JP2020102691A - Portable terminal, communication control method, communication control program and network system - Google Patents

Abstract

To provide a portable terminal, a communication control method, a communication control program and a network system capable of reducing power consumption.SOLUTION: A portable terminal 2 includes a wireless transceiver 22 performing radiocommunication with a home gateway 1, a communication state comparison section 23 for comparing the communication state in first and second communication bands, respectively, a control section 21 for controlling the wireless transceiver 22 to perform radiocommunication by using a communication band selected on the basis of comparison results by the communication state comparison section 23 out of the first and second communication bands, a battery 25, and a state of charge determination section 26 for determining whether or not the battery 25 is being charged. If the battery 25 is charging, the control section 21 fixes the communication band, to be used for radiocommunication with the radio communication apparatus, to a prescribed one of the first and second communication bands, regardless of the comparison results from the communication state comparison section 23.SELECTED DRAWING: Figure 1

Description

The present invention relates to a mobile terminal, a communication control method, a communication control program and a network system, for example, a mobile terminal, a communication control method, a communication control program and a network system suitable for reducing power consumption.

Due to the spread of network communication terminals (mobile terminals) such as mobile phones, smartphones and tablets, and improvement in communication speed, the number of network communication terminals owned by one person is increasing. It has also been confirmed that the increase in the number of network communication terminals in the home increases the usage rate of radio waves and causes communication failures.

Therefore, in recent years, a dual band connection type communication technique capable of performing communication using a communication band having a good communication state among a plurality of communication bands has been developed. The communication technology of the dual band connection system is disclosed in, for example, Patent Document 1, Patent Document 2, and Patent Document 3.

JP, 2013-051696, A JP, 2011-188122, A JP, 2008-054268, A

However, in the dual-band connection type communication technology, the radio wave condition (communication intensity) of each of the communication bands is frequently checked, and the usage status (congestion status) of each of the communication bands is checked frequently. There is a need. Therefore, the communication technology of the dual band connection method has a problem that the load of the mobile terminal is increased and, as a result, the power consumption is increased.

An object of the present disclosure is to provide a mobile terminal, a communication control method for a mobile terminal, and a communication control program that solve the above problems.

According to one embodiment, a mobile terminal includes a first wireless transmission/reception unit that performs wireless communication with a wireless communication device, a communication state comparison unit that compares communication states in first and second communication bands, and A first control unit that causes the first wireless transmission/reception unit to perform wireless communication using a communication band selected based on a comparison result by the communication state comparison unit among the first and second communication bands; a battery; A charging state determination unit that determines whether or not the battery is being charged, and the first control unit determines the communication state when the charging state determination unit determines that the battery is being charged. Regardless of the comparison result by the comparison unit, the communication band used for wireless communication with the wireless communication device is fixed to a predetermined communication band of the first and second communication bands.

According to one embodiment, a network system includes a wireless communication device and a mobile terminal, and the mobile terminal has a first wireless transmission/reception unit that performs wireless communication with the wireless communication device, and first and second wireless communication units. The communication state comparison unit that compares the communication states in each of the communication bands, and the communication band selected based on the comparison result by the communication state comparison unit of the first and second communication bands, A first control unit that causes a wireless transmission/reception unit to perform wireless communication, a battery, and a charge state determination unit that determines whether or not the battery is being charged, the first control unit including the charge state When the determination unit determines that the battery is being charged, the communication band used for wireless communication with the wireless communication device is set to the first and the second regardless of the comparison result by the communication state comparison unit. The communication band is configured to be fixed to a predetermined communication band.

According to one embodiment, a communication control method using a mobile terminal includes a communication state comparing step of comparing communication states in first and second communication bands, and a relative state comparison between the first and second communication bands. The wireless communication step of wirelessly communicating with the wireless communication device using the communication band determined to have a good communication state, the charging state determination step of determining whether or not the battery is charged, and the battery charging If it is determined that the communication band used for wireless communication with the wireless communication device is a predetermined communication among the first and second communication bands regardless of the comparison result in the communication state comparison step. Fixing the band.

According to one embodiment, the communication control program includes a communication state comparison process for comparing communication states in the first and second communication bands, and a relative communication state in the first and second communication bands. Using the communication band determined to be good, wireless communication processing for wirelessly communicating with the wireless communication device, charge state determination processing for determining whether the battery is being charged, and the battery being charged When it is determined that the communication band used for wireless communication with the wireless communication device is fixed to a predetermined communication band of the first and second communication bands regardless of the comparison result in the communication state comparison processing. And a computer to execute the processing.

According to the one embodiment, it is possible to provide a mobile terminal, a communication control method, a communication control program, and a network system capable of reducing power consumption.

FIG. 3 is a block diagram showing a configuration example of a mobile terminal according to the first embodiment. FIG. 1 is a diagram showing an example of a home network environment constructed by a network system using the mobile terminal according to the first embodiment. FIG. 3 is a block diagram showing a configuration example of the network system shown in FIG. 2. 4 is a flowchart showing a communication control method for a mobile terminal provided in the network system shown in FIG. 3. FIG. 9 is a diagram showing an example of a data table adopted in a first modification of the mobile terminal according to the first embodiment. FIG. 9 is a diagram showing an example of a data table adopted in a second modification of the mobile terminal according to the first embodiment. It is a figure which shows the other example of the home network environment shown in FIG. It is a block diagram showing an example of hardware constitutions of a processor for communication control. FIG. 9 is a block diagram showing a configuration example of a network system according to a second embodiment. FIG. 9 is a block diagram showing a configuration example of a network system according to a third embodiment.

Hereinafter, embodiments will be described with reference to the drawings. Since the drawings are simplified, the technical scope of the embodiments should not be narrowly interpreted based on the description of the drawings. Further, the same elements are denoted by the same reference numerals, and overlapping description will be omitted.

In the following embodiments, when there is a need for convenience, the description will be divided into a plurality of sections or embodiments. However, unless otherwise specified, they are not unrelated to each other, and one of them has a relation of some or all of modifications of the other, application examples, detailed explanations, supplementary explanations and the like. In addition, in the following embodiments, when referring to the number of elements (including the number, numerical value, amount, range, etc.) of the elements, when explicitly stated, and in principle, the number is clearly limited to a specific number, etc. However, the number is not limited to the specific number, and may be equal to or more than the specific number.

Further, in the following embodiments, the constituent elements (including operation steps and the like) are not necessarily essential unless otherwise specified or in principle considered to be essential. Similarly, in the following embodiments, when referring to shapes, positional relationships, etc. of constituent elements, etc., the shapes thereof are substantially the same, unless otherwise specified or in principle not apparently. And the like, etc. are included. This also applies to the above numbers and the like (including the number, numerical values, amounts, ranges, etc.).

<Embodiment 1>
FIG. 1 is a block diagram showing a configuration example of a mobile terminal according to the first exemplary embodiment. The mobile terminal according to the present embodiment can reduce the power consumption by stopping the dual band connection function when the movement of the mobile terminal is limited during battery charging. The details will be described below.

As shown in FIG. 1, the mobile terminal 2 is, for example, a network communication terminal such as a mobile phone, a smartphone, and a tablet, and includes a wireless transmission/reception unit 22, a communication state comparison unit 23, a power connection port 24, and a battery 25. And a charge state determination unit 26. The wireless transmission/reception unit 22 includes a wireless communication unit (5 GHz band wireless communication unit) 221, a wireless communication unit (2.4 GHz band wireless communication unit) 222, and a data transmission/reception unit 223.

The wireless communication unit 221 performs wireless communication with an external wireless communication device by using a communication band of 5 GHz band which is one of communication bands of a wireless LAN (Local Area Network). Here, a case where the wireless communication device is a home gateway (HGW) will be described as an example. The wireless communication unit 222 performs wireless communication with an external wireless communication device using the communication band of 2.4 GHz band which is one of the communication bands of the wireless LAN.

In the present embodiment, a case has been described as an example where the wireless communication units 221 and 222 perform wireless communication using the communication bands of the 5 GHz band and the 2.4 GHz band, but the present invention is not limited to this, and the wireless LAN Wireless communication can be performed using any of the communication bands. For example, wireless communication may be performed using a communication band of 60 GHz band corresponding to the 11ad standard.

When performing wireless communication using the communication band of 5 GHz band, the data transmitting/receiving unit 223 receives data wirelessly transmitted from the home gateway via the wireless communication unit 221, or wirelessly via the wireless communication unit 221. Send data to your home gateway. Further, when performing wireless communication using the 2.4 GHz band communication band, the data transmitting/receiving unit 223 receives data wirelessly transmitted from the home gateway via the wireless communication unit 222, and the wireless communication unit 222. Or wirelessly send data to the home gateway via.

The communication state comparison unit 23 compares the communication states in the communication bands of 5 GHz band and 2.4 GHz band. For example, the communication state comparison unit 23 compares the radio wave states of the communication bands of the 5 GHz band and the 2.5 GHz band, or compares the usage conditions of the communication bands of the 5 GHz band and the 2.5 GHz band. , The information of the communication band in which the communication state is good is output as the comparison result.

The control unit 21 causes the wireless transmission/reception unit 22 to perform wireless communication using the communication band selected based on the comparison result by the communication state comparison unit 23. Specifically, when the comparison result by the communication state comparison unit 23 indicates that the communication state of the 5 GHz band is better than the communication state of the 2.4 GHz band, the control unit 21 specifically determines the wireless communication unit 221 of the 5 GHz band. Wireless communication using. In addition, when the comparison result by the communication state comparing unit 23 indicates that the communication state of the 2.4 GHz band is better than the communication state of the 5 GHz band, the control unit 21 controls the wireless communication unit 222 of the 2.4 GHz band. Use to make wireless communication.

The battery 25 is a power supply source that supplies power to the mobile terminal 2. The power supply connection port 24 is connected to the battery 25 and is configured so that a power supply adapter can be inserted from the outside. The battery 25 is charged by inserting the power adapter connected to the power source into the power connection port 24.

The charge state determination unit 26 determines whether or not the battery 25 is being charged. Here, when the battery 25 is being charged, the movement of the mobile terminal 2 is restricted, and thus the optimum communication band used for wireless communication between the mobile terminal 2 and the home gateway 1 is likely to remain unchanged. ..

Therefore, when the charge state determination unit 26 determines that the battery 25 is being charged, the control unit 21 sets the communication band used for wireless communication before charging regardless of the comparison result of the communication state comparison unit 23. The communication band is fixed to the communication band determined to be good. That is, the dual band connection function is stopped. Thereby, the portable terminal 2 can reduce power consumption.

As described above, the mobile terminal 2 according to the present embodiment can reduce the power consumption by stopping the dual band connection function when the movement of the mobile terminal 2 is limited during battery charging. .. As a result, the deterioration of the battery 25 can be prevented. Further, by stopping the dual band connection function, the load on the network is reduced, so that the communication environment of the home home network can be made more comfortable.

<<Explanation of Network System SYS1>>
Next, the network system SYS1 that employs the mobile terminal 2 will be described.
FIG. 2 is a diagram showing an outline of the network system SYS1.

As shown in FIG. 2, the network system SYS1 constructs an environment of a home network (home network), and includes at least a home gateway 1 and a mobile terminal 2.

The home gateway 1 is one of wireless communication devices, and wirelessly communicates with the mobile terminal 2 under the environment of the home network and can communicate with the external network communication network 4. In the example of FIG. 2, the home gateway 1 is installed on the first floor of the building. For example, when the mobile terminal 2 is located on the first floor of the building like the home gateway 1, wireless communication is performed between the home gateway 1 and the mobile terminal 2 using the communication band of 5 GHz band. On the other hand, when the mobile terminal 2 is located on the second floor of the building unlike the home gateway 1, wireless communication is performed between the home gateway 1 and the mobile terminal 2 using the communication band of 2.4 GHz band.

FIG. 3 is a block diagram showing a configuration example of the network system SYS1.
As shown in FIG. 3, the home gateway 1 includes a control unit 11, a data transmission/reception unit 12, a wireless communication unit (5 GHz band wireless communication unit) 13, a wireless communication unit (2.4 GHz band wireless communication unit) 14. , At least.

The control unit 11 manages the operation of the entire home gateway 1.

The wireless communication unit 13 provided in the home gateway 1 performs wireless communication with the mobile terminal 2 (more specifically, the wireless communication unit 221 of the mobile terminal 2) using the communication band of 5 GHz band. Further, the wireless communication unit 14 provided in the home gateway 1 performs wireless communication with the mobile terminal 2 (more specifically, the wireless communication unit 222 of the mobile terminal 2) using the communication band of 2.4 GHz band.

In the present embodiment, a case has been described as an example where the wireless communication units 13 and 14 perform wireless communication using communication bands of 5 GHz band and 2.4 GHz band, respectively, but the present invention is not limited to this and any wireless LAN can be used. Wireless communication can be performed using the communication band. For example, wireless communication may be performed using a communication band of 60 GHz band corresponding to the 11ad standard.

Further, in the present embodiment, the case where wireless communication is performed using two types of communication bands of 5 GHz band and 2.4 GHz band is described as an example, but the present invention is not limited to this, and three or more types of communication bands are used. May be used for wireless communication.

When performing wireless communication using the communication band of 5 GHz band, the data transmitting/receiving unit 12 provided in the home gateway 1 receives data wirelessly transmitted from the mobile terminal 2 via the wireless communication unit 13, or Data is wirelessly transmitted to the mobile terminal 2 via the communication unit 13. When performing wireless communication using the communication band of 2.4 GHz band, the data transmission/reception unit 12 receives data wirelessly transmitted from the mobile terminal 2 via the wireless communication unit 14, or the wireless communication unit 14 Data is wirelessly transmitted to the mobile terminal 2 via the.

The mobile terminal 2 has the same configuration as that shown in FIG. The communication state comparison unit 23 includes, for example, an RSSI monitoring unit 231, an RSSI comparison unit 232, and an SSID storage unit 233.

The RSSI monitoring unit 231 monitors RSSI (Received Signal Strength Indication) in each communication band of the 5 GHz band and the 2.4 GHz band. The RSSI comparison unit 232 compares the monitoring results by the RSSI monitoring unit 231 and outputs information of the communication band in which the communication state is good among the communication bands of the 5 GHz band and the 2.4 GHz band as the comparison result.

The SSID storage unit 233 stores SSID information of each communication band set in the home gateway 1. The SSID of each communication band may be different or the same.

For example, the control unit 11 of the mobile terminal 2 confirms that the SSID set in the home gateway 1 and the SSID stored in the SSID storage unit 233 match each other, and then the 5 GHz band and the 2 GHz band . Start wireless communication in the communication band of 4 GHz band. That is, the dual band connection function is enabled.

≪Flowchart≫
Subsequently, a communication control method of the mobile terminal 2 will be described with reference to FIG. FIG. 4 is a flowchart showing a communication control method of the mobile terminal 2 provided in the network system SYS1.

First, the mobile terminal 2 starts wireless communication with the home gateway 1 via the wireless LAN (step S101).

After that, the mobile terminal 2 uses the communication state comparison unit 23 to compare the SSID set in the home gateway 1 with the SSID stored in the SSID storage unit 233. That is, the mobile terminal 2 uses the communication state comparison unit 23 to determine whether or not the dual band connection function can be used during wireless communication with the home gateway 1 (step S102).

For example, when the SSID set in the home gateway 1 and the SSID stored in the SSID storage unit 233 match, the dual band connection function can be used (YES in step S102). At this time, the control unit 21 provided in the mobile terminal 2 determines, based on the comparison result by the communication state comparison unit 23, the communication band in which the communication state is relatively good among the communication bands of the 5 GHz band and the 2.4 GHz band. It is selected and set to the communication band used for wireless communication (step S103).

If the SSID set in the home gateway 1 and the SSID stored in the SSID storage unit 233 do not match, the dual band connection function cannot be used (NO in step S102). In this case, the mobile terminal 2 performs wireless communication with the home gateway 1 using only one type of communication band.

When the dual band connection function is enabled and a communication band with a good communication state is selected (YES in step S103), the mobile terminal 2 then uses the charge state determination unit 26 to charge the battery 25. It is determined whether there is any (step S105).

If the communication band with the good communication state is not yet selected (NO in step S103), the search for the communication band with the good communication state is repeated (step S104→step S103).

Here, when the charge state determination unit 26 determines that the battery 25 is being charged (YES in step S105), the movement of the mobile terminal 2 is restricted, so that the mobile terminal 2 and the home gateway 1 are connected to each other. The optimal communication band used for wireless communication is likely to remain unchanged. Therefore, the control unit 21 provided in the mobile terminal 2 fixes the communication band used for wireless communication to the communication band in which the communication state is determined to be good before charging, regardless of the comparison result of the communication state comparison unit 23. Let That is, the dual band connection function is stopped (step S106). Thereby, the portable terminal 2 can reduce power consumption.

The stop of the dual band connection function continues until the charging of the battery 25 is canceled by removing the power adapter 3 from the power connection port 24 (NO in step S107→step S106).

After that, when the charging of the battery 25 is canceled by removing the power adapter 3 from the power connection port 24 (YES in step S107), the mobile terminal 2 enables the dual band connection function again (step S108).

If the charge state determination unit 26 determines that the battery 25 is not being charged (NO in step S105), the movement of the mobile terminal 2 is not restricted, and therefore the wireless communication between the mobile terminal 2 and the home gateway 1 is performed. The optimum communication band used for communication is likely to change. Therefore, the mobile terminal 2 does not stop the dual band connection function.

As described above, the mobile terminal 2 according to the present embodiment and the network system SYS1 including the mobile terminal 2 stop the dual band connection function when the movement of the mobile terminal 2 is restricted during battery charging, Power consumption can be reduced. As a result, the deterioration of the battery 25 can be prevented. Further, by stopping the dual band connection function, the load on the network is reduced, so that the communication environment of the home home network can be made more comfortable.

<<First Modification of Mobile Terminal 2>>
Next, a mobile terminal 2a that is a first modification of the mobile terminal 2 will be described.

In the mobile terminal 2a, the communication state comparison unit 23 compares the communication states in the 5 GHz band and the 2.4 GHz band with a frequency according to the communication strength (RSSI or the like) of the 5 GHz band and the 2.4 GHz band.

FIG. 5 is a diagram showing an example of a data table referred to by the communication state comparison unit 23 provided in the mobile terminal 2a. As illustrated in FIG. 5, the communication state comparison unit 23 shortens the comparison result update interval (increased the frequency of comparison) as the communication strength decreases, and lengthens the comparison result update interval as the communication strength increases. (Reduce the frequency of comparison).

As a result, when the communication strength is high, the portable terminal 2a can reduce the frequency of communication state comparison, and thus can reduce power consumption.

<<Second Modification of Mobile Terminal 2>>
Next, a mobile terminal 2b, which is a second modification of the mobile terminal 2, will be described.

In the mobile terminal 2b, the communication state comparison unit 23 compares the communication states in the 5 GHz band and the 2.4 GHz band with a frequency according to the difference in the communication strengths (RSSI, etc.) of the 5 GHz band and the 2.4 GHz band. To do.

FIG. 6 is a diagram showing an example of a data table referred to by the communication state comparison unit 23 provided in the mobile terminal 2b. As illustrated in FIG. 6, the communication state comparison unit 23 determines that the communication band being selected is unstable as the difference in communication strength is small, and the update interval of the comparison result is short (the comparison frequency is high). To do. Further, the communication state comparison unit 23 determines that the communication band being selected is more stable as the communication strength difference is larger, and lengthens the update interval of the comparison result (reduces the comparison frequency).

Thereby, the portable terminal 2b can reduce the frequency of comparison of communication states when the difference in communication strength is large, and thus can reduce power consumption.

The home network environment constructed by the network system SYS1 is not limited to the network environment shown in FIG. 2, and may be the network environment shown in FIG. 7, for example. Specifically, in the example of FIG. 7, the access point 5 is installed in a place in the building where the radio waves of the wireless LAN are hard to reach (in this example, the second floor of the building).

Here, even when wireless communication is performed between the access point 5 and the mobile terminal 2, as in the case where wireless communication is performed between the home gateway 1 and the mobile terminal 2, dual charging is performed during charging of the battery 25. By stopping the band connection function, an increase in power consumption is suppressed.

(Hardware Configuration of Communication Control Processor 30)
The communication control processor 30 used in the mobile terminal 2 can be realized by a general-purpose computer system, for example. Hereinafter, a brief description will be given with reference to FIG.

FIG. 8 is a block diagram showing an example of the hardware configuration of the communication control processor 30. The computer 100 includes, for example, a CPU (Central Processing Unit) 101 that is a control device, a RAM (Random Access Memory) 102, and a ROM (Read Only Memory) 103. The computer 100 further includes an IF (Inter Face) 104 that is an interface with the outside and an HDD (Hard Disk Drive) 105 that is an example of a nonvolatile storage device. Further, the computer 100 may include an input device such as a keyboard and a mouse, or a display device such as a display, as a configuration not shown.

The HDD 105 stores an OS (Operating System) (not shown) and a communication control processing program 106. The communication control processing program 106 is a computer program in which the communication control processing according to the present embodiment is installed.

The CPU 101 controls various processes in the computer 100, access to the RAM 102, the ROM 103, the IF 104, the HDD 105, and the like. In the computer 100, the CPU 101 reads and executes the OS and the communication control processing program 106 stored in the HDD 105. As a result, the computer 100 realizes the communication control processor 30 according to the present embodiment.

<Second Embodiment>
FIG. 9 is a block diagram showing a configuration example of the network system SYS2 according to the second embodiment. As shown in FIG. 9, the network system SYS2 includes a home gateway 1b instead of the home gateway 1 as compared with the case of the network system SYS1.

The home gateway 1b further includes a charging information acquisition unit 15 as compared with the case of the home gateway 1. The other configuration of the home gateway 1b is the same as that of the home gateway 1 and thus the description thereof is omitted.

In the home gateway 1b, the charging information acquisition unit 15 acquires the determination result of the charging state determination unit 26 provided in the mobile terminal 2 by wireless communication. Here, when the determination result acquired by the charge information acquisition unit 15 indicates that the battery 25 provided in the mobile terminal 2 is being charged, the control unit 11 sets the dual band connection function for the mobile terminal 2. Tell to stop. As a result, the mobile terminal 2 stops the dual band connection function while fixing the communication band used for wireless communication to the communication band in which the communication state is determined to be good before charging.

Thus, in the network system SYS2 according to the present embodiment, the mobile terminal 2 can stop the dual band connection function not only by the determination result of the state of charge determination unit 26 but also by the notification from the home gateway 1b. it can. Thereby, the portable terminal 2 can reduce power consumption. As a result, the deterioration of the battery 25 can be prevented.

<Third Embodiment>
FIG. 10 is a block diagram showing a configuration example of the network system SYS3 according to the third embodiment. As shown in FIG. 10, the network system SYS3 includes a home gateway 1c instead of the home gateway 1 and a mobile terminal 2c instead of the mobile terminal 2 as compared with the case of the network system SYS1.

The home gateway 1c includes one or more small wireless communication units 16 as compared with the case of the home gateway 1. For example, the small wireless communication unit 16 is arranged in each room in the building. The mobile terminal 2c further includes a small wireless communication unit 27 and a management table 28 as compared with the case of the mobile terminal 2.

The management table 28 stores information on the communication band corresponding to the extra-small wireless communication unit 16 arranged in each room. The small wireless communication unit 27 determines whether the mobile terminal 2c is within the communication range of any one of the small wireless communication units 27.

Here, when the small-sized wireless communication unit 16 determines that the mobile terminal 2c is within the communication range of the small-sized wireless communication unit 27, the control unit 21 corresponds to the small-sized wireless communication unit 27. The information of the communication band (5 GHz band or 2.4 GHz band) to be used is read from the management table 28. Then, the control unit 21 fixes the communication band used for wireless communication to the communication band read from the management table 28 (that is, stops the dual band connection function) regardless of the comparison result by the communication state comparison unit 23. Let me). Thereby, the mobile terminal 2c can further reduce power consumption.

For example, it is assumed that the extra small wireless communication unit 27 is arranged in the living room in the building together with the home gateway 1c. In this living room, since there are few obstacles, wireless communication is preferable using the communication band of 5 GHz band. Therefore, the management table 28 provided in the mobile terminal 2 stores information on the communication band of the 5 GHz band for the extra small wireless communication unit 27 arranged in the living room. Therefore, in the living room, the mobile terminal 2c performs wireless communication with the home gateway 1c while being fixed in the communication band of 5 GHz band (that is, in a state where the dual band connection function is stopped).

It should be noted that the wireless LAN and the extra small wireless are also being cooperated with home electric appliances. It has been confirmed that the communication band in the 2.4 GHz band is affected by communication noise due to the use of a microwave oven. Therefore, the dual band connection function may be added with a function of switching the connection to a communication band other than the 2.4 GHz band when, for example, a household electric appliance that is a noise source is used.

As described above, the mobile terminal and the network system including the mobile terminal according to the first to third embodiments stop the dual band connection function when the movement of the mobile terminal is restricted during battery charging. The power consumption can be reduced. As a result, the deterioration of the battery can be prevented. Further, by stopping the dual band connection function, the load on the network is reduced, so that the communication environment of the home home network can be made more comfortable.

The whole or part of the exemplary embodiments disclosed above can be described as, but not limited to, the following supplementary notes.

(Appendix 1)
A first wireless transmission/reception unit that performs wireless communication with a wireless communication device;
A communication state comparison unit that compares the communication states in each of the first and second communication bands,
A first control unit that causes the first wireless transmission/reception unit to perform wireless communication using a communication band selected based on a comparison result by the communication state comparison unit among the first and second communication bands;
A battery,
A charge state determination unit that determines whether or not the battery is being charged,
Equipped with
When the charge state determination unit determines that the battery is being charged, the first control unit is used for wireless communication with the wireless communication device regardless of the comparison result by the communication state comparison unit. A mobile terminal configured to fix a band to a predetermined communication band of the first and second communication bands.

(Appendix 2)
The predetermined communication band is a communication band of the first and second communication bands which is determined to have a relatively good communication state by the communication state comparison unit before charging of the battery is started. is there,
The mobile terminal according to Appendix 1.

(Appendix 3)
The communication state comparison unit is configured to compare communication states in each of the first and second communication bands at a frequency according to the communication strength of each of the first and second communication bands. ,
The mobile terminal according to appendix 1 or 2.

(Appendix 4)
The communication state comparison unit is configured to compare communication states in each of the first and second communication bands at a frequency according to a difference in communication intensity between each of the first and second communication bands. ing,
The mobile terminal according to appendix 1 or 2.

(Appendix 5)
A wireless communication device,
A mobile terminal,
The mobile terminal is
A first wireless transceiver for performing wireless communication with the wireless communication device;
A communication state comparison unit that compares the communication states in each of the first and second communication bands,
A first control unit that causes the first wireless transmission/reception unit to perform wireless communication using a communication band selected based on a comparison result by the communication state comparison unit among the first and second communication bands;
A battery,
A charge state determination unit that determines whether or not the battery is being charged,
Have
When the charge state determination unit determines that the battery is being charged, the first control unit performs communication used for wireless communication with the wireless communication device regardless of the comparison result by the communication state comparison unit. A band is configured to be fixed to a predetermined communication band of the first and second communication bands.
Network system.

(Appendix 6)
The wireless communication device,
A second wireless communication unit that performs wireless communication with the mobile terminal;
A charging information acquisition unit that acquires the determination result by the charging state determination unit provided in the mobile terminal by wireless communication,
When the determination result acquired by the charging information acquisition unit indicates that the battery provided in the mobile terminal is being charged, the mobile terminal performs communication using the predetermined communication band. A second controller that notifies the second wireless communication unit;
Has,
The network system according to attachment 5.

(Appendix 7)
The predetermined communication band is a communication band in which the communication state is determined to be relatively good by the communication state comparison unit before the charging of the battery is started, among the first and second communication bands.
The network system according to attachment 5 or 6.

(Appendix 8)
The communication state comparison unit is configured to compare communication states in each of the first and second communication bands at a frequency according to the communication strength of each of the first and second communication bands. ,
8. The network system according to any one of appendices 5 to 7.

(Appendix 9)
The communication state comparison unit is configured to compare communication states in each of the first and second communication bands at a frequency according to a difference in communication intensity between each of the first and second communication bands. ing,
8. The network system according to any one of appendices 5 to 7.

(Appendix 10)
The mobile terminal is
Further comprising a first special small communication unit,
The wireless communication device,
The second small communication unit is further provided,
The first feature communication unit is configured to determine whether the mobile terminal is within the communication range of the second feature communication unit,
When the first control unit determines that the mobile terminal is within the communication range of the second feature communication unit, the first control unit compares the result of the communication state comparison unit. Regardless, the communication band used for wireless communication with the wireless communication device is configured to be fixed to the communication band designated by the second small communication unit of the first and second communication bands. ing,
The network system according to any one of appendices 5 to 9.

(Appendix 11)
A communication state comparison step of comparing communication states in each of the first and second communication bands,
A wireless communication step of wirelessly communicating with a wireless communication device using a communication band of which the communication state is determined to be relatively good among the first and second communication bands;
A charge state determination step of determining whether or not the battery is being charged,
When it is determined that the battery is being charged, the communication band used for wireless communication with the wireless communication device is set to the first and second communication bands regardless of the comparison result in the communication state comparison step. Of which, a step of fixing to a predetermined communication band,
A communication control method using a mobile terminal, comprising:

(Appendix 12)
The predetermined communication band is a communication band of the first and second communication bands which is determined to have a relatively good communication state in the communication state comparison step before charging of the battery is started. ,
A communication control method using a mobile terminal according to appendix 11.

(Appendix 13)
In the communication state comparing step, the communication states in each of the first and second communication bands are compared at a frequency according to the communication strength of each of the first and second communication bands.
The communication control method by the mobile terminal according to appendix 11 or 12.

(Appendix 14)
In the communication state comparison step, the communication states in each of the first and second communication bands are compared at a frequency according to a difference in communication strength between each of the first and second communication bands.
The communication control method by the mobile terminal according to appendix 11 or 12.

(Appendix 15)
Communication state comparison processing for comparing the communication states in each of the first and second communication bands,
Wireless communication processing for wirelessly communicating with a wireless communication device using a communication band in which the communication state is determined to be relatively good among the first and second communication bands,
A charge state determination process for determining whether or not the battery is being charged,
When it is determined that the battery is being charged, the communication band used for wireless communication with the wireless communication device is set to the one of the first and second communication bands regardless of the comparison result in the communication state comparison process. Of which, the process of fixing to a predetermined communication band,
A communication control program that causes a computer to execute.

(Appendix 16)
The predetermined communication band is a communication band of the first and second communication bands in which the communication state is determined to be relatively good in the communication state comparison process before charging of the battery is started. ,
The communication control program according to attachment 15.

(Appendix 17)
In the communication state comparison process, the communication states in each of the first and second communication bands are compared at a frequency according to the communication strength of each of the first and second communication bands.
The communication control program according to attachment 15 or 16.

(Appendix 18)
In the communication state comparison process, the communication states in each of the first and second communication bands are compared at a frequency according to the difference in communication intensity between the first and second communication bands.
The communication control program according to attachment 15 or 16.

1 Home Gateway 1b Home Gateway 1c Home Gateway 2 Mobile Terminal 2a Mobile Terminal 2b Mobile Terminal 2c Mobile Terminal 3 Power Adapter 4 External Network Communication Network 5 Access Point 11 Control Unit 12 Data Transmission/Reception Unit 13 Wireless Communication Unit 14 Wireless Communication Unit 15 Wireless Charging Information Acquisition unit 16 Special small wireless communication unit 21 Control unit 22 Wireless transmission/reception unit 23 Communication state comparison unit 24 Power connection port 25 Battery 26 Charging state determination unit 27 Special small wireless communication unit 28 Management table 30 Communication control processor 100 Computer 101 CPU
102 RAM
103 ROM
104 IF
105 HDD
106 communication control processing program 221 wireless communication unit 222 wireless communication unit 223 data transmission/reception unit 231 RSSI monitoring unit 232 RSSI comparison unit 233 SSID storage unit SYS1 network system SYS2 network system SYS3 network system

Claims (10)

A first wireless transmission/reception unit that performs wireless communication with a wireless communication device;
A communication state comparison unit that compares the communication states in each of the first and second communication bands,
A first control unit that causes the first wireless transmission/reception unit to perform wireless communication using a communication band selected based on a comparison result by the communication state comparison unit among the first and second communication bands;
A battery,
A charge state determination unit that determines whether or not the battery is being charged,
Equipped with
When the charge state determination unit determines that the battery is being charged, the first control unit performs communication used for wireless communication with the wireless communication device regardless of the comparison result by the communication state comparison unit. A mobile terminal configured to fix a band to a predetermined communication band of the first and second communication bands. The predetermined communication band is a communication band of the first and second communication bands which is determined to have a relatively good communication state by the communication state comparison unit before charging of the battery is started. is there,
The mobile terminal according to claim 1. The communication state comparison unit is configured to compare communication states in each of the first and second communication bands at a frequency according to the communication strength of each of the first and second communication bands. ,
The mobile terminal according to claim 1 or 2. The communication state comparison unit is configured to compare communication states in each of the first and second communication bands at a frequency according to a difference in communication intensity between each of the first and second communication bands. ing,
The mobile terminal according to claim 1 or 2. A wireless communication device,
A mobile terminal,
The mobile terminal is
A first wireless transceiver for performing wireless communication with the wireless communication device;
A communication state comparison unit that compares the communication states in each of the first and second communication bands,
A first control unit that causes the first wireless transmission/reception unit to perform wireless communication using a communication band selected based on a comparison result by the communication state comparison unit among the first and second communication bands;
A battery,
A charge state determination unit that determines whether or not the battery is being charged,
Have
When the charge state determination unit determines that the battery is being charged, the first control unit performs communication used for wireless communication with the wireless communication device regardless of the comparison result by the communication state comparison unit. A band is configured to be fixed to a predetermined communication band of the first and second communication bands.
Network system. The wireless communication device,
A second wireless communication unit that performs wireless communication with the mobile terminal;
A charging information acquisition unit that acquires the determination result by the charging state determination unit provided in the mobile terminal by wireless communication,
When the determination result acquired by the charging information acquisition unit indicates that the battery provided in the mobile terminal is being charged, the mobile terminal performs communication using the predetermined communication band. A second controller that notifies the second wireless communication unit;
Has,
The network system according to claim 5. The predetermined communication band is a communication band in which the communication state is determined to be relatively good by the communication state comparison unit before the charging of the battery is started, among the first and second communication bands.
The network system according to claim 5. The mobile terminal is
Further comprising a first special small communication unit,
The wireless communication device,
The second small communication unit is further provided,
The first feature communication unit is configured to determine whether the mobile terminal is within the communication range of the second feature communication unit,
When the first control unit determines that the mobile terminal is within the communication range of the second feature communication unit, the first control unit compares the result of the communication state comparison unit. Regardless, the communication band used for wireless communication with the wireless communication device is configured to be fixed to the communication band designated by the second small communication unit of the first and second communication bands. ing,
The network system according to claim 5. A communication state comparison step of comparing communication states in each of the first and second communication bands,
A wireless communication step of wirelessly communicating with a wireless communication device using a communication band of which the communication state is determined to be relatively good among the first and second communication bands;
A charge state determination step of determining whether or not the battery is being charged,
When it is determined that the battery is being charged, the communication band used for wireless communication with the wireless communication device is set to the first and second communication bands regardless of the comparison result in the communication state comparison step. Of which, a step of fixing to a predetermined communication band,
A communication control method using a mobile terminal, comprising: Communication state comparison processing for comparing the communication states in each of the first and second communication bands,
Wireless communication processing for wirelessly communicating with a wireless communication device using a communication band in which the communication state is determined to be relatively good among the first and second communication bands,
A charge state determination process for determining whether or not the battery is being charged,
When it is determined that the battery is being charged, the communication band used for wireless communication with the wireless communication device is set to the one of the first and second communication bands regardless of the comparison result in the communication state comparison process. Of which, the process of fixing to a predetermined communication band,
A communication control program that causes a computer to execute.

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