JP2009010786A - Communication instrument, control method of communication instrument, and communication system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a communication instrument, simplified in operation upon preparation for transmission and reception of short-distance communication, control method of the communication instrument and a communication system. <P>SOLUTION: A portable terminal 100 transmits a remote control signal for setting infrared ray waiting condition to a portable terminal 101 and another portable terminal 101, received the remote control signal, is set at the infrared ray waiting condition automatically and, thereafter, informs to the portable terminal 100 that the infrared ray waiting condition is finished. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a communication device capable of performing near field communication, a communication device control method, and a communication system.

In recent years, communication devices that can perform near field communication with other communication devices using infrared rays and the like, send information about the device itself to the device, and receive information on the partner device have become widespread. .
For example, a mobile phone provided with an infrared port that performs infrared communication with another mobile phone that is also provided with an infrared port, and its own phone number, owner's name, e-mail address, etc. There are mobile phones that transmit or receive the phone number, name of owner, mail address, etc. of the other mobile phone.
Furthermore, a communication device having a short-range communication device transmits TV operation information using the short-range communication device as a TV remote control, or transmits electronic money to a vending machine or a terminal installed in a store. For example, it is used for various purposes.

Patent Document 1 discloses a short-range wireless communication device including a short-range wireless communication unit having a directivity of a predetermined range of communication radio waves and an operation unit that operates a communication state. A short-range wireless communication device is disclosed that includes an image acquisition unit that acquires an image including at least the direction of irradiation of communication radio waves and a display unit that displays the acquired image.
JP 2007-53424 A

By the way, unlike short-distance communication, communication with other communication terminals and server devices via a base station that cannot predict when an incoming call will occur, it is used only when the user intends to communicate independently. Therefore, the short-range communication device for short-range communication does not have to be in a state where transmission / reception is always possible.
That is, only when the user wants to perform near field communication, the user may activate the near field communication device by a predetermined operation and prepare for a state in which transmission and reception are possible. This predetermined operation is accepted, for example, by an input operation on an input unit or the like of a communication device having a short-range communication device.

  However, in this case, it is necessary to activate the short-range communication devices on both the transmitting side and the receiving side at the same timing, which is disadvantageous in that it is troublesome to prepare for transmission and reception. It was.

  The present invention has been made to eliminate the above-mentioned disadvantages, and an object of the present invention is to provide a communication device, a communication device control method, and a communication system that simplify operations at the time of short-range communication transmission / reception preparation. .

  In order to solve the above-described problem, a communication device according to a first invention includes a communication unit capable of transmitting communication information by short-range wireless communication, a receivable state capable of performing short-range wireless communication, and the short-range For other communication devices that are capable of transitioning between two types of states, that is, a reception restricted state in which wireless communication is restricted, a state control signal that makes a transition to the receivable state is transmitted to the communication unit, and then A control unit that transmits the communication information by the communication unit.

  According to a second aspect of the present invention, there is provided a second communication unit capable of receiving communication information transmitted from another communication device by short-range wireless communication, and the communication information transmitted from the other communication device. A second control unit that receives a state control signal for transitioning to a receivable state that can be received by the two communication units by the second communication unit, and then controls to the receivable state.

  A communication device control method according to a third aspect of the present invention is a communication device control method capable of transmitting communication information by short-range wireless communication, wherein the short-range wireless communication can be received, and the short-range wireless communication A first step of transmitting a state control signal for controlling to the receivable state to another communication device capable of controlling between two types of states, a reception restricted state in which communication is restricted; and And a second step of executing transmission of the communication information by the short-range wireless communication after the state control signal is transmitted to the other communication device in the first step.

  A communication device control method according to a fourth aspect of the present invention is a communication device control method capable of receiving communication information from another communication device by short-range wireless communication, and transmitted from the other communication device. A third step of receiving a state control signal for controlling the communication information to a receivable state, and when the state control signal is received in the third step, the receivable state is controlled. And a fourth step.

  A communication system according to a fifth aspect of the invention is a first communication device capable of transmitting communication information by short-range wireless communication and a second communication capable of receiving communication information from other communication devices by short-range wireless communication. The first communication device is in a receivable state with respect to a communication unit capable of transmitting communication information by short-range wireless communication and a second communication device. A control unit that transmits a state control signal to be controlled to the communication unit, and then transmits the communication information by the communication unit, and the second communication device transmits the first communication by short-range wireless communication. A second communication unit capable of receiving communication information transmitted from the device and the state control signal transmitted from the first communication device are received by the second communication unit, and then controlled to the receivable state. A second control unit That.

  According to the present invention, it is possible to provide a communication device, a communication device control method, and a communication system that simplify operations at the time of short-range communication transmission / reception preparation.

Hereinafter, the portable terminal 100 and the portable terminal 101 as examples of the communication device of the present invention will be described.
FIG. 1 is a block diagram showing an example of the configuration of the mobile terminal 100 described in the present embodiment.
As shown in FIG. 1, the portable terminal 100 of this embodiment includes a communication unit 1 (corresponding to the communication unit and the second communication unit of the present invention), a storage unit 2, and an input unit 3 (selection receiving unit and the present invention). A display unit 4 and a control unit 5 (corresponding to the control unit and the second control unit of the present invention).

The communication unit 1 is a communication device that performs wireless communication with a server device and other communication terminals and transmits and receives various data. The various data is, for example, voice data at the time of voice call, mail data at the time of mail transmission / reception, moving picture data and music data, address book data for voice call and mail, and the like.
The communication unit 1 is connected to an RF communication unit 11 that performs radio communication with a communication network and electromagnetic waves, an infrared communication unit 12 that performs short-range infrared wireless communication, and other communication devices via a base station (not illustrated in FIG. 1). A remote control communication unit 13 for transmitting a control signal for remote control (remote control).

The RF communication unit 11 performs wireless communication with a base station (not shown in FIG. 1). Specifically, communication with a server apparatus and other communication terminals (not shown in FIG. 1) is performed via a public network connected to the base station, thereby realizing voice call, mail transmission / reception, and the like.
The infrared communication unit 12 is a communication device capable of performing data transmission / reception by optical wireless data communication using infrared rays. The infrared communication unit 12 performs infrared communication according to a standard defined by, for example, IrDA (Infrared Data Association). In the present embodiment, wireless communication via Bluetooth or a base station may be used in addition to infrared rays.
The infrared communication unit 12 is not always capable of transmitting and receiving data using infrared rays, and needs to be prepared for transmitting and receiving data using infrared rays. This preparation is made in response to a user operation input via the input unit 3 or the like described later. In the present embodiment, in particular, a state where the infrared communication unit 12 is ready for reception by infrared communication is referred to as a receivable state, and a state where reception is not ready is referred to as a reception restricted state.

  The remote control communication unit 13 transmits a control signal (remote control signal) for controlling another communication terminal, or receives a control signal from another terminal. The remote control signal transmitted and received by the remote control communication unit 13 is normally infrared (the standard and wavelength are different from those of the infrared communication unit 12). In this embodiment, in addition to infrared, wireless communication via Bluetooth, a base station, or the like There may be.

  The storage unit 2 stores various data used for each operation of the mobile terminal 100. Examples of the various data include, for example, address book data used when making / receiving voice calls and sending / receiving mails, mail data, voice data, image data, video data received by the communication unit 1 from the server device via the communication network, and the portable terminal 100. This is a program such as an application operating on the above and data necessary for operation.

The input unit 3 is an input device that receives user input during various operations of the mobile terminal 100, and includes a numeric keypad, buttons, switches, and the like.
The display unit 4 is a display device configured by, for example, a liquid crystal display (LCD), an organic EL (Electro Luminescence) panel, or the like, and performs display according to various operations of the mobile terminal 100. For example, when a call is made or received, a call destination is displayed, when a mail is sent / received, a mail transmission screen or a call reception screen is displayed, a standby screen is displayed, or the like is displayed.

The control unit 5 comprehensively controls the operation of each component of the mobile terminal 100 described above.
In particular, the control unit 5 performs various controls when performing short-range infrared communication (short-range wireless communication) by the infrared communication unit 12 with other communication terminals. Moreover, the control part 5 is comprised so that control of the state transition between the receivable state of the portable terminal 100 and a reception restriction state is possible. In the present embodiment, the case where the other communication terminal is the mobile terminal 101 having the same configuration as the mobile terminal 100 will be described.
Hereinafter, the control when the short-range infrared communication by the infrared communication unit 12 of the control unit 5 is performed with another portable terminal 101 will be described in detail.
FIG. 2 is a diagram illustrating an example of a communication system 1000 configured by the mobile terminal 100 and the mobile terminal 101. As shown in FIG. 2, the portable terminal 100 and the portable terminal 101 transmit and receive data by performing infrared communication.
FIG. 3 is a sequence diagram showing an operation example of both cases when infrared data transmission is performed by the infrared communication unit 12 of the control unit 5 from the portable terminal 100 to another portable terminal 101.

Step ST1,2:
First, in the initial state, it is assumed that both the mobile terminal 100 and the mobile terminal 101 are in a standby screen (waiting for incoming voice mail and incoming mail from the base station).
Step ST3:
In the mobile terminal 100, data (communication information) transmitted to the mobile terminal 101 by infrared communication via the input unit 3 is selected.

Step ST4:
In the portable terminal 100, the control unit 5 causes the display unit 4 to display a screen for confirming whether the user can execute infrared communication. (In this step, since the mobile terminal 101 on the transmission destination side is not ready yet, infrared transmission cannot be performed).
Step ST5:
In step ST <b> 4, the control unit 5 of the mobile terminal 100 can receive the mobile terminal 101 by infrared reception with respect to the mobile terminal 101 on condition that the user inputs an input for approving execution of the infrared communication via the input unit 3. A remote control signal (state control signal) for setting a proper state is transmitted by the remote control communication unit 13.

Step ST6:
The control unit 5 of the mobile terminal 101 receives the remote control signal from the mobile terminal 100 in step ST5 and automatically controls to a state where infrared reception is possible (hereinafter referred to as an infrared standby state).
Step ST7:
The control unit 5 of the portable terminal 101 determines that one of the RF communication unit 11, the infrared communication unit 12, and the remote control communication unit 13 is in a standby state in which infrared reception is possible in step ST6. It notifies to the portable terminal 100 using. The information transmitted in this step is the receivable state information in the present invention, and by transmitting this information, the mobile terminal 100 is notified that the mobile terminal 101 is in a receivable state.

Step ST8:
In step ST7, the mobile terminal 100 is notified that the mobile terminal 101 is in an infrared standby state, and thus starts infrared communication. For example, the case of performing infrared communication according to the IrDA standard will be described below. First, in step ST8, the control unit 5 of the mobile terminal 100 sends an XID (eXchange ID) command to the mobile terminal 101 to the infrared communication unit 12. By trying to transmit, it tries to discover the communication partner.
Step ST9:
In response to the XID command transmitted from the mobile terminal 100 in step ST8, the control unit 5 of the mobile terminal 101 causes the infrared communication unit 12 to transmit an XID response to the mobile terminal 100.

Step ST10:
Since the mobile terminal 100 has detected an infrared communication partner by the XID response transmitted from the mobile terminal 101 in step ST9, the control unit 5 of the mobile terminal 100 links to the mobile terminal 101 by an SNRM (Set Normal Response Mode) command. Establishing
Step ST11:
In response to the SNRM command from the portable terminal 100 in step ST10, the control unit 5 of the portable terminal 101 causes the infrared communication unit 12 to return a UA (Unnumbered Acknowledge) response. As a result, infrared communication is established between the mobile terminal 100 and the mobile terminal 101, and data can be transmitted and received thereafter.

Step ST12:
The control unit 5 of the mobile terminal 100 causes the infrared communication unit 12 to transmit the data selected in step ST3 to the mobile terminal 101.

As described above, according to the mobile terminal 100 and the mobile terminal 101 of the present embodiment, the remote controller for automatically bringing the mobile terminal 100 into the infrared standby state with respect to the mobile terminal 101 in step ST5 shown in FIG. Since the mobile terminal 101 that transmits the signal and receives the signal automatically enters the infrared standby state, an operation input via the input unit 3 for placing the mobile terminal 101 in the infrared standby state, which has been necessary in the past, etc. This eliminates the need to perform the process, improves convenience on the receiving side during infrared communication, and enables the transmitting side to reliably receive data on the receiving side.
In addition, since the mobile terminal 101 enters an infrared standby state only when infrared communication is performed, for example, when the mobile terminal 101 periodically enters an infrared standby state during a normal standby state, a user operation during infrared communication is performed. Compared to the case where the labor of inputting is omitted, the power consumption of the mobile terminal 101 can be reduced (because the power consumption in the infrared standby state is larger than that in the normal standby state).

Hereinafter, modifications of the above-described embodiment will be described.
First, a case where there is data transmission from the portable terminal 101 to the portable terminal 100 after data transmission from the portable terminal 100 to the portable terminal 101 in FIG. 3 described above will be described. Such a case is performed, for example, when the user profiles of the mobile terminal 100 and the mobile terminal 101 are exchanged by infrared communication.
FIG. 4 is a sequence diagram showing an operation example of the portable terminal 100 and another portable terminal 101 when the infrared communication unit 12 of the control unit 5 performs infrared data transmission with each other.
Steps up to step ST12 in FIG. 4 are steps showing data transmission from the mobile terminal 100 to the mobile terminal 101, and are the same as those up to step ST12 in FIG.

Step ST13:
The control unit 5 of the portable terminal 100 automatically changes from the state in which infrared transmission is performed to the infrared standby state on condition that the data transmission in step ST12 is completed. Specifically, the control unit 5 causes the display unit 4 to display a screen “waiting for infrared rays” and puts the infrared communication unit 12 into a standby state.
Step ST14:
The control unit 5 of the portable terminal 101 selects data to be automatically transmitted on the condition that transmission of data in step ST12 is completed, and confirms with the user whether infrared transmission of the data may be executed. The screen to be displayed is displayed on the display unit 4.

Step ST15:
In step ST14, the control unit 5 of the portable terminal 101 sends an XID (eXchange ID) command to the infrared communication unit 12 on the condition that the user inputs an input for approving infrared communication through the input unit 3. By trying to transmit to 100, an attempt is made to find a communication partner.
Step ST16:
In response to the XID command transmitted from the mobile terminal 101 in step ST15, the control unit 5 of the mobile terminal 100 causes the infrared communication unit 12 to transmit an XID response to the mobile terminal 100.

Step ST17:
Since the mobile terminal 101 has detected an infrared communication partner from the XID response transmitted from the mobile terminal 100 in step ST16, the control unit 5 of the mobile terminal 101 links to the mobile terminal 100 using an SNRM (Set Normal Response Mode) command. Establishing
Step ST18:
In response to the SNRM command from the mobile terminal 101 in step ST17, the control unit 5 of the mobile terminal 100 causes the infrared communication unit 12 to return a UA (Unnumbered Acknowledge) response. Thereby, infrared communication is established between the portable terminal 101 and the portable terminal 100, and data can be transmitted and received thereafter.

Step ST19:
The control unit 5 of the mobile terminal 101 causes the infrared communication unit 12 to transmit the data automatically selected in step ST14 to the mobile terminal 100.

  As described above, when data is exchanged between the mobile terminal 100 and the mobile terminal 101, the mobile terminal 100 automatically enters the infrared standby state on condition that transmission from the mobile terminal 100 is completed. The mobile terminal 101 selects data to be automatically transmitted (for example, data having the same quality as the data transmitted from the mobile terminal 100 in step ST12), and displays a screen for confirming whether or not transmission is possible for the user. Therefore, the operation input through the user input unit 3 when exchanging data by infrared rays can be suppressed with a small number of times, and the operation input is simplified.

Further, another modification will be described with reference to FIG.
In the modification shown in FIG. 5, a step is inserted in which the mobile terminal 100 determines whether or not the response from the mobile terminal 101 is within a predetermined time.
FIG. 5 is a sequence diagram showing a modified example of both operation examples when infrared data transmission is performed by the infrared communication unit 12 of the control unit 5 from the portable terminal 100 to another portable terminal 101.

Steps ST21 and 22:
First, in the initial state, it is assumed that both the mobile terminal 100 and the mobile terminal 101 are in a standby screen (waiting for incoming voice mail and incoming mail from the base station).
Step ST23:
In the mobile terminal 100, data to be transmitted to the mobile terminal 101 by infrared communication via the input unit 3 is selected.

Step ST24:
In the portable terminal 100, the control unit 5 causes the display unit 4 to display a screen for confirming whether the user can execute infrared communication. (In this step, since the mobile terminal 101 on the transmission destination side is not ready yet, infrared transmission cannot be performed).
Step ST25:
In step ST <b> 24, the control unit 5 of the mobile terminal 100 can receive the mobile terminal 101 by infrared reception with respect to the mobile terminal 101 on the condition that the user inputs an input for approving the execution of infrared communication through the input unit 3. A remote control signal for setting a remote state is transmitted by the remote control communication unit 13.

Step ST26:
The control unit 5 of the mobile terminal 101 acquires the remote control signal from the mobile terminal 100 in step ST25 and automatically changes to the infrared standby state.
Step ST27:
The control unit 5 of the portable terminal 100 determines whether or not the notification that the infrared standby state has been entered in response to the remote control signal is received from the portable terminal 101 within a predetermined time from the transmission of the remote control signal in step ST25. Do. If there is no notification from the portable terminal 101 within the predetermined time, the process returns to step ST25 and the remote control signal is transmitted again. If there is a notification within a predetermined time, the process proceeds to step ST28.

Step ST28:
The control unit 5 of the portable terminal 101 determines that one of the RF communication unit 11, the infrared communication unit 12, and the remote control communication unit 13 is in a standby state in which infrared reception is possible in step ST26. It notifies to the portable terminal 100 using.
Step ST29:
In step ST <b> 28, the mobile terminal 100 is notified that the mobile terminal 101 is in an infrared standby state, and thus starts infrared communication. For example, the case of performing infrared communication according to the IrDA standard will be described below. First, in step ST29, the control unit 5 of the portable terminal 100 sends an XID (eXchange ID) command to the infrared communication unit 12 to the portable terminal 101. By trying to transmit, it tries to discover the communication partner.

Step ST30:
The control unit 5 of the portable terminal 100 determines whether or not an XID response corresponding to the XID command has been received from the portable terminal 101 within a predetermined time from the transmission of the XID command for infrared communication in step ST29. If no XID response is transmitted from the portable terminal 101 within the predetermined time, the process returns to step ST29, and the XID command is transmitted again. If there is a notification within a predetermined time, the process proceeds to step ST31.
Step ST31:
In response to the XID command transmitted from the mobile terminal 100 in step ST29, the control unit 5 of the mobile terminal 101 causes the infrared communication unit 12 to transmit an XID response to the mobile terminal 100.

Step ST32:
Since the mobile terminal 100 has detected an infrared communication partner from the XID response transmitted from the mobile terminal 101 in step ST31, the control unit 5 of the mobile terminal 100 links to the mobile terminal 101 using an SNRM (Set Normal Response Mode) command. Establishing
Step ST33:
In response to the SNRM command from the portable terminal 100 in step ST10, the control unit 5 of the portable terminal 101 causes the infrared communication unit 12 to return a UA (Unnumbered Acknowledge) response. As a result, infrared communication is established between the mobile terminal 100 and the mobile terminal 101, and data can be transmitted and received thereafter.

Step ST34:
The control unit 5 of the mobile terminal 100 causes the infrared communication unit 12 to transmit the data selected in step ST23 to the mobile terminal 101.

  In the modification described above, it is determined whether or not the mobile terminal 101 has returned a response within a predetermined time in response to a remote control signal transmitted from the mobile terminal 100 or an XID command for infrared communication. If there is no response within the time, the remote control signal or the XID command is transmitted again, so that the mobile terminal 100 can reliably perform infrared communication with the mobile terminal 101.

The present invention is not limited to the embodiment described above.
That is, when implementing the present invention, various modifications, combinations, sub-combinations, and alternatives may be made with respect to the components of the above-described embodiments within the technical scope of the present invention or an equivalent scope thereof.

In the above-described embodiment, infrared communication has been described as an example of short-range wireless communication, but the present invention is not limited to this.
For example, in the present embodiment, the control unit 5 of the mobile terminal 100 sends the input to the mobile terminal 101 to the mobile terminal 101 on the condition that the user inputs an input for accepting infrared communication through the input unit 3 in step ST5. However, the present invention is not limited to this, but first, the transmission data selected in step ST3 is used as infrared data for the portable terminal 101. After that, the infrared data (infrared data in step ST19 in the modification) is not received from the portable terminal 101 within a predetermined time, and only when the portable terminal 101 receives the infrared data. A remote control signal for controlling the mobile terminal 101 to be in a receivable state may be transmitted.
Accordingly, when the mobile terminal 100 receives infrared data transmitted from the mobile terminal 101 as return information, the mobile terminal 100 does not transmit a remote control signal for controlling the mobile terminal 101 to be in a receivable state. While short-range infrared communication can be continued as it is, if infrared data transmitted from the portable terminal 101 is not received as reply information, a remote control signal is transmitted to control the portable terminal 101 to a receivable state. Thus, the portable terminal 101 can be made ready for reception, and short-range infrared communication can be performed thereafter, so that unnecessary transmission of remote control information can be reduced, and short-range wireless communication can be suitably performed.

Further, in this embodiment, if the receivable state information does not come within the predetermined time in step ST27, the process returns to step ST25, and a remote control signal for controlling the portable terminal 101 to the receivable state is automatically set. However, the present invention is not limited to this, and in step ST27, when the receivable state information is not received within a predetermined time, a notification speaker (not shown) ) And the display unit 4 (one of the notification units), notify the user that the receivable state information has not been received within a predetermined time, and determine whether to retransmit the remote control information to the mobile terminal 101. After that, when an operation for retransmitting the remote control information to the portable terminal 101 is input by the input unit 3 (selection receiving unit), the remote control signal is carried. Resent to the terminal 101 may be configured not to retransmit the remote control signal to the portable terminal 101 when an operation for retransmitting the remote control information to the portable terminal 101 by the input unit 3 is not input.
Thereby, the user of the portable terminal 100 can know that the other communication device is not in a receivable state by the notification of the notification unit, and whether or not to transmit the remote control signal to the portable terminal 101 as desired by the user. Since it can be determined, transmission of useless remote control information can be reduced, and near field communication can be suitably performed.

Further, in the present embodiment, when the mobile terminal 101 receives the remote control information, the mobile terminal 101 automatically controls to be in a receivable state, transmits the receivable state information to the mobile terminal 100, and then transmits infrared rays transmitted from the mobile terminal 100. Although the present invention is configured to receive data, the present invention is not limited to this, and when the mobile terminal 101 receives remote control information, the portable terminal 101 receives a not-shown notification speaker (one of notification units) or the display unit 4 ( Informs the user that remote control information has been received via one of the informing units), and inquires of the user whether or not to control the remote control to the receivable state, and then inputs the input unit 3 (second selection receiving unit). When the operation for controlling to the receivable state is input, the infrared data is controlled to be receivable and the receivable state information is transmitted to the portable terminal 100, and then the portable terminal Infrared data transmitted from 100 is received, and when the operation for controlling to receive is not input by the input unit 3, the infrared data is not controlled to be received, and thereafter from the portable terminal 100. The transmitted infrared data may not be received.
As a result, the remote control signal is received, and the infrared data is received only after the user of the portable terminal 101 is permitted to be controlled to be in a receivable state (the operation for controlling to be in a receivable state is input). As a result, unintentional reception of infrared data can be suitably avoided.

  In the above-described embodiment, the infrared communication unit 12 and the remote control communication unit 13 are configured separately, but the present invention is not limited to this. That is, the infrared communication unit 12 and the remote control communication unit 13 may be configured integrally. In this case, the same infrared communication device may be configured so that infrared communication and remote control communication can be used properly by software control.

FIG. 1 is a block diagram showing an example of the configuration of the mobile terminal 100 described in the present embodiment. FIG. 2 is a diagram illustrating an example of a communication system including a plurality of portable terminals. FIG. 3 is a sequence diagram showing an operation example of both cases when infrared data transmission is performed by the infrared communication unit of the control unit from the portable terminal to another portable terminal. FIG. 4 is a sequence diagram showing an operation example of the portable terminal and another portable terminal when the infrared data transmission is performed by the infrared communication unit of the control unit. FIG. 5 is a sequence diagram showing a modified example of both operation examples when infrared data transmission is performed by the infrared communication unit of the control unit from the portable terminal to another portable terminal.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 1000 ... Communication system, 100, 101 ... Portable terminal, 1 ... Communication part, 2 ... Memory | storage part, 3 ... Input part, 4 ... Display part, 5 ... Control part, 11 ... Communication part, 12 ... Infrared communication part, 13 ... Remote control communication unit

Claims (13)

A communication unit capable of transmitting communication information by short-range wireless communication; and
The reception is possible with respect to other communication devices capable of transitioning between two types of states, a reception enabling state in which the short-range wireless communication is possible and a reception restriction state in which the short-range wireless communication is restricted. A control unit that transmits a state control signal to transition to a state to the communication unit, and then transmits the communication information by the communication unit;
A communication device comprising: The communication unit is configured to be able to receive return information for the communication information transmitted from the other communication device,
The control unit retransmits the state control signal by the communication unit when the return information is not received from the other communication device within a predetermined time after the communication information is transmitted by the communication unit. Thereafter, the communication information is transmitted again. The communication device according to claim 1, wherein the communication information is transmitted again. The communication unit can receive receivable state information indicating that the other communication device is in the receivable state from the other communication device,
The control unit transmits the state control signal to the other communication device by the communication unit, and then receives the communication information by the communication unit when the receivable state information is received by the communication unit. The communication device according to claim 1, wherein the communication device transmits the communication device. If the receivable state information is not received by the communication unit within a predetermined period after the communication unit transmits the state control signal to the other communication terminal, the control unit The communication apparatus according to claim 3, wherein the state control signal is transmitted again. A selection receiving unit that receives a selection as to whether or not to retransmit the state control signal by the communication unit;
The control unit transmits the state control signal again by the communication unit when the selection reception unit receives a selection to transmit the state control signal again by the communication unit, and the selection reception unit transmits the communication to the communication unit. The communication device according to claim 4, wherein when the selection not to transmit the state control signal again is received by the unit, the state control signal is not transmitted again by the communication unit. Having a notification section,
The control unit can be received by the notification unit when the communication unit does not receive the receivable state information within a predetermined period after the communication unit transmits the state control signal to the other communication device. The communication device according to any one of claims 2 to 5, characterized in that status information is not received. A second communication unit capable of receiving communication information transmitted by another communication device by short-range wireless communication;
The second communication unit receives a state control signal for transitioning to the receivable state in which the communication information transmitted from the other communication device can be received by the second communication unit, and then the receivable state. A second control unit for controlling
A communication device comprising: A second selection accepting unit that accepts a selection as to whether or not to permit entering the receivable state when the state control signal is received by the second communication unit;
When the second control unit receives the state control signal by the second communication unit and the second selection receiving unit receives a selection that permits the reception to be performed. The communication device according to claim 7, wherein the communication device is controlled to be in a receivable state. When the second control unit controls to the receivable state, the second control unit transmits receivable state information for notifying the other communication terminal that the receivable state is established. The communication device according to claim 7 or 8. The said 2nd control part returns the reply information which is the information which concerns on the reply with respect to the said communication information, if the communication information from said other communication apparatus is acquired by the said 2nd communication part. The communication device according to any one of 7 to 9. A communication device control method capable of transmitting communication information by short-range wireless communication,
The reception is possible with respect to other communication devices capable of controlling between two types of states, a reception enabling state in which the short-range wireless communication is possible and a reception restriction state in which the short-range wireless communication is restricted. A first step of transmitting a state control signal to control the state;
A second step of transmitting the communication information by the short-range wireless communication after transmitting the state control signal to the other communication device in the first step;
A method for controlling a communication device, comprising: A communication device control method capable of receiving communication information from other communication devices by short-range wireless communication,
A third step of receiving a state control signal transmitted from the other communication device for controlling the communication information into a receivable state;
When the state control signal is received in the third step, a fourth step of controlling to the receivable state;
A method for controlling a communication device, comprising: A communication system including a first communication device capable of transmitting communication information by short-range wireless communication and a second communication device capable of receiving communication information from another communication device by short-range wireless communication. There,
The first communication device is:
A communication unit capable of transmitting communication information by short-range wireless communication; and
A control unit that transmits a state control signal for controlling the second communication device to the receivable state to the communication unit, and then transmits the communication information by the communication unit;
Have
The second communication device is:
A second communication unit capable of receiving communication information transmitted from the first communication device by short-range wireless communication;
A second control unit that receives the state control signal transmitted from the first communication device by the second communication unit, and then controls the state to be receivable;
A communication system comprising:

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