JP2004297623A - Wireless device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To automatically change the setting corresponding to the area in accordance with the area. <P>SOLUTION: A receiver 46 executes demodulation processing to the received signals. A measurement part 54 measures respective reception power values to the received control signals. An acquisition part 56 detects the maximum reception power value from among the reception power values measured with the measurement part 54 and it acquires the base station ID corresponding to the detected reception power value. A storage unit 58 stores the base station ID acquired when a prescribed setting is executed. A confirmation part 60 confirms the coincidence of the base station ID stored in the storage unit 58 and the base station ID acquired by the acquisition part 56 when receiving the incoming calls. When it is coincident with each other, the setting stored in the storage unit 58 is outputted to an interface part 50. A signal processor 48 executes the processing to the signals demodulated with the receiver 46. A transmission part 44 executes modulation processing to the signals. The interface part 50 is provided with interface functions with a user. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to wireless devices. In particular, the present invention relates to a wireless device that performs different settings according to a position where an incoming call is received from a base station device.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, a terminal device of a simplified cellular phone system communicates with a partner via a predetermined public base station device outdoors and communicates with a partner indoors using a self-maintained base station device as a base unit. Normally, a terminal device automatically recognizes which service area it is in based on data such as an ID included in a control signal from a public base station device, and constantly informs the system of the service area.
[0003]
Normally, the user sets the volume of the ringtone low when using the terminal outdoors, and sets the volume of the ringtone high when indoors because the user often keeps the terminal away from the body. are doing. Further, the user often sets the volume of the received sound to be large because the ambient noise is large outdoors, and the user often sets the volume of the received sound small because the noise is often indoors. Usually, such settings are made manually by the user. Further, a control signal is received from the public base station apparatus or the private base station apparatus, and the connection to the public base station apparatus or the private base station apparatus is recognized based on the ID included in the control signal, and the connection is established. In some cases, settings such as ringtones are automatically changed according to the type of base station device (for example, see Patent Document 1).
[0004]
[Patent Document 1]
JP-A-9-64945 [0005]
[Problems to be solved by the invention]
Even when connecting to a public base station apparatus, there is a case where it is desired to change, for example, the volume of a ringtone according to the area of the public base station apparatus. For example, even in the area of a single public base station device, it is sometimes desirable to turn off the ringtone in theaters, movie theaters and public transportation, and to increase the volume of the ringtone as much as possible at construction sites. When different settings are made according to the area of the public base station apparatus, the detection accuracy of the area of the public base station apparatus is required. In addition, if the settable area is small, the number of times set by the user increases, which is inconvenient for use. Further, it is desirable that the setting procedure be simpler.
[0006]
The present inventor has recognized the above situation and made the present invention. It is an object of the present invention to provide a wireless device capable of automatically changing settings according to an area where a public base station device is installed. It is. It is another object of the present invention to provide a wireless device capable of highly accurately estimating an area where a public base station device is installed and changing a setting according to the estimation result. Another object of the present invention is to provide a wireless device in which settings according to an area where a public base station device is installed are simplified.
[0007]
[Means for Solving the Problems]
One embodiment of the present invention is a wireless device. The apparatus includes a receiving unit that receives signals including identification information of a base station device from a plurality of communicable base station devices, and a base station device based on a signal having a large power value among the plurality of received signals. An identification information acquisition unit for acquiring identification information, a setting reception unit for receiving the setting of the incoming call notification, a storage unit for storing the acquired identification information of the base station device and the setting of the incoming call notification in association with each other, and a predetermined base station device From the plurality of communicable base station apparatuses at that time, re-acquires the identification information of the base station apparatus included in the signal having a large power value, and obtains the re-acquired base station apparatus. If the identification information matches the stored identification information of the base station apparatus, a processing unit for setting an incoming call notification is included.
[0008]
The “signal having a large power value” includes a case where the signal is selected by relative comparison or a case where the signal is selected by comparing with a predetermined threshold value, and the number thereof is not limited to one.
With the above-described device, since the coincidence of the identification information of the base station devices is determined based on the magnitude of the received power value, the area identification accuracy can be improved.
[0009]
Another embodiment of the present invention also relates to a wireless device. This apparatus receives a signal including identification information of a base station device from a plurality of communicable base station devices, and acquires identification information of a plurality of base station devices from a plurality of received signals, respectively. An identification information acquiring unit, a setting accepting unit that accepts the setting of the incoming call notification, a storage unit that stores the acquired identification information of the plurality of base station devices and the setting of the incoming call notification in association with each other, and an incoming call from a predetermined base station device. In this case, the identification information of the plurality of base station devices included in the signals received from the plurality of base station devices capable of communication at that time is reacquired, and any one of the identification information of the reacquired base station devices is used. However, if any of the stored identification information of the plurality of base station devices matches, a processing unit for setting the incoming call notification is included.
[0010]
With the above-described device, it is determined whether any one of the identification information of the base station device matches when setting and when receiving a call, so that the incoming call notification of the setting can be used in an area wider than the set area. .
[0011]
Yet another embodiment of the present invention also relates to a wireless device. This device is configured to receive a signal including identification information higher than the identification information of the base station device from a plurality of communicable base station devices, and a plurality of base station devices from a plurality of received signals. An identification information acquisition unit that acquires higher-order identification information than the identification information, a setting reception unit that receives the setting of the incoming call notification, a storage unit that stores the acquired higher-order identification information and the setting of the incoming call notification in association with each other, When the call is received from the base station device, the higher order identification information included in the signals received from the plurality of base station devices that can communicate at that time is reacquired, and the reacquired upper order identification information and the stored upper order identification are stored. If the information matches, a processing unit for setting the incoming call notification is included.
[0012]
The “higher identification information” does not need to be separate from the identification information of the base station device, and may be included in a part of the identification information of the base station device.
With the above-described device, the identification information of the base station device is determined based on the matching of the higher-order identification information, so that the setting can be used in an area wider than the set area.
It is to be noted that any combination of the above-described components and any conversion of the expression of the present invention between a method, an apparatus, a system, a recording medium, a computer program, and the like are also effective as embodiments of the present invention.
[0013]
BEST MODE FOR CARRYING OUT THE INVENTION
(Embodiment 1)
Embodiment 1 relates to a wireless device in which ring tone and the like corresponding to a predetermined base station device are set, and a process set for an incoming call from the base station device is performed. In particular, it targets a simplified mobile phone system. Since the area that can be connected to a predetermined base station device has a radius of about 100 m or more even in a simplified mobile phone system, the location identification accuracy can be improved based only on the base station ID of the base station device that has received a call. Not accurate. In particular, if there is an area that can be set by changing the incoming call volume, such as a theater and a station, among the areas that can be connected to one base station device, the above setting is not sufficient.
[0014]
The wireless device according to the present embodiment, when setting, searches for a connectable base station device from the position to be set, and for the base station device with the highest received power from among the searched base station devices, a predetermined Make settings. Further, when there is an incoming call from a predetermined base station apparatus, a connectable base station apparatus is searched from that position, and the base station apparatus having the largest received power is specified from the searched base station apparatuses. When the specified base station apparatus and the base station apparatus to be set match, processing for the setting is executed.
[0015]
FIG. 1 shows a simplified mobile phone system 100 according to the first embodiment. FIG. 1 includes a first base station device 10a, a second base station device 10b, a third base station device 10c, a fourth base station device 10d, and a terminal device 12, which are collectively referred to as a base station device 10.
The base station devices 10 are connected to a public line (not shown), and transmit the base station ID of each base station device 10 in a control signal. Further, it is assumed that the environment of the area of each base station device 10 is different, for example, the first base station device 10a is installed in a theater and the fourth base station device 10d is installed in a station.
[0016]
The terminal device 12 can be connected to four base station devices 10, but connects to any one of the base station devices 10 when communicating.
FIG. 2 shows a configuration of the base station device 10. The base station device 10 includes a base station antenna 14, an RF unit 16, a transmitting unit 18, a receiving unit 20, a control unit 22, a signal processing unit 24, a network interface unit 26, and a storage unit 28.
[0017]
The RF unit 16 performs a frequency conversion process between a baseband signal and a radio frequency signal, an amplification process, an AD or DA conversion process, and the like. Also, the base station antenna 14 is connected.
The receiving unit 20 demodulates the received signal. Here, since the simplified mobile phone system 100 is assumed, generally, a delay detection process is performed on a received signal modulated by a modulation scheme π / 4 shift QPSK (Quadrature Phase Shift Keying).
[0018]
The signal processing unit 24 performs processing on the signal demodulated by the receiving unit 20.
The network interface unit 26 has an interface function with the public line 30 and executes conversion of a communication protocol and the like.
The transmission unit 18 performs a modulation process on the signal. At this time, the control signal including the base station ID stored in the storage unit 28 is also subjected to modulation processing.
The control unit 22 executes timing control of the base station device 10 and the like.
[0019]
This configuration can be realized in hardware by a CPU, a memory, or other LSI of any computer, and is realized in software by a program having a reservation management function loaded into a memory. The functional blocks realized by their cooperation are drawn. Therefore, it is understood by those skilled in the art that these functional blocks can be realized in various forms by hardware only, software only, or a combination thereof.
[0020]
FIG. 3 shows a configuration of the terminal device 12. The terminal device 12 includes a terminal antenna 40, an RF unit 42, a transmission unit 44, a reception unit 46, a signal processing unit 48, an interface unit 50, a control unit 52, a measurement unit 54, an acquisition unit 56, and a storage unit 58. The processing unit 48 includes a confirmation unit 60, and the interface unit 50 includes a speaker unit 62, a microphone unit 64, an LCD unit 66, and a key operation unit 68.
[0021]
The RF unit 42 performs a frequency conversion process between a baseband signal and a radio frequency signal, an amplification process, an AD or DA conversion process, and the like. Also, the terminal antenna 40 is connected.
The receiving unit 46 demodulates the received signal. Here, since the simplified cellular phone system 100 is assumed, a delay detection process is generally performed on the received signal modulated by the modulation scheme π / 4 shift QPSK.
[0022]
The measurement unit 54 measures the respective received power values of the base station device 10 that has received the control signal. The method of measuring the received power value may be any method, for example, RSSI may be used. The measurement of the received power value is performed when a predetermined setting such as a ring tone is performed and when a process based on the predetermined setting is performed when a call is received.
The acquiring unit 56 detects the maximum received power value from the received power values measured by the measuring unit 54, and acquires a base station ID corresponding to the detected received power value.
[0023]
The storage unit 58 stores the base station ID obtained at the time of performing the predetermined setting. FIG. 4 shows the setting contents stored in the storage unit 58. The ringtone corresponding to the acquired base station ID, the volume of the ringtone, and ON / OFF of the vibration function are set. Here, the setting for the base station ID corresponding to the maximum received power value is stored, but in addition to this, the base station ID when the predetermined setting is performed by the acquisition unit 56 is changed to the received power value that is large. You may sort them in order and store all those base station IDs. Note that the storage unit 58 may be provided inside the terminal device 12.
[0024]
The confirmation unit 60 confirms a match between the base station ID stored in the storage unit 58 and the base station ID acquired by the acquisition unit 56 when a call is received. If they match, the setting stored in the storage unit 58 is output to the interface unit 50 described later. When the storage unit 58 stores the base station IDs sorted in descending order of the received power value, the base station IDs sorted in descending order of the received power value are acquired from the acquiring unit 56 at the time of the incoming call, When the order of the base station IDs of the two matches, the setting stored in the storage unit 58 may be output to the interface unit 50 described later.
[0025]
The signal processing unit 48 performs a process on the signal demodulated by the receiving unit 46.
The transmission unit 44 performs a modulation process on the signal.
The interface unit 50 has an interface function with the user. For example, the speaker unit 62 changes the type and volume of the ring tone and outputs the changed settings to the settings stored in the storage unit 58, and the LCD unit 66 displays the display contents. Is changed and displayed. In addition, a microphone unit 64 and a key operation unit 68 are provided for input.
The control unit 52 executes timing control of the terminal device 12 and the like.
[0026]
FIG. 5 shows a setting screen on the LCD unit 66. Here, the type of ring tone, volume, and ON / OFF of the vibration function are set. Other setting items may be used.
[0027]
FIG. 6 is a flowchart showing the setting procedure. When there is a base station device 10 whose base station ID is unknown among the signals received by the receiving unit 46 (Y in S10), the measuring unit 54 acquires the received power value and the corresponding base station ID (S12). . When all connectable base station IDs have been acquired (N in S10), the acquiring unit 56 selects a base station ID corresponding to the maximum received power value (S14). The user inputs predetermined settings via the key operation unit 68 (S16). The storage unit 58 stores the predetermined setting and the selected base station ID in association with each other (S18).
[0028]
FIG. 7 is a flowchart showing processing according to the settings. The receiving unit 46 confirms an incoming call from the base station (S20). The measurement unit 54 acquires the base station ID and the received power value of the base station device 10 with which communication is possible (S22). The acquisition unit 56 selects the base station ID corresponding to the maximum received power value, and the confirmation unit 60 confirms whether the base station ID is stored in the storage unit 58. If the base station ID is stored (S24). (Y), the interface unit 50 executes the corresponding setting (S26). On the other hand, when the base station ID is not stored in the storage unit 58 (N in S24), the predetermined setting is executed (S28).
[0029]
The operation of the terminal device 12 having the above configuration will be described. When performing the predetermined setting, the measuring unit 54 measures the received power value of the connectable base station device 10, and the acquiring unit 56 acquires the base station ID corresponding to the maximum received power value. The storage unit 58 stores the setting input from the interface unit 50 and the base station ID acquired by the acquisition unit 56 in association with each other. When there is an incoming call from the base station device 10, the measuring unit 54 measures the received power value of the connectable base station device 10, and the acquiring unit 56 acquires the base station ID corresponding to the maximum received power value. . When the acquired base station ID and the base station ID stored in the storage unit 58 match, the confirmation unit 60 causes the interface unit 50 to execute the processing stored in the storage unit 58.
[0030]
The operation of the terminal device 12 having the above configuration may be as follows. When performing the predetermined setting, the measuring unit 54 measures the received power value of the connectable base station device 10, the acquiring unit 56 sorts the received power values in descending order, and acquires the corresponding base station IDs. I do. The storage unit 58 stores the setting input from the interface unit 50 and the base station ID acquired by the acquisition unit 56 in association with each other. When there is an incoming call from the base station device 10, the measuring unit 54 measures the received power value of the connectable base station device 10, and the acquiring unit 56 sorts the received power values in descending order, and Acquire station IDs. When the order of the acquired base station IDs matches the order of the base station IDs stored in the storage unit 58, the confirmation unit 60 causes the interface unit 50 to execute the processing stored in the storage unit 58.
[0031]
According to the present embodiment, since the matching between the base station ID when setting and the base station ID when receiving an incoming call is determined based on the received power value, the area of the area considering the distance from the base station apparatus is considered. Identification becomes possible, and as a result, the area identification accuracy is improved.
[0032]
(Embodiment 2)
The second embodiment relates to a radio apparatus in which a ring tone or the like corresponding to a predetermined base station apparatus is set similarly to the first embodiment, and a process set for an incoming call from the base station apparatus is performed. The first embodiment makes the specification of the area of the base station apparatus more accurate, but the second embodiment corresponds to a case where the set processing is executed in an area larger than the set area. When making a setting, the wireless device according to the present embodiment searches for a connectable base station device from the position to be set, and performs a predetermined setting corresponding to the searched base station device. Further, when there is an incoming call from a predetermined base station device, a connectable base station device is searched from the position, and if any of the searched base station device and the base station device to be set match, Execute the processing for the setting.
[0033]
The simplified mobile phone system 100 according to the second embodiment is effective as shown in FIG. 1, and the base station device 10 is effective as shown in FIG.
FIG. 8 is a diagram showing a configuration of the terminal device 12 according to Embodiment 2. Compared to the terminal device 12 of FIG. 3, the measurement unit 54 and the confirmation unit 60 are not provided, and a determination unit 70 is added instead.
[0034]
The acquisition unit 56 acquires a base station ID corresponding to the signal received by the reception unit 46. The acquisition of the base station ID is performed when a predetermined setting is made and when a call is received. The storage unit 58 stores the base station ID acquired when performing a predetermined setting. FIG. 9 shows the setting contents stored in the storage unit 58. The ringtone corresponding to the acquired plurality of base station IDs, the volume of the ringtone, and ON / OFF of the vibration function are set.
[0035]
The determination unit 70 determines whether any one of the base station IDs obtained by the obtaining unit 56 when receiving a call matches any one of the base station IDs stored in the storage unit 58. If they match, the interface unit 50 is instructed to execute the processing stored in the storage unit 58.
[0036]
FIG. 6 is effective as a flowchart showing the setting procedure in the second embodiment. However, in step 12, the measurement of the received power value becomes unnecessary, and the processing in step 14 becomes unnecessary. As a result, in step 18, the storage unit 58 stores all the acquired base station IDs.
[0037]
FIG. 10 is a flowchart showing processing according to the settings. The receiving unit 46 confirms an incoming call from the base station (S30). The acquisition unit 56 acquires the base station ID of the base station device 10 with which communication is possible (S32). The determination unit 70 confirms whether any of the acquired base station IDs is stored in the storage unit 58, and if it is stored (Y in S34), the interface unit 50 executes the corresponding setting (Y in S34). S36). On the other hand, when the base station ID is not stored in the storage unit 58 (N in S34), the predetermined setting is executed (S38).
[0038]
The operation of the terminal device 12 having the above configuration will be described. When performing a predetermined setting, the acquisition unit 56 acquires a base station ID corresponding to the connectable base station device 10. The storage unit 58 stores the setting input from the interface unit 50 and the base station ID acquired by the acquisition unit 56 in association with each other. When there is an incoming call from the base station device 10, the acquiring unit 56 acquires a base station ID corresponding to the connectable base station device 10. When any one of the acquired base station ID and the base station ID stored in the storage unit 58 matches, the determination unit 70 causes the interface unit 50 to execute the processing stored in the storage unit 58.
[0039]
According to the present embodiment, the match between the base station ID when setting and the base station ID when receiving a call is determined based on one of the base station IDs. The setting can be used in an area wider than the area of, and as a result, the convenience of the setting is improved.
[0040]
(Embodiment 3)
The third embodiment relates to a radio apparatus in which a ring tone or the like corresponding to a predetermined base station apparatus is set similarly to the above-described embodiments, and a process set for an incoming call from the base station apparatus is executed. In the present embodiment, the base station device transmits, in addition to the base station ID, identification information of an area corresponding to a higher concept. When setting, the wireless device acquires area identification information of a connectable base station device from a position to be set, and performs a predetermined setting for the acquired area identification information. Further, when there is an incoming call from a predetermined base station device, the identification information of the area is acquired again, and when the identification information of the acquired area matches the identification information of the area to be set, the processing corresponding to the setting is performed. Execute.
[0041]
FIG. 11 shows the concept of a simplified mobile phone system 100 according to the third embodiment. FIG. 11 includes a fifth base station device 10e, a sixth base station device 10f, a seventh base station device 10g, and an eighth base station device 10h in addition to FIG. Here, an area ID is set in each base station device 10 in addition to the base station ID. For example, as illustrated, an area ID 1 is set from the first base station device 10a to the fourth base station device 10d, and an area ID 2 is set from the fifth base station device 10e to the eighth base station device 10h. Further, each base station device 10 transmits the control signal including the area ID in addition to the base station ID.
[0042]
The one shown in FIG. 2 as base station apparatus 10 and the one shown in FIG. 8 as terminal apparatus 12 in Embodiment 3 are effective. However, the storage unit 28 in the base station device 10 in FIG. 2 stores the area ID in addition to the base station ID, and the obtaining unit 56 in the terminal device 12 in FIG. 8 obtains the area ID.
[0043]
FIG. 12 shows the stored setting contents. A ringtone corresponding to the acquired area ID, the volume of the ringtone, and ON / OFF of the vibration function are set.
FIG. 6 is effective as a flowchart showing the setting procedure in the third embodiment. However, it is assumed that the processing for the base station ID is changed to the processing for the area ID, and the measurement of the received power value is not performed.
[0044]
A flowchart shown in FIG. 10 is effective as a flowchart showing a process according to the setting in the third embodiment. However, it is assumed that the processing for the base station ID is changed to the processing for the area ID.
[0045]
The operation of the terminal device 12 having the above configuration will be described. When performing the predetermined setting, the acquisition unit 56 acquires the area ID corresponding to the connectable base station device 10. The storage unit 58 stores the setting input from the interface unit 50 and the area ID acquired by the acquisition unit 56 in association with each other. When there is an incoming call from the base station device 10, the obtaining unit 56 obtains an area ID corresponding to the connectable base station device 10. When the acquired area ID matches the area ID stored in the storage unit 58, the determination unit 70 causes the interface unit 50 to execute the processing stored in the storage unit 58.
[0046]
According to the present embodiment, since the match between the base station ID when setting and the base station ID when receiving a call is determined by the area ID corresponding to the higher-order identification information, the area of the set base station device is determined. The setting can be used in a wide area, and as a result, the convenience of the setting is improved.
[0047]
The present invention has been described based on the embodiments. This embodiment is an exemplification, and it is understood by those skilled in the art that various modifications can be made to the combination of each component and each processing process, and that such modifications are also within the scope of the present invention. is there.
[0048]
In the first to third embodiments, the simplified mobile phone system 100 is targeted. However, the present invention may be applied to other mobile phone systems, for example, a mobile phone system and a third-generation mobile phone system. According to this modification, the present invention can be applied to various wireless communication systems. That is, it is sufficient that the identification information of the base station device 10 is transmitted from the base station device 10.
[0049]
In Embodiment 1, the confirmation unit 60 confirms that the order of the base station IDs stored in the storage unit 58 matches the order of the base station IDs newly acquired by the acquisition unit 56. However, the present invention is not limited to this. For example, the matching may be confirmed only in the order of the two base station IDs or the three base station IDs in descending order of the received power value. According to the present modification, the processing is simplified and the base station apparatus having a small received power value is not affected by the base station apparatus. That is, it is only necessary that the position can be specified in more detail.
[0050]
【The invention's effect】
ADVANTAGE OF THE INVENTION According to this invention, a setting can be changed automatically according to the area where the public base station apparatus is installed.
[Brief description of the drawings]
FIG. 1 is a configuration diagram showing a simplified mobile phone system according to a first embodiment.
FIG. 2 is a diagram illustrating a configuration of a base station apparatus of FIG. 1;
FIG. 3 is a diagram illustrating a configuration of a terminal device of FIG. 1;
FIG. 4 is a diagram illustrating setting contents stored in a storage unit of FIG. 3;
FIG. 5 is a diagram showing a setting screen of FIG. 3;
FIG. 6 is a flowchart showing a setting procedure of FIG. 3;
FIG. 7 is a flowchart showing a process according to the settings of FIG. 3;
FIG. 8 is a diagram showing a configuration of a terminal device according to Embodiment 2.
FIG. 9 is a diagram showing setting contents stored in a storage unit in FIG. 8;
FIG. 10 is a flowchart showing a process according to the settings of FIG. 8;
FIG. 11 is a diagram showing a concept of a simplified mobile phone system according to a third embodiment.
FIG. 12 is a diagram showing setting contents stored in FIG. 11;
[Explanation of symbols]
Reference Signs List 10 base station device, 12 terminal device, 14 base station antenna, 16 RF unit, 18 transmitting unit, 20 receiving unit, 22 control unit, 24 signal processing unit, 26 network interface unit, 28 storage unit, 30 public line, 40 Terminal antenna, 42 RF unit, 44 transmission unit, 46 reception unit, 48 signal processing unit, 50 interface unit, 52 control unit, 54 measurement unit, 56 acquisition unit, 58 storage unit, 60 confirmation unit, 62 speaker unit, 64 Microphone section, 66 LCD section, 68 key operation section, 70
Judgment unit, 100 Simple mobile phone system.

Claims (3)

From a plurality of communicable base station devices, a receiving unit that receives a signal including identification information of the base station device,
From a signal having a large power value among the plurality of received signals, an identification information acquisition unit that acquires identification information of a base station device,
A setting receiving unit for receiving the setting of the incoming call notification;
A storage unit that stores the acquired identification information of the base station device and the setting of the incoming call notification in association with each other,
When a call is received from a predetermined base station device, of the signals received from a plurality of communicable base station devices at that time, the identification information of the base station device included in the signal having a large power value is reacquired, and If the acquired identification information of the base station device and the stored identification information of the base station device match, a processing unit that performs the setting of the incoming call notification,
A wireless device comprising: From a plurality of communicable base station devices, a receiving unit that receives a signal including identification information of the base station device,
From a plurality of the received signals, an identification information acquisition unit that acquires identification information of a plurality of base station devices,
A setting receiving unit for receiving the setting of the incoming call notification;
A storage unit that stores the acquired identification information of the plurality of base station devices and the settings of the incoming call notification in association with each other,
When a call is received from a predetermined base station device, the identification information of the plurality of base station devices included in the signals received from the plurality of communicable base station devices at that time is reacquired, and the reacquired plurality of base stations are acquired. If any of the identification information of the station device matches any of the stored identification information of the plurality of base station devices, a processing unit that executes the setting of the incoming call notification,
A wireless device comprising: From a plurality of communicable base station devices, a receiving unit that receives a signal containing identification information higher than the identification information of the base station device,
From a plurality of the received signals, an identification information acquisition unit for respectively acquiring identification information higher than the identification information of the plurality of base station devices,
A setting receiving unit for receiving the setting of the incoming call notification;
A storage unit that stores the acquired higher-level identification information and the setting of the incoming call notification in association with each other,
When an incoming call is received from a predetermined base station device, the higher order identification information included in the signals received from the plurality of base station devices that can communicate at that time is reacquired, and the reacquired upper order identification information and the stored information are stored. A processing unit configured to perform the setting of the incoming call notification if the upper-level identification information matches;
A wireless device comprising:

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