JPWO2013046691A1 - COMMUNICATION TERMINAL DEVICE, ITS CONTROL METHOD, AND PROCESSOR - Google Patents

Abstract

In the communication terminal device 1, a software application called a communication agent 13 is activated, and the communication agent 13 monitors the communication quality in each communication method of the voice communication unit 11 and the data communication unit 12 and is given in advance. If it is determined that the communication quality is equal to or lower than a predetermined communication quality level after the session is started with the voice communication method selected according to the prioritization rule, the session is transferred to the new voice communication method using the data communication means 12. Control to change.

Description

Cross-reference to related applications

  This application claims the benefit of priority of Japanese Patent Application No. 2011-211097 (filed on Sep. 27, 2011), the entire contents of which are incorporated herein by reference.

  The present invention relates to a communication terminal device capable of cognitive radio communication, a control method thereof, and a processor.

  Along with the high-density mounting of mobile communication terminals, a plurality of voice communication systems such as CDMA, PHS (registered trademark), and GSM (registered trademark) (Global System for Mobile Communication) are mounted on one mobile communication terminal. Mobile communication terminals equipped with a plurality of data communication methods such as WiFi, WiMAX (registered trademark), and HSPA (High Speed Packet Access) have been developed. A method of performing voice communication via a wireless data communication network is also being put into practical use, and voice communication methods that can be used by users are diversifying. In addition, the high performance of mobile communication terminals facilitates complex control by programs, management of information, and communication with external nodes, so that mobile communication terminals can be used autonomously at their own terminals and called terminals. Operation is possible by judging the communication method and communication environment.

Patent Document 1 discloses a mobile communication terminal and a communication system that have a plurality of communication units and connect each communication unit to a base station whose communication quality exceeds a predetermined specified value.
Patent Document 2 discloses a communication system that enables a user to automatically and immediately recognize the reason when a call is interrupted due to a line state failure.

JP 2009-267876 A JP 2007-300272 A

By the way, in the prior art, since voice communication methods are diversified, when a user performs voice communication, which communication method is most suitable in the place where the communication is performed, and to which party Thus, it is difficult to grasp when and in which communication method communication is possible.
In addition, even if the user knows that there is a communication method with good call quality after starting the call, in the prior art, when the user tries to switch the voice communication method, the user once makes a call. It was complicated because it was necessary to disconnect and make a new call operation.

  The present invention has been made in view of such problems, and an object of the present invention is to enable a call using an optimal voice communication system and to change a user when switching the voice communication system. It is an object of the present invention to provide a communication terminal device, a control method thereof, and a processor that can reduce the burden on the computer.

  In order to achieve the above object, a communication terminal device of the present invention has a first communication function having at least two types of voice communication methods, and a second communication function having at least one data communication method, A communication terminal device capable of cognitive radio communication using the first communication function and the second communication function, comprising a control unit for monitoring communication quality in the first and second communication functions, When the control unit determines that the communication quality is equal to or lower than a predetermined communication quality level after the session is started in the first voice communication method, the control unit uses the second communication function to perform the second voice communication. It is characterized by performing control to change a session to a system.

  The communication terminal device of the present invention further includes a position information acquisition unit that acquires position information of the own device, and the control unit is configured to perform the second voice based on the position information acquired by the position information acquisition unit. It is preferable to perform control to change the session to the communication method.

  The communication terminal device of the present invention further includes an audio buffer, and the control unit controls the audio buffer to interrupt audio communication when changing the session to the second audio communication method. It is preferable to perform control to suppress.

  According to another aspect of the present invention, there is provided a method for controlling a communication terminal apparatus, comprising: a first communication function having at least two types of voice communication methods; and a second communication function having at least one data communication method. A communication terminal apparatus capable of cognitive radio communication using the communication function and the second communication function, wherein the communication quality in the first and second communication functions is monitored; Control that changes the session to the second voice communication method using the second communication function when it is determined that the communication quality has become a predetermined communication quality level or lower after the session is started in the voice communication method. And the step of performing.

  The communication terminal device control method of the present invention preferably includes a step of acquiring position information of the own device and a step of changing a session to the second voice communication method based on the acquired position information. .

  Moreover, it is preferable that the control method of the communication terminal device of the present invention includes a step of controlling a voice buffer to suppress voice communication interruption when changing a session to the second voice communication method.

  The processor of the communication terminal apparatus of the present invention has a first communication function having at least two types of voice communication systems and a second communication function having at least one data communication system, A processor of a communication terminal apparatus capable of cognitive radio communication using the communication function and the second communication function, the processor having a control unit that monitors communication quality in the first and second communication functions, and the control When the unit determines that the communication quality is equal to or lower than a predetermined communication quality level after the session is started in the first voice communication method, the unit uses the second communication function to set the second voice communication method. It is characterized by performing control to change the session.

  In the processor of the communication terminal device of the present invention, it is preferable that the control unit performs control to change the session to the second voice communication method based on the position information of the own device.

  In addition, the processor of the communication terminal device according to the present invention may perform control to control interruption of voice communication by controlling the voice buffer when the control unit changes the session to the second voice communication method. preferable.

In the present invention, since the communication agent cooperates to share connection information, negotiate, and switch the voice path, or to select the voice communication method by using the inquiry server, the optimum voice is selected. It is possible to make a call using a communication method.
Further, according to the present invention, since the communication agent switches to the optimum voice communication system without causing the user to perform a special operation, the burden on the user can be reduced when switching the voice communication system. it can.

FIG. 1 is a schematic configuration diagram illustrating a cognitive radio communication system including a communication terminal apparatus according to an embodiment of the present invention. FIG. 2 is a flowchart for explaining the operation of the communication agent. FIG. 3 is a flowchart for explaining the operation of the communication agent. FIG. 4 is a diagram for explaining an operation of changing the audio buffer size of the audio path stepwise when the latency of the audio path of the switching source is smaller than the latency of the audio path of the switching destination. FIG. 5 is a diagram for explaining an operation of changing the audio buffer size of the audio path stepwise when the latency of the audio path of the switching source is larger than the latency of the audio path of the switching destination.

  Embodiments of the present invention will be described with reference to the drawings. FIG. 1 is a schematic configuration diagram showing a cognitive radio communication system including a communication terminal apparatus according to an embodiment of the present invention. The cognitive radio communication system shown in FIG. 1 includes a plurality of communication terminal devices 1, an inquiry server 2, a voice communication network 3, and a data communication network 4. The communication terminal device 1 is a voice communication means 11 having at least two types of voice communication systems such as PHS, CDMA, Internet telephone (WiFi, SIP call via HSPA, skype (registered trademark), LINE (trademark)), LTE, and the like. (First communication function), data communication means 12 (second communication function) having at least one data communication method such as LTE, SMS, IP communication, WiMAX (not shown), and communication agent 13 (control) Part), a user interface (UI) 14, and a GPS (not shown).

  The communication terminal devices 1 can be connected to each other by a voice path through the voice communication network 3 using the voice communication unit 11, and can be connected to the voice path and data communication through the data communication network 4 using the data communication unit 12. Connection is possible by path. An inquiry server 2 is connected to the data communication network 4.

  A communication terminal device 1 shown in FIG. 1 is a terminal device capable of cognitive radio communication using voice communication means 11 and data communication means 12. In the communication terminal device 1, a software application called a communication agent 13 is activated. The communication agent 13 monitors the communication quality in each communication method of the voice communication unit 11 and the data communication unit 12, and after the session is started in the voice communication method selected according to the prioritized rules given in advance, the communication agent 13 When it is determined that the quality is equal to or lower than the predetermined communication quality level, the data communication unit 12 is used to perform control to change the session to a new voice communication method.

  The communication terminal device 1 further includes a GPS (location information acquisition unit) that acquires location information of the device itself, and the communication agent 13 establishes a session for a new voice communication method based on the location information acquired by the GPS. You may make it perform control to change.

Furthermore, the communication agent 13 has the following functions and roles.
The communication agent 13 provides a telephone directory function for a caller to specify a call destination.
The communication agent 13 performs call management and communication quality monitoring for communication using the voice communication method of its own device.
The communication agent 13 performs connection management, communication state management, and IP address management for communication using the data communication method provided in its own device.
The communication agent 13 communicates with the communication agent of the call destination after starting the session with the call destination, notifies the voice communication method and data communication method provided in the own device, and also provides the voice communication method and data communication provided in the call destination device. Get information about the method.
The communication agent 13 transmits the acquired information to the inquiry server 2, acquires the priority list information of the communication method for performing the most stable communication from the inquiry server 2, and according to the acquired priority list information, Select a new voice communication method.
The communication agent 13 selects a new voice communication method according to a default priority rule given in advance when a failure occurs in the inquiry server 2 and communication with the inquiry server 2 cannot be performed.
The communication agent 13 negotiates with the communication agent of the call destination as necessary, and selects a new voice communication method.
The communication agent 13 establishes communication using a new voice communication method, and then uses a voice buffer that can be adjusted in stages in the own device and the call destination device, to reduce latency generated between the plurality of voice communication methods. Absorb the difference (normally, the latency is different for different communication systems. When switching without doing anything, the difference in latency is recognized by the caller as a break in voice).
The communication agent 13 then switches the voice path.
The communication agent 13 periodically checks the call quality and communication environment, and when a more appropriate voice communication method is found, switches the session to the voice communication method.
The communication agent 13 ends the session by the user's call end operation.

The inquiry server 2 shown in FIG. 1 has the following functions and roles.
The inquiry server 2 receives from the communication agent 13 information on communication quality such as jitter and latency for communication by each voice communication method provided in the communication terminal device 1.
The inquiry server 2 compares the communication qualities and sorts the voice communication methods in the order of good communication quality.
The inquiry server 2 creates a priority list for the voice communication system and returns information on the created priority list to the inquiry source.

The inquiry server 2 may have the following functions and roles.
The inquiry server 2 receives the location information (GPS information) of the two points that are sent from the communication agent and information about the available voice communication methods.
The inquiry server 2 uses the area coverage information of each communication system given in advance for each received voice communication system or the area coverage information of the communication system provided by the provider of each communication system Based on the above, the call charge between the two points is calculated, and the call charge between the two points is calculated according to the charge plan subscribed by both parties who call and the charge plan based on the time zone.
The inquiry server 2 compares the obtained call charges and sorts the voice communication methods in ascending order.
-Inquiry server 2 also creates a voice communication system prioritization list after adding the conditions when there is a limit to the duration of a call, etc., and inquires about the information of the created prioritization list Reply to
Then, the communication agent 13 acquires the prioritized list information of the communication method for performing the cheapest communication from the inquiry server 2, and selects a new inexpensive voice communication method according to the acquired prioritized list information. It may be.

  Next, the operation of the communication agent will be described based on the flowcharts of FIGS. First, the communication agent 13 provides a telephone directory function to the caller and instructs the callee or directly inputs the telephone number (S101). Next, the communication agent 13 determines the telephone number of the instructed call destination, and selects the voice communication method according to the prioritized rules for the voice communication method given in advance and further taking into account the radio wave condition. Then, call processing is performed (S102). The communication agent 13 establishes a connection (S103) and starts a call (session) (S104).

  After the call is established, the communication agent 13 exchanges IP connection information and an authentication key with the communication agent of the call destination device using SMS, e-mail, or other data communication methods (S105). After receiving the IP connection information and the authentication key, the communication agent 13 establishes a TCP connection with the call agent of the call destination device, and performs authentication using the authentication key exchanged in advance (S106).

  On the other hand, the communication agent 13 checks the radio wave reception quality, connects / disconnects the communication path, and periodically checks the communication quality such as jitter and latency for each communication method provided in the own device. (S107). The communication agent 13 exchanges device information (available voice communication method, radio wave reception status, telephone number, connection ID, GPS location information, etc.) with the communication agent of the called device (S108).

  Further, when the communication agent 13 determines that the communication quality such as jitter and latency is lower than the predetermined communication quality level, the communication agent 13 transmits the information obtained in S108 to the inquiry server 2 respectively, and the communication confirmed in S107. The prioritized list information of the voice communication system based on the quality or the like is obtained (S109). If the inquiry server 2 cannot be accessed due to a failure or the like, the communication agent 13 follows the prioritized rules for the default voice communication method given in advance.

  The communication agent 13 proposes a communication method as an alternative to the communication agent of the call destination device (S110), and negotiates with the communication agent of the call destination device to select the most stable alternative voice communication method. (S111). The communication agent 13 starts a voice communication connection based on the selected alternative voice communication method (S112), and establishes the connection (S113).

  After the voice communication is established, the communication agent 13 checks the communication quality such as jitter and latency for each of the existing call path and the newly established call path (S114). If there is no problem with the communication quality (YES in S115), the communication agent 13 switches the voice path. In general, when the audio paths are different, the latency is different. Therefore, the communication agent 13 changes the audio buffer size of the switching source audio path or the audio buffer size of the switching destination audio path in a stepwise manner based on the latency information measured in S114 (S116).

  FIG. 4 is a diagram for explaining an operation of changing the audio buffer size of the audio path stepwise when the latency of the audio path of the switching source is smaller than the latency of the audio path of the switching destination. When the latency of the switching source voice path is smaller than the latency of the switching destination voice path, the buffer size of the switching source voice path is increased so that the buffer size of the switching source and the switching destination voice path is the same.

  FIG. 5 is a diagram for explaining an operation of changing the audio buffer size of the audio path stepwise when the latency of the audio path of the switching source is larger than the latency of the audio path of the switching destination. When the latency of the switching source voice path is larger than the latency of the switching destination voice path, the buffer size of the switching destination voice path is increased so that the buffer size of the switching source and the switching destination voice path is the same.

  Then, the communication agent 13 switches the voice path at the same timing as the call destination device (S117). Since the latency of the switching source and the switching destination audio path is the same, the switching of the audio path can be performed smoothly.

  When the latency of the switching source and switching destination voice paths becomes equal, the communication agent 13 sends the voice data to the new voice path and continues the call (session) in the alternative voice communication method (S118). After confirming that the voice data is flowing in the new voice path, the communication agent 13 stops flowing the voice data in the voice path before switching (S119). If the buffer size is increased in S116 after the switching is completed, the communication agent 13 gradually returns the buffer size to an appropriate value as shown in FIG. 5 (S120).

  The communication agent 13 periodically checks each communication method and communication environment state provided in its own device (S121), and updates shared information with the call destination (S122). If there is a more appropriate communication method (YES in S123), the communication agent 13 returns to S111 and starts the switching process. If the communication agent 13 does not have an appropriate communication method (NO in S123) and continues the call (YES in S124), the communication agent 13 returns to S121, and does not continue the call (NO in S124). Then, the line is disconnected by the disconnection operation by the caller (S125). After disconnecting the line, the communication agent 13 deletes the security information exchanged between the agents (S126).

  In the above-described embodiment, the communication agent 13 starts a session in the voice communication method and changes the session to a new voice communication method based on the communication quality information, but starts a session in the data communication method, You may make it change a session to a voice communication system as needed.

As described above, the communication terminal device according to the embodiment of the present invention allows the user to perform a special operation by the communication agent (application) on the own device autonomously controlling the communication method and the communication path. You can talk using the most suitable voice communication system without having to.
In addition, the communication terminal device according to the embodiment of the present invention uses a voice communication scheme based on highly reliable information by sharing connection information, negotiating, and switching voice paths in cooperation with communication agents. You can make a selection. In addition, the communication terminal device according to the embodiment of the present invention can select a voice communication method based on highly reliable information by using an inquiry server.
In addition, the communication terminal device according to the embodiment of the present invention periodically collects quality information on the communication method provided in the own device, and always checks the optimum communication method, and therefore follows the change in the environment. Therefore, the optimum voice communication method can be selected each time.
In addition, since the communication terminal apparatus according to the embodiment of the present invention switches the voice path in synchronization with the call destination apparatus after the establishment of the alternative communication method, the interruption of the voice felt by the caller is minimized. Can do.
In addition, the communication terminal apparatus according to the embodiment of the present invention adjusts the voice buffer before switching the voice path, so that the sound is interrupted when switching the voice path due to the difference in latency between the two call paths. Can be suppressed.
In addition, the communication terminal device according to the embodiment of the present invention establishes communication using an alternative communication method in the background during a call, and automatically switches voice paths after confirming the quality. Thus, it is possible to automatically and seamlessly switch to the optimum voice communication method while continuing the call.

DESCRIPTION OF SYMBOLS 1 Communication terminal device 2 Server for inquiry 3 Voice communication network 4 Data communication network 11 Voice communication means 12 Data communication means 13 Communication agent (control part)
14 User Interface (UI)

Claims (9)

A first communication function having at least two types of voice communication methods; and a second communication function having at least one data communication method; and using the first communication function and the second communication function. A communication terminal device capable of cognitive radio communication,
A controller for monitoring communication quality in the first and second communication functions;
When the control unit determines that the communication quality is equal to or lower than a predetermined communication quality level after the session is started in the first voice communication method, the control unit uses the second communication function to A communication terminal apparatus that performs control to change a session to a communication system.   A control unit that further includes a location information acquisition unit that acquires location information of the device itself, and the control unit changes the session to the second voice communication method based on the location information acquired by the location information acquisition unit. The communication terminal device according to claim 1 which performs.   2. The audio buffer according to claim 1, further comprising an audio buffer, wherein the control unit controls the audio buffer to suppress interruption of audio communication when changing the session to the second audio communication method. Communication terminal device. A first communication function having at least two types of voice communication methods; and a second communication function having at least one data communication method; and using the first communication function and the second communication function. A method for controlling a communication terminal device capable of cognitive radio communication,
Monitoring communication quality in the first and second communication functions;
When it is determined that the communication quality is equal to or lower than a predetermined communication quality level after the session is started in the first voice communication method, the session is transferred to the second voice communication method using the second communication function. Performing control to change; and
A control method for a communication terminal apparatus, comprising: Obtaining position information of the own device;
Changing the session to the second voice communication method based on the acquired position information;
The communication terminal device control method according to claim 4, comprising:   The method for controlling a communication terminal device according to claim 4, further comprising: controlling a voice buffer to suppress interruption of voice communication when changing a session to the second voice communication method. A first communication function having at least two types of voice communication methods; and a second communication function having at least one data communication method; and using the first communication function and the second communication function. A processor of a communication terminal device capable of cognitive radio communication,
A controller for monitoring communication quality in the first and second communication functions;
When the control unit determines that the communication quality is equal to or lower than a predetermined communication quality level after the session is started in the first voice communication method, the control unit uses the second communication function to A processor of a communication terminal device, characterized by performing control to change a session to a communication system.   The processor of the communication terminal device according to claim 7, wherein the control unit performs control to change the session to the second voice communication method based on position information of the own device.   The processor of the communication terminal device according to claim 7, wherein the control unit performs control to control interruption of voice communication by controlling a voice buffer when changing the session to the second voice communication method.

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