JP2004228851A - Communication system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a communication system which is capable of alleviating troubles annoying a user when a mobile communication device is moved through a tunnel or a mountainous area where communication conditions get worse. <P>SOLUTION: The communication system is equipped with a mobile telephone 130 establishing radio communication; a position detector 133a detecting the position of the mobile telephone 130; a communication state storing unit 117 storing communication state data 117a indicating a communication level at positions; a prediction unit 114 estimating the position of the mobile telephone 130 a prescribed time later on the basis of the position detected by the position detector 133a, and predicting a radio communication state at the position, referring to the communication state data 117a; and a prediction processing unit 115 taking countermeasures against the interruption of communication between the mobile telephone 130 and one of telephones 140a to 140c due to the degradation of a radio communication state on the basis of a prediction result obtained from the prediction unit 114. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a communication system for communicating with a plurality of communication devices via a wireless communication medium, and in particular, a mobile communication device mounted on a mobile body such as an automobile or carried by a user and moved. The present invention relates to a communication system provided.
[0002]
[Prior art]
2. Description of the Related Art In recent years, a communication system including a mobile communication device such as a mobile phone, a mobile phone, and a hands-free device that enables a user to make a call without holding a mobile phone is widely used. .
[0003]
Since the mobile communication device of such a communication system is mounted on an automobile and moves together with the user if the mobile communication device is carried by a user, the place where the vehicle and the user are hard to reach a radio communication medium, That is, when the user moves to a place having a poor communication condition, communication with another communication device such as a telephone becomes impossible, and the call may be suddenly interrupted. For example, the communication condition is poor in a tunnel or a mountainous area, and when a car travels in such a place, a mobile communication device mounted on the car cannot communicate.
[0004]
Therefore, a communication system provided with a mobile communication device for notifying the user when approaching a place having a poor communication condition has been proposed (for example, see Patent Document 1).
[0005]
FIG. 15 is a configuration diagram showing a configuration of a mobile communication device (car phone device) of the communication system of Patent Document 1 described above.
As shown in FIG. 15, the mobile communication device of Patent Document 1 is mounted on an automobile, and includes a geomagnetic sensor 901 for detecting a traveling direction of the automobile, and a speed sensor 902 for detecting a traveling speed of the automobile. , A map data storage unit 903 for storing a map, a distribution data storage unit 904 for storing a distribution map of radio field intensity, a location unit 905 for detecting the current position of the automobile, a telephone 906, characters and graphics, , A speaker 908, a warning light 909, and a main controller 910 that controls the telephone 906, the display unit 907, and the like.
[0006]
In such a mobile communication device, the location unit 905 specifies the current position of the vehicle on the map stored in the map data storage unit 903 based on the detection results of the geomagnetic sensor 901 and the speed sensor 902, and stores the distribution data. With reference to the distribution map of the electric field intensity of the radio wave stored in the unit 904, the time and the distance during which the telephone call can be made by the telephone 906 are predicted. Then, the main controller 910 controls the display unit 907, the speaker 908, and the warning light 909 based on the prediction result to notify the user in advance that the user will approach a place having a poor communication condition and the call will be interrupted.
[0007]
Further, similarly to the mobile communication device of the communication system disclosed in Patent Document 1, it is mounted on a car and warns the user in advance that the user will approach a place with poor communication conditions and the call will be interrupted. There is also provided a communication system including a mobile communication device that specifies a communication time or distance to a user or a communication partner by specifying the communication time (see, for example, Patent Document 2).
[0008]
Further, in order to prevent a sudden interruption of a call, a communication system including a mobile communication device that suspends a call operation by a user when approaching a place with poor communication conditions has been proposed (for example, Patent Document 1). 3).
[0009]
The communication device (hands-free device) of the communication system disclosed in Patent Literature 3 is mounted on an automobile, and when a call operation is performed by a user, the location of the automobile in a poor communication condition after a predetermined time from the current position. Is predicted, and when it is predicted to reach the place, the transmission is suspended. Then, when it reaches a place where the communication condition is good, the call transmission suspended as described above is executed. This prevents sudden disconnection of communication.
[0010]
[Patent Document 1]
JP-A-4-286430 (full text)
[0011]
[Patent Document 2]
JP-A-10-93497 (full text)
[0012]
[Patent Document 3]
JP-A-10-313484 (full text)
[0013]
[Problems to be solved by the invention]
However, in the communication systems of Patent Literature 1 and Patent Literature 2, although the mobile communication device informs in advance that the mobile communication device approaches a place having a poor communication condition and the call is interrupted, the user of the mobile communication device is required to end the communication normally. Is necessary, and there is a problem that the user feels troublesome.
[0014]
Further, in the communication system disclosed in Patent Document 3, after a mobile communication device makes a call and is connected to a line, when the mobile communication device approaches a place with poor communication status and arrives at the place after a while, the line is suddenly disconnected. The call is interrupted. Then, like the communication systems of Patent Literature 1 and Patent Literature 2 described above, in the communication system of Patent Literature 3, in order to normally end the communication when the communication condition of the mobile communication device becomes worse, the mobile communication There is a problem that the operation of the user of the apparatus is required, and the user feels troublesome.
[0015]
Accordingly, the present invention has been made in view of the above-described problems, and has reduced the inconvenience of a user of a mobile communication device in a situation where the mobile communication device is moved through a poor communication condition such as a tunnel or a mountainous area. It is an object to provide a communication system.
[0016]
[Means for Solving the Problems]
In order to achieve the above object, a communication system according to the present invention is a communication system that causes a mobile communication device to communicate with another communication device via a wireless communication medium, wherein the mobile communication device performs wireless communication. A communication device, a position detection unit that detects a position of the mobile communication device, a communication status holding unit that holds communication status data having contents indicating a wireless communication status of each position, and a position detected by the position detection unit. A predicting unit that estimates a position of the mobile communication device after a predetermined time and predicts a wireless communication state at the position with reference to the communication state data, based on a prediction result of the predicting unit, And a processing unit for performing a countermeasure process for disconnection of communication between the mobile communication device and another communication device due to deterioration.
[0017]
Accordingly, the wireless communication status of the mobile communication device is predicted, and a countermeasure process is performed for disconnection of communication between the mobile communication device and another communication device due to deterioration of the wireless communication status. Even in a situation where the device is moved through a place with poor communication conditions such as a tunnel or a mountainous area, the user of the mobile communication device does not need to perform an operation for the above-mentioned situation change and reduces the annoyance felt by the user. can do.
[0018]
Further, the processing unit, when predicting that communication between the mobile communication device and the communication device becomes impossible based on a prediction result by the prediction unit, causes the mobile communication device to terminate communication. It is good.
[0019]
Thus, even if the user of the mobile communication device brings the mobile communication device into, for example, a tunnel or the like, the user does not need to perform an operation for terminating the communication and can reduce the inconvenience felt by the user.
[0020]
In addition, the communication system further includes a relay unit that relays a signal transmitted and received between the mobile communication device and the communication device, and the processing unit performs wireless communication of a position detected by the position detection unit. The situation is specified by referring to the communication status data, and based on the specified wireless communication status, when it is determined that the communication that has been performed between the mobile communication device and the relay unit has been disabled, The communication between the relay unit and the communication device may be maintained, and the communication device may be put on hold.
[0021]
Thereby, when the user of the mobile communication device carries the mobile communication device and tries to escape through a tunnel, for example, the communication device is put on hold, and the user of the communication device sets the communication device to It is sufficient that the user does not need to perform the operation and waits as it is, so that the trouble of the user of the communication device can be reduced.
[0022]
The present invention may be realized as a communication method for causing a mobile communication device to communicate with another communication device via a wireless communication medium, or a program for causing a computer to execute steps included in the communication method. Can be.
[0023]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, a communication system according to an embodiment of the present invention will be described with reference to the drawings.
[0024]
FIG. 1 is a configuration diagram illustrating a configuration of a communication system 100 according to an embodiment of the present invention.
The communication system 100 reduces the annoyance of a user of the mobile communication device in a situation where the mobile communication device is moved through a place having poor communication conditions such as a tunnel or a mountainous area. The mobile phone 130 as a mobile communication device, three general telephones 140a to 140c fixedly installed in respective houses, and the mobile phone 130 for transmitting and receiving radio waves as a wireless communication medium. A base station 120 installed at a predetermined location, a communication network 150 for connecting the mobile phone 130 and each of the telephones 140a to 140c via the base station 120, a mobile phone 130 and each of the telephones 140a to 140c. And a server 110 that controls communication with the server 140c.
[0025]
FIG. 2 is a block diagram illustrating an internal configuration of the server 110 and the mobile phone 130 of the communication system 100 according to the present embodiment.
The mobile phone 130 transmits and receives signals via a microphone 138, a speaker 137, a display unit 131 including a liquid crystal display, and a communication network 150, and performs A / D conversion and D / A conversion on the transmitted and received signals. A modem 135 for performing conversion, a codec unit 136 for compressing and expanding data, a control unit 132 for controlling the microphone 138 and the speaker 137, and a button for inputting a telephone number are provided. And an operation unit 134 that outputs a signal corresponding to the control signal to the control unit 132.
[0026]
When the modem 135 is connected to each of the telephones 140a to 140c via the base station 120 and the communication network 150, the control unit 132 of the mobile phone 130 causes the microphone 138 to collect the user's voice, and After carrying out A / D conversion of the portable audio signal having the content indicating the audio by the modem 135, the portable audio signal is transmitted to the telephones 140a to 140c connected to the line. When the modem 135 acquires a voice signal indicating the voice of the user of the telephones 140a to 140c from the telephones 140a to 140c connected to the line, the control unit 132 performs D / A conversion on the voice signal and performs speaker conversion. 137. As a result, a call can be made between the mobile phone 130 and the phones 140a to 140c connected to the mobile phone. Further, each of the above-described portable audio signal and the audio signal is transmitted and received between the mobile phone 130 and one of the telephones 140a to 140c via the server 110.
[0027]
The mobile phone 130 further obtains GPS data indicating the position from a GPS satellite to detect its own position, and the moving direction of the mobile phone 130 based on the detection result of the position detecting unit 133a. And a speed detecting unit 133c for detecting the moving speed of the mobile phone 130 based on the detection result of the position detecting unit 133a.
[0028]
The position detection unit 133a detects its own position, for example, "135 ° 25'30" E, 40 ° 30'25 "N, and the like at predetermined time intervals, for example, every 5 seconds or 1 minute. The detected position information of the content indicating the result is output.
[0029]
The direction detecting unit 133b acquires the detected position information from the position detecting unit 133a, detects the moving direction of the mobile phone 130 based on a change in position every predetermined time indicated in the detected position information, and detects the detected direction. Outputs direction information indicating the moving direction.
[0030]
The speed detecting unit 133c acquires the detected position information from the position detecting unit 133a, detects the moving speed of the mobile phone 130 from a change in the position every predetermined time indicated by the detected position information, and detects the detected moving speed. The speed information with the content indicating is output.
[0031]
The control unit 132 of the mobile phone 130 acquires the detected position information, the direction information, and the speed information output from the position detection unit 133a, the direction detection unit 133b, and the speed detection unit 133c as described above, and obtains these information. The predicted material data including the data is transmitted from the modem 135 to the server 110. Such prediction material data is transmitted at predetermined time intervals or at predetermined distances based on the latest detection results output from the position detection unit 133a, the direction detection unit 133b, and the speed detection unit 133c. Further, the latest predicted material data may be transmitted from the mobile phone 130 according to a change in the communication status. When the change in the communication status is severe, the latest predicted material data is frequently transmitted from the mobile phone 130.
[0032]
The server 110 includes a communication unit 113 that transmits and receives signals to and from the mobile phone 130 and each of the phones 140a to 140c via the communication network 150, and a map storage that previously stores map data 116a indicating a map. A communication status storage unit 117 for storing communication status data 117a indicating the communication status at each position on the map, and a detection included in the predicted material data from the mobile phone 130 received by the communication unit 113. A navigation unit 119 for acquiring position information and creating guidance data including information necessary for guiding the user from the position indicated by the detected position information to a destination designated by the user of the mobile phone 130; (Vehicle Information and Communication System) By estimating the position of the mobile phone 130 after a predetermined time based on the predicted material data from the mobile phone 130 received by the road information obtaining unit 112 and the communication unit 113, and by referring to the communication status data 117a. A prediction unit 114 for predicting a communication situation at the estimated position; a prediction data storage unit 118 for storing prediction data 118a having a content indicating a prediction result by the prediction unit 114; and a communication connection process based on the prediction data 118a. It includes a prediction processing unit 115 that executes processing, and a server control unit 111 that controls the above units. The prediction processing unit 115 includes a time notification unit 115a, a connection unit 115b, and a call restriction unit 115c, which will be described later. Here, the server control unit 111, the prediction unit 114, and the prediction processing unit 115 are configured by a CPU (Central Processing Unit) or the like, and the map data storage unit 116, the communication status storage unit 117, and the prediction data storage unit 118 are configured by a ROM (Read Only). (Random Access Memory) and RAM (Random Access Memory).
[0033]
The road information acquisition unit 112 acquires road traffic information distributed from the VICS center. The road traffic information includes contents for notifying the degree of congestion of each road and the like.
[0034]
When the navigation unit 119 acquires the guidance request signal of the content for instructing the user to navigate to the destination and the above-described detected position information from the mobile phone 130 via the communication unit 113 and the server control unit 111, the detected position information Is read from the map storage unit 116 from the map storage unit 116 to the destination indicated by the guidance request signal. Then, the navigation unit 119 searches for a route from the position indicated by the detected position information to the destination. At this time, the navigation unit 119 acquires the road traffic information from the road information acquisition unit 112 via the server control unit 111, and considers, for example, Search for a route to reach your destination in a short or short distance. Then, the navigation unit 119 outputs guidance data having contents indicating the searched route, the current location on the map of the mobile phone 130, and the like. The guidance data thus output is transmitted from the communication unit 113 to the mobile phone 130 by the server control unit 111. As a result, on the display unit 131 of the mobile phone 130, a map including the current location of the mobile phone 130 and its surroundings and a search route are displayed. From the speaker 137 of the mobile phone 130, for example, "turn left at the next intersection Guide voice such as "Please" is output. Thereby, the user of the mobile phone 130 can easily grasp the current location and the route from the current location to the destination, and if the user is sitting in the passenger seat of the car, the driver is guided to the driver. I can give it.
[0035]
FIG. 3 is a data content display diagram showing the content of the communication status data 117a.
As shown in FIG. 3, the communication status data 117a includes a position information column A1 and a communication level column A2. The position information column A1 includes, for example, "longitude X1, latitude Y1" and "longitude X2, latitude Y2". Position information indicating each position is registered, and the communication level at the position indicated by the position information is registered in the communication level column A2. This communication level represents, for example, a communication state in 10 stages, with the communication level “1” indicating the worst communication state and the communication level “10” indicating the best communication state. For example, as shown in FIG. 3, it is registered in the communication status data 117a that the communication status is the worst at the position of "longitude X1, latitude Y1" and the communication status is the best at the position of "longitude X3, latitude Y3". Have been.
[0036]
FIG. 4 is an explanatory diagram for explaining a method in which the prediction unit 114 estimates the position of the mobile phone 130 after a predetermined time.
Based on the predicted material data from the mobile phone 130, the prediction unit 114 is, for example, as shown in FIG. 4, the mobile phone 130 is currently at the position P0, and in the southeast direction indicated by the solid arrow in FIG. , About 40 [km / h].
[0037]
Then, the prediction unit 114 estimates that, for example, one minute later, the mobile phone 130 is located at a position P1 that has moved by a movement distance of 40 × 1/60 [km] in a southeast direction from the position P0.
[0038]
Further, the prediction unit 114 searches the communication status data 117a stored in the communication status storage unit 117 for position information indicating the position P1, and reads out the communication level at the position P1. For example, when the position P1 is “longitude X2, latitude Y2”, the prediction unit 114 reads the communication level “9” associated with the position information indicating “longitude X2, latitude Y2” from the communication status data 117a, and reads one minute. It is predicted that the subsequent communication level will be “9”.
[0039]
As described above, the prediction unit 114 predicts the communication level after a predetermined time, for example, the communication level after one minute, two minutes, three minutes, and so on.
Further, when the navigation unit 119 searches for the route to the destination and the guidance data is transmitted to the mobile phone 130, the prediction unit 114 acquires the guidance data from the navigation unit 119, and performs the search indicated by the guidance data. The position of the vehicle after a predetermined time from the route is estimated.
[0040]
FIG. 5 is an explanatory diagram for explaining a method in which the prediction unit 114 estimates the position of the mobile phone 130 after a predetermined time from the search route.
The prediction unit 114 grasps the current position of the mobile phone 130 on the search route based on the guidance data, and determines the position of the mobile phone 130 after the predetermined time along the search route based on the speed information included in the prediction material data. presume. For example, as shown in FIG. 5, the prediction unit 114 estimates that the mobile phone 130 is located at the position P01 on the search route one minute later based on the traveling speed at the current position P00 on the search route, and two minutes later. It is estimated that the mobile phone 130 is located at the position P02 on the search route, and that the mobile phone 130 is located at the position P03 on the search route three minutes later.
[0041]
Here, when estimating the position of the mobile phone 130 after a predetermined time, the prediction unit 114 considers the contents of the traffic road information acquired by the road information acquisition unit 112. That is, when the mobile phone 130 is on an exclusive road for automobiles or the like, the prediction unit 114 determines that the mobile phone 130 is carried into the automobile. When the traffic road information indicates that the car is more congested ahead of the search route than the current position, the prediction unit 114 determines that the congested place has a moving speed (for example, hourly speed) at the current location. Assuming that the mobile phone 130 moves at a speed lower than 40 km (for example, 20 km / h), the position of the mobile phone 130 after a predetermined time is estimated. Also, when the traffic road information indicates that there are fewer cars ahead of the search route than at the current location, the prediction unit 114 determines that the location is faster than the traveling speed at the current location (eg, 40 km / h) (eg, 40 km / h). Assuming that the mobile phone 130 moves at a speed of 60 km / h, the position of the mobile phone 130 after a predetermined time is estimated. By using the traffic road information in this way, the prediction unit 114 can more accurately estimate the position of the mobile phone 130 and can predict a more accurate communication level.
[0042]
Further, the map data 116a stored in the map storage unit 116 includes information on speed limit of each road (speed limit information). Therefore, in estimating the position of the mobile phone 130 after a predetermined time, the prediction unit 114 considers speed limit information included in the map data 116a. That is, in the above-described example, the prediction unit 114 assumes that the moving speed of the mobile phone 130 at the current location is 40 km / h, but based on the traffic road information, the moving speed is 60 km / h ahead of the search route. Also, if the speed limit information indicates that the speed limit of the road ahead is 50 km, the prediction unit 114 assumes that the traveling speed will be 50 km / h and determines the position of the mobile phone 130 after a predetermined time. presume. By using the speed limit information in this way, the prediction unit 114 can more accurately estimate the position of the mobile phone 130 and can predict a more accurate communication level.
[0043]
Then, the prediction unit 114 causes the prediction data storage unit 118 to store the result of the prediction as the prediction data 118a.
FIG. 6 is a data content display diagram showing the content of the prediction data 118a.
[0044]
As shown in FIG. 6, the prediction data 118a includes a time information column B1 and a communication level column B2, and the time information column B1 indicates a time such as "one minute later" or "two minutes later". The time information is registered, and the communication level at the time indicated by the time information is registered in the communication level column B2. That is, it is registered in the prediction data 118a shown in FIG. 6 that the communication level “after one minute” is “1” and the communication level “after two minutes” is “3”.
[0045]
Further, each time the prediction material data is obtained from the mobile phone 130, the prediction unit 114 performs the above-described prediction based on the latest prediction material data, and updates the prediction data 118a.
[0046]
In the above description, the prediction unit 114 predicts the future communication level at one-minute intervals, such as one minute, two minutes, three minutes,..., But the interval is not limited to one minute. Instead, it may be 10 seconds. Further, the time interval may be lengthened or shortened according to a change in the communication situation.
[0047]
The prediction processing unit 115 notifies the user of the mobile phone 130 and the other party of the callable time based on the communication level predicted by the prediction unit 114, that is, the prediction data 118a stored in the prediction data storage unit 118. And instructs the server control unit 111 to perform a connection process between the mobile phone 130 and each of the telephones 140a to 140c via the communication network 150 when the mobile phone 130 passes through a place having a poor communication condition. A connection unit 115b and a call restricting unit 115c for restricting the outgoing / incoming call of the mobile phone 130 when the mobile phone 130 passes through a place with a good communication condition for a short time while moving in a place with a bad communication condition. Have.
[0048]
The time notification unit 115a, based on the prediction data 118a, in a state where the communication line is connected between the mobile phone 130 and any one of the telephones 140a to 140c and each user is talking, uses the mobile phone 130 after a predetermined time. Determines that the wireless communication between the mobile phone 130 and the base station 120 is cut off due to reaching a place with poor communication conditions, ) Is notified to the user of the mobile phone 130 and the other party. For example, the communication level after one minute is “9”, the communication level after two minutes is “8”, the communication level after three minutes is “5”, and the communication level after four minutes is “1”. Is registered in the prediction data 118a, the time notification unit 115a determines, based on the content of the prediction data 118a, that the mobile phone 130 arrives at a position with a poor communication condition after 4 minutes and wirelessly communicates. It is determined that the communication has been disconnected, and notification data having contents for notifying the determination result is created. Then, the time notification unit 115a outputs the notification data to the server control unit 111, and causes the server control unit 111 to control the communication unit 113, and transmits the notification data from the communication unit 113 to the mobile phone 130 and the telephone of the communication partner. 140a to 140c. As a result, when the control unit 132 of the mobile phone 130 obtains the notification data via the modem 135, the control unit 132 causes the display unit 131 to display, for example, characters such as "line will be disconnected after 4 minutes", or makes a call from the speaker 137. An announcement such as "The line will be disconnected because the communication condition deteriorates after 4 minutes" is superimposed on the call voice of the other party. Further, similarly to the above-described mobile phone 130, the telephones 140a to 140c also display the above-described characters or output the above-described announcement by being superimposed on the voice of the user of the mobile phone 130, when the notification data is acquired.
[0049]
As a result, in the communication system 100 of the present embodiment, a sudden line disconnection can be avoided, and the user of the mobile phone 130 and the users of the telephones 140a to 140c know in advance when the line is disconnected. be able to.
[0050]
Further, the time notifying unit 115a performs a communication after a predetermined time period based on the prediction data 118a in a state where a communication line is connected between the mobile phone 130 and any of the telephones 140a to 140c and each user is talking. When 130 arrives at a place with poor communication conditions and wireless communication between mobile phone 130 and base station 120 is cut off, and after that, mobile phone 130 escapes from a place with poor communication conditions and wireless communication becomes possible again. When the determination is made, the time until the line can be connected again (reconnection required time) is notified to the user of the mobile phone 130 and the other party of the call together with the callable time as described above.
[0051]
For example, as described above, the communication data after 3 minutes is “5”, the communication level after 4 minutes is “1”, and the communication level after 10 minutes is “2”. When the mobile phone 130 is registered in the mobile phone 130, the time notification unit 115a, based on the prediction data 118a, disconnects the wireless communication after the mobile phone 130 reaches a location where the communication status is poor after 4 minutes, and the mobile phone 10 minutes later. 130 determines that it is possible to escape from the place where the communication condition is poor and to enable wireless communication again. Then, the time notification unit 115a creates reconnection notification data indicating the above-described determination result, outputs the reconnection notification data to the server control unit 111, and causes the server control unit 111 to control the communication unit 113. Then, the reconnection notification data is transmitted from the communication unit 113 to the mobile phone 130 and the telephones 140a to 140c of the communication partner.
[0052]
As a result, when the control unit 132 of the mobile phone 130 obtains the reconnection notification data via the modem 135, the control unit 132 causes the display unit 131 to display, for example, characters such as "Reconnection is possible after 10 minutes", From 137, an announcement such as "Reconnection is possible after 10 minutes" is output by superimposing on the voice of the other party. Further, similarly to the above-described mobile phone 130, the telephones 140a to 140c also display the above-described characters or output the above-described announcement by being superimposed on the voice of the user of the mobile phone 130, when acquiring the reconnection notification data. I do.
[0053]
As a result, in the communication system 100 of the present embodiment, the user of the mobile phone 130 who is making a call and the other party of the call can know the time required for reconnection, thereby eliminating the annoyance felt by the user and the other party. And the usability can be improved.
[0054]
Here, a series of operations of the time notification unit 115a of the prediction processing unit 115 as described above will be described with reference to FIG.
FIG. 7 is an operation flowchart showing a series of operations of time notification section 115a when a communication line is connected between mobile phone 130 and telephone 140a.
[0055]
First, the time notification unit 115a acquires the prediction data 118a from the prediction data storage unit 118 (Step S100). Then, based on the prediction data 118a, the time notification unit 115a predicts whether or not the wireless communication will be disconnected (step S102), and when it is predicted that the wireless communication will be disconnected after 5 minutes (step S102). Y), the notification data is created, and the callable time (5 minutes) is notified to the user of the mobile phone 130 and the other party (step S104). When it is predicted in step S102 that the wireless communication will not be disconnected within the predetermined time (N in step S102), the time notification unit 115a repeatedly acquires the latest prediction data 118a from the prediction data storage unit 118 and The operation from step S100 is repeated.
[0056]
Further, when the time notification unit 115a predicts that the wireless communication will be disconnected in step S102, the time notification unit 115a predicts, based on the prediction data 118a, whether or not the wireless communication can be performed again within a predetermined time (step S106). . As a result, when the time notification unit 115a predicts that wireless communication will be possible after 9 minutes (Y in step S106), the time notification unit 115a creates reconnection notification data and determines the required reconnection time (9 minutes) by the user of the mobile phone 130 and the The caller is notified (step S108). When the time notification unit 115a recognizes that the line has actually been disconnected via the server control unit 111, it ends the processing (Y in step S110), and if not disconnected (N in step S110), returns to step S110. The operation from S100 is repeatedly executed.
[0057]
As a result, until the wireless communication is disconnected, the mobile phone 130 or the communication partner's telephone 140a receives, for example, “the line is disconnected because the communication condition deteriorates after 5 minutes” and “the reconnection after 9 minutes”. One minute after an announcement such as "Can be done", announcements such as "The line will be disconnected due to poor communication after 4 minutes" and "Reconnection is possible after 8 minutes" are repeatedly output. It will be.
[0058]
Also, when it is predicted in step S106 that wireless communication will not be possible again within the predetermined time (N in step S106), the time notification unit 115a does not report the reconnection required time, but does not perform the process from step S110. Perform the action.
[0059]
As described above, when the communication line is connected between the mobile phone 130 and any of the telephones 140a to 140c, the time notification unit 115a repeats the operation from step S100 to step S110, and sends the latest data from the prediction data storage unit 118 to the Each time the prediction data 118a is obtained, the communication available time and the reconnection required time are notified based on the result.
[0060]
On the other hand, the connection unit 115b of the prediction processing unit 115 in the present embodiment is configured to perform a prediction in a state where a communication line is connected between the mobile phone 130 and any of the telephones 140a to 140c and each user is talking. When it is determined based on the data 118a that the disconnection of the wireless communication is imminent, it is further determined whether or not the time during which communication is disabled is equal to or less than the maximum hold time.
[0061]
Here, when the connection unit 115b determines that the communication unavailable time is equal to or less than the maximum holding time, the connection unit 115b can disconnect the mobile phone 130 even when the wireless communication between the mobile phone 130 and the base station 120 is disconnected. The communication between the telephones 140a to 140c as the communication partners and the server 110 is maintained, and the telephones 140a to 140c are put on hold. When the connection unit 115b determines that the mobile phone 130 is capable of wireless communication, the connection unit 115b again connects the line between the mobile phone 130 and the held telephones 140a to 140c.
[0062]
Specifically, when the connection unit 115b determines that the communication disabled time is equal to or less than the maximum hold time, the connection unit 115b notifies the telephone number of the mobile phone 130 to itself in order to reconnect after the wireless communication is disconnected. It instructs the server control unit 111. Upon receiving such an instruction, the server control unit 111 acquires the telephone number from the mobile phone 130 via the communication unit 113, and notifies the connection unit 115b of the telephone number. Then, the connection unit 115b holds the notified telephone number.
[0063]
Further, the connection unit 115b creates end notification data indicating the end of communication, such as “communication is ended because the communication condition is degraded”, and outputs it to the server control unit 111. The control unit 111 controls the communication unit 113 to transmit the communication end data from the communication unit 113 to the mobile phone 130.
[0064]
As a result, when the control unit 132 of the mobile phone 130 obtains the end notification data via the modem 135, the control unit 132 causes the display unit 131 to display, for example, characters such as “communication is ended due to poor communication status”. Then, an announcement such as “communication is terminated due to poor communication status” is output from the speaker 137 by superimposing it on the voice of the other party.
[0065]
Further, the connection unit 115b instructs the server control unit 111 to automatically end the communication. The server control unit 111 that has received such an instruction for automatic termination controls the communication unit 113 to cause the mobile phone 130 to be in an on-hook state. As a result, the communication between the mobile phone 130 and the server 110 ends normally.
[0066]
Then, when the communication between the communication unit 113 of the server 110 and the mobile phone 130 is automatically terminated, the connection unit 115b sets the telephones 140a to 140c that are the communication partners of the communication unit 113 of the server 110 and the mobile phone 130 during that time. To maintain communication with. Further, while maintaining the communication, the connection unit 115b creates the suspension notification data indicating that the communication is suspended, causes the server control unit 111 to control the communication unit 113, and communicates the suspension notification data. The transmission from the unit 113 to the telephones 140a to 140c is performed. As a result, when the telephones 140a to 140c acquire the hold notification data, the telephones 140a to 140c output an announcement, for example, "Currently on hold. Please wait for a while" until the line is connected to the mobile phone 130 again. I do. That is, the telephones 140a to 140c are on hold.
[0067]
Further, after the telephones 140a to 140c are put on hold as described above, when the connection unit 115b determines that the mobile phone 130 has escaped from a place with poor communication conditions, the connection unit 115b And causes the communication unit 113 to resume communication with the mobile phone 130 via the server control unit 111. Then, the connection unit 115b releases the hold state of the telephones 140a to 140c, and makes a telephone call with the telephones 140a to 140c possible. That is, the communication line between the mobile phone 130 and the phones 140a to 140c is reconnected.
[0068]
As a result, in the communication system 100 of the present embodiment, the communication end due to the deterioration of the communication status is notified in advance, so that it is possible to prevent the call from being suddenly interrupted and to operate the user of the mobile phone 130. Since the communication is automatically terminated without any trouble and the connection is re-established when the communication condition is improved, the user can improve the usability by eliminating the troublesome operation of the user of the mobile phone 130. In other words, even when the user is trying to continue the call without manually ending the communication by the notification by the above-mentioned time notification unit 115a, the automatic end and the reconnection are performed as described above, so that the user feels troublesome. Can be further eliminated. If the time during which communication becomes unavailable is short, the telephones 140a to 140c that have been communicating with the mobile phone 130 are put on hold, and the user of the telephones 140a to 140c needs to put the telephones 140a to 140c on-hook. Instead, useless operation of the user can be omitted.
[0069]
A series of operations of the connection unit 115b of the prediction processing unit 115 will be described with reference to FIG.
FIG. 8 is an operation flowchart showing a series of operations of the connection unit 115b.
[0070]
First, the connection unit 115b acquires the prediction data 118a (Step S200), and predicts whether or not the disconnection of the wireless communication between the mobile phone 130 and the base station 120 is imminent (Step S202). Then, when the connection unit 115b predicts that the communication is approaching (Y in step S202), the connection unit 115b determines whether or not the communication unavailable time is equal to or less than the maximum suspension time (step S204). When it is determined (N in step S202), the operation from step S200 is repeated.
[0071]
When the connection unit 115b specifies the communication unavailable time in step S204, the connection unit 115b determines that the time between when communication is disabled and when communication is disabled next is extremely short based on the prediction data 118a. In this case, it is considered that communication is not possible during that time, and the time during which communication is disabled is specified together with the communication disabled time. Thereby, the connection unit 115b can avoid complicated connection processing.
[0072]
Next, when the connection unit 115b determines that the communication unavailable time is equal to or less than the maximum hold time (Y in step S204), the connection unit 115b acquires the telephone number from the mobile phone 130 via the server control unit 111 and the communication unit 113. At the same time (step S206), the end of the communication is notified to the user of the mobile phone 130 and the other party (step S208). Then, the connection unit 115b automatically terminates the communication between the communication unit 113 and the mobile phone 130, and places the telephones 140a to 140c, which are the communication partners of the mobile phone 130, on hold (step S210). On the other hand, when it is determined that the communication disabled time is longer than the maximum hold time, or when it is determined that the communication disabled time cannot be predicted from the prediction data 118a (N in step S204), the connection unit 115b terminates. The notification data is transmitted from the communication unit 113 to the mobile phone 130 and the other party's telephones 140a to 140c, and the end of the communication is notified to the user of the mobile phone 130 and the other party (step S218). Then, the connection unit 115b causes the server control unit 111 to control the communication unit 113 to communicate between the communication unit 113 and the mobile phone 130, and to communicate with the telephones 140a to 140c that are the communication partners of the communication unit 113 and the mobile phone 130. Is automatically terminated (step S220).
[0073]
Next, after step S210, the connection unit 115b acquires the detected position information included in the predicted material data, and reads out the communication level corresponding to the position indicated by the detected position information from the communication status data 117a, so that the mobile phone The communication level of the local point of 130 is acquired (step S212). Then, based on the communication level, connection unit 115b determines whether or not mobile phone 130 is currently capable of wireless communication (step S214). As a result, when it is determined that wireless communication is possible (Y in step S214), the connection unit 115b causes the communication unit 113 to restart communication with the mobile phone 130 via the server control unit 111, and communicates with the mobile phone 130. The communication line between the other party's telephones 140a to 140c is reconnected (step S216). Here, the connection unit 115 checks whether or not the connection has been made. If the connection has not been made, the connection unit 115 repeats the retry. Then, even if retry is repeated a plurality of times, or if reconnection is not performed even after a predetermined time has elapsed, the connection unit 115b gives up the reconnection.
[0074]
When it is determined in step S214 that the mobile phone 130 cannot perform wireless communication (N in step S214), the operation from step S212 is repeatedly executed.
[0075]
Further, the call restricting unit 115c of the prediction processing unit 115 restricts outgoing / incoming of the mobile phone 130 when the mobile phone 130 passes through a place with a good communication condition for a short time while moving in a position with a bad communication condition. I do. As a result, a call that is immediately interrupted is prohibited, so that it is possible to reduce the annoyance felt by the user of the mobile phone 130 and the users of the telephones 140a to 140c calling the mobile phone 130.
[0076]
Here, an example in which the mobile phone 130 passes through a place where the communication situation changes as described above will be described with reference to FIG.
FIG. 9 is an explanatory diagram for explaining a state in which a car carried by the mobile phone 130 travels through two tunnels.
[0077]
As shown in FIG. 9, the two tunnels ta and tb are connected to each other along one road with a narrow interval therebetween. In addition, the communication condition is bad in the tunnels ta and tb, and the communication condition is good between the tunnels ta and tb. Therefore, when the vehicle travels from the tunnel ta to the tunnel tb on such a road, the communication condition is good only for a short time when the vehicle travels between the tunnels ta and tb.
[0078]
Then, the call restricting unit 115c is used when the car is traveling in a place with poor communication conditions, for example, in the tunnel ta in FIG. 9 and the communication line is not connected between the mobile phone 130 and any of the telephones 140a to 140c. When it is determined based on the prediction data 118a that the mobile phone 130 will reach a location having a good communication condition within the predetermined time and the wireless communication becomes possible, the wireless communication time will be further reduced to the predetermined shortest call time. It is determined whether it is shorter. Here, when it is determined that the wireless communication available time is shorter than the shortest call time, the call restricting unit 115c thereafter determines that the mobile phone 130 is currently moving to a place where the communication condition is good. 130 outgoing and incoming calls are regulated. That is, the call restricting unit 115c transmits a transmission operation signal transmitted from the mobile phone 130 to the server 110 and instructing connection to one of the telephones 140a to 140c, and one of the telephones 140a to 140c. To the server 110, and outputs to the server control unit 111 a regulation signal having contents instructing invalidation, respectively, of an incoming notification signal having contents instructing connection to the mobile phone 130. As a result, even if the server control unit 111 receives the outgoing call operation signal and the incoming call notification signal via the communication unit 113, the server control unit 111 invalidates the outgoing operation signal and the incoming call notification signal, so that the outgoing / incoming call of the mobile phone 130 is regulated.
[0079]
Further, when receiving a notification from the server control unit 111 that the above-mentioned transmission operation signal has been received while the call control unit 115c is outputting the control signal, the signal is disabled, that is, Using the display unit 131 and the speaker 137 of the mobile phone 130, the user of the mobile phone 130 is notified that the transmission from the mobile phone 130 is restricted. That is, the call restriction unit 115c creates a transmission restriction notification signal having a content indicating that transmission from the mobile phone 130 is restricted, and transmits this signal from the communication unit 113 to the mobile telephone 130 via the server control unit 111. Let it. The control unit 132 of the mobile phone 130 that has received the transmission restriction notification signal via the modem 135 causes the display unit 131 to display the content indicated by the transmission restriction notification signal, and causes the speaker 137 to output the content.
[0080]
Further, when receiving a notification from the server control unit 111 that the above-mentioned incoming call notification signal has been received while the call control unit 115c is outputting the control signal, the signal is disabled, that is, The fact that the incoming call to the mobile phone 130 is regulated is notified to the users of the telephones 140a to 140c that have transmitted the incoming call notification signal. That is, the call restricting unit 115c creates an incoming call restriction notifying signal having a content indicating that the incoming call to the mobile phone 130 is restricted, and sends the signal to the telephones 140a to 140c from the calling unit via the server control unit 111. Send. Then, the telephones 140a to 140c that have received the incoming call restriction notification signal cause the speaker 137 to output the content indicated by the incoming call restriction signal.
[0081]
An example of the operation of the call restricting unit 115c of the prediction processing unit 115 will be described with reference to FIG.
FIG. 10 shows an example of the operation of the call restricting unit 115c when the mobile phone 130 is moving in a place with poor communication conditions and the communication line is not connected between the mobile phone 130 and the phones 140a to 140c. It is a flowchart.
[0082]
First, the call restricting unit 115c acquires the prediction data 118a (step S300), and predicts whether or not wireless communication between the mobile phone 130 and the base station 120 is possible based on the prediction data 118a. (Step S302). When it is predicted that wireless communication is possible (Y in step S302), it is further determined whether or not the wireless communication available time is shorter than the shortest call time (step S304). When it is predicted that the wireless communication is impossible (N in step S302), the call restricting unit 115c repeats the operation from step S300 again to acquire the prediction data 118a.
[0083]
Next, when it is determined in step S304 that the wireless communication available time is shorter than the shortest call time (Y in step S304), the call control unit 115c acquires the detection position information included in the predicted material data, and detects the detection position information. By reading the communication level corresponding to the position indicated by the position information from the communication status data 117a, the communication level at the local point of the mobile phone 130 is obtained (step S306). Then, the call restricting unit 115c determines whether or not the mobile phone 130 is currently capable of wireless communication based on the communication level (step S310). Here, when it is determined that wireless communication is possible (Y in step S310), the call restricting unit 115c outputs a restriction signal to invalidate the outgoing / incoming call of the mobile phone 130 (step S312). When it is determined (N in step S310), the latest prediction data 118a is obtained again, and the operation from step S306 is repeated. When it is determined in step S304 that the communicable time is equal to or longer than the shortest call time (N in step S304), the call control unit 115c maintains the output stop state of the control signal, and makes the mobile phone 130 make and receive calls. Valid (step S308).
[0084]
Then, after step S312, that is, when the restriction signal is being output, the call restriction unit 115c determines whether or not the server control unit 111 has received the outgoing operation signal or the incoming notification signal based on the notification from the server control unit 111. Is determined (step S314). When the call control unit 115c determines that the call control signal or the incoming call notification signal has been received by the server control unit 111 (Y in step S314), the call control unit 115c outputs a call control notification signal or an incoming call control notification signal. Then, the user of the mobile phone 130 and the users of the telephones 140a to 140c that have transmitted the incoming call notification signal are notified that the transmission or the reception of the mobile phone 130 is regulated as described above (step S316).
[0085]
Next, after step S316, or when it is determined in step S314 that the outgoing call operation signal or the incoming call notification signal has not been received (N in step S314), the call restricting unit 115c again communicates with the local mobile phone 130. The level is acquired (step S318), and it is determined whether or not the mobile phone 130 is currently unable to perform wireless communication based on the communication level (step S320). Here, when it is determined that the wireless communication is not possible at present (Y in step S320), the call restriction unit 115c stops the restriction signal output from step S312 and invalidates the outgoing / incoming call of the mobile phone 130. Release (step S322). When it is determined that wireless communication is currently possible (N in step S320), the call restricting unit 115c repeats the operation from step S314 again.
[0086]
FIG. 11A is a screen display diagram showing an example of a screen displayed on the display unit 131 when notifying the user of the mobile phone 130 that the call restricting unit 115c is outgoing call restriction in step S316.
[0087]
As shown in FIG. 11A, the display unit 131 displays a message such as "Cannot make a call due to poor communication status after a while", a message "Predicted call possible time 1 minute", and a message "Regulation". Please press 1 to cancel. "
[0088]
These messages are displayed when the control unit 132 of the mobile phone 130 controls the display unit 131 based on the transmission restriction notification signal. That is, the call restricting unit 115c determines, based on the wireless communicable time determined in step S304 and the time from when it is determined that wireless communication is possible in step S310 to when a call operation signal is received in step S314. The talkable time is calculated, and information indicating the expected talkable time is included in the transmission restriction notification signal. As a result, a message of "estimated call duration 1 minute" is displayed on the display unit 131 of the mobile phone 130. For example, if it is determined in step S304 that the wireless communication available time is 2 minutes, and if the time from the determination in step S310 that wireless communication is available to the reception of the call operation signal in step S314 is 1 minute, Is displayed as "predicted callable time 1 minute" as shown in FIG. If the time from when the wireless communication is determined to be possible in step S310 to when the transmission operation signal is received in step S314 is 1.5 minutes, "predicted callable time 30 seconds" is displayed.
[0089]
Here, when the user of the mobile phone 130 sees a message such as “Press 1 to release the restriction” and presses the button “1” of the operation unit 134, the control unit 132 of the mobile phone 130 releases the restriction. Signal is transmitted from the modem 135 to the server 110. Then, upon receiving the release signal via the communication unit 113 and the server control unit 111, the call restriction unit 115c stops outputting the restriction signal. As a result, since the output of the restriction signal is stopped, the server control unit 111 treats the transmission operation signal from the mobile phone 130 as valid, and the transmission restriction of the mobile phone 130 is released.
[0090]
FIG. 11B is a screen display diagram illustrating an example of a screen displayed on the display unit 131 when the call restricting unit 115c notifies the user of the mobile phone 130 that the incoming call restriction is restricted in step S316.
[0091]
As shown in FIG. 11B, the display unit 131 displays a message such as "There is an incoming call, but it will not be possible to answer the call after a while," and a message such as "Predicted call possible time 1 minute." And a message such as "Press 2 to release regulation" is displayed.
[0092]
These messages are displayed when the control unit 132 of the mobile phone 130 controls the display unit 131 based on the incoming call restriction signal. That is, the call restricting unit 115c performs the call based on the wireless communication available time determined in step S304 and the time from when it is determined that wireless communication is possible in step S310 to when the incoming call notification signal is received in step S314. The possible time is calculated, and information indicating the expected call possible time is included in the incoming call restriction notification signal. As a result, a message of "estimated call duration 1 minute" is displayed on the display unit 131 of the mobile phone 130.
[0093]
Here, when the user of the mobile phone 130 sees the message “Press 2 to release the restriction” and presses the button “2” of the operation unit 134, the control unit 132 of the mobile phone 130 releases the restriction. Signal is transmitted from the modem 135 to the server 110. Then, upon receiving the release signal via the communication unit 113 and the server control unit 111, the call restriction unit 115c stops outputting the restriction signal. As a result, since the output of the restriction signal is stopped, the server control unit 111 treats the incoming notification signal from the telephones 140a to 140c as valid, and the restriction on the incoming of the mobile phone 130 is released.
[0094]
Such a characteristic operation of communication system 100 in the present embodiment will be described with reference to FIG.
FIG. 12 is a sequence diagram illustrating a characteristic operation of the communication system 100 in a process in which a car brought in by the mobile phone 130 passes through a place with a good or bad communication condition.
[0095]
First, when the car is traveling in a place with good communication conditions, the mobile phone 130 transmits a call operation signal to the server 110 via the base station 120 in response to an operation from the user, and connects to the telephone 140a. (Step S400).
[0096]
The server 110 notifies the telephone 140a indicated by the outgoing operation signal that there is an incoming call from the mobile phone 130 (step S402), and as a result, the telephone 140a sounds a ringtone (step S404). When the user of the telephone 140a hears the ringing tone and turns off the telephone 140a in order to answer, the mobile phone 130 and the telephone 140a are in a state in which a call can be made. The user starts a call (step S406).
[0097]
In addition, the mobile phone 130 always creates the latest predicted material data and transmits it to the server 110. When the server 110 receives the predicted material data, the server 110 performs a prediction based on the predicted material data, and Is updated based on the prediction data 118a.
[0098]
Next, when the car approaches a place with poor communication conditions such as a tunnel, the server 110 predicts that wireless communication will be disconnected after a predetermined time based on the prediction data 118a (step S412). By transmitting the notification data, the callable time is notified to the users of the mobile phone 130 and the telephone 140a (step S414). When the server 110 predicts that communication is possible again after the disconnection of the wireless communication based on the prediction data 118a (step S416), the server 110 also transmits reconnection notification data to the mobile phone 130 and the telephone 140a, and determines the time required for reconnection. The user of the mobile phone 130 and the telephone 140a is notified.
[0099]
Further, when the vehicle approaches the tunnel, the server 110 determines that the communication unavailable time due to the tunnel is shorter than the maximum hold time based on the prediction data 118a (step S420), and ends the call to the user of the mobile phone 130. And instruct the mobile phone 130 to automatically end the communication (step S422). As a result, the mobile phone 130 ends the communication normally without any operation from the user (step S424).
[0100]
Then, when the car enters the tunnel, server 110 maintains the connection with telephone set 140a and puts telephone set 140a on hold (step S428).
Thereafter, when the car exits the tunnel and exits to a location with good communication conditions, server 110 reconnects the line with mobile phone 130 (step S430), and allows communication between mobile phone 130 and telephone 140a. (Step S432).
[0101]
Here, when the user of the mobile phone 130 turns off the mobile phone 130 to end the call, the communication between the mobile phone 130 and the telephone 140a is manually ended (step S434).
[0102]
Next, when the car enters the tunnel again, the mobile phone 130 is in a state where wireless communication is impossible. When the vehicle approaches the end of the tunnel, the portable device predicts that wireless communication will be enabled after a while based on the prediction data 118a. The mobile phone 130 predicts that the wireless communication available time is shorter than the shortest talk time (step S436).
[0103]
Then, when the car exits the tunnel and exits to a place with good communication conditions before entering the another tunnel, the server 110 regulates the transmission and reception of the mobile phone 130 (step S438). Thereby, the user can avoid the annoyance felt by the user without making a call that would be interrupted immediately.
[0104]
Thereafter, when the car enters another tunnel as described above, the server 110 again determines that the car is located in a place with poor communication conditions, and releases the restriction on the mobile phone 130 as described above (step S440). .
[0105]
Thereby, in communication system 100 in the present embodiment, even if the communication status changes due to movement, it is possible to reduce the annoyance felt by the user of mobile phone 130 and the other party of the call.
[0106]
Further, in the present embodiment, by providing the server 110 with the map storage unit 116 and the communication status storage unit 117, the server 110 can collectively manage the map data 116a and the communication status data 117a. That is, when the map storage unit 116 and the communication status storage unit 117 are provided in the mobile phone 130, the user of the mobile phone 130 manages the map data 116a and the communication status data 117a, and it is necessary to change both of these data. Sometimes, the user has to make the change, but in the present embodiment, since both data are collectively managed by the server 110 as described above, the trouble of the user of the mobile phone 130 can be saved.
[0107]
Further, in the present embodiment, an example has been described in which mobile phone 130 is brought into a car and moves with the car. However, when the user carries mobile phone 130, mobile phone 130 moves with the user. It goes without saying that even in such a case, the same operation and effect as described above can be obtained.
[0108]
(Modification)
Next, a modified example of the communication system according to the present embodiment will be described.
[0109]
The communication system according to this modification includes a plurality of mobile phones as mobile communication devices.
FIG. 13 is a system configuration diagram illustrating a configuration of a communication system according to a modification.
[0110]
As shown in FIG. 13, the communication system includes a mobile phone A 130a and a mobile phone B 130b, a server 160, base stations 120 and 121, a communication network 150, and three telephones 140a to 140c. .
[0111]
Each of the mobile phone A 130a and the mobile phone B 130b has the same function and configuration as the mobile phone 130 of the present embodiment. Although the server 160 has the same configuration as the server 110 of the above embodiment, the operations of the prediction unit and the prediction processing unit of the server 160 are different from the operations of the prediction unit and the prediction processing unit of the server 110.
[0112]
The prediction unit of the server 160 creates prediction data for the mobile phone A 130a and prediction data for the mobile phone B 130b based on respective prediction material data from the mobile phones A 130a and B 130b, and generates these prediction data. It is stored in the prediction data storage unit.
[0113]
Then, the time notification unit, the connection unit, and the call restriction unit of the prediction processing unit of the server 160 predict whether or not a communication line can be connected between the mobile phone A 130a and the mobile phone B 130b based on the prediction data. . In other words, the time notification unit, the connection unit, and the call restriction unit have a high communication level in both the mobile phone A130a and the mobile phone B130b, and only when the mobile phone A130a and the mobile phone It is determined that communication with B130b is possible. Therefore, for example, at the time when only the mobile phone A 130a is expected to be able to perform wireless communication and the mobile phone B 130b is expected to be unable to perform wireless communication, each of the time notification unit, the connection unit, and the call restriction unit is connected to the mobile phone A 130a. It is determined that communication with telephone B 130b is impossible.
[0114]
FIG. 14 is an explanatory diagram for describing a method of estimating a call available time and a reconnection required time performed by the time notification unit of the server 160.
Based on the prediction data, the time notification unit determines that the mobile phone A130a can perform wireless communication between times t1 and t3, cannot perform wireless communication between times t3 and t4, and can perform wireless communication after time t4. Anticipate. Further, based on the prediction data, the time notification unit allows the mobile phone B130b to perform wireless communication between times t1 and t2, disable wireless communication between times t2 and t5, and perform wireless communication after time t5. I expect it to be.
[0115]
As a result, the time notification unit indicates that communication between mobile phone A 130a and mobile phone B 130b is possible between times t1 and t2, impossible between times t2 and t5, and possible after time t5. to decide. Then, the time notifying unit predicts the time from time t1 to t2 as the talkable time, and predicts the time from time t1 to t5 as the reconnection required time.
[0116]
Thus, in the present modification, it is accurately determined whether or not communication between mobile phones is possible.
As described above, the communication device according to the present invention has been described using the present embodiment and the modifications, but the present invention is not limited to these.
[0117]
For example, in the present embodiment, the position information is registered in the communication status data 117a using longitude and latitude, but may be registered using other expressions such as an address. Further, the communication level is evaluated and registered in the communication status data 117a in 10 steps. However, a time average value of the radio field intensity may be used without using the 10-step evaluation, and other expression methods may be used. good.
[0118]
Further, in the present embodiment, the time notification unit 115a, the connection unit 115b, and the call restriction unit 115c of the prediction processing unit 115 each perform communication when the communication level becomes "1" and the communication condition becomes poor and the line is disconnected. When the communication level is “2” or more, it is determined that the line can be connected. However, the threshold value of such a communication level may be other than “1”. Further, the threshold value may be changed according to the operation of the operation unit 134 of the mobile phone 130 by the user. In this case, the mobile phone 130 transmits the reference information indicating the threshold, and when the prediction processing unit 115 of the server 110 acquires the reference information, the prediction processing unit 115 based on the threshold indicated in the reference information. It is determined whether line connection is possible. Further, the maximum hold time and the shortest call time may be changed in accordance with the operation of the operation unit 134 of the mobile phone 130 by the user. In this case, as described above, the mobile phone 130 transmits a time setting signal indicating the maximum hold time and the shortest call time, and the connection unit 115b and the call control unit 115c of the prediction processing unit 115 of the server 110 When the time setting signal is obtained, the maximum hold time and the shortest talk time indicated in the time setting signal are used.
[0119]
Further, in the present embodiment, the map storage unit 116, the navigation unit 119, the communication status storage unit 117, and the road information acquisition unit 112 are provided in the server 110, but all or any of these is stored in the mobile phone 130. You may have. In this case, the user of the mobile phone 130 can easily modify or update the map data 116a of the map storage unit 116, the communication status data 117a of the communication status storage unit 117, and the like.
[0120]
Alternatively, in the present embodiment, the navigation unit 119, the road information acquisition unit 112, the prediction unit 114, and the prediction processing unit 115 are provided in the server 110, but these may be provided in the mobile phone 130. In this case, while the map data 116a and the communication status data 117a can be collectively managed by the server 110, the mobile phone 130 can predict the navigation and the communication level. Alternatively, the mobile phone 130 may be caused to estimate its own position after a predetermined time, and the server 110 may be caused to estimate the communication level at the estimated position.
[0121]
Further, in the present embodiment, although the speed limit information is included in the map data 116a, the average action information may be included. The average behavior information indicates an average speed of the mobile phone 130 on each road shown on the map data 116a and an average direction in which the mobile phone 130 moves. That is, the prediction unit 114 uses the average behavior information when estimating the position of the mobile phone 130 after a predetermined time. Accordingly, the prediction unit 114 can more accurately estimate the position of the mobile phone 130.
[0122]
Further, the server control unit 111 may automatically update the average behavior information. That is, the server control unit 111 averages the moving speed and moving direction of the mobile phone 130 at a predetermined position using the detected position information, the speed information, and the direction information included in the predicted material data transmitted from the mobile phone 130. , And reflect the result in the average behavior information. Accordingly, the prediction unit 114 can more accurately estimate the position of the mobile phone 130, and can save time and effort for updating the average speed information.
[0123]
Further, the server control unit 111 may automatically update the communication status data 117a. That is, the server control unit 111 measures the radio field intensity of the predicted material data transmitted from the mobile phone 130 to the base station 120, and reflects the measurement result on the communication level of the communication status data 117a. Accordingly, the prediction unit 114 can more accurately predict the communication level of the mobile phone 130, and can save time and effort for updating the communication status data 117a.
[0124]
In the present embodiment, the mobile phone 130 is provided as a mobile communication device. However, the mobile phone 130 may be configured as a hands-free device or a vehicle-mounted phone device. In this case, since the mobile communication device is mounted on an automobile, no problem occurs even if the mobile communication device is increased in size by providing the map storage unit 116 or the like in the mobile communication device as described above. If a car navigation system terminal (hereinafter referred to as “car navigation”) is provided in the automobile, the function of the car navigation may be used. In this case, the navigation unit 119 and the map storage unit 116 can be omitted from the server 110, and the size of the server 110 can be reduced. Further, if there is a device for acquiring traffic road information in the automobile, the device may be used. In this case, the road information acquisition unit 112 can be omitted from the server 110, and the size of the server 110 can be further reduced.
[0125]
Also, in the present embodiment, the direction detecting unit 133b detects the moving direction of the mobile phone 130 based on the detected position information. The moving direction of the mobile phone 130 may be detected based on the result. Furthermore, in the present embodiment, the speed detector 133c detects the moving speed of the mobile phone 130 based on the detected position information. However, when the mobile phone 130 is mounted on a car, the speed detector 133c notifies the speed detector 133c of the car. May be detected, and this traveling speed may be recognized as the traveling speed of the mobile phone 130.
[0126]
Further, in the present embodiment, the communication unit 200 automatically terminates communication before the communication device 200 enters a place where communication is poor, but the connection unit 115b of the prediction processing unit 115 enters the place where communication is poor. Automatic termination may be performed later. Further, in the present embodiment, reconnection section 115b performs reconnection from server 110 to mobile phone 130, but may perform reconnection from mobile phone 130 to server 110.
[0127]
And although one server 110 and one base station 120 are provided in the present embodiment, a plurality of servers may be provided. That is, the base stations 120 are scattered all over the country, and the server 110 is provided for each of the base stations 120. Thereby, the load on the server 110 can be reduced. The base station 120 may have the function and configuration of the server 110.
[0128]
【The invention's effect】
As is clear from the above description, according to the communication system according to the present invention, the wireless communication state of the mobile communication device is predicted, and the communication between the mobile communication device and another communication device due to the deterioration of the wireless communication condition. Since a countermeasure process for disconnection of communication between the mobile communication devices is performed, even in a situation in which the mobile communication device is moved through a place having poor communication conditions such as a tunnel or a mountainous area, the user of the mobile communication device can perform the above-described operation. It is possible to reduce the annoyance felt by the user without requiring an operation for the situation conversion.
[Brief description of the drawings]
FIG. 1 is a configuration diagram showing a configuration of a communication system according to an embodiment of the present invention.
FIG. 2 is a block diagram showing an internal configuration of a server and a mobile phone of the communication system.
FIG. 3 is a data content display diagram showing the content of communication status data according to the first embodiment;
FIG. 4 is an explanatory diagram for explaining a method of estimating the position of the mobile phone after a predetermined time by the prediction unit according to the first embodiment.
FIG. 5 is an explanatory diagram for explaining a method of estimating the position of the mobile phone after a predetermined time from the search route according to the first embodiment.
FIG. 6 is a data content display diagram showing the content of prediction data according to the embodiment.
FIG. 7 is an operation flow chart showing a series of operations of the time notification unit of the above.
FIG. 8 is an operation flowchart showing a series of operations of the connection unit of the above.
FIG. 9 is an explanatory diagram for explaining a state in which the automobile carried by the mobile phone travels through two tunnels.
FIG. 10 is an operation flowchart showing an example of the operation of the above-described call restricting unit.
FIG. 11 is a screen display diagram showing an example of a screen displayed on the display unit of the above.
FIG. 12 is a sequence diagram showing a characteristic operation of the above communication system.
FIG. 13 is a system configuration diagram showing a configuration of a communication system according to a modification of the above embodiment.
FIG. 14 is an explanatory diagram for describing a method of estimating a call available time and a reconnection required time performed by a time notification unit according to the modification of the above.
FIG. 15 is a configuration diagram showing a configuration of a mobile communication device of a conventional communication system.
[Explanation of symbols]
100 communication system
110 server
111 Server control unit
112 Road information acquisition unit
113 communication unit
114 Prediction unit
115 prediction processing unit
115a Time notification unit
115b connection
115c Call Control Department
116 Map storage unit
116a Map data
117 Communication status storage
117a Communication status data
118 prediction data storage
118a Forecast data
119 Navigation Department
120 base stations
130 mobile phone
131 Display
132 control unit
133a position detection unit
133b direction detector
133c speed detector
134 Operation unit
135 modem
136 Codec section
137 Speaker
138 microphone
140a-140b telephone
150 communication network

Claims (27)

A communication system that causes a mobile communication device to communicate with another communication device via a wireless communication medium,
The mobile communication device performing wireless communication,
Position detection means for detecting the position of the mobile communication device,
Communication status holding means for holding communication status data having contents indicating the wireless communication status of each position,
Prediction means for estimating the position of the mobile communication device after a predetermined time based on the position detected by the position detection means, and predicting a wireless communication state at the position with reference to the communication state data,
A communication system, comprising: a processing unit that performs a countermeasure process for disconnection of communication between the mobile communication device and another communication device due to deterioration of a wireless communication condition based on a prediction result of the prediction unit. The prediction means includes:
The position detected by the position detecting means, the moving direction of the mobile communication device specified from the time change of the position, and the moving speed of the mobile communication device specified from the time change of the position. 2. The communication system according to claim 1, wherein a position of the mobile communication device after a predetermined time is estimated based on the information. The communication system further comprises:
Direction detecting means for detecting a moving direction of the mobile communication device,
Speed detecting means for detecting a moving speed of the mobile communication device,
The prediction means includes:
Estimating the position of the mobile communication device after a predetermined time based on the position detected by the position detecting unit, the moving direction detected by the direction detecting unit, and the moving speed detected by the speed detecting unit. The communication system according to claim 1, wherein the communication is performed. The processing means includes:
4. The mobile communication device according to claim 1, wherein when the communication between the mobile communication device and the communication device is predicted to be impossible based on a result of the prediction by the prediction unit, the communication is terminated by the mobile communication device. The communication system according to claim 1. The communication system further comprises:
A relay unit that relays a signal transmitted and received between the mobile communication device and the communication device,
The processing means includes:
The wireless communication status of the position detected by the position detection means, specified with reference to the communication status data,
When it is determined that the communication performed between the mobile communication device and the relay unit has been disabled based on the specified wireless communication status,
The communication system according to claim 1, wherein communication between the relay unit and the communication device is maintained, and the communication device is put on hold. The processing means includes:
Based on the result of the prediction by the prediction unit, when it is predicted that the communication performed between the mobile communication device and the other communication device becomes impossible, the time during which the communication is disabled is equal to or less than a predetermined maximum hold time. Judge
6. The communication device according to claim 5, wherein when it is determined that the communication time is equal to or less than the maximum hold time, the communication device is set to a hold state while communication is disabled, and when it is determined that the communication device is longer than the maximum hold time, the communication of the communication device is terminated. A communication system as described. The mobile communication device,
Transmit a time setting signal of the content indicating the maximum hold time,
The processing means includes:
The communication system according to claim 6, wherein a maximum hold time indicated by the time setting signal transmitted from the mobile communication device is used. The processing means includes:
The wireless communication status of the position detected by the position detection means, specified with reference to the communication status data,
The method according to claim 1, wherein when it is determined that the disconnected communication between the mobile communication device and another communication device can be reconnected based on the specified wireless communication condition, the reconnection is performed. The communication system according to any one of claims 1 to 7. The processing means includes:
Based on the result of the prediction by the prediction unit, when it is predicted that the communication being performed between the mobile communication device and the communication device becomes impossible, an end notification signal of a content notifying that the communication is to end, Transmitting to the mobile communication device and the communication device communicating therewith,
The mobile communication device and the communication device, upon acquiring the end notification signal, notify each user in advance that communication is to be ended, according to any one of claims 1 to 8, wherein A communication system as described. The processing means includes:
When it is predicted that communication performed between the mobile communication device and the communication device becomes impossible after a predetermined time based on a result of the prediction by the prediction unit, a communication time for notifying a communicable communication time. A notification signal is transmitted to the mobile communication device and the communication device,
The communication according to any one of claims 1 to 9, wherein the mobile communication device and the communication device, when acquiring the communication time notification signal, notify the user of the communication time. system. The processing means includes:
Based on the prediction result by the prediction unit, when it is predicted that the communication performed between the mobile communication device and the communication device becomes possible again after the communication becomes impossible,
A reconnection time notification signal of the content of notifying the reconnection time required until reconnection is possible, is transmitted to the mobile communication device and the communication device,
11. The mobile communication device and the communication device, when acquiring the reconnection time notification signal, notify the user of the reconnection time. 11. Communication system. The communication system according to any one of claims 9 to 11, wherein the mobile communication device performs the notification to a user by displaying at least one of a character and a graphic. The communication system according to claim 9, wherein the mobile communication device and the communication device perform the notification by voice. The processing means includes:
When it is predicted that the communication between the mobile communication device and the communication device will change from a state where communication is not possible to a state where the communication is possible based on the prediction result by the prediction unit, the communicable time is further reduced to a predetermined minimum. Judge whether it is shorter than the communication time,
14. The communication system according to claim 1, wherein when it is determined that the mobile communication device is short, transmission and reception of the mobile communication device are restricted. The mobile communication device,
Transmit a time setting signal of the content indicating the shortest communication time,
The processing means includes:
The communication system according to claim 14, wherein a shortest communication time indicated by the time setting signal transmitted from the mobile communication device is used. The prediction means includes:
From the navigation means for guiding the user of the mobile communication device to the destination, when obtaining route information indicating a route to the destination,
16. The mobile communication device according to claim 1, wherein a position of the mobile communication device after a predetermined time is estimated based on the position detected by the position detection unit and a route indicated by the route information. A communication system according to claim 1. The prediction means includes:
When traffic road information indicating the degree of inclusion of each road is obtained,
17. The communication system according to claim 16, wherein a moving speed of the mobile communication device is specified according to the content of the traffic road information, and a position of the mobile communication device after a predetermined time is estimated. The prediction means includes:
When speed limit information indicating the speed limit of each road is obtained,
18. The communication system according to claim 16, wherein a moving speed of the mobile communication device is specified according to the content of the speed limit information, and a position of the mobile communication device after a predetermined time is estimated. The communication system further comprises:
Based on the position detected by the position detecting means, specifying means for specifying an average moving speed and moving direction of the mobile communication device at a predetermined position,
Holding means for holding the result specified by the specifying means as average behavior information,
The prediction means includes:
The moving speed and the moving direction of the mobile communication device are specified according to the content of the average behavior information, and the position of the mobile communication device after a predetermined time is estimated. The communication system according to item 9. The communication system further comprises:
Measuring means for measuring the signal strength of a radio signal transmitted from the mobile communication device,
20. The communication system according to any one of claims 1 to 19, further comprising: updating means for updating the content of the communication status data based on the measurement result. The mobile communication device,
From the wireless communication state predicted by the prediction means, transmits reference information indicating a reference for determining whether communication between the mobile communication device and the communication device is possible,
The processing means includes:
The communication according to any one of claims 1 to 20, wherein when the reference information is acquired from the mobile communication device, whether communication is possible is determined based on a reference indicated in the reference information. system. The communication device is a mobile device that performs wireless communication,
The prediction unit estimates a position after a predetermined time of the mobile communication device and the communication device, and predicts a wireless communication state at each of the positions,
The processing means includes:
Based on the prediction result by the prediction unit, it is predicted that communication between the mobile communication device and the communication device is possible only when the mobile communication device and the communication device can simultaneously perform wireless communication. The communication system according to any one of claims 1 to 21, characterized in that: 23. The communication system according to claim 1, wherein the mobile communication device is a mobile phone, a hands-free device, or a vehicle-mounted phone. A communication method for causing a mobile communication device to perform communication with another communication device via a wireless communication medium,
A position detection step of detecting a position of the mobile communication device performing wireless communication,
Based on the position detected in the position detecting step, the position of the mobile communication device after a predetermined time is estimated, and the wireless communication state at the position is referred to the communication state data indicating the wireless communication state at each position. A prediction step to predict
A communication method comprising: performing a countermeasure process for disconnection of communication between the mobile communication device and another communication device due to deterioration of a wireless communication condition based on a prediction result in the prediction step. . In the processing step,
25. The mobile communication device according to claim 24, wherein when it is predicted that communication between the mobile communication device and the communication device becomes impossible based on the prediction result in the prediction step, the mobile communication device ends the communication. Communication method. The processing step includes:
A specifying sub-step of specifying the wireless communication status of the position detected in the position detecting step with reference to the communication status data,
Based on the wireless communication status specified in the specifying sub-step, based on the determination sub-step to determine whether the communication between the mobile communication device and the communication device has become impossible,
When it is determined in the determination sub-step that communication has become impossible, a suspension sub-step of maintaining communication between the relay unit and the communication device and putting the communication device in a hold state is included. The communication method according to claim 24 or 25, wherein A program that causes a computer to execute steps included in the communication method according to claim 24.

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