JP4224359B2 - Mobile station - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a technique for notifying a callee of information related to a state of quality degradation when the quality of voice communication using a mobile station is degraded.
[0002]
[Prior art]
The radio propagation quality between the mobile station and the base station is constantly changing due to fading and the like accompanying the movement of the mobile station. If the radio propagation quality deteriorates below a certain level, such as when the mobile station moves out of the service area of the network or moves to a place where radio waves are difficult to reach, such as behind the building, the mobile station Since it is determined that the communication should not be continued, the process proceeds to a call line disconnection process.
[0003]
[Problems to be solved by the invention]
When the line disconnection process is performed due to such quality deterioration, the communication line is suddenly disconnected without any explanation or reason being notified to the other party. For this reason, the call partner cannot grasp why the call line is suddenly disconnected. Moreover, in the current call system, it is natural that no call can be made after the call line is disconnected. Therefore, there are not a few cases where even a relatively short message that can be transmitted if a telephone line is connected even in a short time is not transmitted to the other party. Although there has already been proposed as a technique for notifying the other party of the reason for disconnection of the telephone line (see Patent Document 1), this technique cannot satisfy the above-mentioned demand.
[0004]
[Patent Document 1]
JP-A-8-130501
[0005]
The present invention has been made under such a background, and it is an object of the present invention to solve various problems that may occur due to a decrease in quality of voice communication using a mobile station.
[0006]
[Means for Solving the Problems]
  In order to solve the above-described problem, the present invention provides a voice communication unit that performs voice communication wirelessly via a telephone line established with an external communication device, and the communication device.Wirelessly through a communication line established betweenData communication means for performing data communication, determination means for determining the quality of voice communication by the voice communication means, and notifying the communication device that the call line has been disconnected due to deterioration of the voice communication quality Storage means for storing notification data forWhen the quality of the voice communication determined by the determining means is less than the first limit value indicating the degree of deterioration of the quality of the voice communication, the communication line of the data communication means is established, and the communication line is established In this state, when the quality of the voice communication judged by the judging means becomes less than the second limit value indicating that the degree of deterioration is larger than the first limit value, the voice communication means disconnects the communication line. Then, the notification data stored in the storage unit is read, and the read notification data is transmitted to the communication device via the established communication line using the data communication unit, while the communication unit When the quality of the voice communication determined by the determining means is equal to or higher than the first limit value with the line established, the established communication line is disconnected.A mobile station provided with a control means is provided.
  Further, the present invention provides voice communication means for performing voice communication wirelessly via a communication line established with an external communication device, and data communication wirelessly via a communication line established with the communication device. When the communication line is disconnected due to the fact that the data communication means that performs the determination, the determination means that determines the quality of the voice communication by the voice communication means, and the determination means determines that the quality of the voice communication has deteriorated, Recording means for recording the user's voice in a certain period from the disconnection point, and when the quality of the voice communication determined by the determination means is less than a first limit value indicating the degree of deterioration of the quality of the voice communication, Establishing a communication line by the data communication means, and in a state where the communication line is established, the quality of the voice communication determined by the determination means is higher than the first limit value. A voice indicating the user's voice recorded by the recording means during a certain period from the time of disconnection when the voice communication means is disconnected when the voice signal is less than the second limit value indicating that the degree of conversion is large While transmitting data to the communication device via the established communication line using the data communication means, the quality of voice communication determined by the determination means in a state where the communication line is established However, when the value exceeds the first limit value, the mobile station is provided with a control means for disconnecting the established communication line.
  The certain period from the disconnection time may be a period in which the quality of data communication by the data communication means is maintained at a certain level.
[0016]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the drawings.
A: Configuration
Hereinafter, a mobile communication system using a mobile station according to an embodiment of the present invention will be described. In the drawings, common parts are denoted by the same reference numerals.
(1) Overall system configuration
FIG. 1 is a block diagram showing an overall configuration of a mobile communication system according to the IMT-2000 (International Mobile Telecommunication-2000) system. As shown in FIG. 1, the mobile communication system includes mobile stations MS1 and MS2, base stations BS1 and BS2, switching stations MLS1 and MLS2, a packet communication service control station M-SCP, and an ATM (Asynchronous Transfer Mode). A network NW is provided. The ATM network NW is connected to various networks such as a fixed telephone network, the Internet, and other mobile communication networks via a gateway exchange or gateway device (not shown). In FIG. 1, only two mobile stations, base stations, and switching stations are shown in order to avoid the drawing from becoming complicated, but there are actually many more. Further, since the mobile stations MS1 and MS2 have a common configuration and operation, the mobile stations MS1 and MS2 are hereinafter referred to as the mobile station MS unless otherwise specifically described. The bases BS1 and BS2 and the exchanges MLS1 and MLS2 are also referred to as a base station BS and an exchange MLS for the same reason.
[0017]
Each base station BS performs radio communication with a mobile station MS residing in a radio cell formed by itself. The switching center MLS accommodates a plurality of base stations BS and is mutually connected to other switching stations MLS, and performs circuit switching processing and packet switching processing within the ATM network NW.
[0018]
Each mobile station MS receives a voice communication service and a packet communication service realized by the mobile communication system by performing wireless communication with the base station BS. Here, the voice communication service is a circuit switching method between users of a plurality of mobile stations MS or users of the mobile station MS and users of other communication devices (for example, a fixed telephone connected to a fixed telephone network). This is a service for making phone calls. The packet communication service is a packet exchange between the mobile station MS and another communication device (for example, another mobile station MS, a fixed telephone, a server device connected to a network such as an ATM network NW or the Internet). This is a service for performing data communication in a system. This packet communication service is provided only to the mobile station MS registered as being in packet communication in the packet communication service control station M-SCP. In addition, each mobile station MS uses two types of radio channels, a voice communication radio channel and a packet communication radio channel, which are allocated by a CDMA (Code Division Multiple Access) method, thereby enabling voice communication services and A process for receiving both packet communication services simultaneously (a process generally called multi-access or multi-call) is possible.
[0019]
It is known that the communication quality in the radio section of the mobile station MS and the base station BS varies greatly due to the influence of fading caused by the movement of the mobile station MS and the like. FIG. 2 shows the relationship between the level of electric field strength (hereinafter referred to as reception field strength) when the mobile station MS receives a radio wave transmitted from the base station BS and the level of voice communication quality and packet communication quality. It is a schematic diagram. In the mobile station MS, the communication quality rapidly deteriorates when the received electric field intensity is less than a certain value (hereinafter, this value is referred to as a limit value). Therefore, when it is detected that the received electric field strength remains below a limit value for a certain period or longer during communication, the mobile station MS determines that communication is impossible and shifts to a radio channel release process. This limit value is set differently for voice communication for voice communication and packet communication for data communication. From the limit value in voice communication (voice communication limit value V1 shown in FIG. 2), the limit value in packet communication is set. The limit value (packet communication limit value V2 shown in FIG. 2) is smaller. This is because, in a call, a real-time property that does not make the user feel uncomfortable is required, and therefore, a data propagation delay is not allowed so much. This is because a data propagation delay of 2 is acceptable. Therefore, in the mobile station MS, there is a state in which packet communication is possible even when voice communication is not possible (that is, a state between the voice communication limit value V1 and the packet communication limit value V2 in FIG. 2).
[0020]
In the present embodiment, paying attention to the fact that there is a state in which packet communication is possible even when voice communication as described above is impossible, the mobile station MS performs the following processing.
First, when voice communication quality deteriorates and a radio channel for voice communication is likely to be released, the mobile station MS establishes a radio channel for packet communication, and information related to the decline in communication quality (here Then, “information that the call line is likely to be disconnected” is notified to the telephone of the call destination by packet communication. Here, the state in which the radio channel for voice communication is likely to be released is a state in which the received electric field strength is relatively low (below the received electric field strength value V3 in FIG. A weak electric field state). The received electric field strength value V3 is a value empirically obtained, and is hereinafter referred to as a weak electric field limit value V3.
[0021]
Then, when the received electric field strength further decreases and becomes less than the voice communication limit value V1, and the radio channel for voice communication is released, the mobile station MS uses the already established radio channel for packet communication, The telephone of the call destination is notified by packet communication that the call line has been disconnected due to a decrease in received electric field strength.
[0022]
Further, the mobile station MS records the user's voice only for a certain period (for example, 5 seconds) after the voice communication radio channel is released, and transmits the voice data indicating the recorded voice to the packet communication radio channel. Use to send to the destination phone. Then, when receiving the voice data transmitted from the mobile station MS, the destination telephone outputs the voice data from the speaker. As a result, the user of the telephone at the other end of the call can hear the voice of the other party immediately after disconnecting the call line, and can avoid to some extent a situation in which an important message or the like is missed. On the other hand, since it is known that the user of the mobile station MS that is the call source can hear the voice indicating what he / she spoke immediately after disconnecting the call line, forget to say immediately after the call line is disconnected Speaking the message quickly is enough.
[0023]
(2) Configuration of mobile station
Next, the configuration of the mobile station MS will be described with reference to the block diagram of FIG.
The communication unit 11 includes an antenna and a communication control circuit, and performs wireless communication with the base station BS under the control of the CPU 12. More specifically, the communication control circuit generates a transmission signal by diffusing voice data at the time of voice communication or data at the time of packet communication with a spreading code under the control of the CPU 12, and this transmission signal is transmitted to the antenna. Via the base station BS. In contrast, when the communication control circuit receives a radio signal transmitted from the base station BS via the antenna, the communication control circuit despreads this signal with a spreading code, thereby performing a voice communication addressed to itself. Voice data, packet data during packet communication, and the like are obtained. In addition, the communication control circuit can establish a wireless channel for packet communication while being connected to the wireless channel for voice communication under the control of the CPU 12, and thereby perform both voice communication and packet communication. It has become. In addition, the communication control circuit has a function of detecting the received electric field strength when the radio signal transmitted from the base station BS is received via the antenna. The detected received electric field strength is transmitted via the bus 20. Are supplied to the CPU 12.
[0024]
A ROM (Read Only Memory) 13 stores a telephone number assigned to the mobile device MS and various control programs for controlling the mobile device MS. This control program includes a notification program 13a in which a procedure for a CPU (Central Processing Unit) 12 to execute processing to be described later based on the received electric field strength is described. In addition to the voice communication limit value V1, the packet communication limit value V2, and the weak electric field limit value V3, the notification program 13a notifies the other party of the call that there is a high possibility that the call line will be disconnected. In addition, state notification data for disconnecting, and disconnection reason notification data for notifying the callee that the communication line has been disconnected due to a decrease in received electric field strength are also described. Hereinafter, these state notification data and disconnection reason notification data are collectively referred to as “notification data”.
[0025]
The call unit 18 connected to the communication unit 11 includes a microphone, a speaker, and a voice CODEC, which enables a user of the mobile station MS to make a call. Further, as described above, the mobile station MS has a function of recording the user's voice immediately after the voice radio channel is released, but the microphone and the voice CODEC of the call unit 18 execute this recording process. Used for Specifically, an analog signal corresponding to the sound collected by the microphone is converted into a digital signal by the sound CODEC, and the converted digital signal is supplied to the RAM 14 via the bus 20 and stored in the RAM 14. It has become. At this time, the CPU 12 uses the timer 19 in order to determine whether or not a certain period determined as a period for recording sound has elapsed.
[0026]
The display unit 16 includes a liquid crystal display panel and a panel drive circuit that drives the liquid crystal display panel, and displays an image represented by data supplied from the CPU 12. The operation unit 17 includes various operation elements such as a plurality of operation keys and a joystick, and supplies a signal corresponding to an operation by the user to the CPU 12 via the bus 20. The CPU 12 executes processing according to the signal supplied from the operation unit 17.
[0027]
B: Operation
Next, the operation of the CPU 12 of the mobile station MS will be described with reference to FIGS. In the following, when the user of the mobile station MS1 located in the radio cell of the base station BS1 and the user of the mobile station MS2 located in the radio cell of the base station BS2 are talking, the reception at the mobile station MS1 A case where the electric field strength is reduced will be described as an example.
[0028]
4 and 5 are diagrams showing a main routine described in the notification program 13a stored in the ROM 13 of the mobile station MS. This main routine is executed by both the CPU 12 of the mobile station MS1 and the CPU 12 of the mobile station MS2 when voice communication is started between the mobile station MS1 and the mobile station MS2. Since it is assumed that the received electric field strength at the station MS1 is reduced, the following description will be made assuming that the CPU 12 of the mobile station MS1 executes.
[0029]
In FIG. 4, the CPU 12 of the mobile station MS1 determines whether or not the received electric field strength value detected by the communication control circuit of the communication unit 11 is equal to or higher than the weak electric field limit value V3 stored in the ROM 13 in advance ( Step S1).
[0030]
Here, when the received electric field strength value becomes less than the weak electric field limit value V3 (step S1; No), the CPU 12 transmits a packet communication registration request via the communication unit 11. After this packet communication registration request is received by the base station BS1, it is further transmitted through the ATM network NW by a plurality of switching stations MLS, and is received by the packet communication service control station M-SCP. When the packet communication service control station M-SCP receives this packet communication registration request, after registering that the mobile station MS1 is in packet communication, the packet communication service control station M-SCP transmits a registration completion notification to the mobile station MS1, and the mobile station MS1 Receive this. Through such processing, the mobile station MS1 establishes a wireless channel for packet communication, and thereafter, the mobile station MS1 becomes ready for packet communication via the ATM network NW (step S2).
[0031]
When packet communication is possible, the CPU 12 of the mobile station MS1 reads the status notification data from the ROM 13 (step S3), divides the read status notification data into packets, and communicates each packet with the mobile station MS2 as a destination. It transmits via the part 11 (step S4).
[0032]
After this status notification data is received by the base station BS1, it is transmitted through the ATM network NW by the plurality of switching stations MLS and delivered to the switching station MLS2 that accommodates the base station BS2. When this switching center MLS2 calls the mobile station MS2 that is the destination of the status notification data via the base station BS2, the CPU 12 of the mobile station MS2 responds to this call and, similarly to the above procedure performed by the mobile station MS1. A wireless channel for packet communication is established by transmitting a packet communication registration request. When the wireless channel for packet communication is established, the switching center MLS2 transmits status notification data to the mobile station MS2 via the base station BS2, and the communication unit 11 of the mobile station MS2 receives this. Next, the CPU 12 of the mobile station MS2 interprets the state notification data received by the communication unit 11, and sends a voice message notifying that the call line is likely to be disconnected due to a decrease in received electric field strength. The voice is exchanged with the MS 1 and is output from the speaker of the call unit 18 in a superimposed manner. As a result, the user of the mobile station MS2 knows before the disconnection that the communication line with the mobile station MS1 may be disconnected.
[0033]
Now, after the CPU 12 of the mobile station MS1 transmits the state notification data in step S4, the received electric field strength value detected by the communication control circuit is (a) the weak electric field limit value V3 stored in the ROM 13, or It is determined whether (b) less than the weak electric field limit value V3 and the voice communication limit value V1 or more, or (c) less than the voice communication limit value V1 (step S5).
[0034]
Here, when it is determined that the voice communication limit value V1 is greater than or equal to the weak electric field limit value V3 (step S5; (b)), the CPU 12 does not change the communication quality due to the influence of the received electric field strength. This determination process is repeated again.
[0035]
If it is determined that the received electric field strength value is greater than or equal to the weak electric field limit value V3 (step S5; (a)), the CPU 12 determines that the voice communication quality has returned to a good state, and is established in step S2. After performing the process of releasing the wireless channel for packet communication (step S6), the process returns to step S1 again and the above-described process is performed again. Specifically, the radio channel release processing is performed as follows. The CPU 12 of the mobile station MS1 transmits a packet communication registration cancellation request via the communication unit 11. This packet communication deregistration request is received by the base station BS1, and then transmitted through the ATM network NW by a plurality of switching stations MLS and received by the packet communication service control station M-SCP. When the packet communication service control station M-SCP receives the packet communication registration cancellation request, the packet communication service control station M-SCP transmits a cancellation completion notification to the mobile station MS1 after canceling the registration that the mobile station MS1 is performing packet communication. MS1 receives this. Through such processing, the mobile station MS1 enters a state in which the radio channel for packet communication is released.
[0036]
On the other hand, when it is determined that the received electric field strength value is less than the voice communication limit value V1 (step S5; (c)), the CPU 12 determines that the call cannot be continued, and the exchange MLS1 is used for voice communication. A radio channel release request is transmitted (step S7). This release request is received by the base station BS1 and then transferred to the exchange MLS1. Then, the exchange MLS1 performs a process of disconnecting the communication line established between the mobile station MS1 and the mobile station MS2.
[0037]
When the telephone line is disconnected, the CPU 12 of the mobile station MS1 starts a subroutine for recording the user's voice according to the procedure described in the notification program 13a (step S8 in FIG. 5). That is, as shown in FIG. 6, the CPU 12 sequentially stores the sound data representing the sound collected by the microphone of the call unit 18 in the RAM 14 (step S21), for example, predetermined 5 seconds. When the recording period elapses (step S22; Yes), the CPU 12 ends the voice recording process.
[0038]
In FIG. 5, after starting the subroutine for recording processing in step S8, the CPU 12 reads the disconnection reason notification data from the ROM 13 (step S9), divides the read disconnection reason notification data into packets, The mobile station MS2 is transmitted to the destination via the communication unit 11 (step S10).
[0039]
The disconnection reason notification data is received by the base station BS1, then transmitted through the ATM network NW by the plurality of switching stations MLS, and received by the base station BS2. The base station BS2 transmits disconnection reason notification data to the mobile station MS2 using the wireless channel for packet communication already established with the mobile station MS2, and the communication unit 11 of the mobile station MS2 receives this. . The CPU 12 of the mobile station MS2 interprets the disconnect reason notification data received by the communication unit 11, and outputs from the speaker of the call unit 18 a voice message notifying that the call line has been disconnected due to a decrease in received electric field strength. . As a result, the user of the mobile station MS2 knows that the communication line with the mobile station MS1 has been disconnected because of a further decrease in received electric field strength, that is, a deterioration in communication quality.
[0040]
Next, the CPU 12 of the mobile station MS1 determines whether or not the subroutine for the recording process shown in FIG. 6 has been completed (step S11). If the subroutine is completed (step S11; Yes), the CPU 12 determines whether the received electric field strength value supplied from the communication control circuit of the communication unit 11 is equal to or greater than the packet communication limit value V2 stored in the ROM 13. It is determined whether or not (step S12).
[0041]
Here, when the received electric field strength value is equal to or greater than the packet communication limit value V2 (step S12; Yes), the CPU 12 determines that the packet communication is possible, reads the voice data stored in the RAM 14 (step S13), and reads it. The voice data is divided into packets, which are transmitted through the communication unit 11 with the mobile station MS1 as the destination (step S14).
[0042]
After the voice data is received by the base station BS1, the voice data is transmitted through the ATM network NW by the plurality of switching stations MLS and received by the base station BS2. The base station BS2 transmits voice data to the mobile station MS2 using the wireless channel for packet communication already established with the mobile station MS2, and the communication unit 11 of the mobile station MS2 receives this. The CPU 12 of the mobile station MS2 interprets the received voice data and outputs the voice of the user of the mobile station MS1 from the speaker of the call unit 18. Thereby, the user of the mobile station MS2 can know the contents spoken by the user of the mobile station MS1 during a certain period immediately after disconnection of the telephone line.
[0043]
After transmitting the voice data in step S14, the CPU 12 of the mobile station MS1 releases the wireless channel for packet communication in the same procedure as in step S7, and the process ends (step S15).
When it is determined in step S12 that the received electric field strength is less than the packet communication limit value V2 (step S12; No), the CPU 12 displays on the display unit 16 that the recorded voice data cannot be transmitted. After that (step S16), the wireless channel for packet communication is released and the process ends.
[0044]
As described above, according to the present embodiment, it is possible to notify a callee user that a call line is likely to be disconnected due to a decrease in received electric field strength (ie, a decrease in voice communication quality). Become. In addition, when the call line is disconnected due to a further decrease in received electric field strength (ie, deterioration of voice communication quality), it is possible to notify the user of the call destination to that effect. In addition, the user at the call destination can know the contents spoken by the user at the call source during a certain period immediately after the call line is disconnected.
[0045]
C: Modification
In addition, this invention is not limited to embodiment mentioned above, The following various changes are possible.
(1) Modification 1
In the above-described embodiment, the notification data is described as audio data. However, the notification data is not limited to this, and may be data that can be displayed on the telephone of the other party, such as text data or image data. It may be a combination of data and displayable data. Further, it may be code information indicating the type of notification data (that is, status notification data or disconnection reason notification data). In this case, the telephone of the other party who has received this code information may output a message corresponding to the received code information in voice or text. The notification data is not limited to the data stored in advance in the ROM 13 of the mobile station MS, but may be data downloaded via the ATM network NW. If the notification data is voice data, the mobile station The voice of the MS user may be recorded. In these cases, the notification data is stored in an EEPROM (Electrically Erasable and Programmable Read Only Memory) 15 of the mobile station MS, and the CPU 12 reads the notification data from the EEPROM 15 and transmits it to the telephone of the other party. Become.
[0046]
(2) Modification 2
In the embodiment, the recording process after the release of the radio channel for voice communication is performed only for a predetermined period. However, the present invention is not limited to this. For example, the recording process may be continued while the packet communication quality is above a certain level and the packet communication is sufficiently possible. Further, the recording process stop time may be determined based on the user's operation. For example, after the wireless channel for voice communication is released, the user may inevitably speak a message that he / she wants to convey to the other party, and when the message is over, the user may perform an operation to end the recording process.
[0047]
(3) Modification 3
In the embodiment, since the mobile station MS capable of so-called multi-access is used, packet communication is performed while performing voice communication when there is a high possibility that a radio channel for voice communication is released due to a decrease in received electric field strength. It is possible to transmit the status notification data to the telephone of the other party.
However, the process after the release of the radio channel for voice communication, that is, the disconnection reason notification data transmission process and the user voice transmission process can be executed even if it is not a multi-access mobile station MS. Therefore, in an invention that includes these processing contents in the technical scope, a mobile station that simultaneously performs a call and data communication is not an essential configuration.
[0048]
(4) Modification 4
The mobile station MS is not limited to the IMT-2000 system exemplified in the embodiment, but for example, a PDC (Personal Digital Cellular) system, a GSM (Global System for Mobile Communications) system, a PHS (Personal Handyphone System: registered trademark) system, etc. Any method capable of both voice communication and data communication may be used. In the embodiment, the voice communication between the mobile stations MS is exemplified. However, the present invention is not limited to this, and the present invention is applicable to voice communication performed between the mobile station MS and a communication device such as a fixed telephone. Needless to say.
[0049]
(5) Modification 5
The notification program 13a can be provided by being recorded on a recording medium such as a magnetic recording medium, an optical recording medium, or a ROM that can be read by the CPU 12 of the mobile station MS. Of course, the notification program 13a can be downloaded to the mobile station MS via a network such as the ATM network NW or the Internet. In this case, the notification program 13 a is stored not in the ROM 13 but in the EEPROM 15.
[0050]
【The invention's effect】
As described above, according to the present invention, when the mobile station determines that the quality of the voice communication has deteriorated, the notification data for notifying the information related to the deterioration of the voice communication quality is sent to the external communication device. Since the transmission is performed, the user of the communication apparatus can know information related to the quality degradation in the voice communication in the mobile station.
[0051]
Further, according to the present invention, when the call line is disconnected because it is determined that the voice communication quality has deteriorated in the mobile station, the call line is disconnected due to the deterioration of the voice communication quality. Since the notification data for notifying this is transmitted to the external communication device, the user of the communication device can know that the communication line has been disconnected because the quality of voice communication in the mobile station has deteriorated.
[0052]
In addition, according to the present invention, when a communication line is disconnected at a mobile station, a user's voice is recorded for a certain period from the disconnection point, and voice data indicating the recorded voice is transmitted to an external communication device. Therefore, the user of the communication apparatus can grasp the contents spoken by the user of the mobile station in a certain period from the time when the call line is disconnected.
[Brief description of the drawings]
FIG. 1 is a block diagram showing an overall configuration of a mobile communication system using a mobile station according to an embodiment of the present invention.
FIG. 2 is a diagram showing the relationship between the strength of electric field strength when the mobile station receives a radio wave transmitted from a base station, and the level of voice communication quality and packet communication quality.
FIG. 3 is a block diagram showing a configuration of the mobile station.
FIG. 4 is a diagram showing a main routine executed by the CPU of the mobile station.
FIG. 5 is a diagram showing a main routine executed by the CPU of the mobile station.
FIG. 6 is a diagram showing a subroutine executed by the CPU of the mobile station.
[Explanation of symbols]
MS1, MS2 ... mobile station (mobile station, communication device),
BS1, BS2 ... Base station, MLS1, MLS2 ... Switching office,
M-SCP: Packet communication service control station,
NW ... ATM network (wireless network),
11: Communication unit (voice communication means, data communication means, determination means),
12 ... CPU (data communication means, judgment means, control means, recording means),
13 ... ROM (storage means), 14 ... RAM (recording means),
15. EEPROM, 16 ... display part, 17 ... operation part,
18: Call section, 19: Timer, 20: Bus.

Claims (3)

Voice communication means for performing voice communication wirelessly via a telephone line established with an external communication device;
Data communication means for performing data communication wirelessly via a communication line established with the communication device;
Determination means for determining the quality of voice communication by the voice communication means;
Storage means for storing notification data for notifying the communication device that the call line has been disconnected due to degradation of the quality of the voice communication;
When the quality of the voice communication determined by the determining means is less than the first limit value indicating the degree of deterioration of the quality of the voice communication, the communication line of the data communication means is established, and the communication line is established In this state, when the quality of the voice communication judged by the judging means becomes less than the second limit value indicating that the degree of deterioration is larger than the first limit value, the voice communication means disconnects the communication line. Then, the notification data stored in the storage unit is read, and the read notification data is transmitted to the communication device via the established communication line using the data communication unit, while the communication unit Control means for disconnecting the established communication line when the quality of the voice communication determined by the determination means is equal to or higher than the first limit value in a state where the line is established. Mobile station. Voice communication means for performing voice communication wirelessly via a telephone line established with an external communication device;
Data communication means for performing data communication wirelessly via a communication line established with the communication device;
Determination means for determining the quality of voice communication by the voice communication means;
Recording means for recording the user's voice in a certain period from the disconnection time when the call line is disconnected due to the determination that the quality of the voice communication is deteriorated by the determination means;
When the quality of the voice communication determined by the determining means is less than a first limit value indicating the degree of deterioration of the quality of the voice communication, a communication line is established by the data communication means, and the communication line is established In this state, when the quality of the voice communication judged by the judging means becomes less than the second limit value indicating that the degree of deterioration is larger than the first limit value, the voice communication means disconnects the communication line. Then, voice data indicating the user's voice recorded by the recording means during a certain period from the disconnection time point is transmitted to the communication device via the established communication line using the data communication means. On the other hand, if the quality of the voice communication determined by the determining means is equal to or higher than the first limit value in a state where the communication line is established, the established communication line is disconnected. Mobile station and control means. The mobile station according to claim 2 , wherein the certain period from the disconnection time point is a period in which a quality of data communication by the data communication means is maintained at a certain level.

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