KR102112627B1 - Apparatus and Method for Displaying Indicator According to Interwork Network - Google Patents

Abstract

Disclosed is an indicator display method according to interworking of heterogeneous networks and a terminal for the same.
In this embodiment, when a terminal changes a connection between a 3G network and a 4G network, the user can use a network that can be accessed according to a predetermined criterion by measuring signal strengths of the 3G network and the 4G network without performing a location registration procedure on the 3G network. It provides an indicator display method according to the heterogeneous network interworking displayed on the indicator of the terminal according to the setting of the terminal and a terminal therefor.

Description

Indicator display method according to interworking of heterogeneous networks and a terminal therefor {Apparatus and Method for Displaying Indicator According to Interwork Network}

The present embodiment relates to an indicator display method according to interworking with heterogeneous networks and a terminal therefor.

The contents described below merely provide background information related to the present embodiment, and do not constitute a prior art.

The wireless communication system is a system developed to enable users to perform communication without restriction of location. The wireless communication system has developed from a form of providing only a simple voice communication service to a high-speed data service and a voice service (VoIP) using packets.

As a type of wireless communication system, a network system that provides a basic voice service and a relatively low-speed data service has gradually developed into a system that provides a high-speed packet data service. In such a wireless communication system, there are two generation (2nd Generation: hereinafter referred to as "2G") networks and three generation (3rd Generation: hereinafter referred to as "3G") networks that provide voice services and relatively low-speed data services. . Although 3G networks can provide relatively high-speed data services, users need to develop more advanced networks than 2G or 3G networks because users want to receive higher-speed data services, so Long Term Evolution (hereinafter referred to as "4G") D) Development of the network is underway.

On the other hand, since a wireless communication system needs to secure the mobility of a user, a number of base stations are often involved to provide a service. Therefore, a 2G or 3G network and a 4G network are used interchangeably. When a user requests a connection to a 4G network while using a 2G or 3G network using a terminal, PS (Packet Switched) location registration is performed on the 2G or 3G network. Then, when the location registration is completed, it is determined that it is a 4G network area and accesses to a base station, whereby the time required to use 4G data communication is excessively consumed. In addition, the terminal may display unnecessary indicator changes by displaying only the currently connected network on the indicator, resulting in a high consumption of the battery, and there is a problem in that display of the optimal network connection may not be performed.

In this embodiment, when a terminal changes a connection between a 3G network and a 4G network, a user can use a network that can be accessed according to a predetermined criterion by measuring signal strengths of the 3G network and the 4G network without performing a location registration procedure on the 3G network An object of the present invention is to provide an indicator display method according to a heterogeneous network interworking displayed on an indicator of a terminal and a terminal therefor.

According to an aspect of the present embodiment, a process of checking a network status display condition for setting an indicator; Selecting one or more networks from among the connected networks and accessible networks according to the network status display conditions; And displaying information of any one of the connected network and the accessible network selected on the indicator according to the network status display condition on the indicator.

According to another aspect of this embodiment, a computer program stored in a medium is provided to execute a network display method.

According to another aspect of the present embodiment, a communication processing unit for checking a network status display condition for setting an indicator, and selecting one or more networks of a connected network and an accessible network according to the network status display condition; And it provides a terminal characterized in that it comprises a control unit for displaying the information of any one of the connected network and the accessible network selected on the basis of the network status display conditions on the indicator.

As described above, according to the present embodiment, when a terminal changes a connection between a 3G network and a 4G network, without performing a location registration procedure in the 3G network, the signal strengths of the 3G network and the 4G network are measured to determine By displaying an accessible network according to a standard on the indicator of the terminal based on the user's setting, there is an effect of knowing the optimal network among the networks available in the area where the user is currently located. In addition, it is possible to change the way the network is displayed on the indicator according to the needs of the user, thereby increasing the customer's choice to increase customer satisfaction.

1 is a block diagram schematically showing a wireless communication system for interworking with heterogeneous networks according to the present embodiment.
2 is a block diagram schematically showing a terminal according to the present embodiment.
3 is a block diagram schematically showing a communication processing unit according to the present embodiment.
4 is a flowchart illustrating an indicator display method according to interworking with heterogeneous networks according to the present embodiment.
5 is an exemplary diagram for showing an indicator displaying a network according to the present embodiment.
6 is an exemplary view showing a setting screen for controlling an indicator displaying a network according to the present embodiment.

Hereinafter, this embodiment will be described in detail with reference to the accompanying drawings.

1 is a block diagram schematically showing a wireless communication system for interworking with heterogeneous networks according to the present embodiment.

The terminal 110 refers to a terminal capable of transmitting and receiving voice and various data via the network 120 according to a user's key operation or command, and includes a tablet PC, a laptop, and a personal computer (PC: Personal Computer), a smart phone, a personal digital assistant (PDA), and a mobile communication terminal. In addition, the terminal 110 may be a cloud computing terminal that supports cloud computing that can read and write data through the network 120 and use services such as network and content use.

The terminal 110 is provided with a memory for storing a program or protocol for communicating with the content providing device 130 or an external terminal via the network 120, a microprocessor for calculating and controlling the execution of the corresponding program, etc. have. The terminal 110 may be provided with a plurality of communication modules to perform voice or data communication through a route network (any one of 122, 124 and 126) within the network 120, and among the route networks 122, 124 and 126 It can communicate with a content server or an external terminal via any one). Here, the content server refers to a server that performs content storage and management for transmitting or receiving data of the terminal 110, and the external terminal is a terminal capable of performing voice communication with the terminal 110 via the network 120. It is preferred.

The terminal 110 according to the present embodiment displays the access network information on the indicator according to the network display setting signal input through the user's manipulation. Here, the process of generating access network information will be described in more detail as follows.

The terminal 110 measures the first signal strength for the first network 122 and the second signal strength for the second network 124 using a predetermined function to generate a measurement signal. Here, the first signal strength is preferably RSCP (Received Signal Code Power) of the 3G network, and the second signal strength is preferably RSRP (Reference Signal Received Power) of the 4G network, but is not limited thereto.

The terminal 110 compares the generated measurement signal with a predetermined reference value and performs communication using a route network (any one of 122, 124, and 126). For example, when the terminal 110 can access the second network 124 performing data communication by comparing the measurement signal with a predetermined reference value, the terminal 110 performs location registration in the second network 124 and accordingly the second access network Information is displayed on the indicator. Here, when the terminal 110 is connected to the second network 124, it is preferable to use CS + PS (Packet Switched) Mode in which the first network 122 and the second network 124 are mixed, but it is limited to this. It does not work.

The terminal 110 first attempts to connect to the second network 124 by comparing the measurement signal with a predetermined reference value, and if it is determined that access to the second network 124 is impossible, the first network performing voice communication ( 122) to perform location registration on the first network and display the first access network information accordingly on the indicator. Here, when the terminal 110 is connected to the first network 122, it is preferable that it is a CS (Circuit Switched) Only Mode, but it is not necessarily limited thereto. On the other hand, the terminal 110 is described as being connected to the first network 122 to use only voice communication, but is not limited thereto, and data communication at a lower speed than that provided by the second network 124 is possible. .

The terminal 110 identifies a system information block (SIB), which is a broadcast message generated in the first network 122 and the second network 124, and uses the identified system information block. To generate a measurement signal.

Here, the system information block is at least one of the minimum level reception sensitivity (Qrxlevmin), the minimum threshold transmission value (ThreshServingLow), the minimum threshold (X) value (ThreshXlow) and the EUTRA minimum level reception sensitivity (QrxlevminEUTRA) specified in the type in the system information block. It contains one or more information. The system information block is information described in the standard (3GPP TS 25.331), and the minimum level reception sensitivity (Qrxlevmin) is included in the system information block type (TYPE) 3, the lowest threshold transmission value (ThreshServingLow), and the lowest threshold (X) value ( ThreshXlow) and EUTRA minimum level reception sensitivity (QrxlevminEUTRA) are described in the system information block type (TYPE) 19.

The terminal 110 compares the generated measurement signal with a predetermined reference value to determine whether it is possible to access the second network 124, and if it is determined that the second network 124 can be accessed, the terminal 110 is currently connected to the second network 124. The location registration is performed by transmitting location information for a cell in which the terminal 110 is located, and data packet communication is performed by being connected to a second network base station around the location registration. Here, the data packet communication refers to the high-speed packet communication of the second network 124, which delivers packets at a higher speed than the communication of the first network 122. Meanwhile, if it is determined that access to the second network 124 is impossible, the location information for the cell where the current terminal 110 is located is transmitted to the first network 122 and connected to the first network 122 for voice communication. Perform. Here, the terminal 110 is described as being connected to the first network 122 to use only voice communication, but is not limited thereto, and data communication at a lower speed than the second network 124 is possible.

The terminal 110 generates access network information according to the connected first network 122 or the second network 124 and displays it on the indicator. For example, an arrow indicating upload and download when connected to the second network 124 and a Long Term Evolution (LTE) are displayed on the indicator, and an arrow indicating upload and download when connected to the second network 124 and 3G. Can be displayed on the indicator.

The network 120 refers to a communication network capable of transmitting and receiving voice and data in various communication protocols, including the first network 122, the second network 124, and the n-th network 126. Here, it is preferable that the first network 122 is a 3G network, the second network 124 is preferably a 4G network, and the n-th network 126 is a Synchronous Network, an Internet network, an intranet network, It may be a network such as a satellite communication network.

The network 120 may include a cloud computing network capable of storing computing resources such as hardware and software in connection with a content server or an external terminal, and providing the computing resource required by the client to the corresponding terminal 110. . Here, cloud computing refers to a computer environment in which information is permanently stored in a server on the Internet, and temporarily stored in a client terminal such as a desktop, tablet computer, laptop, netbook, and smartphone, and cloud computing is used to store all information of users. Refers to a computer environment access network that is stored on a server on the Internet and that information can be used anytime, anywhere through various IT devices.

2 is a block diagram schematically showing a terminal according to the present embodiment.

The terminal 110 according to the present embodiment includes an input receiving unit 210, a communication processing unit 220, a control unit 230, and a display unit 240.

The input receiving unit 210 receives a network display setting signal input through a user's manipulation. Here, the network display setting signal is a signal for setting the environment of the terminal 110 for displaying the network 120, and displays a serviceable area displaying the accessible network 120 using the signal strength of the network 120 The mode is preferable, but is not necessarily limited to this, and may include a network display mode in use to display the currently connected network 120 in use.

The communication processor 220 measures the first signal strength for the first network 122 and the second signal strength for the second network 124 using a predetermined function to generate a measurement signal. Here, the first signal strength is preferably RSCP (Received Signal Code Power) of the 3G network, and the second signal strength is preferably RSRP (Reference Signal Received Power) of the 4G network, but is not limited thereto. Here, the communication processing unit 220 uses a system information block that is a broadcast signal generated in the first network 122 and the second network 124 to generate a measurement signal. The system information block means information described in the standard (3GPP TS 25.331).

The communication processing unit 220 compares the generated measurement signal with a predetermined reference value to determine whether it is possible to connect to the second network 124, and when it is determined that the second network 124 can be accessed, to the second network 124. The location registration is performed by transmitting location information for a cell in which the terminal 110 is currently located, and data packet communication is performed by being connected to a second network base station around the location registration. Here, the data packet communication refers to the high-speed packet communication of the second network 124, which delivers packets at a higher speed than the communication of the first network 122.

On the other hand, if it is determined that the communication processing unit 220 cannot access the second network 124, the first network 122 transmits location information for the cell where the terminal 110 is currently located, and the first network 122 It is connected to and performs voice communication. Here, the communication processing unit 220 is described as being connected to the first network 122 to use only voice communication, but is not limited thereto, and data communication at a lower speed than the second network 124 is also possible.

The control unit 230 generates connection network information corresponding to the connected network 120 based on the network display setting signal received from the input receiving unit 210 and transmits it to the display unit 240.

The controller 230 generates and displays second access network information corresponding to the second network 124 to display the second network 124 when the communication processing unit 220 accesses the second network 124 It transmits to the unit 240. Here, when the second access network information is generated, it is confirmed that the terminal 110 is an area that is pre-connected to the second network 124 or connected to the first network 122 but is close to the second network 124 area. It may be the case.

Meanwhile, when the communication processing unit 220 accesses the first network 122, the control unit 230 generates first access network information corresponding to the first network 122 to display the first network 122. To the display unit 240. Here, when the first access network information is generated, when the terminal 110 is previously connected to the first network 122 or moved from the second network 124 area to an area where only the first network 122 is accessible Can be

The display unit 240 receives the access network information generated by the control unit 230 and displays it on the indicator. Here, the indicator may display at least one of current time, battery level, alarm, signal strength, and network method.

When the second access network information is received from the control unit 230, the display unit 240 may display, for example, an arrow indicating upload and download and a long term evolution (LTE) on the indicator. In addition, when the first access network information is received from the control unit 230, the display unit 240 may display, for example, arrows and 3G indicating upload and download on the indicator.

3 is a block diagram schematically showing a communication processing unit according to the present embodiment.

The communication processing unit 220 included in the terminal 110 according to the present embodiment includes a signal measurement unit 310, a signal determination unit 320, a first network communication unit 330, and a second network communication unit 340. .

The signal measuring unit 310 generates a measurement signal by measuring a first signal strength for the first network 122 and a second signal strength for the second network 124 using a predetermined function. Here, the first signal strength is preferably RSCP (Received Signal Code Power) of the 3G network, and the second signal strength is preferably RSRP (Reference Signal Received Power) of the 4G network, but is not limited thereto.

Meanwhile, the signal measurement unit 330 uses a system information block that is a broadcast signal generated in the first network 122 and the second network 124 to generate a measurement signal. Here, the system information block is at least one of the minimum level reception sensitivity (Qrxlevmin), the minimum threshold transmission value (ThreshServingLow), the minimum threshold (X) value (ThreshXlow) and the EUTRA minimum level reception sensitivity (QrxlevminEUTRA) specified in the type in the system information block. It contains one or more information. The system information block is information described in the standard (3GPP TS 25.331), and the minimum level reception sensitivity (Qrxlevmin) is included in the system information block type (TYPE) 3, the lowest threshold transmission value (ThreshServingLow), and the lowest threshold (X) value ( ThreshXlow) and EUTRA minimum level reception sensitivity (QrxlevminEUTRA) are described in the system information block type (TYPE) 19.

Hereinafter, a process for measuring the first signal strength and the second signal strength included in the measurement signal using the system information block is expressed as follows.

First, the first signal strength (RSCP) measured using the system information block is as shown in Equation 1.

(RSCP: Signal strength in the first network, Qrxlevmin: Minimum level reception sensitivity, ThreshServingLow: Minimum threshold transmission value)

For example, when the minimum level reception sensitivity is -56 dBm and the minimum threshold transmission value is 30 dBm, the first signal strength is -56 dBm because -116 dBm + 60 dBm according to Equation (1).

In addition, the second signal strength (RSRP) measured using the system information block is expressed by Equation 2.

(RSRP: signal strength in the second network, ThreshXlow: lowest threshold (X) value, QrxlevminEUTRA: EUTRA minimum level reception sensitivity)

For example, if the lowest threshold value (X) is 0 dBm and the EUTRA minimum level reception sensitivity is -53 dBm, the second signal strength is -106 dBm because 0 dBm + -106 dBm according to Equation (2).

The signal determination unit 320 compares the measurement signal generated by the signal measurement unit 310 with a predetermined reference value to determine whether it is possible to access the second network 124. Here, it is preferable that the predetermined reference values are reference values for the first signal strength and the second signal strength.

When it is determined that the signal determining unit 320 can access the second network 124, the location of the cell (Cell) in which the current terminal 110 is located in the second network 124 through the second network communication unit 340 Location registration is performed by sending information. On the other hand, if it is determined that the signal determination unit 220 cannot access the second network 124, the location information of the cell where the terminal 110 is currently located in the first network 122 through the first network communication unit 330 is determined. To send.

When the first network communication unit 330 determines that the signal determination unit 320 cannot access the second network 124, it transmits location information for the cell where the terminal 110 is currently located to the first network 122, It is connected to the first network 122 to perform voice communication. Here, the first network communication unit 330 is described as being connected to the first network 122 to use only voice communication, but is not limited thereto, and data communication at a lower speed than the second network 124 is possible.

When the second network communication unit 340 determines that the signal determination unit 320 can access the second network 124, it transmits location information for the cell where the terminal 110 is currently located to the second network 124, It is connected to the second network base station around the location registration to perform data packet communication. Here, the data packet communication refers to the high-speed packet communication of the second network 124, which delivers packets at a higher speed than the communication of the first network 122.

4 is a flowchart illustrating an indicator display method according to interworking with heterogeneous networks according to the present embodiment.

The terminal 110 receives the network display setting signal input through the user's operation (S410). Here, the network display setting signal is a signal for setting the environment of the terminal 110 for displaying the network 120, and displays a serviceable area displaying the accessible network 120 using the signal strength of the network 120 The mode is preferable, but is not limited thereto, and may include a network display mode in use to display the network 120 currently connected and in use.

The terminal 110 generates a measurement signal by measuring the first signal strength and the second signal strength using a predetermined function when the received network display setting signal is in a serviceable area display mode (S412). (S420). The first signal strength is preferably RSCP (Received Signal Code Power) of the 3G network, and the second signal strength is preferably RSRP (Reference Signal Received Power) of the 4G network, but is not limited thereto. Here, the terminal 110 uses a system information block that is a broadcast signal generated in the first network 122 and the second network 124 to generate a measurement signal. The system information block means information described in the standard (3GPP TS 25.331).

Meanwhile, when the received network display setting signal is in use network display mode, the terminal 110 displays the currently used network 120 on the indicator and performs communication (S414).

The terminal 110 determines whether it is possible to access the second network 124 by comparing the measurement signal generated in step S420 with a predetermined reference value (S430). Here, it is preferable that the predetermined reference values are reference values for the first signal strength and the second signal strength.

As a result of checking the step S430, if it is determined that the terminal 110 can access the second network 124, the cell in which the current terminal 110 is located in the second network 124 through the second network communication unit 340 (Cell) ) To perform location registration by transmitting location information, and generate second access network information (S440).

Based on the network display setting signal received in step S410, the second access network information is displayed on the indicator, and data packet communication is performed through the second network 124 (S450). Here, the data packet communication refers to the high-speed packet communication of the second network 124, which delivers packets at a higher speed than the communication of the first network 122. In addition, when the second access network information is displayed on the indicator, the terminal 110 may display an arrow indicating upload and download and a Long Term Evolution (LTE).

On the other hand, as a result of checking the step S430, if it is determined that access to the second network 124 is impossible, the location information for the cell where the terminal 110 is currently located in the first network 122 through the first network communication unit 330 To perform location registration and generate first access network information (S460).

Based on the network display setting signal received in step S410, the first access network information is displayed on the indicator, and voice communication is performed through the first network 122 (S470). Here, the terminal 110 is described as being connected to the first network 122 to use only voice communication, but is not limited thereto, and data communication at a lower speed than the second network 124 is possible. In addition, when the first connection network information is displayed on the indicator, the terminal 110 may display 3G and an arrow indicating upload and download on the indicator.

Although FIG. 4 describes that steps S410 to S470 are sequentially executed, this is merely illustrative of the technical idea of an embodiment of the present invention, and general knowledge in the technical field to which an embodiment of the present invention pertains Those who have it can be applied with various modifications and variations by changing the order described in FIG. 4 or executing one or more of steps S410 to S470 in parallel without departing from the essential characteristics of one embodiment of the present invention. 4 is not limited to a time-series sequence.

5 is an exemplary diagram for showing an indicator displaying a network according to the present embodiment.

5 illustrates an indicator included in the display unit 150 of the terminal 110, and the indicator according to the present embodiment displays at least one of current time, battery level, alarm, signal strength, and network method.

When it is determined that the terminal 110 can connect to the second network 124, the 4G network indication 510 is displayed on the indicator. For example, the 4G network display 510 is preferably implemented with an arrow indicating upload and download and a Long Term Evolution (LTE) display, but is not limited thereto.

Meanwhile, when it is determined that the terminal 110 cannot connect to the second network 124, the 3G network indication 520 is displayed on the indicator. For example, the 3G network display 520 is preferably implemented as an arrow and 3G display indicating upload and download, but is not limited thereto.

6 is an exemplary view for explaining a setting for controlling an indicator for displaying a network according to the present embodiment.

As illustrated in FIG. 6, the terminal 110 is a setting screen for controlling an indicator for a network. For example, the terminal 110 displays a menu called “Network Status Display” at the bottom of the “Wireless and Network Settings” menu. Can be added. Here, the'network status display' includes at least one menu of'display as a service area' and'display as a network in use'. On the other hand, when the user does not separately input the'network status display' menu, the terminal 110 is preferably set to'display as a service area' as default.

In FIG. 6, when the user sets'display as a service area' in the terminal 110, the terminal 110 is previously connected to the second network 124 or connected to the first network 122, but is connected to the second network. If it is determined that the area is close to the (124) area, the 4G network indication 510 is displayed on the indicator, and the terminal 110 is already connected to the first network 122 or the first network in the second network 124 area. If only 122 is moved to an accessible area, the 3G network indication 520 is displayed on the indicator. On the other hand, when the user sets'display as a network in use' in the terminal 110, the terminal 110 displays the network 120 currently in use.

The above description is merely illustrative of the technical idea of the present embodiment, and those skilled in the art to which this embodiment belongs may be capable of various modifications and variations without departing from the essential characteristics of the present embodiment. Therefore, the present embodiments are not intended to limit the technical spirit of the present embodiment, but to explain, and the scope of the technical spirit of the present embodiment is not limited by these embodiments. The protection scope of the present embodiment should be interpreted by the claims below, and all technical spirits within the equivalent range should be interpreted as being included in the scope of the present embodiment.

As described above, the present embodiment is a useful invention that is applied to a field and generates an effect of knowing an optimal network among networks available in a region where a user is currently located.

110: terminal 120: network
122: first network 124: second network
126: n-th network 210: input receiver
220: communication processing unit 230: control unit
240: display unit 310: signal measuring unit
320: signal determining unit 330: first network communication unit
340: second network communication unit

Claims (6)

A network status display condition for setting an indicator, comprising: displaying a setting screen capable of setting either a connectable network mode or a connected network mode;
Receiving a configuration signal for one of the connectable network mode or a connected network mode;
Selecting an accessible network based on the measured signal strength when the network status display condition is set to the accessible network mode, and selecting a connected network when the network status display condition is set to the connected network mode; And
Displaying the connected network or the accessible network on the indicator
Network display method comprising a. delete According to claim 1,
The process of displaying on the indicator,
When the network status display condition is set to the accessible network mode, the network display method characterized in that the network is preferentially connected to the accessible network. According to claim 1,
The process of displaying on the indicator,
When the network status display condition is set to the connected network mode, the network display method, characterized in that for performing communication using the connected network. A computer-readable medium recording a program for executing the network display method according to any one of claims 1, 3, and 4. A network status display condition for setting an indicator, comprising: a display unit that displays a setting screen capable of setting either a connectable network mode or a connected network mode;
A receiver configured to receive a setting signal for one of the connectable network mode or a connected network mode;
A communication processing unit that selects an accessible network based on the measured signal strength when the network status display condition is set to the accessible network mode, and selects a connected network when the network status display condition is set to the connected network mode. ; And
Control unit for displaying the connected network or the accessible network on the indicator
Terminal comprising a.

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