CN111031533A - Multi-card standby method under multi-network coverage - Google Patents

Abstract

The invention relates to a multi-card standby method under multi-network coverage, belonging to the technical field of mobile terminal communication. The system comprises an MNIS multi-network terminal information sharing service platform, an operator 1 base station, an operator 2 base station, a mobile terminal, a tracking area A and a tracking area B, wherein the MNIS multi-network terminal information sharing service platform is built by mobile operator special equipment; the method and the mobile terminal realize coordination of called information of other SIM cards on the network side, and the mobile terminal does not need to frequently switch radio frequency channels among multiple SIM cards, thereby avoiding periodic radio frequency switching of a main SIM card, not increasing the cost and power consumption of the mobile terminal, greatly improving the communication quality of the mobile terminal and having high cost performance. The problem that in the prior art, when a DSDS single radio frequency scheme is adopted, radio frequency channels need to be switched between a main SIM card and other SIM cards periodically to receive corresponding paging information on the other SIM cards, non-negligible influence is caused on user communication quality, and user experience and mobile terminal communication quality are seriously reduced is solved.

Description

Multi-card standby method under multi-network coverage

Technical Field

The invention relates to a multi-card standby method under multi-network coverage, belonging to the technical field of mobile terminal communication.

Background

With the development of communication technology, mobile phones have become a necessary communication tool for people. The existing mobile internet terminal generally uses a dual-card scheme to satisfy the multi-card standby function of a user in a plurality of operator networks. Two communication schemes are available for a multi-SIM card mobile terminal, one is a multi-radio technology, namely, a plurality of SIM cards can simultaneously receive radio frequency channel data, when one SIM card is in a connection service state and the other SIM card has a telephone access, the service of the first SIM card is not affected, which is called DSDA dual-card dual-pass. Another is the single radio frequency technology, i.e. a plurality of SIM cards share a set of radio frequency channels, the SIM card in the connected service state needs to periodically give up the radio frequency channel to another SIM card to receive a possible called paging command, so that the service of the connected SIM card is periodically affected. This is called DSDS dual card dual standby. In summary, the dual card scheme is difficult to expand to support more networks for standby simultaneously. The reason for this is that the simultaneous standby of more networks requires the terminal to support more channels of radio frequencies or continuously switch working frequency points in one channel of radio frequency; the former greatly increases the cost, power consumption and size of the terminal, and the latter introduces considerable switching overhead. Because it is difficult to specify the free switching action of the terminal among multiple networks in different network standards, it will cause great trouble to network scheduling, even cause deadlock, and thus seriously reduce the communication quality of the terminal itself.

Disclosure of Invention

The present invention aims to provide a multi-card standby method under multi-network coverage, which realizes coordination of other SIM card called information at the network side, avoids periodic radio frequency switching of a main SIM card without frequently switching radio frequency channels between multiple SIM cards by a mobile terminal, does not increase cost and power consumption of the mobile terminal, greatly improves communication quality of the mobile terminal, and has high cost performance.

The invention realizes the purpose through the following technical scheme:

a multi-card standby method under multi-network coverage comprises a MNIS multi-network terminal information sharing service platform, an operator 1 base station, an operator 2 base station, a mobile terminal, a tracking area A and a tracking area B, wherein the MNIS multi-network terminal information sharing service platform is built by a mobile operator special device; the method is characterized in that: the multi-card standby method under the multi-network coverage is realized by the following steps:

1. firstly, when a mobile terminal initially accesses to an operator 1 base station, besides reporting SIM card information of the corresponding operator 1 base station, the SIM card information of the corresponding operator 2 base station also needs to be reported; after that, the radio frequency of the mobile terminal can always work under the SIM card of the base station of the operator 1; for the SIM card information of the base station of the operator 2, the mobile terminal only needs to report basic necessary information for maintaining paging but not all information, which is beneficial to the isolation of privacy unnecessary information between the base station of the operator 1 and the base station of the operator 2;

2. when an operator 1 base station receives the two SIM card information reported by the mobile terminal, reporting the information to an MNIS multi-network terminal information sharing service platform, wherein the MNIS multi-network terminal information sharing service platform is configured on an AS access layer, and different operators can share a plurality of SIM card information under the same mobile terminal based on the MNIS multi-network terminal information sharing service platform; an operator 1 base station initially accessed by a mobile terminal sends all SIM card information reported by the mobile terminal to an MNIS multi-network terminal information sharing service platform, and then all base stations of the operator 1 base station and an operator 2 base station can obtain multi-SIM card binding information of the mobile terminal from the MNIS multi-network terminal information sharing service platform;

3. when an operator 2 base station needs to initiate paging to the mobile terminal, the operator 2 base station is different from the prior art that the operator 2 base station directly sends a paging instruction to the mobile terminal, but the operator 2 base station firstly inquires the mobile terminal information through an MNIS multi-network terminal information sharing service platform; if the MNIS multi-network terminal information sharing service platform does not store the information of the mobile terminal, the mobile terminal is not accessed to another operator 1 base station, the operator 2 base station directly sends a paging instruction by adopting a traditional scheme; if the information of the mobile terminal is stored in the MNIS multi-network terminal information sharing service platform, the mobile terminal is shown to be accessed to the operator 1 base station at present, and the operator 2 base station can forward paging information to the operator 1 base station through the MNIS multi-network terminal information sharing service platform;

4. when an operator 1 base station receives paging information of an operator 2 base station forwarded by an MNIS multi-network terminal information sharing service platform, the operator 1 base station sends a paging signaling to a mobile terminal, and indicates that the paging is initiated by the operator 2 base station in the signaling;

5. when the mobile terminal receives the paging signaling of the base station of the operator 1, it immediately initiates an access flow on the base station of the operator 2;

6. the multi-SIM card information of the mobile user can be updated along with the TAU process, when the user moves from the tracking area A to the tracking area B, a TAU flow is initiated, and the multi-SIM card information is reported again; when a user is in a tracking area B, if an operator 2 base station in the tracking area A needs to initiate paging, the operator 2 base station can inform an operator 1 base station in the tracking area B to send paging by inquiring the information of the tracking area and a plurality of SIM cards where the user is in an MNIS multi-network terminal information sharing service platform; the TAU process and the multi-SIM card information updating process are integrated, so that the multi-SIM card information updating frequency of the mobile terminal can be further reduced, and the pressure of a network side is reduced.

Compared with the prior art, the invention has the beneficial effects that:

according to the multi-card standby method under the multi-network coverage, the called information of other SIM cards is coordinated on the network side through six steps, the mobile terminal does not need to frequently switch radio frequency channels among the multiple SIM cards, the periodic radio frequency switching of a main SIM card is avoided, the cost and the power consumption of the mobile terminal are not increased, the cost performance is high, the communication quality of the mobile terminal is greatly improved, and the user experience is obviously improved. The problem that in the prior art, when a DSDS single radio frequency scheme is adopted, radio frequency channels need to be switched between a main SIM card and other SIM cards periodically to receive corresponding paging information on the other SIM cards, non-negligible influence is caused on user communication quality, and user experience and mobile terminal communication quality are seriously reduced is solved.

Drawings

Fig. 1 is a schematic structural diagram of the working principle of a multi-card standby method under multi-network coverage;

fig. 2 is a schematic view of a paging process of a multi-card standby method under multi-network coverage.

Detailed Description

The following describes an embodiment of the multi-card standby method under the multi-network coverage in further detail with reference to the accompanying drawings (see fig. 1 to 2):

a multi-card standby method under multi-network coverage comprises a mobile operator special device which is set up by an MNIS multi-network terminal information sharing service platform, an operator 1 base station, an operator 2 base station, a mobile terminal, a tracking area A and a tracking area B; the method is characterized in that: the multi-card standby method under the multi-network coverage is realized by the following steps:

step 1, firstly, when a mobile terminal initially accesses to an operator 1 base station, besides reporting SIM card information of the corresponding operator 1 base station, the SIM card information of the corresponding operator 2 base station also needs to be reported at the same time; after that, the radio frequency of the mobile terminal can always work under the SIM card of the base station of the operator 1; for the SIM card information of the base station of the operator 2, the mobile terminal only needs to report basic necessary information for maintaining paging but not all information, which is beneficial to the isolation of privacy unnecessary information between the base station of the operator 1 and the base station of the operator 2;

step 2, when the base station of the operator 1 receives the information of the two SIM cards reported by the mobile terminal, reporting the information to an MNIS multi-network terminal information sharing service platform, wherein the MNIS multi-network terminal information sharing service platform is configured on an AS access layer, and different operators can share the information of a plurality of SIM cards under the same mobile terminal based on the MNIS multi-network terminal information sharing service platform; an operator 1 base station initially accessed by a mobile terminal sends all SIM card information reported by the mobile terminal to an MNIS multi-network terminal information sharing service platform, and then all base stations of the operator 1 base station and an operator 2 base station can obtain multi-SIM card binding information of the mobile terminal from the MNIS multi-network terminal information sharing service platform;

step 3, when the operator 2 base station needs to initiate paging to the mobile terminal, the operator 2 base station firstly inquires the mobile terminal information through the MNIS multi-network terminal information sharing service platform, unlike the prior art that the operator 2 base station directly sends a paging instruction to the mobile terminal; if the MNIS multi-network terminal information sharing service platform does not store the information of the mobile terminal, the mobile terminal is not accessed to another operator 1 base station, the operator 2 base station directly sends a paging instruction by adopting a traditional scheme; if the information of the mobile terminal is stored in the MNIS multi-network terminal information sharing service platform, the mobile terminal is shown to be accessed to the operator 1 base station at present, and the operator 2 base station can forward paging information to the operator 1 base station through the MNIS multi-network terminal information sharing service platform;

step 4, after the operator 1 base station receives the paging information of the operator 2 base station forwarded by the MNIS multi-network terminal information sharing service platform, the operator 1 base station sends a paging signaling to the mobile terminal, and indicates that the paging is initiated by the operator 2 base station in the signaling;

step 5, after the mobile terminal receives the paging signaling of the base station of the operator 1, it immediately initiates an access flow on the base station of the operator 2;

step 6, the multi-SIM card information of the mobile user can be updated along with the Tracking Area Update (TAU) process, when the user moves from the tracking Area A to the tracking Area B, a TAU process is initiated, and the multi-SIM card information is reported again; when a user is in a tracking area B, if an operator 2 base station in the tracking area A needs to initiate paging, the operator 2 base station can inform an operator 1 base station in the tracking area B to send paging by inquiring the information of the tracking area and a plurality of SIM cards where the user is in an MNIS multi-network terminal information sharing service platform; the TAU process and the multi-SIM card information updating process are integrated, so that the multi-SIM card information updating frequency of the mobile terminal can be further reduced, and the pressure of a network side is reduced.

Step 6 is an optimized scheme of the method of the present invention, in the conventional mobile communication, a plurality of base stations of the same operator form a tracking area, when the mobile subscriber moves in the same tracking area, the subscriber does not need to perform any updating operation, and when the mobile subscriber moves from one tracking area to another tracking area, the mobile subscriber needs to initiate a TAU procedure. By adopting the method of the invention, the information of the multiple SIM cards of the mobile user can be updated along with the updating process of the TAU tracking area. (see FIG. 1) as follows:

and when the user moves from the tracking area A to the tracking area B, initiating a TAU flow and simultaneously reporting the information of the multiple SIM cards again. When a user is in a tracking area B, if an operator 2 base station in the tracking area A needs to initiate paging, the operator 2 base station can inform an operator 1 base station in the tracking area B to send paging by inquiring the tracking area where the user is in and the information of multiple SIM cards in an MNIS multi-network terminal information sharing service platform.

The TAU process and the multi-SIM card information updating process are integrated, so that the multi-SIM card information updating frequency of the mobile subscriber can be further reduced, and the pressure of a network side is reduced.

The design idea of the applicant of the invention is as follows:

in the 5G era, except for the addition of new operators, enterprise-level private networks will be a new development trend, and under the condition that multi-network coverage is more common nowadays, how to enable a terminal to realize multi-network standby, and ensure timeliness and quality of communication, and not increase the production cost and power consumption of the terminal is a very interesting and challenging subject for mobile devices and mobile service providers.

The applicant of the present invention thinks that, for a multi-SIM mobile terminal, only one primary SIM card in a connection service state needs to receive a Paging (Paging) command periodically from other SIM cards, so that if called information of other SIM cards can be coordinated on a network side, periodic radio frequency switching of the primary SIM card can be avoided, and the communication timeliness and service quality of the mobile terminal can be greatly improved. Based on this, the applicant of the present invention proposes a new enterprise-level private network device including an MNIS multi-network terminal information sharing service platform, an operator 1 base station, an operator 2 base station, a mobile terminal, a tracking area a, and a tracking area B, for managing a plurality of SIM card information reported by the terminal and correspondingly supporting a network that is in standby at the same time, where the mobile operator private network device records a plurality of SIM card information reported by the terminal and replaces the terminal when the terminal initially accesses, and registers in other networks except the current access main network. Then, the paging information on other networks will page the mobile operator dedicated device first, and the mobile operator dedicated device will support the main network paging message to page the current terminal. The terminal starts to be separated from the current network by analyzing the paging message and switches to corresponding network access, location updating and communication, and after the communication is finished, the terminal is transferred to the special equipment of the mobile operator to continue tracking through location information.

The mobile operator dedicated device is configured with one in each TA in principle, and is responsible for terminal information maintenance in the area, and updates the corresponding mobile information in other networks according to the mobile situation of the UE in the main network. Since the TAs in different networks are different, there may be a case where one device manages a plurality of TAs. The devices of different TA divide the range according to the main network and update the positions of other networks according to the range of the corresponding main network.

While the foregoing is directed to embodiments of the present invention, other and further embodiments of the invention may be devised without departing from the basic scope thereof, and the scope thereof is determined by the claims that follow.

Claims (1)

1. A multi-card standby method under multi-network coverage comprises a MNIS multi-network terminal information sharing service platform, an operator 1 base station, an operator 2 base station, a mobile terminal, a tracking area A and a tracking area B, wherein the MNIS multi-network terminal information sharing service platform is built by a mobile operator special device; the method is characterized in that: the multi-card standby method under the multi-network coverage is realized by the following steps:

1. firstly, when a mobile terminal initially accesses to an operator 1 base station, besides reporting SIM card information of the corresponding operator 1 base station, the SIM card information of the corresponding operator 2 base station also needs to be reported; after that, the radio frequency of the mobile terminal can always work under the SIM card of the base station of the operator 1; for the SIM card information of the base station of the operator 2, the mobile terminal only needs to report basic necessary information for maintaining paging but not all information, which is beneficial to the isolation of privacy unnecessary information between the base station of the operator 1 and the base station of the operator 2;

2. when an operator 1 base station receives the two SIM card information reported by the mobile terminal, reporting the information to an MNIS multi-network terminal information sharing service platform, wherein the MNIS multi-network terminal information sharing service platform is configured on an AS access layer, and different operators can share a plurality of SIM card information under the same mobile terminal based on the MNIS multi-network terminal information sharing service platform; an operator 1 base station initially accessed by a mobile terminal sends all SIM card information reported by the mobile terminal to an MNIS multi-network terminal information sharing service platform, and then all base stations of the operator 1 base station and an operator 2 base station can obtain multi-SIM card binding information of the mobile terminal from the MNIS multi-network terminal information sharing service platform;

3. when an operator 2 base station needs to initiate paging to the mobile terminal, the operator 2 base station is different from the prior art that the operator 2 base station directly sends a paging instruction to the mobile terminal, but the operator 2 base station firstly inquires the mobile terminal information through an MNIS multi-network terminal information sharing service platform; if the MNIS multi-network terminal information sharing service platform does not store the information of the mobile terminal, the mobile terminal is not accessed to another operator 1 base station, the operator 2 base station directly sends a paging instruction by adopting a traditional scheme; if the information of the mobile terminal is stored in the MNIS multi-network terminal information sharing service platform, the mobile terminal is shown to be accessed to the operator 1 base station at present, and the operator 2 base station can forward paging information to the operator 1 base station through the MNIS multi-network terminal information sharing service platform;

4. when an operator 1 base station receives paging information of an operator 2 base station forwarded by an MNIS multi-network terminal information sharing service platform, the operator 1 base station sends a paging signaling to a mobile terminal, and indicates that the paging is initiated by the operator 2 base station in the signaling;

5. when the mobile terminal receives the paging signaling of the base station of the operator 1, it immediately initiates an access flow on the base station of the operator 2;

6. the multi-SIM card information of the mobile user can be updated along with the TAU process, when the user moves from the tracking area A to the tracking area B, a TAU flow is initiated, and the multi-SIM card information is reported again; when a user is in a tracking area B, if an operator 2 base station in the tracking area A needs to initiate paging, the operator 2 base station can inform an operator 1 base station in the tracking area B to send paging by inquiring the information of the tracking area and a plurality of SIM cards where the user is in an MNIS multi-network terminal information sharing service platform; the TAU process and the multi-SIM card information updating process are integrated, so that the multi-SIM card information updating frequency of the mobile terminal can be further reduced, and the pressure of a network side is reduced.

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