JP2020102781A - Terminal for achieving energy-saving mode using multiple sims and communication facility device therefor - Google Patents

Abstract

To provide a terminal for achieving an energy saving mode of a communication apparatus device and the communication facility device and reducing power consumption of a battery of the terminal using multiple SIMs.SOLUTION: In a terminal equipped with a plurality of SIMs, a different intermittent reception interval is set for each SIM. A SIM for a normal mode and a SIM for an energy saving mode are mounted, and a subscriber identification number (IMSI) described in each SIM is different. The intermittent reception interval in the SIM for the normal mode is a standard value based on DRX (extended Discontinuous Reception). The intermittent reception interval in the SIM for the energy saving mode is a standard value based on eDRX (extended DRX). When it is selected by a user or when an energy saving operation should be automatically performed according to a predetermined condition, the terminal is connected to a communication facility device using the SIM for the energy saving mode.SELECTED DRAWING: Figure 1

Description

The present invention relates to a technology of a terminal equipped with a plurality of SIMs (Subscriber Identity Modules) and its communication equipment.

In recent years, among smartphones, those compatible with dual SIM (Dual SIM) have become popular. The dual SIM includes a "DSSS (Dual SIM Single Standby)" that allows only one SIM to stand by and a "DSDS (Dual SIM Dual Standby)" that allows both SIM to simultaneously stand by.
In the case of a dual SIM compatible smartphone, for example, a SIM for voice call flat-rate service and a SIM for data communication bargain service can be used separately. Further, for example, the SIM for business contract and the SIM for private contract can be used separately.

As another technology, a technology called DRX (Discontinuous Reception) is used as a wireless communication technology such as LTE (Long Term Evolution) in order to reduce power consumption of a battery of a smartphone and power consumption of a base station. (For example, see Non-Patent Document 1). This technology repeats communication and sleep between a smartphone and a base station at an intermittent reception interval of 1.28 seconds. Thereby, it is possible to avoid constant connection between the smartphone and the base station and suppress power consumption.

On the other hand, when the terminal is an IoT (Internet of Things) device that does not require real-time communication, there is a technique called eDRX (extended DRX) that can set the intermittent reception interval up to about 44 minutes. In this case, the power consumption can be suppressed by making the intermittent reception interval very long.

"Impact of 40 yen per month, KDDI is the first LTE service for IoT in Japan", [online], [Search on December 14, 2018], Internet <URL:https://tech.nikkeibp.co.jp/it /atcl/column/14/346926/122001254/>

In either DRX or eDRX described above, the intermittent reception interval is fixedly set between the smartphone and the communication equipment (for example, MME (Mobility Management Entity) including a base station).
In normal times, the intermittent reception interval between the smartphone and the communication facility device should be as short as possible. The user can recognize, for example, an incoming call or an incoming message in real time. Therefore, the intermittent reception interval in a general smartphone is currently fixed to a short time of 1.28 seconds.

On the other hand, in an emergency such as a large-scale disaster or a communication failure, the user or the communication carrier wants to suppress the power consumption of the smartphone or the base station as much as possible.
That is, if the intermittent reception interval can be lengthened in such an emergency, the user can suppress the power consumption of the smartphone battery. As a telecommunications carrier, it is possible to temporally disperse the traffic concentrated on the communication equipment.

However, the intermittent reception interval is fixedly set between the smartphone and the communication equipment, and a protocol sequence for changing it is not specified. Of course, the number of seconds for call-out timeout is uniformly set to the system setting value.

Therefore, an object of the present invention is to provide a terminal and a communication equipment device thereof that use a plurality of SIMs to suppress the power consumption of a battery of the terminal and realize an energy saving mode of the communication equipment device.

According to the present invention, in a terminal equipped with a plurality of SIMs,
A different intermittent reception interval is set for each SIM.

According to another embodiment of the terminal of the present invention,
Equipped with SIM for normal mode and SIM for energy saving mode,
The subscriber identification number (IMSI) described in each SIM is different,
The intermittent reception interval in the SIM for normal mode is a standard value based on DRX,
It is also preferable that the intermittent reception interval in the SIM for energy saving mode is a standard value based on eDRX.

According to another embodiment of the terminal of the present invention,
It is also preferable to connect to the communication facility device using the SIM for energy saving mode when the user performs a selection operation or when an energy saving operation should be automatically performed according to a predetermined condition.

According to another embodiment of the terminal of the present invention,
The subscriber identification number of the SIM for normal mode mounted on the same terminal and the subscriber identification number of the SIM for energy saving mode are linked in advance under the contract of the same user,
It is also preferable that when one SIM is connected to the communication equipment device, the other SIM is exclusively controlled so as to be disconnected from the communication equipment device.

According to the present invention, in the communication equipment device for communicating with the above-mentioned terminal,
When a packet connection request including a subscriber identification number based on each SIM is received from a terminal, a packet connection response including an intermittent reception interval registered according to the subscriber identification number is returned to the terminal. And

According to another embodiment of the communication equipment device of the present invention,
The communication facility device has a core network device and an authentication database,
The authentication database registers the normal mode or energy saving mode for each subscriber identification number,
The core network device, when receiving the packet connection request from the terminal, transmits an authentication request including the subscriber identification number to the authentication database,
The authentication database returns an authentication response including the intermittent reception interval registered according to the subscriber identification number to the core network device,
It is also preferable that the core network device returns a packet connection response including an intermittent reception interval based on the authentication response to the terminal, and operates with the terminal based on the intermittent reception interval.

According to another embodiment of the communication equipment device of the present invention,
The communication equipment further has a CSCF (Call Session Control Function),
When the CSCF receives a VoLTE (Voice over Long Term Evolution) connection request based on a terminal, it sends an authentication request to an authentication database,
The authentication database returns an authentication response including the subscriber identification number and mode to the CSCF,
It is also preferable that the CSCF operates on the terminal based on the intermittent reception interval according to the mode.

According to another embodiment of the communication equipment device of the present invention,
The communication equipment further has a TAS (Telephony Application Server),
When the TAS receives a terminal-based VoLTE connection request, it sends an authentication request containing a subscriber identification number to an authentication database,
The authentication database returns an authentication response including a mode according to the subscriber identification number to the TAS,
It is also preferable that the TAS operates based on the intermittent reception interval according to the mode for the terminal.

According to another embodiment of the communication equipment device of the present invention,
In response to the call connection request from the calling terminal, the TAS for the normal mode transmits a pre-ringback tone different from the ringback tone to the calling terminal when the called terminal is in the energy saving mode. Is also preferable.

According to the terminal and the communication equipment device of the present invention, it is possible to suppress the power consumption of the battery of the terminal and realize the energy saving mode of the communication equipment device by using a plurality of SIMs.

It is explanatory drawing of the terminal in this invention. It is a functional block diagram of the communication equipment apparatus in this invention. It is a sequence diagram between the terminal and communication equipment in the present invention. It is a sequence diagram which returns the pre-ringing back tone when the SIM for energy saving mode becomes the receiving side.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

FIG. 1 is an explanatory diagram of a terminal according to the present invention.

According to FIG. 1A, the smartphone 1 serving as a terminal is equipped with a plurality of SIMs, and VoLTE connection is possible between the SIMs and the communication facility apparatus.
Also, the subscriber identification number (IMSI (International Mobile Subscriber Identity)) described in each SIM is different. If a different subscriber identification number is assigned to each SIM, it is generally recognized as a different subscriber. Therefore, the communication equipment device associates different SIMs in advance under the contract of the same user.

According to the technology stipulated in 3GPP TS 24.239 Flexible Alerting (FA), the telephone numbers given to different SIMs of different terminals can be associated with the representative telephone numbers in advance in the communication equipment. Incoming calls and incoming calls to the representative telephone number can be transferred to the other terminal.

According to FIG. 1B, different intermittent reception intervals are set for each SIM mounted on the same smartphone 1. Specifically, the SIM 11 for the normal mode and the SIM 12 for the energy saving mode are classified.

In the SIM 11 for normal mode, a standard value based on DRX (extended Discontinuous Reception) is set as the intermittent reception interval. In the case of DRX, the intermittent reception interval is set to 1.28 seconds, for example.
In the energy-saving mode SIM 12, a standard value based on eDRX (extended DRX) is set as the intermittent reception interval. In the case of eDRX, the intermittent reception interval can be arbitrarily set, for example, up to about 44 minutes.

When the smartphone 1 is selected by the user or when the energy saving operation should be automatically performed according to a predetermined condition (for example, in an emergency), the smartphone 1 switches to the energy saving mode SIM 12 and connects to the communication facility device.
Further, when one SIM is connected to the communication equipment device, the other SIM is exclusively controlled so as to be disconnected from the communication equipment device.

FIG. 2 is a functional configuration diagram of the communication equipment device according to the present invention.

The communication equipment includes base station 2, core network device 3, authentication database 4, P-CSCF (Proxy-Call Session Control Function) 51 and 52, and S-CSCF (Serving-CSCF) 61 and 62. , TAS (Telephony Application Server) 71 and 72.
The SIM 11 for normal mode communicates with the P-CSCF 51, S-CSCF 61 and TAS 71 according to the subscriber identification number. In this case, the TAS 71 functions for the normal mode.
On the other hand, the SIM 12 for energy saving mode communicates with the P-CSCF 52, S-CSCF 62 and TAS 72 according to the subscriber identification number. In this case, the TAS 72 functions for the energy saving mode.

FIG. 3 is a sequence diagram between the terminal and the communication equipment in the present invention.

(S311) The smartphone (terminal) 1 transmits a packet connection request to the core network device 3 from either the normal mode SIM 11 or the energy saving mode SIM 12.

At this time, the smartphone 1 does not allow simultaneous connection of the SIM 11 for normal mode and the SIM 12 for energy saving mode. That is, the smartphone 1 functions as a DSSS (Dual SIM Single Standby) that exclusively uses only one of the SIMs.

In addition, it is not assumed that one of the normal mode SIM 11 and the energy saving mode SIM 12 is taken out and inserted into another smartphone to be used in a different smartphone. The communication equipment device allows only the SIM that has transmitted the latest packet connection request. Specifically, when a packet connection request is made from one SIM, processing is performed so as to disconnect the connection of another SIM.

(S312) The authentication database 4 registers the normal mode or the energy saving mode and the intermittent reception interval corresponding to each mode for each subscriber identification number.
The core network device 3 sends an authentication request to the authentication database 4. The authentication request includes the SIM subscriber identification number based on the packet connection request.
On the other hand, the authentication database 4 returns an authentication response to the core network device 3. The authentication response includes the intermittent reception interval registered according to the subscriber identification number based on the authentication request.
As a result, the core network device 3 sets the intermittent reception interval with the SIM based on the packet connection request, and operates with the smartphone 1 based on the intermittent reception interval.

(S313) Then, the core network device 3 returns a packet connection response to the smartphone 1. The packet connection response includes the intermittent reception interval according to the subscriber identification number of the SIM.
As a result, the intermittent reception interval of the SIM mounted on the smartphone 1 is set.

Of course, the intermittent reception interval may be fixedly set in advance for each SIM according to the subscriber identification number. In that case, the SIM of the smartphone 1 confirms that the intermittent reception interval of the packet connection response received in S313 matches the preset interval reception interval.

(S321) Next, the smartphone 1 transmits a VoLTE connection request to the core network device 3 from the SIM that has received the packet connection response in S313.

(S322) The core network device 3 transfers the VoLTE connection request to the P-CSCF 5 corresponding to the subscriber identification number.
The P-CSCF 5 transfers the VoLTE connection request to the S-CSCF 6 corresponding to the P-CSCF 5.

(S323) The S-CSCF 6 sends an authentication request to the authentication database 4. The authentication request includes the SIM subscriber identification number based on the VoLTE connection request.
On the other hand, the authentication database 4 returns an authentication response to the S-CSCF 6. The authentication response includes the mode (normal mode or energy saving mode) registered according to the subscriber identification number based on the authentication request.
As a result, the S-CSCF 6 operates on the smartphone 1 based on the intermittent reception interval according to the mode.

(S324) The S-CSCF 6 returns a VoLTE connection response to the P-CSCF 5. The VoLTE connection response includes a mode with SIM, and the P-CSCF 5 recognizes the intermittent reception interval with SIM.
Then, the P-CSCF 5 returns the VoLTE connection response to the core network device 3.

(S325) The core network device 3 returns a VoLTE connection response to the smartphone 1.

(S326) The S-CSCF 6 transmits a VoLTE connection request to the TAS 7 after S324.

(S327) The TAS 7 transmits the authentication request to the authentication database 4.
On the other hand, the authentication database 4 returns an authentication response to the TAS 7. The authentication response includes a mode (normal mode or energy saving mode).
As a result, the TAS 7 recognizes the mode for the smartphone 1 and operates based on the intermittent reception interval according to the mode.

(S328) Then, the TAS 7 returns a VoLTE connection response to the S-CSCF 6.

FIG. 4 is a sequence diagram of returning a pringback tone when the SIM for the energy saving mode becomes the receiving side.

(S411) The S-CSCF 61 receives the INVITE (call connection request) of the calling smartphone from the calling S-CSCF. It is assumed that the S-CSCF 61 communicates with the normal mode SIM of the smartphone 1.
(S412) Since the S-CSCF 61 connects with the SIM 11 for normal mode of the smartphone 1 on the called side, the INVITE is transferred to the TAS 71 for normal mode.
(S413) On the other hand, the TAS 71 transmits 183 Session Progress to the S-CSCF 61. The S-CSCF 61 transfers 183 Session Progress to the calling S-CSCF.

(S414) After that, the S-CSCF 61 receives the UPDATE from the calling S-CSCF. UPDATE is for confirming that the bearer for voice media and the QoS setting have been completed between the calling side network and the called side network.
(S415) The S-CSCF 61 transfers the UPDATE to the TAS 71 for normal mode.
(S416) On the other hand, the TAS 71 for normal mode returns 200 OK to the S-CSCF 61.
The S-CSCF 61 transfers the 200 OK to the S-CSCF on the calling side.

(S417) Then, the normal mode TAS 71 transmits a pre-ringing back tone to the calling side. As a result, the calling-side smartphone 1 utters a pringback tone.

The pre-ring back tone is a voice different from the normal ring back tone. In general, in VoLTE, a service specification in which a ring back tone (pull-lulu sound) calling the called terminal is uttered from the speaker on the smartphone of the calling party when triggered by 180 Response from the called terminal. Has become.

However, in the case of the SIM 12 for energy saving mode in the called terminal, the time until receiving 180 Response will be extended. That is, it is assumed that the user on the calling side feels uneasy as to whether or not a call is being made because the silent period becomes long. Therefore, in S417, the calling terminal utters a pre-backing tone until 180 Response is received from the energy-saving mode SIM 12 of the called terminal.

(S421) At the time of S412, the TAS 71 recognizes that the smartphone 1 on the called side is also contracted with the SIM 12 for energy saving mode. However, it is not recognized whether or not the energy saving mode SIM 11 in the smartphone 1 on the called side is disconnected. Therefore, the TAS 71 for normal mode needs to transfer the INVITE once to the TAS 72 for energy saving mode. Of course, the TAS 71 and the TAS 72 may separately have a sequence for knowing that the energy saving mode SIM of the called-side smartphone 1 is disconnected.
Therefore, the TAS 71 transfers the INVITE to the S-CSCF 61 to transfer to the S-CSCF 62 that should communicate with the SIM 12 for energy saving mode.
On the other hand, the S-CSCF 61 transmits the INVITE to the S-CSCF 62 to which the SIM 12 for energy saving mode is connected.

(S422) The S-CSCF 62 transfers the INVITE to the TAS 72 with which the SIM 12 for energy saving mode communicates.
(S423) The TAS 72 returns the INVITE to the S-CSCF 62 once.
(S424) The S-CSCF 62 transfers the INVITE to the SIM 12 for energy saving mode of the smartphone 1 on the called side.
If the Response signal from the smartphone on the called side is not received within a certain time after the transfer to the SIM 12, the call is timed out, and it is determined that “out of service area or power is off”. The number of seconds of this fixed time is also a system setting value in the IMS.

(S425) On the other hand, the energy-saving mode SIM 12 of the smartphone 1 on the called side returns 180 Response to the INVITE to the S-CSCF 62.
(S426) The S-CSCF 62 transfers the 180 Response to the TAS 72.
The TAS 72 returns the 180 Response to the S-CSCF 62.
Then, the S-CSCF 62 returns the 180 Response to the S-CSCF 61.

Note that the 180 Response is a signal that the smartphone on the called side automatically responds, not the user's receiving operation.

(S427) The S-CSCF 61 transfers the 180 Response to the TAS 71.
(S428) On the other hand, the TAS 71 switches the sound source from the pre-ringback tone transmitted to the calling terminal to the normal ringback tone. Then, the TAS 71 transfers the ringback tone to the calling side.
As a result, the utterance from the speaker of the calling terminal is switched from the pre-ring back tone to the ring back tone.

As described above in detail, according to the terminal and the communication equipment device of the present invention, by switching the SIM for normal mode of the normal intermittent reception interval to the SIM for energy saving mode in which the intermittent reception interval is set long, It is possible to suppress the power consumption of the battery of the terminal and realize the energy saving mode of the communication facility device.

According to another embodiment of the present invention, the smartphone connected with the SIM for energy saving mode can comply with the following regulations, for example.
(1) Only packet communication to a specific website is permitted.
(2) Restrict unnecessary and urgent traffic such as advertisements.
(3) During a VoLTE call, the voice packet transmission interval is forcibly extended to reduce the number of packets (not to reduce the data amount).
(4) As a mobile phone operator, by utilizing the dual SIM, it is possible to provide additional functions that cannot be provided by the single SIM.

With regard to the various embodiments of the present invention described above, various changes, modifications and omissions of the technical idea and scope of the present invention can be easily made by those skilled in the art. The above description is merely an example and is not intended to be limiting. The invention is limited only by the claims and equivalents thereof.

1 terminal, smartphone 11 SIM for normal mode
12 SIM for energy saving mode
2 base station 3 core network device 4 authentication database 51, 52 P-CSCF
61, 62 S-CSCF
71, 72 TAS

Claims (9)

In terminals equipped with multiple SIMs (Subscriber Identity Modules),
A terminal, wherein different intermittent reception intervals are set for each SIM. Equipped with SIM for normal mode and SIM for energy saving mode,
The subscriber identification number (IMSI (International Mobile Subscriber Identity)) described in each SIM is different,
The intermittent reception interval in the SIM for normal mode is a standard value based on DRX (extended Discontinuous Reception),
The terminal according to claim 1, wherein the intermittent reception interval in the SIM for energy saving mode is a standard value based on eDRX (extended DRX). 3. When the user performs a selection operation, or when an energy saving operation should be automatically performed according to a predetermined condition, the energy saving mode SIM is used to connect to the communication equipment device. Terminal. The subscriber identification number of the SIM for normal mode mounted on the same terminal and the subscriber identification number of the SIM for energy saving mode are linked in advance under the contract of the same user,
The terminal according to claim 3, wherein when one SIM is connected to the communication equipment device, the other SIM is exclusively controlled so as to be disconnected from the communication equipment device. A communication facility apparatus for communicating with the terminal according to any one of claims 1 to 4,
When a packet connection request including a subscriber identification number based on each SIM is received from the terminal, a packet connection response including an intermittent reception interval registered according to the subscriber identification number is returned to the terminal. A communication facility device. The communication facility device has a core network device and an authentication database,
The authentication database registers a normal mode or an energy saving mode for each subscriber identification number,
The core network device, when receiving the packet connection request from the terminal, transmits an authentication request including the subscriber identification number to the authentication database,
The authentication database returns an authentication response including an intermittent reception interval registered according to the subscriber identification number to the core network device,
The core network device returns a packet connection response including an intermittent reception interval based on the authentication response to the terminal, and operates based on the intermittent reception interval with the terminal. 5. The communication facility device according to item 5. The communication equipment further has a CSCF (Call Session Control Function),
When the CSCF receives a VoLTE (Voice over Long Term Evolution) connection request based on the terminal, sends an authentication request to the authentication database,
The authentication database returns an authentication response including the subscriber identification number and mode to the CSCF,
The communication facility apparatus according to claim 6, wherein the CSCF operates on the terminal based on an intermittent reception interval according to the mode. The communication equipment further has a TAS (Telephony Application Server),
When the TAS receives a VoLTE connection request based on the terminal, sends an authentication request including the subscriber identification number to the authentication database,
The authentication database returns an authentication response including a mode corresponding to the subscriber identification number to the TAS,
The communication equipment apparatus according to claim 7, wherein the TAS operates based on an intermittent reception interval according to the mode for the terminal. In response to the call connection request from the calling terminal, the TAS for the normal mode transmits a pre-ringback tone different from the ringback tone to the calling terminal when the called terminal is in the energy saving mode. The communication facility device according to claim 8.

Images