CN107027158A - A kind of private network user staying method and device - Google Patents
A kind of private network user staying method and device Download PDFInfo
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- CN107027158A CN107027158A CN201610073618.XA CN201610073618A CN107027158A CN 107027158 A CN107027158 A CN 107027158A CN 201610073618 A CN201610073618 A CN 201610073618A CN 107027158 A CN107027158 A CN 107027158A
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W48/00—Access restriction; Network selection; Access point selection
- H04W48/08—Access restriction or access information delivery, e.g. discovery data delivery
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W48/00—Access restriction; Network selection; Access point selection
- H04W48/16—Discovering, processing access restriction or access information
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Abstract
The invention discloses a kind of private network user staying method, methods described includes:Obtain the mobile message of terminal;Wherein, the mobile message includes the cell information that terminal was resident;Judge whether the terminal is private network user based on the mobile message;If it is, being terminal distribution private network user mark and private network frequency point information;Private network user mark and the private network frequency point information are issued to terminal, the private network user identifies and the private network frequency point information is resident the private network so that the terminal is based on.The present invention further simultaneously discloses a kind of private network user park device.Using technical solution of the present invention, retention of the terminal in private network can be lifted, the usage experience of user is lifted.
Description
Technical Field
The present invention relates to wireless technologies, and in particular, to a method and an apparatus for a private network user to reside.
Background
In order to accelerate the rapid development of the high-speed rail trunk, a plurality of physical Time Division Long Term Evolution (TD-LTE) base stations are deployed around the high-speed rail trunk in many provinces and cities to realize full-process TD-LTE private network coverage, so that users can browse webpages, watch videos, purchase on the network, invest in financial investment and the like on the high-speed rail at will, and the user perception of the users on the high-speed rail is improved.
At present, the speed per hour of a high-speed rail train is high, the highest speed per hour can reach 310 km/h, an F frequency band or a D frequency band is adopted for networking in a TD-LTE network, the frequency of the F frequency band or the D frequency band is high, the penetration loss is large, most sites share second-generation mobile communication technology (2G, 2nd generation) network physical sites (planned according to 900M frequency), weak coverage exists before partial TD-LTE sites, in addition, in a high-speed operation mode, the Doppler frequency offset of the high frequency band is more obvious, a terminal chip is required to have extremely strong capability of correcting the frequency offset, otherwise, the separation from a private network is extremely easy to occur, and due to the fact that no adjacent region relation is added between the high-speed rail private network and a public network, a separation private network user cannot return to the high-speed rail private network and. The initial statistical analysis shows that the download rate of the terminal residing in the high-speed rail private network reaches 12Mbps, the rate of the terminal leaving the peripheral Long Term Evolution (LTE) public network is only 2Mbps, the service is frequently interrupted, the call success rate of the terminal Circuit Switched Fallback (CSFB) residing in the high-speed rail private network is 90%, the call success rate of the terminal leaving the public network is 38%, and the user perception is seriously affected, so that the capability of the terminal residing in the high-speed rail private network is improved as a core task for optimizing the high-speed rail private network, and a key point for ensuring the high-speed rail user perception is located.
Disclosure of Invention
In view of this, the present invention is intended to provide a method and an apparatus for residing a private network user, which can improve the network residing capability of a terminal in a high-speed railway private network.
In order to achieve the purpose, the technical scheme of the invention is realized as follows:
the invention provides a private network user residing method, which comprises the following steps:
acquiring mobile information of a terminal; the mobile information comprises cell information in which a terminal resides;
judging whether the terminal is a private network user or not based on the mobile information;
if so, allocating a private network user identifier and private network frequency point information to the terminal;
and issuing the private network user identification and the private network frequency point information to a terminal so that the terminal resides in the private network based on the private network user identification and the private network frequency point information.
In the foregoing solution, preferably, the acquiring the mobile information of the terminal includes:
counting user information of a terminal accessed to a first regional room sub-cell, and transmitting the user information to a second regional private network cell;
when the terminal is accessed to the second area private network cell, judging whether the terminal resides in the first area private network cell, if so, the second area private network cell transmits the user information to a third area private network cell adjacent to the second area private network cell;
correspondingly, the determining whether the terminal is a private network user based on the mobile information includes:
and when the terminal is accessed to the third area private network cell and the terminal resides in the first area indoor sub-cell and the second area private network cell, judging that the terminal is a private network user.
In the foregoing solution, preferably, the issuing the private network user identifier and the private network frequency point information to a terminal includes:
when the terminal is in a connected state, the private network user identifier and the private network frequency point information are issued to the terminal through a Radio Resource Control (RRC) reconfiguration message; and carrying the private network user identification and the private network frequency point information in a reserved field of the RRC reconfiguration message.
In the foregoing solution, preferably, after the private network user identifier and the private network frequency point information are issued to a terminal, the method further includes:
and in the coverage range of a private network, when the terminal is separated from the private network and then selects the network again, the terminal preferentially selects a private network frequency point cell for registration so as to ensure that the terminal returns to the private network in time.
In the foregoing solution, preferably, after the private network user identifier and the private network frequency point information are issued to a terminal, the method further includes:
detecting whether the terminal leaves the coverage range of the private network or not;
if so, notifying the terminal as a non-private network user through the RRC reconfiguration message, so that the terminal updates user information into the non-private network user after receiving the RRC reconfiguration message, and performs network selection according to a common user.
The invention also provides a private network user residing device, which comprises:
the terminal comprises an acquisition unit, a processing unit and a processing unit, wherein the acquisition unit is used for acquiring the mobile information of the terminal; the mobile information comprises cell information in which a terminal resides;
a judging unit, configured to judge whether the terminal is a private network user based on the mobile information;
the distribution unit is used for distributing a private network user identifier and private network frequency point information for the terminal if the judging unit judges that the terminal is a private network user;
and the issuing unit is used for issuing the private network user identification and the private network frequency point information to a terminal so that the terminal can reside in the private network based on the private network user identification and the private network frequency point information.
In the foregoing solution, preferably, the obtaining unit is configured to:
counting user information of a terminal accessed to a first regional room sub-cell, and transmitting the user information to a second regional private network cell;
when the terminal is accessed to the second area private network cell, judging whether the terminal resides in the first area private network cell, if so, the second area private network cell transmits the user information to a third area private network cell adjacent to the second area private network cell;
correspondingly, the determining whether the terminal is a private network user based on the mobile information includes:
and when the terminal is accessed to the third area private network cell and the terminal resides in the first area indoor sub-cell and the second area private network cell, judging that the terminal is a private network user.
In the foregoing solution, preferably, the issuing unit is further configured to:
when the terminal is in a connection state, transmitting the private network user identification and the private network frequency point information to the terminal through an RRC reconfiguration message; and carrying the private network user identification and the private network frequency point information in a reserved field of the RRC reconfiguration message.
In the foregoing solution, preferably, the apparatus further includes:
and the storage unit is used for storing the private network user identification and the private network frequency point information after the private network user identification and the private network frequency point information are issued to the terminal, so that a private network frequency point cell can be preferentially selected for registration after the terminal is separated from the private network and when the terminal selects the network again, and the terminal is ensured to return to the private network in time.
In the foregoing solution, preferably, the apparatus further includes:
the detection unit is used for detecting whether the terminal leaves the coverage range of the private network or not;
correspondingly, the issuing unit is further configured to:
when the detection unit detects that the terminal leaves the coverage range of the private network, the detection unit informs the terminal of a non-private network user through an RRC reconfiguration message, so that the terminal updates user information into the non-private network user after receiving the RRC reconfiguration message, and performs network selection according to common users.
The private network user residing method and the private network user residing device provided by the invention are used for acquiring the mobile information of the terminal; the mobile information comprises cell information in which a terminal resides; judging whether the terminal is a private network user or not based on the mobile information; if so, allocating a private network user identifier and private network frequency point information to the terminal; the private network user identification and the private network frequency point information are issued to a terminal, so that the terminal can reside in the private network based on the private network user identification and the private network frequency point information; therefore, the residence capacity of the terminal in the private network can be improved, and the use experience of the user is improved.
Drawings
Fig. 1 is a flowchart of an implementation of a private network user residing method provided by the present invention;
fig. 2 is a flowchart of an implementation of LTE private network user camping in a high-speed rail scenario according to the present invention;
fig. 3 is a schematic diagram illustrating a determination of whether a user is an LTE private network user in a high-speed rail scenario according to the present invention;
FIG. 4 is a schematic diagram illustrating a switching process between stations based on an X2 interface in a high-speed rail scenario according to the present invention;
fig. 5 is a schematic structural diagram of a private network user residing device provided in the present invention.
Detailed Description
So that the manner in which the features and aspects of the present invention can be understood in detail, a more particular description of the invention, briefly summarized above, may be had by reference to embodiments, some of which are illustrated in the appended drawings.
Example one
Fig. 1 is a flowchart of an implementation of a private network user residing method provided in the present invention, and as shown in fig. 1, the private network user residing method mainly includes the following steps:
step 101: acquiring mobile information of a terminal; the mobile information comprises cell information in which the terminal resides.
In this embodiment, the private network refers to a communication network established for ensuring communication of terminals located on a motor vehicle with a high driving speed, such as a high-speed railway private network, a motor vehicle private network, a magnetic levitation train private network, and the like.
Preferably, the acquiring the mobile information of the terminal may include:
counting user information of a terminal accessed to a first regional room sub-cell, and transmitting the user information to a second regional private network cell;
and when the terminal is accessed to the second area private network cell, judging whether the terminal resides in the first area private network cell, if so, the second area private network cell transmits the user information to a third area private network cell adjacent to the second area private network cell.
Here, the first area generally refers to an area for preliminarily determining a terminal that will likely use a private network, and may be, for example, a waiting room, a waiting hall, or the like.
Here, the second area generally refers to an area through which a user passes before approaching a vehicle and can provide private network services, such as a platform; wherein the second area belongs to one of the coverage areas of the private network.
Here, the third area generally refers to an area adjacent to the second area, where private network services can be provided, such as a coverage area of a private network adjacent to a platform; wherein the third area is an area adjacent to the second area, the third area also belonging to one of the coverage areas of the private network.
Step 102: and judging whether the terminal is a private network user or not based on the mobile information.
Preferably, the determining whether the terminal is a private network user based on the mobile information may include:
and when the terminal is accessed to the third area private network cell and the terminal resides in the first area indoor sub-cell and the second area private network cell, judging that the terminal is a private network user.
Step 103: and if so, allocating a private network user identifier and private network frequency point information to the terminal.
Specifically, when the terminal is in a connected state, a private network user identifier and private network frequency point information are allocated to the terminal.
Step 104: and issuing the private network user identification and the private network frequency point information to a terminal so that the terminal resides in the private network based on the private network user identification and the private network frequency point information.
Preferably, the issuing the private network user identifier and the private network frequency point information to a terminal may include:
when the terminal is in a connection state, the private network user identification and the private network frequency point information are issued to the terminal through an RRC reconfiguration message; and carrying the private network user identification and the private network frequency point information in a reserved field of the RRC reconfiguration message.
Therefore, the terminal can reside the private network by taking the private network user identification and the private network frequency point information as a residence condition.
Preferably, when the private network user identifier and the private network frequency point information are issued to a terminal, the method further includes:
and storing the private network user identification and the private network frequency point information.
Preferably, after the private network user identifier and the private network frequency point information are issued to a terminal, the method further includes:
and in the coverage range of a private network, when the terminal is separated from the private network and then selects the network again, the terminal preferentially selects a private network frequency point cell for registration so as to ensure that the terminal returns to the private network in time.
Therefore, when the terminal is positioned in the coverage area of the private network, the private network can be accessed quickly even if the terminal is disconnected at a certain moment.
Preferably, after the private network user identifier and the private network frequency point information are issued to a terminal, the method further includes:
detecting whether the terminal leaves the coverage range of the private network or not;
if so, notifying the terminal as a non-private network user through the RRC reconfiguration message, so that the terminal updates user information into the non-private network user after receiving the RRC reconfiguration message, and performs network selection according to a common user.
Specifically, the RRC reconfiguration message carries information for canceling the private network user identifier of the terminal.
In a specific embodiment, the detecting whether the terminal leaves the coverage area of the private network includes:
judging whether the terminal is accessed to a fourth area private network cell from other area private network cells;
and if so, judging that the terminal is about to leave the coverage area of the private network.
Here, the fourth area generally refers to an area for preliminarily determining a terminal that will possibly leave the coverage area of the private network, and may be, for example, an outbound port or the like.
Therefore, when the terminal leaves the coverage range of the private network, the terminal can be reminded to select other networks to register in time, and sufficient preparation time is provided for the terminal to be capable of rapidly accessing other non-private networks.
The private network residing method provided by the embodiment can improve the residing capability of the terminal in the private network and improve the use experience of the user.
Example two
Fig. 2 is a flowchart of an implementation of LTE private network user camping in a high-speed rail scenario, and as shown in fig. 2, the flowchart mainly includes:
step 201: and finding and locking the terminal of the 4G user.
Step 202: judging whether the terminal is a high-speed rail user, if so, executing step 203; otherwise, return to step 202.
Specifically, the specific step of determining whether the terminal is a high-speed rail user may include:
counting user information of a terminal accessed to a waiting hall sub-cell in a high-speed rail railway station, and transmitting the user information to a high-speed rail platform private network cell through an X2 interface according to a certain time interval;
when the terminal enters a high-speed rail platform private network cell and the terminal resides in a waiting hall sub-cell, the platform private network cell forwards the user information to the next adjacent high-speed rail private network cell through an X2 interface at certain time intervals;
when the terminal is accessed to a high-speed rail private network cell adjacent to the platform private network cell and the user resides in the waiting hall sub-cell and the platform private network cell, the terminal can be judged to be a high-speed rail private network user.
Fig. 3 is a schematic diagram of determining whether a user is an LTE private network user in a high-speed rail scene, as shown in fig. 3, user information of a terminal accessed to a waiting hall sub-cell of a station is counted, the user information is transmitted to a high-speed rail platform private network cell through an X2 interface, and when the terminal enters the high-speed rail platform private network cell and the terminal resides in the waiting hall sub-cell, the high-speed rail platform private network cell transmits the user information to a next adjacent high-speed rail private network cell through an X2 interface; when the terminal is accessed to the adjacent high-speed rail private network cell and the user resides in the waiting hall sub-cell and the platform private network cell, the user can be judged to be the high-speed rail user.
Fig. 4 is a schematic diagram of a switching process between stations based on an X2 interface in a high-speed rail scene, where as shown in the drawing, the switching process mainly includes:
step 401: a source base station (source eNodeB) sends a handover request (handover request) to a target base station (target eNodeB);
step 402: the target base station sends a handover request acknowledgement (handover requseacknowledgment) message to the source base station;
the above steps 401 and 402 belong to the handover preparation success flow.
Step 403: a source base station transmits an RRC connection Reconfiguration (RRCConnection Reconfiguration) message to a terminal (UE);
step 404: a source base station sends a sequence state transmission (SN status transfer) message to a target base station;
specifically, the sequence state transmission message may be sent in a Data Forwarding (Data Forwarding) manner, that is: the output value content of one cell is copied to the input value of another cell in one clock cycle.
Step 405: the UE sends an RRC connection reconfiguration Complete (RRC ConnectionReconfiguration Complete) message to the target base station;
step 406: the target base station transmits a path switch request message to a Mobility Management Entity (MME) to confirm that the UE has changed cells.
Step 407: MME sends a path switching request acknowledgement (path switching request acknowledgement) message to a target base station;
step 408: and the target base station sends a UE context release message to the source base station.
After the determination in step 202, the following operation is continued for the terminal determined as the high-speed user.
Step 203: and issuing the high-speed rail private network user identification and the preferred frequency point to the high-speed rail user terminal.
The high-speed user terminal is the terminal determined as the high-speed user in step 202.
Specifically, the issuing of the high-speed rail private network user identifier and the preferred frequency point to the high-speed rail user terminal may include the following parts:
(a) if the terminal is in a connected state, carrying private network user identification and preferred frequency point information in a reserved field through RRC reconfiguration information, and issuing the information to the terminal;
(b) after the terminal receives the private network user identification information and the preferred frequency point information, whether the current terminal is the private network user identification or not and the preferred frequency point information when the network is disconnected are updated.
(c) And c, transmitting the private network user information to the next adjacent private network cell for the high-speed rail through an X2 interface, and continuously repeating the process of the step b until the terminal leaves the private network cell for the high-speed rail.
Step 204: and the high-speed rail user terminal resides in the high-speed rail private network based on the high-speed rail private network user identifier and the preferred frequency point.
Step 205: when the high-speed rail user terminal is in the private network coverage area, if the high-speed rail user terminal is off-line, step 206 is executed.
Step 206: and when the high-speed rail user terminal selects the network again, the private network frequency point cell is preferentially selected for registration.
That is, when the terminal is disconnected from the network and selects the network again, if the terminal is a high-speed rail private network user, the private network frequency point cell is preferentially selected for registration, so as to ensure that the terminal returns to the high-speed rail private network in time.
Step 207: and when the high-speed rail user terminal is detected to leave the coverage range of the high-speed rail private network, issuing a user identifier for canceling the high-speed rail private network to the high-speed rail user terminal.
For example, when the user arrives at a railway station and the terminal exits a private network cell through the railway station, the terminal is notified of a non-private network user through an RRC reconfiguration message, so that the terminal updates user information to the non-private network user after receiving the RRC reconfiguration message, and performs network selection according to a common user.
According to the method for the LTE private network user residence in the high-speed rail scene, firstly, according to the movement track of a terminal, whether the terminal is a high-speed rail private network terminal is judged by combining a railway station waiting hall, a high-speed rail platform private network cell and an adjacent first high-speed rail private network cell; secondly, if the terminal is a high-speed rail private network user and is in a connected state, carrying high-speed rail private network user information and private network frequency point information through RRC reconfiguration information, and storing after receiving the information by the terminal; under the condition that the high-speed train moves rapidly, if the terminal is separated from the private network, when the user selects the network again, the high-speed train private network frequency point is preferentially selected, and the terminal is ensured to be registered and returned to the private network in time; and finally, when the terminal leaves a special network cell of the outbound railway station, informing the user to cancel the high-speed rail user information through an RRC reconfiguration message, and subsequently performing network registration or reselecting the LTE public network according to the common user.
EXAMPLE III
Fig. 5 is a schematic structural diagram of a private network user residing device provided in the present invention, and as shown in fig. 5, the private network user residing device includes: an acquisition unit 51, a judgment unit 52, a distribution unit 53 and a distribution unit 54; wherein,
the acquiring unit 51 is used for acquiring the mobile information of the terminal; the mobile information comprises cell information in which a terminal resides;
the judging unit 52 is configured to judge whether the terminal is a private network user based on the mobile information;
the allocating unit 53 is configured to allocate a private network user identifier and private network frequency point information to the terminal if the determining unit determines that the terminal is a private network user;
the issuing unit 54 is configured to issue the private network user identifier and the private network frequency point information to a terminal, so that the terminal resides in the private network based on the private network user identifier and the private network frequency point information.
Preferably, the obtaining unit 51 is specifically configured to:
counting user information of a terminal accessed to a first regional room sub-cell, and transmitting the user information to a second regional private network cell;
when the terminal is accessed to the second area private network cell, judging whether the terminal resides in the first area private network cell, if so, the second area private network cell transmits the user information to a third area private network cell adjacent to the second area private network cell;
correspondingly, the determining whether the terminal is a private network user based on the mobile information includes:
and when the terminal is accessed to the third area private network cell and the terminal resides in the first area indoor sub-cell and the second area private network cell, judging that the terminal is a private network user.
Preferably, the issuing unit 54 is further configured to:
when the terminal is in a connection state, transmitting the private network user identification and the private network frequency point information to the terminal through an RRC reconfiguration message; and carrying the private network user identification and the private network frequency point information in a reserved field of the RRC reconfiguration message.
In the foregoing solution, preferably, the apparatus further includes:
and the storage unit 55 is configured to store the private network user identifier and the private network frequency point information after the private network user identifier and the private network frequency point information are issued to the terminal, so that a private network frequency point cell can be preferentially selected for registration after the terminal is disconnected from the private network and when the terminal selects a network again, so as to ensure that the terminal returns to the private network in time.
In the foregoing solution, preferably, the apparatus further includes:
a detecting unit 56, configured to detect whether the terminal leaves a coverage area of a private network;
correspondingly, the issuing unit 54 is further configured to:
when the detection unit detects that the terminal leaves the coverage range of the private network, the detection unit informs the terminal of a non-private network user through an RRC reconfiguration message, so that the terminal updates user information into the non-private network user after receiving the RRC reconfiguration message, and performs network selection according to common users.
It should be understood by those skilled in the art that the functions of each unit in the private network user residence device in this embodiment may be realized by an analog circuit that implements the functions described in this embodiment, or by running software that executes the functions described in this embodiment on a network device, as described with reference to the foregoing description of the private network user residence method.
In practical applications, the private network user residing device of the present embodiment may be disposed in a network device; the acquiring Unit 51, the determining Unit 52, the allocating Unit 53, the issuing Unit 54, and the detecting Unit 56 may be implemented by a Central Processing Unit (CPU), a microprocessor Unit (MPU), a Digital Signal Processor (DSP), a Field Programmable Gate Array (FPGA), or the like in the private network user resident device or the network device to which the private network user resident device belongs; the holding unit 55 may be various types of memories.
The private network user residence device can improve the residence capacity of the terminal in the private network and improve the use experience of the user.
In the embodiments provided in the present invention, it should be understood that the disclosed method, apparatus and electronic device may be implemented in other ways. The above-described device embodiments are merely illustrative, for example, the division of the unit is only a logical functional division, and there may be other division ways in actual implementation, such as: multiple units or components may be combined, or may be integrated into another system, or some features may be omitted, or not implemented. In addition, the coupling, direct coupling or communication connection between the components shown or discussed may be through some interfaces, and the indirect coupling or communication connection between the devices or units may be electrical, mechanical or other forms.
The units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, that is, may be located in one place, or may be distributed on a plurality of network units; some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment.
In addition, all the functional units in the embodiments of the present invention may be integrated into one processing unit, or each unit may be separately regarded as one unit, or two or more units may be integrated into one unit; the integrated unit can be realized in a form of hardware, or in a form of hardware plus a software functional unit.
Those of ordinary skill in the art will understand that: all or part of the steps for implementing the method embodiments may be implemented by hardware related to program instructions, and the program may be stored in a computer readable storage medium, and when executed, the program performs the steps including the method embodiments; and the aforementioned storage medium includes: a mobile storage device, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk or an optical disk, and other various media capable of storing program codes.
Alternatively, the integrated unit according to the embodiment of the present invention may be stored in a computer-readable storage medium if it is implemented in the form of a software functional module and sold or used as a separate product. Based on such understanding, the technical solutions of the embodiments of the present invention may be essentially implemented or a part contributing to the prior art may be embodied in the form of a software product, which is stored in a storage medium and includes several instructions for causing a computer device (which may be a personal computer, a server, or a network device) to execute all or part of the methods described in the embodiments of the present invention. And the aforementioned storage medium includes: a removable storage device, a ROM, a RAM, a magnetic or optical disk, or various other media that can store program code.
The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and all the changes or substitutions should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the appended claims.
Claims (10)
1. A private network user residing method is characterized in that the method comprises the following steps:
acquiring mobile information of a terminal; the mobile information comprises cell information in which a terminal resides;
judging whether the terminal is a private network user or not based on the mobile information;
if so, allocating a private network user identifier and private network frequency point information to the terminal;
and issuing the private network user identification and the private network frequency point information to a terminal so that the terminal resides in the private network based on the private network user identification and the private network frequency point information.
2. The method of claim 1, wherein the obtaining the mobile information of the terminal comprises:
counting user information of a terminal accessed to a first regional room sub-cell, and transmitting the user information to a second regional private network cell;
when the terminal is accessed to the second area private network cell, judging whether the terminal resides in the first area private network cell, if so, the second area private network cell transmits the user information to a third area private network cell adjacent to the second area private network cell;
correspondingly, the determining whether the terminal is a private network user based on the mobile information includes:
and when the terminal is accessed to the third area private network cell and the terminal resides in the first area indoor sub-cell and the second area private network cell, judging that the terminal is a private network user.
3. The method of claim 1, wherein the sending the private network user identifier and the private network frequency point information to a terminal comprises:
when the terminal is in a connection state, the private network user identification and the private network frequency point information are issued to the terminal through a Radio Resource Control (RRC) reconfiguration message; and carrying the private network user identification and the private network frequency point information in a reserved field of the RRC reconfiguration message.
4. The method according to claim 1, wherein after the private network user identifier and the private network frequency point information are issued to a terminal, the method further comprises:
and in the coverage range of a private network, when the terminal is separated from the private network and then selects the network again, the terminal preferentially selects a private network frequency point cell for registration so as to ensure that the terminal returns to the private network in time.
5. The method according to claim 1, wherein after the private network user identifier and the private network frequency point information are issued to a terminal, the method further comprises:
detecting whether the terminal leaves the coverage range of the private network or not;
if so, notifying the terminal as a non-private network user through the RRC reconfiguration message, so that the terminal updates user information into the non-private network user after receiving the RRC reconfiguration message, and performs network selection according to a common user.
6. A private network user residing device, the device comprising:
the terminal comprises an acquisition unit, a processing unit and a processing unit, wherein the acquisition unit is used for acquiring the mobile information of the terminal; the mobile information comprises cell information in which a terminal resides;
a judging unit, configured to judge whether the terminal is a private network user based on the mobile information;
the distribution unit is used for distributing a private network user identifier and private network frequency point information for the terminal if the judging unit judges that the terminal is a private network user;
and the issuing unit is used for issuing the private network user identification and the private network frequency point information to a terminal so that the terminal can reside in the private network based on the private network user identification and the private network frequency point information.
7. The apparatus of claim 6, wherein the obtaining unit is configured to:
counting user information of a terminal accessed to a first regional room sub-cell, and transmitting the user information to a second regional private network cell;
when the terminal is accessed to the second area private network cell, judging whether the terminal resides in the first area private network cell, if so, the second area private network cell transmits the user information to a third area private network cell adjacent to the second area private network cell;
correspondingly, the determining whether the terminal is a private network user based on the mobile information includes:
and when the terminal is accessed to the third area private network cell and the terminal resides in the first area indoor sub-cell and the second area private network cell, judging that the terminal is a private network user.
8. The apparatus of claim 6, wherein the sending unit is further configured to:
when the terminal is in a connection state, transmitting the private network user identification and the private network frequency point information to the terminal through an RRC reconfiguration message; and carrying the private network user identification and the private network frequency point information in a reserved field of the RRC reconfiguration message.
9. The apparatus of claim 6, further comprising:
and the storage unit is used for storing the private network user identification and the private network frequency point information after the private network user identification and the private network frequency point information are issued to the terminal, so that a private network frequency point cell can be preferentially selected for registration after the terminal is separated from the private network and when the terminal selects the network again, and the terminal is ensured to return to the private network in time.
10. The apparatus of claim 6, further comprising:
the detection unit is used for detecting whether the terminal leaves the coverage range of the private network or not;
correspondingly, the issuing unit is further configured to:
when the detection unit detects that the terminal leaves the coverage range of the private network, the detection unit informs the terminal of a non-private network user through an RRC reconfiguration message, so that the terminal updates user information into the non-private network user after receiving the RRC reconfiguration message, and performs network selection according to common users.
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