JP2021118397A - Switching control program, switching control method, and electronic information storage medium - Google Patents

Abstract

To provide a switching control program, a switching control method, and an electronic information storage medium that can mitigate a burden on users caused by switching an eSIM.SOLUTION: A control unit 27 of a wireless communication device 2 monitors a communication situation in wireless communication and automatically switches an eSIM profile set active among a plurality of eSIM profiles stored in an IC module 3 when there is a predetermined change in the communication situation.SELECTED DRAWING: Figure 4

Description

The present invention relates to a technical field of a wireless communication device equipped with an eUICC that stores a profile required for performing wireless communication for each of a plurality of different communication carriers.

Traditionally, wireless communication devices such as smartphones have been referred to as "UICCs (Embedded Universal Integrated Circuit Cards)" that provide access to wireless communication networks provided by communication carriers (telecommunications carriers). ) Has been configured to be used. The UICC is typically referred to as a small removable card (eg, a Subscriber Identity Module) that is inserted into a wireless communication device, eg, as disclosed in Patent Document 1. ) Card), but in recent years, an embedded UICC called eUICC (embedded UICC) has become widespread. The eUICC is distinguished from the traditional removable UICC in that it is soldered to the system board of a wireless communication device. A replicable eSIM (embedded UIM module) that emulates a typical SIM architecture is incorporated into the eUICC so that it can be switched for each communication carrier that operates the wireless communication network. Each eSIM has a profile (that is, a profile required for wireless communication) required for the wireless communication service provided by each communication carrier. By switching the eSIM (that is, switching the profile), it is possible to change the communication carrier without replacing the eUICC on the wireless communication device. Currently, two types of eUICC are defined as standard specifications, one for m2m (IoT devices, etc.) and the other for consumers (smartphones, etc.).

Patent No. 5149516

By the way, in eUICC for consumers, switching of eSIM is executed according to the explicit operation of the user. For example, in Japan, the eSIM of one communication carrier can be switched to the eSIM of another communication carrier according to the user's operation, or when the user travels overseas, the user eUICCs the eSIM of the communication carrier of the destination in advance. It is expected that the eSIM will be switched according to the user's operation after traveling. In recent years, private LTE and local 5G, which communicate using 4G (4th generation communication method) and 5G (5th generation communication method) bands in a local environment, have been put into practical use. A private LTE or local 5G wireless communication network is constructed by an operating entity such as an individual or a company other than the communication carrier, for example, in the building of the operating entity. With the spread of such technologies, eUICC moved from a local environment to another local environment, such as switching the eSIM according to the user's operation when moving from a local environment to a general telecommunications carrier environment. In some cases, eSIM can be switched according to the user's operation. However, if the eSIM switching as described above is executed according to the user's operation each time, it is assumed that the burden on the user will increase.

Therefore, the present invention has been made in view of the above points, and provides a switching control program, a switching control method, and an electronic information storage medium capable of reducing the burden on the user by switching the eSIM. The purpose is.

In order to solve the above problems, the invention according to claim 1 is equipped with an electronic information storage medium capable of storing a plurality of profiles required for wireless communication and actively setting any one of the profiles. The computer included in the wireless communication device is monitored for the communication means for wireless communication using the profile set to be actively and the communication status in the wireless communication, and it is determined that there is a predetermined change in the communication status. In this case, it is characterized in that it functions as a control means for switching the profile that is actively set to the electronic information storage medium.

According to the second aspect of the present invention, in the switching control program according to the first aspect, the control means acquires position information indicating the current position of the wireless communication device, and based on the acquired position information, the control means. When it is detected that the wireless communication device has moved to a predetermined place, it is determined that there has been a predetermined change in the communication status.

The invention according to claim 3 is the case where, in the switching control program according to claim 1, the control means detects that a radio wave emitted from a radio wave transmitter installed at a predetermined place is received. , The present invention is characterized in that it is determined that there has been a predetermined change in the communication status.

The invention according to claim 4 states that in the switching control program according to claim 1, the control means has a communication amount equal to or higher than a threshold value for wireless communication using the profile set to be active. When it is detected, it is determined that there has been a predetermined change in the communication status.

In the invention according to claim 5, in the switching control program according to claim 1, the amount of communication related to the wireless communication is managed for each profile, and the control means is used by the wireless communication currently in use. When it is detected that the communication status has become disabled, it is determined that there has been a predetermined change in the communication status, and the profile having the smallest amount of communication among the profiles currently available for wireless communication is selected. The profile is switched to the electronic information storage medium as the profile to be actively set.

The invention according to claim 6 is based on a computer included in a wireless communication device equipped with an electronic information storage medium capable of storing a plurality of profiles required for wireless communication and actively setting any one of the profiles. In the switching control method to be executed, the step of performing wireless communication using the profile set to be actively and the communication status in the wireless communication are monitored, and it is determined that there is a predetermined change in the communication status. In some cases, it includes a step of switching the profile that is actively set to the electronic information storage medium.

The invention according to claim 7 is an electronic information storage medium mounted on a wireless communication device, which stores a plurality of profiles necessary for the wireless communication device to perform wireless communication and activates any one of the profiles. In the electronic information storage medium that can be set to, there is a requesting means for requesting the control unit of the wireless communication device to monitor the communication status of the wireless communication device, and a predetermined change in the communication status by the control unit. It is characterized by including a receiving means for receiving notification information for notifying the change from the control unit when it is determined that the notification information has been used, and a switching means for switching the profile which is actively set by analyzing the notification information. ..

The invention according to claim 8 is an electronic information storage medium mounted on a wireless communication device, which stores a plurality of profiles necessary for the wireless communication device to perform wireless communication and activates any one of the profiles. A step of requesting the computer included in the electronic information storage medium set in the above to monitor the communication status of the wireless communication device from the control unit of the wireless communication device, and a predetermined step regarding the communication status by the control unit. It is characterized by including a step of receiving notification information notifying the change from the control unit when it is determined that there is a change, and a step of analyzing the notification information and switching a profile to be actively set. do.

The invention according to claim 9 is an electronic information storage medium mounted on a wireless communication device, which stores a plurality of profiles necessary for the wireless communication device to perform wireless communication and activates any one of the profiles. A requesting means for requesting the control unit of the wireless communication device to monitor the communication status of the wireless communication device, and a predetermined control unit for the communication status of the computer included in the electronic information storage medium that can be set in To function as a receiving means for receiving notification information notifying the change from the control unit when it is determined that there has been a change in the above, and as a switching means for switching the profile that is actively set by analyzing the notification information. It is a feature.

According to the present invention, it is possible to reduce the burden on the user by switching the eSIM.

It is a figure which shows the outline configuration example of the communication system S. It is a figure which shows the outline configuration example of a communication device 2 and an IC module 3. It is a figure which shows the configuration example of the application installed in IC module 3. It is a sequence diagram which shows an example of the eSIM switching operation in Example 1. FIG. It is a figure which shows an example of the eSIM management list managed by the eSIM management App in Example 1. FIG. It is a sequence diagram which shows an example of the monitoring setting operation in Example 2. FIG. It is a sequence diagram which shows an example of the eSIM switching operation in Example 2. FIG.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. The embodiments described below are embodiments when the present invention is applied to a communication system.

[1. Outline configuration of communication system S]
First, the outline configuration of the communication system S according to the present embodiment will be described with reference to FIG. FIG. 1 is a diagram showing a schematic configuration example of the communication system S. As shown in FIG. 1, the communication system S includes a server 1, a wireless communication device 2 (an example of a wireless communication device), and an IC module 3 (an example of an electronic information storage medium). In the example of FIG. 1, the server 1, the wireless communication device 2, and the IC module 3 are shown one by one, but in reality, there are a plurality of each. Here, the server 1 is, for example, a server for providing a wireless communication service to the wireless communication device 2 via the communication network NW. The wireless communication device 2 is, for example, a mobile terminal (mobile device) such as a smartphone. The IC module 3 is an eUICC mounted (for example, soldered) on a board so that it cannot be easily removed or replaced from the wireless communication device 2.

The communication network NW includes a wireless communication network (a mobile network including wireless communication equipment such as a wireless base station) operated by each of a plurality of operating entities. Here, the operating entity includes a telecommunications carrier (mobile carrier), an individual or a company other than the telecommunications carrier, and the like. The wireless communication network operated by an operating entity other than the communication carrier is a private LTE or local 5G wireless communication network, and uses a part of the wireless communication equipment of the communication carrier.

FIG. 2 is a diagram showing a schematic configuration example of the wireless communication device 2 and the IC module 3. As shown in FIG. 2, the wireless communication device 2 includes an I / F unit 21, a wireless communication unit 22, a storage unit 23, an operation / display unit 24, a GPS (Global Positioning System) receiving unit 25, a beacon receiving unit 26, and a beacon receiving unit 26. It is configured to include a control unit 27 and the like. The I / F unit 21 serves as an interface with the IC module 3. As an example of this interface, SPI (Serial Peripheral Interface), I 2 C (Inter-Integrated Circuit), or ISO7816 interface thereof. SPI and I ² C is a serial communication interface, in particular, SPI simultaneously using full duplex serial communications protocol for bidirectional communication. On the other hand, the ISO7816 interface is a communication interface defined by ISO7816-2 (a communication interface using eight terminals C1 to C8). Communication is performed between the control unit 27 and the IC module 3 through the I / F unit 21 according to, for example, the EPA (Application Protocol Data Unit) protocol.

The wireless communication unit 22 is a communication device for connecting to the communication network NW, and includes a modem that detects a wireless base station of the wireless communication network. As a result, the wireless communication unit 22 modulates the data designated by the control unit 27, transmits the radio wave (carrier wave) to the radio base station via the antenna, and transmits the radio wave from the radio base station to the antenna. Data is taken out and transmitted to the control unit 27 by receiving and demolishing the data via the radio wave.

The storage unit 23 is composed of, for example, a non-volatile memory, and stores an operating system and an application program (including a switching control program of the present invention). An eSIM management application (hereinafter, "eSIM management") for managing a list of eSIMs (hereinafter referred to as "eSIM management list") provided (issued) by each of a plurality of operating entities by this application program and performing various processes. "App") is installed in the control unit 27. The eSIM management app is provided as part of the LPD (Local Profile Download) function, for example. The eSIM has a profile required for wireless communication service (that is, a profile required for wireless communication) and is stored in the IC module 3. In the following description, the eSIM provided by the communication carrier is referred to as a public eSIM, and the eSIM provided by an operating entity other than the communication carrier is referred to as a local eSIM.

Further, the storage unit 23 stores the eSIM management list used by the eSIM management App. In the eSIM management list, the identifier (ID) of the operating entity, the unique identifier of the eSIM provided by the operating entity, the amount of communication related to wireless communication, the priority of using the eSIM, and the eSIM being active. Information indicating whether or not it is set is associated and registered for each eSIM (for each profile). Here, the communication amount related to wireless communication means the communication amount in the past predetermined period (for example, one month) (that is, the total amount of data transmitted / received by wireless communication). In this way, the amount of communication related to wireless communication is managed for each eSIM and is updated sequentially. In the eSIM management list, the location information of the area where the eSIM is used may be registered in association with the identifier of the eSIM. Such an area may be a large area such as a country, or a narrow area such as the site of a facility such as a factory. For example, the location information in the site of a factory or the like where the local eSIM is used (the location information of the entrance / exit of the site may be used) is registered in association with the identifier of the local eSIM.

The operation / display unit 24 includes an operation unit for receiving input from a user and a display unit having a display for displaying information. The GPS receiving unit 25 receives the navigation radio waves output from the GPS satellites and detects the current position (latitude and longitude) of the wireless communication device 2. The position information indicating the detected current position is output to the control unit 27. The beacon receiving unit 26 receives radio waves (for example, radio waves in the 2.4 GHz band) called beacons (Beacon) emitted from radio wave transmitters installed at predetermined locations. The beacon carries, for example, the identifier of a particular eSIM. The receivable range of the beacon is set within, for example, several meters (for example, 5 m) from the beacon receiving unit 26. The radio wave may be a radio wave other than Beacon.

The control unit 27 is composed of, for example, a CPU (Central Processing Unit) (an example of a computer), a RAM (Random Access Memory), a ROM (Read Only Memory), and the like. The eSIM management App causes the CPU of the control unit 27 to function as a communication means and a control means in the present invention. Specifically, the eSIM management app uses the actively set (that is, enabled) eSIM profile to communicate via the wireless communication unit 22 as the communication network NW (the operator's wireless communication network corresponding to the profile). Connect to and perform wireless communication. Then, the eSIM management app monitors the communication status in the wireless communication (that is, the communication status of the wireless communication device 2), and when it is determined that there is a predetermined change in the communication status, the eSIM is set to be active. The profile of is switched to the IC module 3. For example, the eSIM management application switches the eSIM profile by transmitting an eSIM switching request (including the eSIM identifier to be switched) to the IC module 3. Alternatively, the eSIM management application switches the eSIM profile by transmitting the notification information notifying the above change to the IC module 3. Switching the eSIM profile is synonymous with switching the eSIM.

Here, the communication status in wireless communication refers to the strength of the communication location (also referred to as the communication environment) in which wireless communication is performed and the radio wave (radio wave from the radio base station or beacon from the radio wave transmitter) at the communication location. (Also referred to as radio wave condition), it means at least one of the communication volumes related to wireless communication. For example, the eSIM management app acquires position information indicating the current position of the wireless communication device 2 from the GPS receiver 25, and detects that the wireless communication device 2 has moved to a predetermined location based on the acquired position information. If so, it is determined that there has been a predetermined change in the communication status. The predetermined location is a location (which may be a point or an area) indicated by location information registered in advance by the eSIM management application. Such a location is identified from, for example, the location information of the area where the local eSIM registered in the eSIM management list is used.

When the eSIM management app detects that the wireless communication device 2 has moved to a predetermined location, it switches the currently active (that is, actively set) eSIM profile to, for example, a local eSIM profile. Let me. For example, the eSIM management application selects a local eSIM as a switching target, and transmits a switching request including the identifier of the selected eSIM to the IC module 3. Alternatively, the eSIM management app provides notification information for notifying that the wireless communication device 2 has moved into the local eSIM usage area (for example, the local eSIM for causing the IC module 3 to select the eSIM to be switched. (Including the identifier of) is transmitted to the IC module 3. When the eSIM management app detects that the wireless communication device 2 has moved from the predetermined location (for example, moved out of the area) based on the position information acquired from the GPS receiver 25, it is currently active. You may want to switch your local eSIM profile to another eSIM (eg, public eSIM) profile.

Alternatively, when the eSIM management app detects that a beacon emitted from a radio wave transmitter installed at a predetermined location (for example, the entrance / exit of a building where local eSIM is used) is received, the communication status Judge that there has been a predetermined change in. In this case, the eSIM management app switches the currently active eSIM profile to the local eSIM profile associated with the identifier extracted from the beacon. For example, the eSIM management app selects a local eSIM as a switching target and sends a switching request including the selected eSIM identifier to the IC module 3, or the wireless communication device 2 uses the local eSIM. Notification information notifying that the user has entered the building is transmitted to the IC module 3.

Alternatively, when the eSIM management app detects a radio wave corresponding to the local eSIM from the wireless base station, it determines that there has been a predetermined change in the communication status. In this case, the eSIM management app switches the profile of the currently active eSIM (for example, public eSIM) to the profile of the local eSIM. For example, the eSIM management app selects a local eSIM as a switching target and sends a switching request including the selected eSIM identifier to the IC module 3, or the wireless communication device 2 supports the local eSIM. Notification information for notifying that the received radio wave has been received is transmitted to the IC module 3. In addition, when the eSIM management app detects a radio wave corresponding to the local eSIM, which has a higher priority than the currently active eSIM, from the wireless base station, it judges that there has been a predetermined change in the communication status, and is currently The active eSIM profile may be switched to the local eSIM profile. In this case, after switching to the local eSIM profile, the eSIM management app switches to the eSIM profile before switching when the radio wave corresponding to the local eSIM is no longer detected from the wireless base station. You may let me.

Alternatively, when the eSIM management app detects that the amount of communication related to wireless communication using the profile of the currently active eSIM (that is, the wireless communication currently in use) exceeds the threshold value, the communication status is changed. It is judged that there has been a predetermined change. In this case, the eSIM management app switches the currently active eSIM profile to the eSIM profile in which the amount of communication related to wireless communication is less than the threshold value. For example, the eSIM management app selects an eSIM whose communication volume related to wireless communication is less than the threshold value as a switching target, and transmits a switching request including the selected eSIM identifier to the IC module 3, or for wireless communication. Notification information for notifying that the communication amount has exceeded the threshold value is transmitted to the IC module 3.

Alternatively, when the eSIM management app detects that the wireless communication currently in use has become unavailable (out of service area), it determines that there has been a predetermined change in the communication status. In this case, the eSIM management app actively sets the profile of the eSIM with the highest priority or the eSIM with the lowest traffic among the eSIMs used in the currently available (within range) wireless communication. To switch as. For example, the eSIM management app selects the eSIM with the highest priority or the eSIM with the lowest communication volume as the switching target, and sends a switching request including the identifier of the selected eSIM to the IC module 3, or is currently Notification information for notifying that the wireless communication in use has become unavailable is transmitted to the IC module 3.

On the other hand, as shown in FIG. 2, the IC module 3 includes an I / F unit 31, a RAM 32, a ROM 33, an NVM (Nonvolatile Memory) 34, a CPU 35 (an example of a computer), and the like. The I / F unit 31 serves as an interface with the wireless communication device 2 (that is, the control unit 27). The NVM 34 is a non-volatile memory such as a flash memory. The NVM 34 may be an "Electrically Erasable Programmable Read-Only Memory". The operating system and application programs (including the switching control program of the present invention) are stored in the ROM 33 or the NVM 34. This application program installs ISD-P (Issuer Security Domain -Profile), ISD-R (Issuer Security Domain -Root), and the like in the IC module 3.

FIG. 3 is a diagram showing a configuration example of an application installed in the IC module 3. In FIG. 3, ISD-P is an application that manages the eSIM profile provided (issued) by the operating entity and stored in the NVM 34, and is divided for each operating entity. The ISD-R is for performing processing such as actively setting the profile of any one of the profiles of a plurality of eSIMs (eSIMa, eSIMb, eSIMc ...) (that is, enabling the eSIM profile). It is an application. The eSIM profile stores a communication method related to wireless communication, a program that defines an authentication method, key data, setting data, and the like used for authentication.

The ISD-R causes the CPU 35 to function as a requesting means, a receiving means, and a switching means in the present invention. Specifically, when the ISD-R receives the switching request from the eSIM management app, the ISD-R switches the currently active eSIM profile to the eSIM profile specified by the identifier included in the switching request. Alternatively, the ISD-R requests the control unit 27 of the wireless communication device 2 to monitor the communication status of the wireless communication device 2 (in other words, monitor the surrounding environment), and the control unit 27 determines the communication status. When the notification information for notifying the change is received from the control unit 27 when it is determined that the predetermined change has occurred, the notification information is analyzed and the profile of the eSIM that is actively set is switched. In this case, the ISD-R selects the eSIM to be switched and switches the profile of the currently active eSIM to the profile of the selected eSIM. For example, if wireless communication has been performed using eSIMa until now, but the radio waves compatible with eSIMa cannot be confirmed and the radio waves compatible with eSIMb can be confirmed, the eSIMa in use can be changed to eSIMb. The switching process is executed. At this time, if there are a plurality of eSIMs that can be switched, the ISD-R may select the eSIM to be switched by using, for example, the priority of the eSIM saved at the time of downloading each eSIM.

[2. eSIM switching operation]
Next, the eSIM switching operation will be described separately for Examples 1 and 2.

(Example 1)
First, the eSIM switching operation in the first embodiment will be described with reference to FIGS. 4 and 5. The first embodiment takes as an example a case where an eSIM switching command (switching request) is transmitted from the control unit 27 to the IC module 3 when the wireless communication currently in use becomes unavailable. FIG. 4 is a sequence diagram showing an example of the eSIM switching operation in the first embodiment, and FIG. 5 is a diagram showing an example of the eSIM management list managed by the eSIM management App in the first embodiment.

In the eSIM management list shown in FIG. 5, the identifiers of the communication carriers (Company X and Company Y), the identifier of the eSIM provided by the communication carrier, the amount of communication related to wireless communication, and whether or not the eSIM is actively set. Information indicating is associated and registered for each eSIM. In the example of FIG. 5, since Company X provides two types of wireless communication services having different frequency bands, eSIM identifiers corresponding to each of the two types of wireless communication services are registered in the eSIM management list. Further, since Company Y provides three types of wireless communication services having different frequency bands, eSIM identifiers corresponding to each of the three types of wireless communication services are registered in the eSIM management list.

In FIG. 4, the eSIM management App of the control unit 27 detects that the wireless communication currently in use (in the example of FIG. 5, wireless communication using the profile of eSIMa) has become unavailable (out of service area). When it is determined that there has been a predetermined change in the communication status (step S1), the eSIM used for the currently available (within range) wireless communication is extracted from the eSIM management list (step S2). For example, eSIMc, eSIMd, and eSIMe are extracted from the eSIM management list shown in FIG. The eSIM used for wireless communication currently available may be specified based on, for example, a comparison between the position information acquired from the GPS receiving unit 25 and the position information of the area where the eSIM is used (). In this case, the location information of the area where eSIM is used is registered in advance in the eSIM management list). That is, the eSIM that can be used in the area including the current position of the wireless communication device 2 is specified.

Next, the eSIM management App of the control unit 27 selects the eSIM with the least amount of communication related to wireless communication as the switching target among the eSIMs extracted in step S2 (step S3). For example, among eSIMc, eSIMd, and eSIMe, the eSIMd having the smallest amount of communication is selected. In step S3, when one eSIM cannot be specified as the switching target (for example, when there are a plurality of eSIMs having the least communication volume), the eSIM having the highest priority among the extracted plurality of eSIMs is set as the switching target. It may be selected (in this case, the priority for using eSIM is registered in the eSIM management list in advance). Alternatively, as another example of step S3, among the eSIMs extracted in step S2, the newest eSIM or the first eSIM found may be selected as the switching target.

Next, the eSIM management App of the control unit 27 transmits a switching command including the identifier of the eSIM selected as the switching target in step S3 to the IC module 3 through the I / F unit 21 (step S4). Upon receiving the switching command from the control unit 27, the ISD-R of the IC module 3 switches the currently active eSIM profile to the eSIM profile specified by the identifier included in the switching command (step S5). As a result, the eSIM profile specified by the identifier included in the switching command is actively set. Next, the ISD-R of the IC module 3 transmits a response (including SW9000) indicating normal termination to the control unit 27 through the I / F unit 31 (step S6).

In step S1, the eSIM management App acquires the position information indicating the current position of the wireless communication device 2 from the GPS receiving unit 25, and detects that the current position has moved to the location indicated by the pre-registered position information. By doing so, it may be determined that there has been a predetermined change in the communication status. In this case, the eSIM management application skips step S2, proceeds to step 3, and selects the eSIM specified by the identifier associated with the registered location information from the eSIM management list as the switching target. .. Alternatively, in step S1, the eSIM management App detects that a beacon emitted from a radio wave transmitter installed at the entrance / exit of the building where the local eSIM is used is received, thereby determining the communication status. It may be determined that there has been a change. In this case, the eSIM management application skips step S2, proceeds to step 3, and selects the eSIM specified by the identifier extracted from the beacon as the switching target from the eSIM management list.

(Example 2)
Next, the eSIM switching operation in the second embodiment will be described with reference to FIGS. 6 and 7. In the second embodiment, when the wireless communication currently in use becomes unavailable, the control unit 27 transmits the notification information notifying that the wireless communication currently in use becomes unavailable to the IC module 3. Take as an example. FIG. 6 is a sequence diagram showing an example of the monitoring setting operation in the second embodiment, and FIG. 7 is a sequence diagram showing an example of the eSIM switching operation in the second embodiment. In the second embodiment, the eSIM management application that uses the eSIM management list does not necessarily have to be used.

In FIG. 6, when power is supplied to the wireless communication device 2 or the reset button provided on the wireless communication device 2 is pressed, the control unit 27 issues a reset command (startup command) to the I / F unit 21. It is transmitted to the IC module 3 through (step S11). When the ISD-R of the IC module 3 receives the reset command from the control unit 27, it transmits a response (ATR) to the control unit 27 through the I / F unit 31 (step S12).

Next, when the control unit 27 receives the response (ATR) from the IC module 3, it transmits a terminal profile command to the IC module 3 through the I / F unit 21 (step S13). When the ISD-R of the IC module 3 receives the terminal profile command from the control unit 27, it transmits a response (including SW91XX) indicating that there is a Proactive command to the control unit 27 through the I / F unit 31. (Step S14).

Next, when the control unit 27 receives the response (including SW91XX) from the IC module 3, it transmits a fetch command requesting a proactive command to the IC module 3 through the I / F unit 21 (step S15). .. When the ISD-R of the IC module 3 receives the fetch command from the control unit 27, it transmits a proactive command indicating a communication status monitoring request (SET UP EVENTLIST) to the control unit 27 through the I / F unit 31 (step). S16).

Next, when the control unit 27 receives the proactive command from the IC module 3, the control unit 27 performs the monitoring setting by registering EVENT_DOWNLOAD_LOCATION_STATUS (step S17). As a result, monitoring of the communication status in wireless communication is started, and when there is a predetermined change in the communication status (when a change occurs in Local Information or the like), an envelope command is sent to the IC module 3. Will be sent. Next, the control unit 27 transmits a terminal response to the IC module 3 through the I / F unit 21 (step S18). When the ISD-R of the IC module 3 receives the terminal response from the control unit 27, it transmits a response (including SW9000) indicating normal termination to the control unit 27 through the I / F unit 31 (step S19).

In this way, after the communication status monitoring is started, in FIG. 7, the control unit 27 determines that a predetermined change has been made by detecting that the wireless communication currently in use has become unavailable (step S20). ), An envelope command indicating EVENT_DOWNLOAD_LOCATION_STATUS is transmitted to the IC module 3 through the I / F unit 21 (step S21). When the ISD-R of the IC module 3 receives the envelope command from the control unit 27, it transmits a response (including SW91XX) indicating that there is a proactive command to the control unit 27 through the I / F unit 31 (step S22). ).

Next, when the control unit 27 receives the response (including SW91XX) from the IC module 3, it transmits a fetch command requesting a proactive command to the IC module 3 through the I / F unit 21 (step S23). .. When the ISD-R of the IC module 3 receives the fetch command from the control unit 27, it transmits a proactive command indicating Provide location information to the control unit 27 through the I / F unit 31 in order to obtain more detailed information. (Step S24).

Next, when the control unit 27 receives the proactive command from the IC module 3, the control unit 27 notifies that the wireless communication currently in use has become unavailable (for example, it is used in the wireless communication currently available). A terminal response including Local Information) including an identifier of each eSIM is transmitted to the IC module 3 through the I / F unit 21 (step S25). When the ISD-R of the IC module 3 receives the terminal response from the control unit 27, it analyzes the notification information included in the terminal response and switches the eSIM profile that is actively set (step S26). Next, the ISD-R of the IC module 3 transmits a response (including SW9000) indicating normal termination to the control unit 27 through the I / F unit 31 (step S27).

For example, in step S26, the ISD-R selects and selects the eSIM having the highest priority (priority saved at the time of downloading each eSIM) among the eSIMs currently available in wireless communication as the switching target. Switch to the eSIM profile. This actively sets the eSIM profile with the highest priority. Alternatively, among the eSIMs currently available for wireless communication, the eSIM having the smallest amount of communication related to wireless communication may be selected (in this case, the amount of communication is included in the above Local Information). Alternatively, among the currently available eSIMs used in wireless communication, the newest eSIM or the first found eSIM may be selected.

In step S20, the control unit 27 may determine that a predetermined change has occurred by detecting that the amount of communication related to the wireless communication currently in use exceeds the threshold value. In this case, in step S25, the control unit 27 notifies that the amount of communication related to the wireless communication currently in use has exceeded the threshold value (for example, of each eSIM used in the currently available wireless communication). A terminal response including an identifier and Local Information) including the amount of communication related to wireless communication is transmitted to the IC module 3 through the I / F unit 21. Then, in step S26, the ISD-R selects the eSIM having the smallest amount of communication related to wireless communication among the eSIMs currently available in wireless communication as the switching target, and switches to the profile of the selected eSIM.

As described above, according to the above embodiment, the control unit 27 of the wireless communication device 2 monitors the communication status in wireless communication, and when there is a predetermined change in the communication status, it is stored in the IC module 3. Of the plurality of eSIM profiles that have been set, the eSIM profile that is actively set is configured to be automatically switched. Therefore, for example, the location (area) where the wireless communication device 2 exists or the wireless communication device 2 is wireless. It is possible to reduce the burden on the user caused by switching eSIM when changing the operating entity (for example, a communication carrier) according to the amount of communication related to communication.

In the above embodiment, as an example of the electronic information storage medium of the present invention, the IC module 2 mounted on the board so as not to be easily removed or replaced from the wireless communication device 2 has been described as an example. The invention may be applied to an IC card that can be attached to and detached from the wireless communication device 2.

1 Server 2 Wireless communication device 3 IC module 21 I / F unit 22 Wireless communication unit 23 Storage unit 24 Operation / display unit 25 GPS reception unit 26 Beacon reception unit 27 Control unit 31 I / F unit 32 RAM
33 ROM
34 NVM
35 CPU
S communication system

Claims (9)

A computer included in a wireless communication device equipped with an electronic information storage medium capable of storing a plurality of profiles required for wireless communication and actively setting any one of the profiles.
A communication means that performs wireless communication using the actively set profile, and
It is characterized in that it functions as a control means for switching the profile set to be actively to the electronic information storage medium when the communication status in the wireless communication is monitored and it is determined that there is a predetermined change in the communication status. Switching control program. When the control means acquires position information indicating the current position of the wireless communication device and detects that the wireless communication device has moved to a predetermined location based on the acquired position information, the communication status. The switching control program according to claim 1, wherein it is determined that there has been a predetermined change in. The claim is characterized in that when it detects that a radio wave emitted from a radio wave transmitter installed at a predetermined place has been received, the control means determines that there has been a predetermined change in the communication status. Item 1. The switching control program according to item 1. When the control means detects that the communication volume related to the wireless communication using the profile set to be actively exceeds the threshold value, it determines that there has been a predetermined change in the communication status. The switching control program according to claim 1. The amount of communication related to the wireless communication is managed for each profile.
When the control means detects that the wireless communication currently in use has become unavailable, it determines that there has been a predetermined change in the communication status, and the profile used in the wireless communication currently available. The switching control program according to claim 1, wherein the profile having the least amount of communication is switched to the electronic information storage medium as the profile to be actively set. A switching control method executed by a computer included in a wireless communication device equipped with an electronic information storage medium capable of storing a plurality of profiles required for wireless communication and actively setting any one of the profiles. ,
A step of performing wireless communication using the actively set profile, and
A step of monitoring the communication status in the wireless communication and switching the profile to be actively set to the electronic information storage medium when it is determined that there is a predetermined change in the communication status.
A switching control method characterized by including. An electronic information storage medium mounted on a wireless communication device, which stores a plurality of profiles required for the wireless communication device to perform wireless communication and can actively set any one of the profiles. ,
A requesting means for requesting the control unit of the wireless communication device to monitor the communication status of the wireless communication device, and
When the control unit determines that there has been a predetermined change in the communication status, the receiving means for receiving the notification information notifying the change from the control unit, and the receiving means.
A switching means that analyzes the notification information and switches the profile that is actively set, and
An electronic information storage medium comprising. An electronic information storage medium mounted on a wireless communication device, which stores a plurality of profiles required for the wireless communication device to perform wireless communication and can actively set any one of the profiles. On the included computer,
A step of requesting the control unit of the wireless communication device to monitor the communication status of the wireless communication device, and
When the control unit determines that there has been a predetermined change in the communication status, the step of receiving notification information notifying the change from the control unit, and
The step of analyzing the notification information and switching the profile to be actively set, and
A switching control method characterized by including. An electronic information storage medium mounted on a wireless communication device, which stores a plurality of profiles required for the wireless communication device to perform wireless communication and can actively set any one of the profiles. Included computer,
A requesting means for requesting the control unit of the wireless communication device to monitor the communication status of the wireless communication device, and
When the control unit determines that there has been a predetermined change in the communication status, the receiving means for receiving the notification information notifying the change from the control unit, and the receiving means.
A switching control program characterized in that it analyzes the notification information and functions as a switching means for switching an actively set profile.

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