN information, wherein, in case that the base station is a non-independent Networking (NSA) shared anchor point base station: the PLMN information sent by the base station is 5G PLMN information; the terminal supporting the 5G function prestores 5G PLMN information, and the terminal not supporting the 5G function does not have 5GPLMN information; and the residing unit is configured to allow the terminal successfully matched with the 5G PLMN information of the base station to reside in the current 5G network.
In some embodiments, when the base station is a 4G base station, the PLMN information sent by the base station is 4G PLMN information, and the terminal supporting the 4G function has the 4G PLMN information prestored; the base station further comprises: a function determination unit configured to determine whether the terminal supports a 5G function; and the frequency priority sending unit is configured to issue a special frequency priority to the terminal under the condition that the terminal is determined to support the 5G function, wherein in the special frequency priority, the NSA shared anchor point base station frequency priority is higher than the 4G base station frequency, so that the terminal can access the network according to the special frequency priority.
In some embodiments, where the base station is a 4G base station: the residing unit is configured to allow the terminal to reside in the current 4G network in a case where the function judging unit determines that the terminal does not support the 5G function.
The base station enables the 4G terminal to be difficult to access the NSA shared anchor point base station by a mode that the NSA shared anchor point base station is deployed to have a 5G PLMN, so that limited NSA shared anchor point base station resources are supplied to the 5G terminal for use, the 4G base station is prevented from being idle while the network performance of the 5G terminal is guaranteed, and the utilization rate of the network resources is improved.
According to an aspect of some embodiments of the present disclosure, there is provided a 5G terminal, including: an information receiving unit configured to receive Public Land Mobile Network (PLMN) information from a base station; a matching unit configured to match with PLMN information of a base station based on pre-stored PLMN information, wherein: if the base station is a non-independent networking NSA shared anchor point base station, the PLMN information sent by the base station is 5G PLMN information, the terminal supporting the 5G function pre-stores the 5G PLMN information, and the terminal not supporting the 5G function does not have the 5G PLMN information; and the access unit is configured to enable the terminal to reside in the current network under the condition that the matching is successful, wherein if the base station is a non-independent networking NSA shared anchor base station, the terminal resides in the current 5G network.
In some embodiments, if the base station is a 4G base station, the matching unit is configured to: matching 4G PLMN information of a base station based on the pre-stored 4G PLMN information; the 5G terminal further comprises: the capability reporting unit is configured to report the terminal capability information to the base station by the terminal under the condition that the matching unit is successfully matched; a frequency priority receiving unit configured to receive a proprietary frequency priority from a 4G base station, wherein the NSA shared anchor base station frequency priority is higher than the 4G base station frequency in the proprietary frequency priority; the access unit is further configured to re-access the network according to the dedicated frequency priority.
The 5G terminal is provided with the 5G PLMN matched with the NSA shared anchor point base station, so that the 4G terminal is difficult to access the NSA shared anchor point base station, limited NSA shared anchor point base station resources are supplied to the 5G terminal for use, the 4G base station is prevented from being idle while the network performance of the 5G terminal is ensured, and the utilization rate of the network resources is improved.
According to an aspect of some embodiments of the present disclosure, there is provided a network device, including: a memory; and a processor coupled to the memory, the processor configured to perform any of the above terminal access methods based on instructions stored in the memory.
The network equipment can enable the 4G terminal to be difficult to access the NSA shared anchor point base station by a mode that the NSA shared anchor point base station is deployed and is provided with the 5G PLMN, so that limited NSA shared anchor point base station resources are supplied to the 5G terminal for use, the 4G base station is prevented from being idle while the network performance of the 5G terminal is guaranteed, and the utilization rate of network resources is improved.
According to an aspect of some embodiments of the present disclosure, a computer-readable storage medium is proposed, on which computer program instructions are stored, which instructions, when executed by a processor, implement the steps of any of the above terminal access methods performed by a base station.
By executing the instruction on the computer-readable storage medium, the limited NSA shared anchor base station resources can be supplied to the 5G terminal for use, the network performance of the 5G terminal is ensured, meanwhile, the 4G base station is prevented from being idle, and the utilization rate of the network resources is improved.
According to an aspect of some embodiments of the present disclosure, there is provided a communication network comprising: a plurality of base stations including a 4G base station and a non-independent networking, NSA, shared anchor base station, each base station configured to perform any one of the above terminal access methods performed by the base stations; and, a 5G terminal configured to perform any one of the above terminal access methods performed by the terminal; and the 4G terminal is configured to reside in the 4G network under the condition that the PLMN matching with the base station is successful.
In the communication network, the NSA shared anchor point base station is provided with the 5G PLMN, a terminal only supporting the 5G function can be accessed, and the 4G terminal is difficult to access the NSA shared anchor point base station, so that the limited NSA shared anchor point base station resources are supplied to the 5G terminal for use, the 4G base station is prevented from being idle while the network performance of the 5G terminal is ensured, and the utilization rate of network resources is improved.
Drawings
The accompanying drawings, which are included to provide a further understanding of the disclosure and are incorporated in and constitute a part of this disclosure, illustrate embodiments of the disclosure and together with the description serve to explain the disclosure and not to limit the disclosure. In the drawings:
FIGS. 1-2 are flow diagrams of some embodiments of terminal hosting methods of the present disclosure.
Fig. 3 is a flow chart of some embodiments of a terminal park method of a 5G terminal of the present disclosure.
Fig. 4 is a schematic diagram of some embodiments of a base station of the present disclosure.
Fig. 5 is a schematic diagram of further embodiments of a base station of the present disclosure.
Fig. 6 is a schematic diagram of some embodiments of a 5G terminal of the present disclosure.
FIGS. 7-8 are schematic diagrams of some embodiments of network devices of the present disclosure.
Fig. 9 is a schematic diagram of some embodiments of a communication network of the present disclosure.
Fig. 10 is a schematic diagram of further embodiments of a communication network of the present disclosure.
Detailed Description
The technical solution of the present disclosure is further described in detail by the accompanying drawings and examples.
In the case that the base station is an NSA shared anchor base station, a flowchart of some embodiments of the terminal camping method of the present disclosure is shown in fig. 1.
In step 101, the base station transmits 5G PLMN information to the terminal. The operator can apply for a new PLMN for the 5G network, and broadcast two PLMNs in the shared network of 4G and 5G, where the 4G base station uses the original 4G PLMN, and the NSA shared anchor base station uses the new 5G PLMN. The 4G PLMN is different from the 5G PLMN.
In some embodiments, a 5G PLMN may be preset on a terminal supporting the 5G function; the 4G terminal does not have the 5GPLMN, and the 4G PLMN in the original user card is still used.
In step 102, the terminal matches with the 5G PLMN information of the base station based on the pre-stored PLMN information. If the matching is successful, triggering the base station to execute step 103; if the matching is not successful, the base station is triggered to execute step 104.
In step 103, the terminal is a terminal supporting 5G functions and can be resident in the current 5G network.
In step 104, the terminal does not support the 5G function and cannot reside in the current 5G network.
By the method, the 4G terminal is difficult to access the NSA shared anchor point base station by a mode that the NSA shared anchor point base station is deployed to have the 5G PLMN, so that the limited NSA shared anchor point base station resources are supplied to the 5G terminal for use, the 4G base station is prevented from being idle while the network performance of the 5G terminal is ensured, and the utilization rate of the network resources is improved.
In the case that the base station is a 4G base station, a flowchart of some embodiments of the terminal camping method of the present disclosure is shown in fig. 2.
In step 201, the 4G base station transmits 4G PLMN information to the terminal.
In step 202, the terminal matches PLMN information of the base station based on pre-stored PLMN information. In case the matching is successful, step 203 is performed.
In step 203, the terminal reports the acquired terminal capability information to the base station. In some embodiments, the terminal may carry the terminal capability information in the service attach information, and the base station acquires the terminal capability information.
In step 204, the base station determines that the terminal supports the 5G function according to the obtained terminal capability information. In case it is determined that the terminal supports the 5G function, step 205 is performed; in case it is determined that the terminal does not support 5G, step 206 is performed.
In step 205, a proprietary frequency priority is issued to the terminal. In the dedicated frequency priority, the NSA shared anchor base station frequency priority is higher than the 4G base station frequency. The terminal will reselect the network for access based on the dedicated frequency priority.
In step 206, the terminal is allowed to camp on the current 4G network.
By the method, when the terminal supporting the 5G function tries to access the 4G network, the terminal can be reselected to the base station supporting the 5G function by configuring the special frequency priority, so that the service quality of the terminal is ensured; in addition, the method can accommodate the 4G terminal residence, ensure that the service of the 4G user is not influenced, and ensure the utilization rate of the 4G network.
In some embodiments, the terminal that obtains the dedicated frequency priority information can store the information, and further preferentially select the NSA shared anchor base station when the terminal is powered on to access the network, thereby reducing the number of network reselection events, reducing the burden on the base station, and improving the access efficiency.
A flowchart of some embodiments of a terminal park method of a 5G terminal of the present disclosure is shown in fig. 3.
In step 301, the terminal receives PLMN information from the base station.
In step 302, when the PLMN information of the base station is 5G PLMN, it is described that the base station that the terminal attempts to access is the NSA shared anchor base station, and step 303 is executed.
In step 303, the terminal resides in the current 5G network.
By the method, the 5G terminal is provided with the 5G PLMN matched with the NSA shared anchor point base station, so that the 4G terminal is difficult to access the NSA shared anchor point base station, limited NSA shared anchor point base station resources are supplied to the 5G terminal for use, the 4G base station is prevented from being idle while the network performance of the 5G terminal is ensured, and the utilization rate of the network resources is improved.
In some embodiments, in step 302, when the PLMN information received by the terminal is 4G PLMN, it indicates that the base station that the terminal attempts to access is a 4G base station, and step 304 is performed.
In step 304, the terminal reports the terminal capability information to the base station. The base station can determine that the terminal has the 5G function according to the terminal capability information and sends the proprietary frequency priority information. In the dedicated frequency priority, the NSA shared anchor base station frequency priority is higher than the 4G base station frequency.
In step 305, the terminal receives the proprietary frequency priority from the 4G base station.
In step 306, the terminal accesses the network according to the dedicated frequency priority. Since the frequency of the NSA shared anchor base station in the exclusive frequency priority is preferred, the terminal reselects to access the NSA shared anchor base station.
By the method, when the 5G terminal tries to access the 4G base station, the terminal can be reselected to the base station supporting the 5G function by configuring the special frequency priority, so that the service quality of the terminal is ensured.
In the case where the base station is an NSA shared anchor base station, a schematic diagram of some embodiments of the base station of the present disclosure is shown in fig. 4.
The information transmitting unit 401 can transmit 5G PLMN information to the terminal. The operator can apply for a new PLMN for the 5G network, and broadcast two PLMNs in the shared network of 4G and 5G, where the 4G base station uses the original 4G PLMN, and the NSA shared anchor base station uses the new 5G PLMN. A 5G PLMN is preset on a terminal supporting the 5G function; the 4G terminal does not have the 5G PLMN, and the 4G PLMN in the original user card is still used.
The camping unit 402 is capable of enabling the terminal with 5G function and successfully matched with the 5G PLMN of the base station to camp on the current 5G network.
The base station can enable the 4G terminal to be difficult to access the NSA shared anchor point base station by a mode that the NSA shared anchor point base station is deployed and is provided with the 5G PLMN, so that limited NSA shared anchor point base station resources are supplied to the 5G terminal for use, the 4G base station is prevented from being idle while the network performance of the 5G terminal is guaranteed, and the utilization rate of the network resources is improved.
In the case where the base station is a 4G base station, a schematic diagram of some embodiments of the base station of the present disclosure is shown in fig. 5.
The information transmitting unit 501 can transmit 4G PLMN information to the terminal.
The function determination unit 503 can acquire the terminal capability information and determine whether the terminal supports the 5G function.
The frequency priority transmitting unit 504 can issue a proprietary frequency priority to the terminal in a case where it is determined that the terminal supports the 5G function. In the dedicated frequency priority, the NSA shared anchor base station frequency priority is higher than the 4G base station frequency. The terminal will reselect the network for access based on the dedicated frequency priority.
The camping unit 502 is capable of allowing the terminal to camp on the current 4G network if it is determined that the terminal does not support the 5G function.
When a terminal supporting the 5G function attempts to access a 4G network, the base station can cause the terminal to reselect to the base station supporting the 5G function by configuring the special frequency priority, so that the service quality of the terminal is ensured; in addition, the method can accommodate the 4G terminal residence, ensure that the service of the 4G user is not influenced, and ensure the utilization rate of the 4G network.
A schematic diagram of some embodiments of the 5G terminal of the present disclosure is shown in fig. 6.
The information receiving unit 601 can receive PLMN information from the base station.
The matching unit 602 can match with the PLMN information of the base station based on the PLMN information stored in itself. The 5G terminal stores 5G PLMN, also stores 4G PLMN.
The access unit 603 may enable the terminal to access and camp on the current 5G network when the PLMN successfully matched by the terminal is the 5G PLMN.
The 5G terminal is provided with the 5G PLMN matched with the NSA shared anchor point base station, so that the 4G terminal is difficult to access the NSA shared anchor point base station, limited NSA shared anchor point base station resources are supplied to the 5G terminal for use, the 4G base station is prevented from being idle while the network performance of the 5G terminal is ensured, and the utilization rate of the network resources is improved.
In some embodiments, as shown in fig. 6, the 5G terminal may further include:
the capability reporting unit 604 may report the terminal capability information to the base station when the PLMN successfully matched with the terminal is the 4G PLMN. The base station can determine that the terminal has the 5G function according to the terminal capability information and sends the proprietary frequency priority information. In the dedicated frequency priority, the NSA shared anchor base station frequency priority is higher than the 4G base station frequency.
The frequency priority receiving unit 605 can receive the exclusive frequency priority from the 4G base station.
The access unit 603 accesses the network according to the dedicated frequency priority. Since the frequency of the NSA shared anchor base station in the exclusive frequency priority is preferred, the terminal reselects to access the NSA shared anchor base station.
When trying to access the 4G base station, such a 5G terminal can reselect to a base station supporting the 5G function by obtaining the dedicated frequency priority, thereby ensuring the service quality of the terminal.
A schematic structural diagram of an embodiment of the network device of the present disclosure is shown in fig. 7. The network device apparatus includes a memory 701 and a processor 702. Wherein: the memory 701 may be a magnetic disk, flash memory, or any other non-volatile storage medium. The memory is for storing instructions in the corresponding embodiments of the terminal-resident method above. Processor 702 is coupled to memory 701 and may be implemented as one or more integrated circuits, such as a microprocessor or microcontroller. The processor 702 is configured to execute the instructions stored in the memory, and can supply the limited NSA shared anchor base station resources to the 5G terminal, so that the network performance of the 5G terminal is ensured, and meanwhile, the 4G base station is prevented from being idle, and the utilization rate of the network resources is improved.
In one embodiment, as also shown in FIG. 8, the network device 800 includes a memory 801 and a processor 802. The processor 802 is coupled to the memory 801 by a BUS 803. The network device 800 may also be coupled to external storage 805 via the storage interface 804 to facilitate retrieval of external data, and may also be coupled to a network or another computer system (not shown) via the network interface 806. And will not be described in detail herein.
In this embodiment, the memory stores the data instruction, and the processor processes the instruction, so that the limited NSA shared anchor base station resource can be supplied to the 5G terminal for use, thereby ensuring the network performance of the 5G terminal, avoiding the idle of the 4G base station, and improving the utilization rate of the network resource.
In another embodiment, a computer-readable storage medium has stored thereon computer program instructions which, when executed by a processor, implement the steps of the method in the corresponding embodiment of the terminal-resident method. As will be appreciated by one skilled in the art, embodiments of the present disclosure may be provided as a method, apparatus, or computer program product. Accordingly, the present disclosure may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present disclosure may take the form of a computer program product embodied on one or more computer-usable non-transitory storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein.
A schematic diagram of some embodiments of the communications network 90 of the present disclosure is shown in fig. 9, including: the plurality of base stations, including the one or more 4G base stations 91 and the one or more NSA shared anchor base stations 92, may perform any of the terminal camping methods performed by the base stations above. One or more 5G terminals 94 are capable of performing any of the terminal resident methods described above as being performed by the terminal; one or more 4G terminals 93 can camp on the 4G network if the PLMN match with the base station is successful.
In the communication network, the terminal supporting the 5G function is preferentially accessed to the NSA shared anchor base station, the 4G terminal preferentially uses the 4G base station, the 4G base station is prevented from being idle, the reliability of the NSA base station for the service of the 5G terminal is improved, and the user experience is improved.
In some embodiments, the 5G network of the operator may be shared, so as to reduce the problem of boundary handover after sharing, and ensure the user experience, as shown in fig. 10. B, the operator (sharing party) newly applies for a network number (5G PLMN), and in the 4G/5G shared network, two network numbers (5G PLMN and 4G PLMN) are broadcasted, wherein the operator A uses the old network number (4G PLMN), and the user of the operator B uses the new network number (5G PLMN); the new network number is preset on the NSA new terminal of the B operator, and the 4G old terminal still uses the old network number in the original SIM card.
The 4G terminal cannot identify a new network number in the shared station and cannot reside in the shared network; and the 5G terminal transmits a new special priority list which sets the base station F2 as a high priority to the terminal in the 4G non-shared station, so that the terminal reselects to the NSA network of F2 to realize the residence of the 5G shared network.
The communication network can distinguish the users based on the new network number, the new network number is preset in the 5G terminal, the new network number is not preset in the 4G terminal, and differentiated residence of the users is achieved through network number difference.
The present disclosure is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems) and computer program products according to embodiments of the disclosure. It will be understood that each flow and/or block of the flow diagrams and/or block diagrams, and combinations of flows and/or blocks in the flow diagrams and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.
These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.
These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.
Thus far, the present disclosure has been described in detail. Some details that are well known in the art have not been described in order to avoid obscuring the concepts of the present disclosure. It will be fully apparent to those skilled in the art from the foregoing description how to practice the presently disclosed embodiments.
The methods and apparatus of the present disclosure may be implemented in a number of ways. For example, the methods and apparatus of the present disclosure may be implemented by software, hardware, firmware, or any combination of software, hardware, and firmware. The above-described order for the steps of the method is for illustration only, and the steps of the method of the present disclosure are not limited to the order specifically described above unless specifically stated otherwise. Further, in some embodiments, the present disclosure may also be embodied as programs recorded in a recording medium, the programs including machine-readable instructions for implementing the methods according to the present disclosure. Thus, the present disclosure also covers a recording medium storing a program for executing the method according to the present disclosure.
Finally, it should be noted that: the above examples are intended only to illustrate the technical solutions of the present disclosure and not to limit them; although the present disclosure has been described in detail with reference to preferred embodiments, those of ordinary skill in the art will understand that: modifications to the specific embodiments of the disclosure or equivalent substitutions for parts of the technical features may still be made; all such modifications are intended to be included within the scope of the claims of this disclosure without departing from the spirit thereof.
Claims (16)
1. A terminal residing method comprises the following steps:
the base station transmits public land mobile network PLMN information to the terminal so that the terminal matches the PLMN information of the base station according to the pre-stored PLMN information, wherein,
under the condition that the base station is a non-independent networking NSA shared anchor base station:
the PLMN information sent by the base station is 5G PLMN information; the terminal supporting the 5G function prestores 5G PLMN information, and the terminal not supporting the 5G function does not have the 5G PLMN information;
and allowing the terminal to reside in the current 5G network under the condition that the matching between the 5G PLMN information prestored in the terminal and the 5G PLMN information of the base station is successful.
2. The method of claim 1, further comprising:
and under the condition that the PLMN information prestored by the terminal is not matched with the 5G PLMN information of the base station successfully, the terminal does not reside in the current 5G network.
3. The method according to claim 1, wherein, in case that the base station is a 4G base station, the PLMN information sent by the base station is 4G PLMN information, and the terminal supporting the 4G function has the 4G PLMN information prestored therein;
further comprising: under the condition that 4G PLMN information prestored in the terminal is successfully matched with 4G PLMN information of the base station, the 4G base station judges whether the terminal supports a 5G function or not;
and under the condition that the terminal supports the 5G function, issuing a special frequency priority to the terminal, wherein in the special frequency priority, the frequency priority of the NSA shared anchor point base station is higher than that of the 4G base station, so that the terminal can access the network according to the special frequency priority.
4. The method of claim 3, further comprising: and in the case that the 4G base station determines that the terminal does not support the 5G function, allowing the terminal to reside in the current 4G network.
5. The method of claim 4, wherein the 4G base station determining whether the terminal supports the 5G function comprises:
and the 4G base station determines whether the terminal supports the 5G function according to the terminal capability information reported by the terminal in the service attachment process.
6. A terminal residing method of a 5G terminal comprises the following steps:
receiving Public Land Mobile Network (PLMN) information from a base station;
the terminal is matched with the PLMN information of the base station based on the pre-stored PLMN information, wherein: if the base station is a non-independent networking NSA shared anchor point base station, the PLMN information sent by the base station is 5G PLMN information, the terminal supporting the 5G function pre-stores the 5G PLMN information, and the terminal not supporting the 5G function does not have the 5G PLMN information;
and under the condition of successful matching, the terminal resides in the current network, wherein if the base station is a non-independent networking NSA shared anchor base station, the terminal resides in the current 5G network.
7. The method of claim 6, wherein if the base station is a 4G base station, then
The matching of the terminal with the PLMN information of the base station based on the pre-stored PLMN information comprises: the terminal is matched with the 4G PLMN information of the base station based on the pre-stored 4G PLMN information;
under the condition of successful matching, the terminal reports the terminal capability information to the base station;
receiving proprietary frequency priorities from a 4G base station, wherein the NSA shared anchor base station frequency priority is higher than the 4G base station frequency;
re-accessing the network according to the dedicated frequency priority.
8. The method of claim 7, wherein the terminal reporting the terminal capability information to the base station comprises:
and the terminal reports the terminal capability information to the base station in the service attachment process.
9. A base station, comprising:
an information transmitting unit configured to transmit Public Land Mobile Network (PLMN) information to the terminal so that the terminal matches the PLMN information of the base station according to the pre-stored PLMN information, wherein,
under the condition that the base station is a non-independent networking NSA shared anchor base station:
the PLMN information sent by the base station is 5G PLMN information; the terminal supporting the 5G function prestores 5G PLMN information, and the terminal not supporting the 5G function does not have the 5G PLMN information;
and the residing unit is configured to allow the terminal successfully matched with the 5G PLMN information of the base station to reside in the current 5G network.
10. The base station of claim 9, wherein, when the base station is a 4G base station, the PLMN information sent by the base station is 4G PLMN information, and the terminal supporting the 4G function has the 4G PLMN information prestored therein;
further comprising:
a function determination unit configured to determine whether the terminal supports a 5G function;
and the frequency priority sending unit is configured to issue a special frequency priority to the terminal under the condition that the terminal is determined to support the 5G function, wherein in the special frequency priority, the NSA shared anchor point base station frequency priority is higher than the 4G base station frequency, so that the terminal can access the network according to the special frequency priority.
11. The base station of claim 10, wherein, in case the base station is a 4G base station:
the residing unit is configured to allow the terminal to reside in the current 4G network if the function judging unit determines that the terminal does not support the 5G function.
12. A 5G terminal, comprising:
an information receiving unit configured to receive Public Land Mobile Network (PLMN) information from a base station;
a matching unit configured to match with PLMN information of a base station based on pre-stored PLMN information, wherein: if the base station is a non-independent networking NSA shared anchor point base station, the PLMN information sent by the base station is 5G PLMN information, the terminal supporting the 5G function pre-stores the 5G PLMN information, and the terminal not supporting the 5G function does not have the 5G PLMN information;
and the access unit is configured to enable the terminal to reside in the current network under the condition that the matching is successful, wherein if the base station is a non-independent networking NSA shared anchor base station, the terminal resides in the current 5G network.
13. The terminal of claim 12, wherein if the base station is a 4G base station, then
The matching unit is configured to: matching 4G PLMN information of a base station based on the pre-stored 4G PLMN information;
further comprising:
the capability reporting unit is configured to report the terminal capability information to the base station by the terminal under the condition that the matching unit is successfully matched;
a frequency priority receiving unit configured to receive a proprietary frequency priority from a 4G base station, wherein the special frequency priority has an NSA shared anchor base station frequency priority higher than a 4G base station frequency;
the access unit is further configured to re-access the network according to the dedicated frequency priority.
14. A network device, comprising:
a memory; and
a processor coupled to the memory, the processor configured to perform the method of any of claims 1-8 based on instructions stored in the memory.
15. A computer readable storage medium having stored thereon computer program instructions which, when executed by a processor, implement the steps of the method of any one of claims 1 to 8.
16. A communication network, comprising:
a plurality of base stations, including a 4G base station and a non-independent networking, NSA, shared anchor base station, each base station configured to perform the method performed by any of claims 1-5; and the combination of (a) and (b),
a 5G terminal configured to perform the method performed by any one of claims 6-8;
and the 4G terminal is configured to reside in the 4G network under the condition that the public land mobile network PLMN matching with the base station is successful.
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