JP2021040229A - User equipment, program, and method for recognizing communication scheme in non-standalone wireless communication network - Google Patents

Abstract

To provide user equipment capable of connecting to a non-standalone wireless communication network and having positioning means for determining its current position which can recognize a communication scheme available for connection even when it is in an idle state.SOLUTION: The user equipment comprises: second base station parameter storing means for storing a position and a distance threshold as parameters of a second base station to determine an availability for connection of a first communication scheme and a second communication scheme when being in an idle state; base station distance determining means for determining whether a distance between a current position determined by the positioning means and the position of the second base station is within the distance threshold or not; and communication scheme determining means for determining that connection is available via the second communication scheme when the result determined by the base station distance determining means is true or determines that the connection is available via the first communication scheme when the determined result is false.SELECTED DRAWING: Figure 2

Description

The present invention relates to an indicator technology for a mobile terminal (User Equipment).

On the mobile terminal, an indicator is displayed on the display in order to clearly indicate to the user the communication method standard available at the current location. For example, "3G" is displayed in a place where communication is possible by the 3G communication method, and "4G" is displayed in a place where communication is possible by the 4G communication method. For the user, this indicator is an important display for recognizing the communication environment when using the terminal.
For example, if a mobile terminal displays "4G" in a place where only the 3G communication method can be used, the user feels that the communication speed of the 4G communication method is slow. This can also cause users to feel distrust of telecommunications services and carriers.
Therefore, displaying an accurate indicator on the display of a mobile terminal is an important requirement for a telecommunications carrier to provide a telecommunications service.

In recent years, communication equipment based on 5G (fifth generation mobile communication system) has been deployed as a next-generation communication system standard. The 5G communication method has features such as high speed / large capacity, ultra-low delay, and ultra-multi-terminal connection, and the communication quality is expected from users.

The 5G communication system communication business equipment is currently configured as a "Non-Stand Alone wireless communication network" with the 4G communication system communication business equipment. Specifically, the 5G communication base station is configured in combination with the existing EPC (Evolved Packet Core), which is a core network of the 4G communication system (specified in Non-Patent Gazette 1). Therefore, the non-standalone wireless communication network can construct a 5G communication type wireless communication network at low cost and at an early stage.
As for 3GPP (The Third Generation Partnership Project), the non-standalone method is provisional, and in the future, it will be shifted to the stand-alone method in which the 5G communication method is operated independently.

3GPP TS 23.401, “General Packet Radio Service (GPRS) enhancements for Evolved Universal Terrestrial Radio Access Network (E-UTRAN) access”. 3GPP TS 37.340, "Evolved Universal Terrestrial Radio Access (E-UTRA) and NR; Multi-connectivity". 3GPP TS 38.331, ”NR; Radio Resource Control (RRC) protocol specification”.

A mobile terminal connected to a non-standalone wireless communication network can communicate with both a 4G base station, which is a master node, and a 5G base station, which is a secondary node, in a non-idle state (during communication). On the other hand, in the idle state (during non-communication), only the signal from the 4G base station, which is the master node, is listened to. Therefore, the mobile terminal cannot determine whether or not it can communicate with the 5G base station in the idle state (see, for example, Non-Patent Document 2).

FIG. 1 is a system configuration diagram having a mobile terminal in the prior art.

According to FIG. 1, it is assumed that the mobile terminal is in an idle state (during non-communication). At this time, if the mobile terminal is located in an area where the signal from the 5G base station can be received, there is no problem even if "5G" is displayed.
However, when the mobile terminal is located in a place where the signal from the 5G base station cannot be received, the problem is that "5G" is displayed. Even in the idle state, even though the user recognizes that communication is possible using the 5G communication method, when the user is actually communicating (non-idle state), the user will communicate using the 4G communication method. ..

In contrast to such existing technology, there is a technology that also listens for a signal from a 5G base station of a secondary node (see, for example, Non-Patent Document 3).
However, it is necessary to activate the mobile terminal and put it in communication (non-idle state) even though it is in the idle state. As a result, the mobile terminal is activated only for displaying the indicator, which increases the power consumption and is not practical.

Therefore, an object of the present invention is to provide a mobile terminal, a program, and a method capable of recognizing a connectable communication method even in an idle state for a mobile terminal connected to a non-standalone wireless communication network. And.

According to the present invention, it is possible to connect to a non-standalone wireless communication network in which the first base station of the first communication method and the second base station of the second communication method are combined, and the current position can be positioned. In a mobile terminal having various positioning means
In order to recognize whether the first communication method or the second communication method can be connected in the idle state,
A second base station parameter storage means that stores the position and threshold distance as parameters of the second base station,
A base station distance determining means for determining whether or not the distance between the current position by the positioning means and the position of the second base station is within the threshold distance, and
If it is determined to be true by the base station distance determination means, it is recognized that it can be connected by the second communication method, and if it is determined to be false, it has a communication method recognition means that is recognized as connectable by the first communication method. It is a feature.

According to another embodiment of the mobile terminal of the present invention.
It is also preferable that the communication method recognition means displays the recognized communication method on a display so as to be clearly shown to the user.

According to another embodiment of the mobile terminal of the present invention.
The first communication system is 4G, the first base station is a 4G base station, and
It is also preferable that the second communication system is 5G and the second base station is a 5G base station.

According to another embodiment of the mobile terminal of the present invention.
Parameter acquisition means that acquires the parameters of the 5G base station in the current tracking area from the MME (Mobility Management Entity) and stores them in the second base station parameter storage means during the communication state before the idle state. It is also preferable to have more.

According to another embodiment of the mobile terminal of the present invention.
It is also preferable that the base station distance determination means does not execute the determination process when the 5G base station does not exist in the current tracking area.

According to another embodiment of the mobile terminal of the present invention.
It is also preferable that the parameter acquisition means receives an Attach Accept and / or a Tracking Area Update Accept including the parameters of the 5G base station from the MME of the 4G base station.

According to another embodiment of the mobile terminal of the present invention.
The parameters further include the update cycle
It is also preferable that the base station distance determination means executes the determination process every update cycle.

According to the present invention, it is possible to connect to a non-standalone wireless communication network in which the first base station of the first communication method and the second base station of the second communication method are combined, and the current position can be positioned. In a program that makes a computer installed in a mobile terminal equipped with various positioning means function
In order to recognize whether the first communication method or the second communication method can be connected in the idle state,
A second base station parameter storage means that stores the position and threshold distance as parameters of the second base station,
A base station distance determining means for determining whether or not the distance between the current position by the positioning means and the position of the second base station is within the threshold distance, and
If it is determined to be true by the base station distance determination means, it is recognized as connectable by the second communication method, and if it is determined to be false, the computer is made to function as a communication method recognition means that is recognized as connectable by the first communication method. It is characterized by that.

According to the present invention, it is possible to connect to a non-standalone wireless communication network in which the first base station of the first communication method and the second base station of the second communication method are combined, and the current position can be positioned. In the communication method recognition method of a mobile terminal having various positioning means,
Mobile terminals
In order to recognize whether the first communication method or the second communication method can be connected in the idle state,
It has a second base station parameter storage unit that stores the position and threshold distance as parameters of the second base station.
The first step of determining whether or not the distance between the current position by the positioning means and the position of the second base station is within the threshold distance, and
If it is determined to be true by the base station distance determination means, it is recognized as connectable by the second communication method, and if it is determined to be false, it is recognized as connectable by the first communication method. It is characterized by.

The mobile terminal, program, and method of the present invention can recognize a communication method that can be connected to a mobile terminal connected to a non-standalone wireless communication network even in an idle state.

It is a system block diagram which has a mobile terminal in the prior art. It is a system configuration diagram which has the mobile terminal which connects to the non-standalone wireless communication network in this invention. It is a functional block diagram of the mobile terminal in this invention. It is a flowchart of the base station distance determination part in this invention. It is a sequence diagram which a mobile terminal acquires a parameter from MME.

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

FIG. 2 is a system configuration diagram having a mobile terminal connected to the non-standalone wireless communication network according to the present invention.

According to FIG. 2, as compared with FIG. 1, the mobile terminal 1 activates the positioning function even in the idle state and recognizes the "distance" between its current position and the 5G base station. .. If it is located within a communicable distance from a 5G base station, it can display a "5G" indicator, otherwise it can display a "4G" indicator.

Further, according to FIG. 2, as a non-standalone wireless communication network, the 5G base station 31 is connected under the control of the 4G base station 21. That is, the 5G base station 31 is under the control of the core network of the 4G communication equipment network. According to FIG. 2, the MME (Mobility Management Entity) 22 manages the position of the 5G base station.
The mobile terminal 1 may have a plurality of 4G base stations or a plurality of 5G base stations in the current tracking area as a non-standalone wireless communication network. Of course, the 5G base station does not have to exist in the current tracking area.

FIG. 3 is a functional configuration diagram of the mobile terminal according to the present invention.

According to FIG. 3, the mobile terminal 1 has a communication unit 10, a communication interface 101, a positioning unit 102, and a display 103.
The communication interface 101 is capable of wireless communication with both the 4G base station 21 and the 5G base station 31.
The positioning unit 102 positions the current position of the mobile terminal 1 by, for example, GPS (Global Positioning System). Of course, the positioning unit 102 is not limited to GPS, and may be capable of actively positioning even in an idle state (during non-communication).
The display 103 is a user interface of a smartphone and displays a connectable communication method (for example, "4G" or "5G").

According to FIG. 3, the mobile terminal 1 recognizes whether or not the connection of the 4G communication method (first communication method) or the 5G communication method (second communication method) is possible in the idle state.
According to FIG. 3, the mobile terminal 1 includes a 5G base station parameter storage unit (second base station parameter storage unit) 110, a base station distance determination unit 111, a communication method recognition unit 112, and a parameter acquisition unit 12. Have. These functional components are realized by executing a program that makes a computer mounted on a mobile terminal function. Further, the processing flow of these functional components can be understood as a communication method recognition method.

[5G base station parameter storage unit 110]
The 5G base station parameter storage unit (second base station parameter storage unit) 110 stores parameters based on the 5G base station (second base station).
The parameters are the following information set by the telecommunications carrier.
(1) "Position" of 5G base station
The "position" may be latitude / longitude or a mesh number on a map. The position of the 5G base station may be at least one that can calculate the distance from the current position of the mobile terminal 1.
Further, the position stored in the 5G base station parameter storage unit 110 may be only the position in the current tracking area, and when a plurality of 5G base stations exist, the respective position information is included. If there is no 5G base station in the tracking area, it will be "NULL", for example.
(B) "Threshold distance" of 5G base station
The "threshold distance" is a distance capable of communicating with a 5G base station (for example, the radius of a radio wave reachable circle). When a plurality of 5G base stations are present, they may include their respective threshold distances or may be fixedly set. The display system of the communication type indicator depends on the threshold distance.
(C) "Update cycle" of the indicator of the mobile terminal
The "update cycle" is a timing for updating the indicator of the mobile terminal, and is a time cycle determined by the base station distance determination unit 111. Of course, it may have a fixed update cycle.

[Base station distance determination unit 111]
The base station distance determination unit 111 determines whether or not the distance between the current position by the positioning unit 102 and the position of the 5G base station (second base station) of the 5G base station parameter storage unit 110 is within the threshold distance. To do. The base station distance determination unit 111 executes the determination process only in the idle state.

FIG. 4 is a flowchart of the base station distance determination unit in the present invention.

The present invention performs the following steps when idle.
(S1) If the 5G base station does not exist in the current tracking area, the base station distance determination unit 111 does not execute the determination process until the tracking area is changed. Here, if the 5G base station does not exist, the positioning unit 102 may be instructed to stop. As a result, it is not necessary to uselessly start the positioning unit 102 and consume power.
(S2) The base station distance determination unit 111 repeatedly executes the determination process at the timing of the update cycle.
(S3) The base station distance determination unit 111 inputs the current position of the mobile terminal 1 from the positioning unit 102.
(S4) The base station distance determination unit 111 determines whether or not the distance between the current position and the position of the 5G base station (second base station) is within the threshold distance.
(S5) Then, the base station distance determination unit 111 outputs the true / false determination result of S4 to the communication method recognition unit 112.

As another embodiment, the longer the update cycle, the more the number of determination processes can be reduced, and the power consumption of the mobile terminal 1 can be suppressed. Under the condition that the mobile terminal is like an IoT device and the movement is small, the update frequency of the indicator may be low.

[Communication method recognition unit 112]
The communication method recognition unit 112 recognizes as follows based on the determination result of the base station distance determination unit 111.
If it is determined to be "true", it is recognized that it can be connected by the 5G communication method (second communication method). If it is determined to be "false", it is recognized that it can be connected by the 4G communication method (first communication method). The recognition unit 112 outputs the recognized communication method to the application.
Further, the communication method recognition unit 112 displays an indicator on the display 103 so as to be clearly shown to the user.
In the case of 5G communication method, the indicator of "5G" is displayed. In the case of 4G communication method, the indicator of "4G" is displayed.

[Parameter acquisition unit 12]
The parameter acquisition unit 12 acquires the parameters of the 5G base station in the current tracking area from the MME 22 during the “communication state” before the idle state.

FIG. 5 is a sequence diagram in which the mobile terminal acquires parameters from the MME.

(S11) The mobile terminal 1 transmits an Attach Request for a location registration request to the MME 22 via a 4G base station (or a 5G base station) during communication (for example, Non-Patent Publication 1).
(S12) On the other hand, the MME 22 responds to the mobile terminal 1 with an Attach Accept including the parameters of the present invention (position of 5G base station, threshold distance, update cycle). Then, the mobile terminal 1 stores the received parameters in the 5G base station parameter storage unit 110.

(S21) When the mobile terminal 1 moves and the tracking area is changed, the mobile terminal 1 transmits a tracking area update request (Tracking Area Update Request) to the MME 22 (for example, Non-Patent Publication 1).
(S22) The MME 22 transmits a tracking area update response (Tracking Area Update Accept) including the parameters of the present invention to the mobile terminal 1.
The tracking area is a location registration area assigned to each mobile terminal. As long as the tracking area is not changed, the mobile terminal 1 can be used with confidence in the position of the 5G base station that has already been acquired.

As described in detail above, the mobile terminal, program, and method of the present invention can recognize a communication method that can be connected to a mobile terminal connected to a non-standalone wireless communication network even in an idle state. it can. In particular, even in the idle state, the indicator of the communication method in the mobile terminal can be accurately displayed.

With respect to the various embodiments of the present invention described above, various changes, modifications and omissions within the scope of the technical idea and viewpoint of the present invention can be easily made by those skilled in the art. The above explanation is just an example and does not attempt to restrict anything. The present invention is limited only to the scope of claims and their equivalents.

1 Mobile terminal 10 Communication unit 101 Communication interface 102 Positioning unit 103 Display 110 5G Base station parameter storage unit (2nd base station parameter storage unit)
111 Base station distance determination unit 112 Communication method recognition unit 12 Parameter acquisition unit 21 4G base station (1st base station)
22 MME
31 5G base station (2nd base station)

Claims (9)

A mobile phone having a positioning means capable of connecting to a non-standalone wireless communication network that combines a first base station of the first communication method and a second base station of the second communication method and capable of positioning the current position. On the terminal
In order to recognize whether the first communication method or the second communication method can be connected in the idle state,
A second base station parameter storage means that stores the position and threshold distance as parameters of the second base station,
A base station distance determining means for determining whether or not the distance between the current position by the positioning means and the position of the second base station is within the threshold distance, and
If it is determined to be true by the base station distance determination means, it is recognized that it can be connected by the second communication method, and if it is determined to be false, it has a communication method recognition means that is recognized as connectable by the first communication method. A featured mobile terminal. The mobile terminal according to claim 1, wherein the communication method recognition means displays the recognized communication method on a display so as to be clearly shown to the user. The first communication system is 4G, the first base station is a 4G base station, and
The mobile terminal according to claim 1 or 2, wherein the second communication system is 5G, and the second base station is a 5G base station. Parameter acquisition means that acquires the parameters of the 5G base station in the current tracking area from the MME (Mobility Management Entity) and stores them in the second base station parameter storage means during the communication state before the idle state. The mobile terminal according to any one of claims 1 to 3, further comprising. The mobile terminal according to claim 4, wherein the base station distance determination means does not execute the determination process when the 5G base station does not exist in the current tracking area. The mobile terminal according to claim 4 or 5, wherein the parameter acquisition means receives an Attach Accept and / or a Tracking Area Update Accept including the parameters of the 5G base station from the MME of the 4G base station. The parameters further include the update cycle
The mobile terminal according to any one of claims 1 to 6, wherein the base station distance determination means executes a determination process every update cycle. A mobile phone having a positioning means capable of connecting to a non-standalone wireless communication network that combines a first base station of the first communication method and a second base station of the second communication method and capable of positioning the current position. In the program that makes the computer installed in the terminal function
In order to recognize whether the first communication method or the second communication method can be connected in the idle state,
A second base station parameter storage means that stores the position and threshold distance as parameters of the second base station,
A base station distance determining means for determining whether or not the distance between the current position by the positioning means and the position of the second base station is within the threshold distance, and
If it is determined to be true by the base station distance determination means, it is recognized as connectable by the second communication method, and if it is determined to be false, the computer is made to function as a communication method recognition means that is recognized as connectable by the first communication method. A program characterized by that. A mobile phone having a positioning means capable of connecting to a non-standalone wireless communication network that combines a first base station of the first communication method and a second base station of the second communication method and capable of positioning the current position. In the communication method recognition method of the terminal
Mobile terminals
In order to recognize whether the first communication method or the second communication method can be connected in the idle state,
It has a second base station parameter storage unit that stores the position and threshold distance as parameters of the second base station.
The first step of determining whether or not the distance between the current position by the positioning means and the position of the second base station is within the threshold distance, and
If it is determined to be true by the base station distance determination means, it is recognized as connectable by the second communication method, and if it is determined to be false, it is recognized as connectable by the first communication method. A communication method recognition method characterized by.

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