JP2005033235A - Communication method, communication system, terminal, and information processing apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a communication method and a communication system capable of continuing information processing even on the occurrence of a deficient capacity of a battery during communication and to provide a terminal and an information processing apparatus employed for them. <P>SOLUTION: The communication system is provided with a personal computer 50 and a plurality of mobile phones 10 making communication processing with a communication network by the operation of the personal computer. Each mobile phone 10 is provided with: a transmission / reception section 19 for making communication with the communication network; a battery capacity detection means 2 for detecting the capacity of a secondary battery 11; and a data communication section 37 for transmitting notice information 7 on the basis of the battery capacity to the personal computer 50. The personal computer 50 is provided with: a data communication section 57 for receiving the notice information 7; and a connection switching section 63 for switching communication from a mobile phone 10a during communication to the other communication terminal 10b on the basis of the notice information 7. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a communication method for performing communication with a plurality of communication devices, a communication system, a terminal used therefor, and an information processing apparatus.
[0002]
[Prior art]
In recent years, with the development of wireless communication technology, it has become easy to perform processing such as remotely operating functions of a partner terminal connected by wireless communication (for example, Patent Document 1). For example, even if a small electric device without a function such as the Internet has a wireless communication technology, it can be connected to a nearby mobile phone with the same wireless communication technology to By using it, it is possible to connect to the Internet. This is possible even if it is wired, but it is convenient because the process can be performed even if the mobile phone is in the bag or not taken out from the bag if it is wireless. .
[0003]
Since the mobile phone is driven by a battery, the processing cannot be continued if the battery capacity is insufficient. If the mobile phone is used while it is in the bag, the processing may be interrupted suddenly without realizing that the battery capacity is insufficient. However, it is troublesome to take out the mobile phone and check the battery capacity every time it is used.
[0004]
Also, if you are carrying out a very important process, even if you are unable to continue the process due to a battery shortage of the mobile phone, for example, if you have multiple kitchens or if you have a mobile phone If there is a person, the process can be performed again by another mobile phone. However, it takes time and effort to resume.
[0005]
[Patent Document 1]
JP 2002-290509 A
[0006]
[Problems to be solved by the invention]
As described above, the conventional communication system has a problem that the communication process cannot be continued when the battery capacity of the mobile phone in communication is insufficient.
[0007]
The present invention has been made in order to solve such a problem. A communication method, a communication system, and a communication method capable of continuing information processing even when a battery capacity shortage occurs in a terminal being processed An object is to provide a terminal and an information processing apparatus to be used.
[0008]
[Means for Solving the Problems]
A communication method according to the present invention is a communication method in which communication is performed between an information processing device and a terminal, and the terminal performs information processing based on an operation of the information processing device, wherein the terminal is connected to the information processing device. Detecting the capacity of the battery that drives the communication terminal during communication, transmitting notification information based on the battery capacity detected by the terminal to the information processing apparatus, and Based on the information, there is a step of switching communication with the terminal to communication with another terminal. As a result, communication can be continued without interruption even if the remaining battery level is low.
A preferred embodiment of the communication method described above is characterized in that the terminal is a terminal that communicates with a communication network.
[0009]
In the communication method described above, it is desirable that communication with the communication network in the terminal and communication with the information processing apparatus are performed by different communication means. As a result, communication can be performed without affecting communication with the communication network.
[0010]
In the communication method described above, the notification information may be transmitted to the information processing apparatus when the remaining battery capacity falls below a certain value. Thereby, it is possible to reduce the influence on the communication with the communication network.
[0011]
In the communication method described above, it is preferable that the information processing apparatus includes a step of acquiring authentication information of the terminal and another terminal switched from the terminal before starting communication with the terminal. As a result, it is possible to immediately connect to another terminal when switching communication.
[0012]
A communication system according to the present invention communicates with an information processing apparatus (for example, the personal computer device 50 according to an embodiment of the present invention) and the information processing apparatus, and a plurality of terminals that perform processing based on operations of the information processing apparatus (For example, the mobile phone 10 according to the embodiment of the present invention), wherein the terminal is a battery that drives the terminal (for example, the secondary battery 11 according to the embodiment of the present invention). The battery capacity detecting means for detecting the capacity of the battery (for example, the battery capacity detecting unit 2 in the embodiment of the present invention) communicates with the information processing apparatus, and notification information based on the capacity of the battery (for example, A first communication means (for example, the data communication unit 37 in the embodiment of the present invention) for transmitting the notification information 7) in the embodiment of the present invention to the information processing apparatus, However, the communication means for communicating with the terminal and receiving the notification information (for example, the data communication unit 57 in the embodiment of the present invention) and other communication with the communication terminal based on the notification information. A connection switching unit (for example, the connection switching unit 63 in the embodiment of the present invention) that switches to communication with the other terminal. As a result, communication can be continued without interruption even if the remaining battery level is low.
A preferred embodiment of the above-described communication system is characterized in that the terminal includes a second communication means for communicating with a communication network.
[0013]
In a preferred embodiment of the present invention, in the communication system described above, the communicable distance of the first communication unit is shorter than the communicable distance of the second communication unit. As a result, even an information processing apparatus having a short communicable distance can communicate with an external communication network such as the Internet via a terminal.
[0014]
A terminal according to the present invention includes a first communication unit that communicates with an information processing device, and is a terminal that processes information by an operation in the information processing device, the battery driving the terminal, and the battery Battery capacity detection means for detecting the capacity of the battery, and notification information based on the battery capacity detected by the battery capacity detection means is transmitted to the information processing apparatus by the first communication means. As a result, communication can be continued without interruption even if the remaining battery level is low.
A preferred embodiment of the above-mentioned terminal comprises a second communication means connectable to a communication network,
Communication with the communication network is performed by an operation in the information processing apparatus.
[0015]
An information processing apparatus according to the present invention is an information processing apparatus that communicates with a terminal and causes the terminal to process information. An operation unit that inputs information for communication (for example, in the embodiment of the present invention) Operation unit 55), communication means for communicating with the communication terminal based on information input to the operation unit (for example, the data communication unit 57 in the embodiment of the present invention), and a communication result with the terminal The display unit (for example, the display unit 56 in the embodiment of the present invention) and the communication means received on the basis of the notification information based on the battery capacity of the terminal, Connection switching means for switching to communication with another terminal (for example, connection switching unit 63 in the embodiment of the present invention) is provided. As a result, communication can be continued without interruption even if the remaining battery level is low.
[0016]
DETAILED DESCRIPTION OF THE INVENTION
Embodiment 1 of the Invention
Embodiments of the present invention will be described below with reference to the drawings. The following description shows preferred embodiments of the present invention, and the scope of the present invention is not limited to the following embodiments. In the following description, the same reference numerals denote the same contents.
FIG. 1 is an exploded perspective view showing configurations of a mobile phone and a personal computer device according to the present invention. 10 is a mobile phone, 11 is a secondary battery, and 12 is a body case. 13 is a display screen, 14 is a speaker, 15 is a display unit, 16 is an electronic circuit, 17 is an operation unit, 18 is a battery case, 27 is a connector, 31 is a storage circuit, 33 is a keyboard, 34 is a microphone, 35 is an electrode, 36 is a battery pack, and 37 is a data communication unit on the mobile phone side. 50 is a personal computer device, 51 is a main body case, 52 is a display unit, 53 is a touch panel, 54 is a push button switch, and 55 is an operation unit.
[0017]
As shown in FIG. 1, the mobile phone 10 has an operation including a display unit 15 having a display screen 13 such as a liquid crystal display device and a speaker 14 and a keyboard 33 and a microphone 34 on the front side of a flat box-shaped main body case 12. A portion 17 is provided. At the time of standby, the time, the standby screen, etc. are displayed on the display screen 13, and at the time of a call, the telephone number of the other party and the call time are displayed on the display screen 13. The speaker 14 generates a ring tone or a call tone and notifies the operator. The keyboard 33 has a plurality of key buttons for inputting numbers, characters, etc., and operating the keyboard 33 causes the mobile phone 10 to perform a predetermined operation. A recess is formed on the back side of the main body case 12, and a battery pack 36 containing the secondary battery 11 in the battery case 18 can be detachably attached to the recess. In addition, the electronic circuit 16 is housed in the main body case 12 in a distributed manner. The electronic circuit 16 performs control such as voice processing for communicating with other telephones, communication processing with the base station, input of operation information, and screen display. For example, during a call, the electronic circuit 16 transmits data based on the sound input to the microphone 34 and outputs sound from the speaker 14 based on the data received from the call destination. Alternatively, processing is performed based on information input from the keyboard 33, and the result is displayed on the display screen 13 and output. A connector 27 is provided on the side surface of the main body case 12. The connector 27 is electrically connected to the electrode 35 of the battery pack 36 and can be charged with the battery pack 36 attached. The secondary battery 11 of the battery pack 36 supplies power to the display unit 15, the electronic circuit 16, and the like. In the battery pack 36, there are provided a data communication unit 37 that transmits to the personal computer device 50 and a storage circuit 31 that stores battery characteristics necessary for obtaining the remaining battery capacity.
[0018]
The personal computer device 50 is a pocket-type personal computer device, and a display unit 52 such as a liquid crystal display device is provided in the center of the front side of a main body case 51 that is portable and has a box shape. A touch panel 53 that covers the entire surface of the display unit 52 is provided. A push button switch 54 is provided below the display unit 52. The touch panel 53 and the push button switch 54 constitute an operation unit 55, and information is input to the personal computer device 50 by operation of the operation unit 55. The main body case 51 has a control unit that operates by a microprocessor, performs processing based on the operation of the operation unit 55, and displays the result on the display unit 52. The pocket-type personal computer device 50 is connected to the Internet communication network by using a call function of a mobile phone, and performs transmission / reception of e-mail, search / browsing of a homepage, and the like. The display unit 52 of the personal computer device 50 can display the result. The personal computer device 50 has a larger display screen than the mobile phone 10 and is easy to see, and has high operability input means such as the touch panel 53, so that the operability is high. Convenience and operability can be enhanced by performing input and display on the personal computer device side. These are also driven by a secondary battery (not shown) as in the mobile phone 10.
[0019]
Battery information such as the battery capacity of the mobile phone 10 is wirelessly transmitted as the notification information 7 to the personal computer device 50. The internal configuration of the mobile phone 10 and the personal computer device 50 will be described with reference to FIG. FIG. 2 is a block diagram showing a configuration of the mobile phone and the personal computer device 50. In the present embodiment, the mobile phone 10a and the mobile phone 10b have the same configuration. Communication processing is performed by the mobile phones 10a and 10b and the personal computer device 50, and these constitute a communication system. The personal computer device 50 is initially connected to the Internet by the mobile phone 10a. When it is determined that the remaining battery level of the mobile phone 10a is less than a predetermined value, the connection with the mobile phone 10a is disconnected and the connection with the mobile phone 10b is started.
[0020]
First, the mobile phone 10 will be described. The cellular phone 10 uses the secondary battery 11 as a driving power source. In the following description, the secondary battery 11 is described as being capable of being charged. However, in the case of a primary battery, charging is not possible, and detection of the remaining battery level and others are the same as in the case of the secondary battery 11. . The mobile phone 10 a includes a display unit 15 that is driven by the battery 11, an electronic circuit 16, and an operation unit 17. Since these are the same configurations as those described with reference to FIG. Further, the battery pack 18 includes a battery capacity detection unit 2, a secondary battery 11, a storage circuit 31, and a data communication unit 37. The battery capacity detection unit 2 includes a sensor (not shown) that detects the charging current and discharging current of the battery, a control circuit (not shown) that detects the remaining battery level from the detected current, and the like. The storage circuit 31 stores battery characteristic information necessary for the battery capacity detection unit 2 to detect the remaining battery level. The battery capacity detection unit 2 detects the remaining battery level based on the current detected by the battery capacity detection unit 2 from the battery characteristic information stored in the storage circuit 31. The data communication unit 37 transmits the remaining battery level as notification information 7 to the personal computer device 50.
[0021]
Next, the personal computer device 50 will be described. The personal computer device 50 includes a display unit 52, an operation unit 55, a control unit 56, a data communication unit 57, and a connection switching unit 63. Since the display unit 52 and the operation unit 55 have the same configuration as that described with reference to FIG. The data communication unit 57 performs data communication with the mobile phone 10. The control unit 56 controls processing of the display unit 52, the operation unit 55, and the data communication unit 57. For example, when a homepage browsing operation is performed by the operation unit 55, the control unit 56 sends predetermined data to the mobile phone 10 via the data communication unit 57. The data communication unit 37 of the mobile phone 10 receives this data, and the electronic circuit 16 accesses a specific server on the Internet based on this data and receives the data of the home page. The data on the home page is transmitted to the personal computer device 50 by the data communication unit 37. The home page data is received by the data communication unit 57 of the personal computer device 50, and the control unit 56 causes the display unit 52 to display the home page. Between the personal computer device 50 and the mobile phone 10, data communication is performed in a short-distance wireless state such as Bluetooth (registered trademark) by the data communication unit 37 and the data communication unit 57. The communicable distance is about 10 m, and if the mobile phone 10 and the personal computer device 50 come within this distance, communication becomes possible.
[0022]
Further, the data communication unit 37 transmits the remaining battery level detected by the battery capacity detection unit 2 to the personal computer device 10. When the control unit 56 determines that the remaining battery level of the mobile phone 10a has become a predetermined value or less, the connection switching unit 63 performs switching from the mobile phone 10a to the mobile phone 10b. When the connection is switched from the mobile phone 10a to the mobile phone 10b, the data communication unit 57 disconnects the communication with the data communication unit 37 of the mobile phone 10a and starts the connection with the data communication unit 37 of the mobile phone 10b. . Thereby, even when the secondary battery 11 of the mobile phone 10a runs out of capacity, the connection with the Internet can be continued.
[0023]
Communication in the cellular phone 10 will be described with reference to FIG. FIG. 3 is a block diagram showing the configuration of the mobile phone 10 and the personal computer device. In FIG. 3, for convenience of explanation, one of the two mobile phones 10 is omitted, and one mobile phone 10 and one personal computer device 50 are illustrated. Since the configuration of the personal computer device 50 is the same as that shown in FIG.
[0024]
The electronic circuit 16 provided inside the main body case 12 of the mobile phone 10 is provided with a transmission / reception unit 19, a control unit 20, and a storage unit 21 as hardware. The transmission / reception unit 19 has a basic transmission / reception function as a mobile phone. It communicates with an external base station, and connects with a telephone line via a telephone line network to connect to a telephone call or the Internet network. The communicable distance of the transmission / reception unit 19 is longer than the communicable distance of the data communication unit 37. A server such as an Internet provider is connected to the telephone line network, and the transmission / reception unit 19 accesses a WWW server based on the URL address input by the personal computer device 50 and receives data of this web page. The data communication unit 37 of the mobile phone 10 transmits the data on the home page to the data communication unit 57 of the personal computer device 50. The control unit 56 of the personal computer device 50 displays homepage information on the display unit 52 based on the received data. In this way, the homepage can be browsed. Similarly, the personal computer device 50 remotely controls the mobile phone 10 to send and receive electronic mail. The control unit 20 includes a one-chip microcomputer at the center of control, and controls each function of the mobile phone 10 by a control operation using software stored in the storage unit 21. For example, a predetermined image is displayed on the display unit 15 based on input information from the operation unit 17. Alternatively, data is transmitted / received via the transmission / reception unit 19 in order to make a call with another mobile phone or connect to the Internet.
[0025]
Further, in the battery case 18, a battery remaining amount monitoring unit 22 is provided in addition to the above-described secondary battery 11 and the data communication unit 37. The battery remaining amount monitoring unit 22 includes the battery capacity detecting unit 2 and the storage circuit 31 shown in FIG. 2 and accurately grasps the remaining capacity in the secondary battery 11 in real time. The control unit 20 causes the display unit 15 to display information based on the remaining battery capacity. The data communication unit 37 transmits data relating to the remaining capacity of the battery as notification information 7 to the personal computer device 50.
[0026]
The battery case 18 has a configuration shown in FIG. FIG. 4 is a block diagram mainly showing a configuration related to charging / discharging of a mobile phone. Note that the control unit 20 and the storage unit 31 of the electronic circuit 16 are not shown. The output voltage from the secondary battery 11 is applied to each part of the electronic circuit 16 through the discharge circuit 24 whose operation is controlled by the control circuit 23. Usually, the secondary battery 11 is connected to the drive source, the electronic circuit 16 and the like. Operate. Further, the commercial AC voltage of 100 to 200 V output from the commercial AC power supply 25 is converted into a low-voltage DC voltage by the AC-DC converter 26 and then passed through the detachable connector 27 provided on the lower surface of the main body case 12. Applied to the electronic circuit 16 in the main body case 12. The DC voltage sent from the outside of the main body case 12 can supply driving power to each part of the electronic circuit 16 instead of the secondary battery 11, and at the same time, the charging voltage and the charging by the charging circuit 28 controlled by the control circuit 23. It is applied to the secondary battery 11 while controlling the current. Accordingly, the secondary battery 11 can be charged to a predetermined charging rate while grasping the accurate remaining battery capacity in the secondary battery 11 in conjunction with the above-described discharge circuit 24.
[0027]
The battery remaining amount monitoring unit 22 is provided with a charging current sensor 29 capable of detecting the magnitude of the charging current in the charging circuit 28 and a discharging current sensor 30 capable of detecting the magnitude of the discharging current in the discharging circuit 24, respectively. ing. Further, a control circuit 23 for controlling the entire battery remaining amount monitoring unit 22 is provided, and the charge / discharge amount for the secondary battery 11 is controlled based on the detection values by the sensors 29 and 30. The control circuit 23 integrates the charge / discharge currents detected by the sensors 29 and 30 so that the current remaining battery capacity can be calculated in real time.
[0028]
In the present embodiment, the memory circuit 31 and the temperature sensor 32 are integrally incorporated in the battery case 18. Based on the characteristic information of the battery provided in the storage circuit 31 and the temperature change information on the battery surface by the temperature sensor 32, the remaining battery level is corrected by the above integration, and the notification information 7 regarding the remaining battery level can be stored. Further, by providing the memory circuit 31 in the battery pack, it is possible to use characteristic information corresponding to each secondary battery. That is, even when the battery is replaced, the remaining capacity of the new secondary battery after replacement can be accurately detected.
[0029]
Here, the memory circuit 31 includes a rewritable memory element such as a flash memory or a RAM backed up by a battery, and has a circuit configuration that is minimized and enables data to be written to and read from the memory element. Take.
[0030]
Further, in the memory circuit 31, the battery characteristic information necessary for calculating the charge / discharge amount such as the load characteristic, temperature characteristic or deterioration characteristic of the unit cell constituting the built-in secondary battery 11 is being charged. Like the remaining battery level and the time at that time, not only charging / discharging but also the notification information 7 necessary for estimating the change in the remaining battery capacity after the battery case 18 is removed from the main body case 12 is included. However, the configuration and stored contents of the storage circuit 31 are not limited.
[0031]
On the other hand, the control circuit 23 stores an algorithm for detecting the remaining battery level of the battery. In such an algorithm, when the battery voltage is below the lower limit value, the remaining capacity is set to 0%, and when the full charge is detected, the remaining capacity is absolutely corrected to 100%. It is calculated by going.
[0032]
For example, as a detection method at the time of full charge, a method when the time change rate of the battery temperature becomes a certain set value or more, a method when the battery voltage starts to fall after rising and further falls by a certain set value, An algorithm that is optimal for the system is employed, such as a method in which the secondary derivative of the battery voltage with respect to time changes from positive to negative in a region near 100% charge. Of course, the detection method is not limited to these methods.
[0033]
Further, by using the battery characteristic information stored in the storage circuit 31 in the battery case 18, the above-described full charge detection and charge / discharge amount integration operation are performed in correspondence with the secondary battery 11 actually used. Make it. Further, the calculated remaining battery capacity and its time are constantly stored in the storage circuit 31. For example, when the battery case 18 is once detached from the main body case 12 and reattached, the elapsed time during removal and The self-discharge amount is estimated from the discharge characteristics, and the current capacity is corrected by subtracting the self-discharge amount from the remaining battery capacity before removal of the battery case 18.
[0034]
The present invention has the above-described configuration and further includes general-purpose data communication units 37 and 57 that enable data communication in a short-range wireless state, such as Bluetooth (registered trademark). In preparation for both, it is possible to exchange data with each other. As described above, the cellular phone 10 includes the data communication unit 37 that performs short-range communication with the personal computer device 50 and the transmission / reception unit 19 that performs communication with the external base station. As a result, it is possible to communicate data related to battery remaining amount information even when connected to the Internet.
[0035]
Then, in response to data input from the operation unit 55 in the personal computer device 50, predetermined data is sent to the mobile phone 10 side via the data communication unit 57. Alternatively, the display corresponding to the notification information 7 sent from the mobile phone 10 side via the data communication unit 37 is made possible on the liquid crystal display device of the display unit 52.
[0036]
For example, the personal computer device 50 forcibly sends a command requesting the mobile phone 10 to transmit the notification information 7 regarding the remaining battery level, and the notification information 7 regarding the current capacity of the secondary battery 11 is forcibly transmitted from the mobile phone 10 to the personal computer. It is sent toward the device 50 side. Alternatively, the notification information 7 is automatically sent from the mobile phone 10 to the personal computer device 50 when a predetermined condition such that the remaining battery level falls below the set value is satisfied.
[0037]
On the personal computer device 50 side that has received the notification information 7, for example, the battery capacity of the secondary battery 11 on the mobile phone 10 side is compared with the battery capacity of the secondary battery 11 on the personal computer device 50 side. The amount is displayed on the display unit 52. When it is determined that the remaining battery level is decreasing, necessary operations such as data storage processing are performed in conjunction with each other, and an alarm display corresponding to the remaining battery level is displayed on the display unit 52. The Alternatively, a warning sound may be generated. At this time, the battery capacity information to be compared or displayed may be battery capacity information [%, mAh, etc.], or may be the operation time [minutes, hours, etc.] of the mobile phone 10 or the personal computer device 50. Absent.
[0038]
The switching operation from the mobile phone 10a to the mobile phone 10b when the personal computer device 50 is connected to the Internet via the mobile phone 10 will be described with reference to FIGS. FIG. 5 is a diagram schematically showing an example of a data processing system including the personal computer device 50 and the mobile phone 10 in the communication system of the present invention. FIG. 6 is a diagram showing a flow of communication processing.
[0039]
The operator operates the personal computer device 50 and puts the mobile phones 10 a and 10 b in the bag 58. When the personal computer device 50 and the mobile phones 10a and 10b are close to each other within a range where data communication is possible, a communication link is established between the data communication units 37 and 57, and short-range wireless communication is possible. The personal computer device 50 recognizes the mobile phones 10a and 10b, and acquires authentication information such as ID information and address, and information such as an encryption key. Here, ID information and the like necessary for starting communication between the personal computer device 50 and the mobile phone 10 are referred to as authentication information. This authentication information is different for each mobile phone. The mobile phones 10a and 10b transmit the respective authentication information to the personal computer device 50, and the personal computer device 50 acquires and stores the authentication information in association with each mobile phone.
[0040]
Then, the operator operates the personal computer device 50 to select either the mobile phone 10a or the mobile phone 10b. Here, it is assumed that the mobile phone 10a is selected. The data communication unit 57 of the personal computer device 50 creates a connection request a with the Internet for the mobile phone 10a based on the authentication information of the mobile phone 10a. The cellular phone 10a communicates with the base station through the transmission / reception unit 19 to establish a line connection.
[0041]
By operating the personal computer device 50, the mobile phone 10a performs mobile communication which is a main function. The mobile phone 10a contained in the back 58 and the personal computer device 50 are connected by the respective data communication units 37 and 57, and the personal computer device 50 performs arbitrary processing using the mobile communication function of the mobile phone 10a. . The process is displayed on the display unit 52 of the personal computer device 50 as an operation screen of the personal computer device. That is, the personal computer device 50 can be connected to the Internet via the mobile phone 10 by data communication between the data communication unit 57 and the data communication unit 37.
[0042]
Based on the input process of the personal computer device, the data communication unit 57 transmits data based on the input process to the data communication unit 37. Based on the data received by the data communication unit 37, the transmission / reception unit 19 communicates with the Internet network. The data communication unit 37 transmits this communication result to the data communication unit 57. The display unit 52 displays a result based on the data received by the data communication unit 57.
[0043]
The battery capacity detection unit 2 detects the battery capacity of the secondary battery 11. Assume that the battery capacity detection means 2 determines that the remaining operation time of the mobile phone 10a is 2 minutes based on the capacity and power consumption of the secondary battery 11 mounted on the mobile phone 10a. If the current processing is continued, communication will be cut off halfway after 2 minutes due to the battery running out of the mobile phone 10, and as a result, the operation of the personal computer device 50 will be interrupted.
[0044]
The personal computer device 50 requests the battery capacity information 61 of the secondary battery 11 from the mobile phone 10a at regular intervals, and acquires the battery capacity information 61 of the mobile phone 10. Alternatively, the mobile phone 10a may automatically send battery capacity information to the personal computer device 50 to which the remaining battery level is connected at regular intervals. Alternatively, warning information may be sent to the personal computer device 50 when the mobile phone 10a falls below a predetermined remaining battery level. When the warning information is transmitted when the battery capacity falls below an arbitrary battery capacity, the personal computer device 50 switches the connection from the mobile phone 10a to the mobile phone 10b without determining whether the capacity of the mobile phone 10a is below a certain level. . In this case, since the communication regarding the battery capacity is performed only when the switching is necessary, the influence on the communication processing speed with the Internet connection and the battery capacity can be reduced. The personal computer device 50 acquires the battery capacity information 61 by these methods and recognizes that the battery capacity of the mobile phone 10a is insufficient.
[0045]
The connection switching unit 63 issues a disconnection request to the mobile phone 10a, and the mobile phone 10a disconnects the line. Then, the personal computer device 50 issues a connection request b to another mobile phone 10b having the same function, performs line connection, and resumes communication processing. Thereby, communication processing can be continued without interruption of data processing on the personal computer device 50. At this time, by using the authentication information and the encryption key acquired first, it is possible to simplify the initial setting procedure when connecting to the other mobile phone 10b, and to establish the connection state in a short time.
[0046]
In this way, the operator of the personal computer device 50 can safely transmit and receive data without being interrupted unexpectedly during transmission or reception of important data. In addition, it is possible to avoid a situation in which data cannot be acquired despite payment due to being interrupted while receiving paid content.
[0047]
In the communication system according to the present invention, the number of mobile phones is not limited to two, and may be three or more. Further, the communication terminal is not limited to a mobile phone, and may be any communication terminal that can be connected to an external communication network. The personal computer device is not limited to a pocket-type personal computer device, but may be any information processing device that can be connected to a communication terminal that can be connected to an external communication network. Further, the communication with the mobile phone may be wired communication, but in the case of wireless communication, communication can be performed while being put in the back. As described above, according to the present invention, before the communication terminal battery runs out of capacity during communication and the communication is forcibly disconnected, the battery capacity is detected and the communication process is performed by switching the connection to another communication terminal. Can continue. As a result, it is possible to save the trouble of checking the battery capacity, improve convenience, and prevent important data from being lost even during important processing.
[0048]
Embodiment 2 of the Invention
A communication system according to the second embodiment will be described with reference to FIG. Note that a description of the same configuration and flow as in the first embodiment will be omitted. In this embodiment, the information processing terminal 70 is used instead of the mobile phone, and the information processing apparatus 70 is used instead of the personal computer device 50. FIG. 7 shows a communication system including the information processing apparatus 80 and the two information processing terminals 70. Between the information processing terminal 70 and the information processing apparatus 80, data communication is performed in a wireless state over a short distance such as Bluetooth (registered trademark). The information processing apparatus 80 is, for example, a digital camera or a digital video, and includes a data communication unit 57 for communicating with the information processing terminal 70. It should be noted that the camera and video imaging functions are not shown.
[0049]
The information processing terminals 70a and 70b are, for example, storage devices including a storage unit 71 having a memory function, and can back up data of the information processing device 80 by data communication. Other configurations are the same as those in the first embodiment. The information processing terminal 70a and the information processing terminal 70b have the same function. The information processing terminal 70 is driven by the secondary battery 11. When image data or the like of the information processing device 80 is transmitted to the information processing terminal 70 by the data communication unit 5 as in the first embodiment, the data is stored in the storage unit 71 of the information processing terminal 70. In this manner, the information processing terminal 70 performs the data backup process by an operation from the information processing apparatus 80.
[0050]
Next, a switching flow from the information processing terminal 70a to the information processing terminal 70b will be described. First, the information processing apparatus 80 communicates with one information processing terminal 70a. The battery capacity detection unit 2 of the information processing terminal 70 a detects the battery capacity of the secondary battery 11 and transmits battery capacity information to the information processing device 80. When it is determined that the remaining amount of the secondary battery is low, the connection switching unit 63 switches the connection from the information processing terminal 70a to the information processing terminal 70b as in the first embodiment. At this time, information indicating that the data stored in the information processing device 80 or each information processing terminal 70 is divided is written. As a result, data backup can be executed without disconnecting communication. The information processing terminal 70 may be a terminal that performs information processing other than data storage, and the information processing device 80 may be an information processing device other than a digital camera or the like. It is only necessary that communication between the information processing terminal 70 and the information processing apparatus 80 is possible. Of course, connection switching may be performed between three or more information processing terminals.
[0051]
【The invention's effect】
According to the present invention, it is possible to provide a communication method and a communication system capable of continuing processing even when a battery capacity shortage of a terminal occurs during information processing, and a terminal and an information processing apparatus used therefor.
[Brief description of the drawings]
FIG. 1 is a diagram showing a configuration of a communication system according to a first exemplary embodiment of the present invention.
FIG. 2 is a block diagram showing a configuration of a communication system according to the first exemplary embodiment of the present invention.
FIG. 3 is a block diagram showing a configuration of a communication system according to the first exemplary embodiment of the present invention.
FIG. 4 is a block diagram showing a configuration of the mobile phone according to the first exemplary embodiment of the present invention.
FIG. 5 is a diagram showing a communication state of the communication system according to the first exemplary embodiment of the present invention.
FIG. 6 is a flowchart showing processing of a communication method according to the present invention.
FIG. 7 is a block diagram showing a configuration of a communication system according to a second exemplary embodiment of the present invention.
[Explanation of symbols]
2 battery capacity detection means, 7 notification information, 10 mobile phone, 11 secondary battery,
12 body case, 13 display screen, 14 speakers, 15 display section,
16 electronic circuit, 17 operation part, 18 battery case, 19 transmission / reception part,
20 control unit, 21 storage unit, 22 remaining battery power monitoring unit, 23 control circuit,
24 discharge circuit, 25 commercial AC power supply, 26 AC-DC converter
27 connector, 28 charging circuit, 29 charging current sensor, 30 discharging current circuit,
31 memory circuit, 32 temperature sensor, 33 keyboard, 34 microphone,
35 electrodes, 36 battery packs, 37 data communication unit on the mobile phone side,
50 PC device, 51 Main unit case, 52 Display unit, 53 Touch panel
54 push button switch, 55 operation unit, 56 control unit,
57 Data communicator on PC side, 58 back, 61 battery capacity information,
63 Connection switching unit, 70 Information processing terminal, 71 Storage unit, 80 Information processing device

Claims (11)

A communication method in which communication is performed between an information processing device and a terminal, and the terminal performs information processing based on an operation of the information processing device,
Detecting the capacity of a battery that drives the terminal while the terminal is communicating with the information processing apparatus;
Transmitting notification information based on the battery capacity detected by the terminal to the information processing device;
The information processing apparatus includes a step of switching communication with the terminal to communication with another terminal based on the notification information. The communication method according to claim 1, wherein the terminal is a terminal that communicates with a communication network. The communication method according to claim 2, wherein communication with the communication network in the terminal and communication with the information processing apparatus are performed by different communication means. The communication method according to any one of claims 1 to 3, wherein the notification information is transmitted to the information processing apparatus when a remaining amount of the battery capacity falls below a certain value. The communication method according to any one of claims 1 to 4, further comprising: acquiring authentication information of the terminal and another terminal switched from the terminal before the information processing apparatus starts communication with the terminal. A communication system comprising an information processing device and a plurality of terminals that communicate with the information processing device and perform processing based on an operation of the information processing device,
A battery that drives the terminal;
Battery capacity detecting means for detecting the capacity of the battery;
First communication means for performing communication with the information processing device and transmitting notification information based on the capacity of the battery to the information processing device;
The information processing apparatus communicates with the terminal and receives the notification information;
A communication system comprising: a connection switching unit that switches communication with the terminal to communication with another terminal based on the notification information. The communication system according to claim 6, wherein the terminal includes second communication means for performing communication with a communication network. The communication system according to claim 7, wherein a communicable distance of the first communication unit is shorter than a communicable distance of the second communication unit. First communication means for communicating with the information processing apparatus,
A terminal for processing information by an operation in the information processing apparatus;
A battery for driving the terminal;
Battery capacity detecting means for detecting the capacity of the battery,
A terminal that transmits notification information based on a battery capacity detected by the battery capacity detection means to the information processing apparatus by the first communication means. A second communication means connectable to a communication network,
The terminal according to claim 9, which communicates with the communication network by an operation in the information processing apparatus. An information processing apparatus that communicates with a terminal and causes the terminal to process information,
An operation unit for inputting information for communication;
Communication means for performing communication with the terminal based on information input to the operation unit;
A display unit for displaying a communication result transmitted from the terminal;
An information processing apparatus comprising: connection switching means for disconnecting communication with the terminal and switching to communication with another terminal based on notification information based on a battery capacity of the terminal received by the communication means.

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