JP2012151811A - Communication device, communication method, and communication program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To prevent power for transmitting communication environment information from being wasted more than needed.SOLUTION: A communication device includes: a communication environment detection unit for detecting communication environment information; a communication environment information notice control unit for determining a transmission interval of notice information on the basis of the communication environment information; and an external device communication unit for transmitting the notice information to an external device at the transmission interval. Also, the device includes a network communication unit for receiving information from a network, and the communication environment information is reception level information on the information. The communication environment detection unit receives capacity information on the external device, and the communication environment information notice control unit determines the transmission interval on the basis of the capacity information. The communication environment information notice control unit extends the transmission interval when the frequency of the change of the notice information is a fixed frequency or higher for the communication environment information. The communication environment information is power supply residual amount information.

Description

  The present invention relates to a communication device, a communication method, and a communication program.

External devices that are placed within a certain short distance from a mobile phone and complement the functions of the mobile phone are becoming widespread. For example, a hands-free device that transmits and receives audio signals through the mobile phone without holding the mobile phone, a music playback device that plays music based on music data stored in the mobile phone, and a data communication function of the mobile phone There are data communication devices that download various types of information. Information is transmitted and received between the mobile phone and the external device by wireless communication using radio waves.
In this regard, the communication environment information in the mobile phone, for example, radio wave reception status information and battery remaining amount information is transmitted to the external device, and the external device transmits the received reception state information and remaining amount information. By displaying on the display device, even when the mobile phone cannot be seen by the user, for example, in a state where it is stored in a bag, the communication environment information in the mobile phone can be obtained by viewing the display screen of the display device of the external device. A technique for grasping the above is known (Patent Document 1).

JP 2002-199450 A

  However, the mobile phone described in Patent Document 1 transmits communication environment information to the external device if the connection with the external device is established. Therefore, there is a problem that communication environment information is transmitted even when communication environment information received by an external device cannot be handled effectively, and power is consumed more than necessary. For example, when the reception state of radio waves frequently changes in a mobile phone and the reception state information is transmitted each time, the mobile phone is not in the area where radio waves from the base station device can be received, or external There is a case where the device does not have a function of displaying the received communication environment information.

  The present invention has been made in view of the above points, and an object of the present invention is to provide a communication device, a communication method, and a communication program that solve the above-described drawbacks of the prior art.

(1) The present invention has been made to solve the above problems, and one aspect of the present invention provides a communication environment detection unit that detects communication environment information, and a transmission interval of notification information based on the communication environment information. A communication apparatus comprising: a communication environment information notification control unit to be defined; and an external device communication unit that transmits the notification information to an external device at the transmission interval.
(2) As another aspect of the present invention, a network communication unit that receives information from a network may be provided, and the communication environment information may be reception level information of the information.

(3) As another aspect of the present invention, the communication environment detection unit receives capability information of the external device, and the communication environment information notification control unit determines the transmission interval based on the capability information. It is good also as.
(4) As another aspect of the present invention, the communication environment information notification control unit may extend the transmission interval when the communication environment information has a frequency of change of the notification information that is a certain frequency or more. It is good.
(5) As another aspect of the present invention, the communication environment information may be power remaining amount information.

  According to the present invention, it is possible to suppress power consumption more than necessary when transmitting communication environment information to an external device.

1 is a conceptual diagram of a wireless communication system according to an embodiment of the present invention. It is a block diagram of the mobile station apparatus 2 which concerns on this embodiment. It is a figure which shows an example of the registration information and setting information which concern on this embodiment. It is a block diagram of the external apparatus 3 which concerns on this embodiment. It is a flowchart which shows an example of the process in the communication environment information notification control part 212 which concerns on this embodiment. It is a flowchart which shows an example of the reception level notification thinning-out process which concerns on this embodiment. It is a flowchart which shows an example of the process which sets the reception level notification frequency which concerns on this embodiment. It is a flowchart which shows an example of the process which sets the reception level notification frequency which concerns on this embodiment. It is a flowchart which shows the other example of the reception level notification thinning-out process which concerns on this embodiment. It is a table | surface which shows an example of the relationship between the number of antennas displayed on the notification information display part 305 which concerns on this embodiment, and the area information of a reception level.

(First embodiment)
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
FIG. 1 is a conceptual diagram of a wireless communication system 1 according to an embodiment of the present invention. The wireless communication system 1 includes two or more mobile station apparatuses 2 and 7, an external device 3, and a network 6 by wireless communication. The network 6 includes at least two base station apparatuses 4 and 5.

Here, the mobile station device 2 is a communication device that transmits and receives information to and from the mobile station device 7 via the base station devices 4 and 5. Here, the information is typically analog information such as an audio signal, an image signal, or measurement data, or digital information such as a computer program or e-mail text information. Also, the mobile station device 2 transmits information generated by itself, information stored in the storage device, or information from the mobile station device 7 to the external device 3. Further, the mobile station device 2 receives information from the external device 3 and stores the information in its own storage device or transmits it to the mobile station device 7. The mobile station device is, for example, a mobile phone, a PHS which is a simple mobile phone, or a PDA (personal digital assistant) having a communication function.
The external device 3 receives information from the mobile station device 2 and stores the information in its own storage device or displays it on the screen of the display device. The external device 3 may also receive information or generate information and transmit the information to the mobile station apparatus 2. For example, a hands-free earphone microphone or a portable navigation device.

The base station device 4 receives information from the mobile station device 2 and transmits the information to the base station device 5. The base station apparatus 4 receives information from the base station apparatus 5 and transmits the information to the mobile station apparatus 2.
The base station device 5 receives information from the mobile station device 7 and transmits the information to the base station device 2. The base station apparatus 5 receives information from the base station apparatus 4 and transmits the information to the mobile station apparatus 7.
The mobile station device 7 is a communication device that transmits and receives information to and from the mobile station device 2 via the base station devices 5 and 4.

Transmission / reception of information between the mobile station apparatuses 2 and 7 and the base station apparatuses 4 and 5 uses radio waves propagating in the space between them. The mobile station device 2 and the base station device 4 transmit or receive data to each other at a relatively wide range (several hundreds to several kilometers) at a transmission rate of several kbps to several Mbps, for example. The data transmission method is, for example, an Orthogonal Frequency Division Multiple Access (OFDMA) method. The frequency band to be used is, for example, 1940 MHz to 1960 MHz on the uplink from the mobile station apparatus 2 to the base station apparatus 4, and 2130 MHz to 2150 MHz, for example, on the downlink from the base station apparatus 4 to the mobile station apparatus 2.
Transmission / reception of information between the mobile station apparatus 2 and the external device 3 uses radio waves propagating in the space between them. The mobile station apparatus 2 and the external device 3 perform data transmission or reception within a relatively narrow range (within 10 m to 100 m) at high speed communication, for example, at a transmission rate of 1 Mbps.
However, this transmission / reception method is different from the method used for transmission / reception of information between the mobile station apparatuses 2 and 7 and the base station apparatuses 4 and 5. This method is, for example, Bluetooth (registered trademark), which is one of short-range wireless communication standards. Bluetooth (registered trademark) is a low-power communication that uses spread spectrum technology. The frequency band to be used is, for example, 2400 MHz to 2500 MHz, and is different from the band used in communication between the mobile station apparatus 2 and the base station apparatus 4. This band is also called an ISM band (Industry Science Medical band).

FIG. 2 is a schematic block diagram showing the configuration of the mobile station apparatus 2 according to the embodiment of the present invention. The mobile station apparatus 2 includes a network communication unit 201, a demodulation unit 202, a D / A (Digital / Analog) unit 203, an A / D (Analog / Digital) unit 204, a modulation unit 205, a data transmission unit 206, and a connection management unit 207. , External device communication unit 208, setting input / output unit 210, management information storage unit 211, secondary battery unit 212, remaining amount detection unit 213, timer unit 214, operation input unit 215, and communication environment information notification control unit 217. Composed. The communication environment detection unit 216 includes a demodulation unit 202, a connection management unit 207, a setting input / output unit 210, and a remaining amount detection unit 213.
The mobile station apparatus 2 described below transmits / receives an audio signal as a data signal to / from another mobile station apparatus 7, but is not limited thereto, and may transmit / receive text information such as a video signal or an e-mail. Moreover, although the mobile station apparatus 2 demonstrated below transmits the audio | voice signal received from the mobile station apparatus 7 to the external apparatus 3 as a data signal, the information to transmit is not limited to this. The mobile station device 2 may transmit a video signal and text information to the external device 3, and may receive an operation input signal from the external device 3 in addition to the audio signal, the video signal, and the text information.

The network communication unit 201 receives a data signal and a reception control signal on the radio wave transmitted by the base station device 4 as a reception signal, down-converts this reception signal, performs analog / digital conversion, and generates a baseband signal The baseband signal is output to the demodulator 202. The network communication unit 201 also performs digital-to-analog conversion on the baseband signal input from the modulation unit 205, up-converts the signal, and transmits this transmission signal to the base station apparatus 4 on the radio wave.
The demodulator 202 performs FFT (Fast Fourier Transform) based on the baseband signal input from the network communication unit 201, and then detects the reception control signal and the data signal by demapping. Demodulation section 202 detects the level of the received signal and outputs the detected reception level signal to communication environment information notification control section 212 as a kind of communication environment information. Demodulation section 202 outputs the data signal to A / D section 203 and outputs it to data transmission section 206. Further, the demodulation unit 202 outputs a reception control signal to the connection management unit 207.
The D / A unit 203 converts a digital audio signal in the data signal input from the demodulation unit 202 into an analog audio signal. This voice signal can be reproduced in the mobile station apparatus 2 as a received voice.
The A / D unit 204 performs analog / digital conversion on the input analog audio signal to generate a data signal, and outputs the data signal to the modulation unit 205.
The modulation unit 205 encodes and modulates the data signal input from the A / D unit 204 and the transmission control signal input from the connection management unit 207, generates a transmission signal, performs mapping, IFFT (inverse high speed) (Fourier transform), the baseband signal is sent to the network communication unit 201. The network communication unit 201 up-converts the baseband signal after digital / analog conversion, and transmits the transmission signal to the base station apparatus 4 as a radio wave.
The data transmission unit 206 outputs the notification information based on the communication environment information input from the communication environment information notification control unit 217 and the data signal input from the demodulation unit 202 to the external device communication unit 208.

The connection management unit 207 generates a transmission control signal for controlling establishment and termination of communication with another mobile station device 7 and outputs the transmission control signal to the modulation unit 205. The transmission control signal is, for example, a communication start signal for starting communication or a communication end signal for ending communication. The connection manager 207 receives from the demodulator 202 a reception control signal for controlling establishment and termination of communication from another mobile station device 7.
The connection management unit 207 generates an external control signal for the external device 3 and outputs the external control signal to the external device communication unit 209. The external control signal is, for example, a signal indicating a registration request, connection confirmation, parameter setting request, and connection request for the external device 3. In addition, the connection management unit 207 stores the registration information of the external device 3 included in the external response signal input from the external device communication unit 208 in the management information storage unit 211, and reads the setting information from the management information storage unit 211.

  The connection management unit 207 includes a storage device that stores the value of the operation mode of the external device communication unit 208. The value of the operation mode indicates, for example, a normal operation mode when the value is 1, and a power saving mode when the value is 0. Here, the normal operation mode is an operation state in which a power of a predetermined amount or more is consumed when the external device communication unit 208 transmits / receives data to / from the external device 3. The power saving mode is an operation state in which the external device communication unit 208 consumes a minimum amount of power to maintain the function, such as performing a transition of the operation state without transmitting / receiving data to / from the external device 3. It is.

For example, when the network communication unit 201 transmits a transmission start signal to the network 6 or when the setting input / output unit 210 or the operation input unit 215 receives an operation input, the connection management unit 207 sets the operation mode information as a value. 1, that is, normal operation mode information. In addition, the connection management unit 207 receives an operation input for a certain time (for example, 5 minutes) after the network communication unit 201 transmits a communication disconnection signal to the network 6 and the setting input / output unit 210 accepts the operation input. If not, the operation mode information is set to value 0, that is, power saving mode information.
When the operation mode confirmation signal is input from the communication environment information notification control unit 212, the connection management unit 207 sends the normal operation mode to the communication environment information notification control unit 217 when the operation mode information is value 1, that is, normal operation mode information. When the operation mode information is a value 0, that is, the power saving mode information, a power saving mode signal is output to the communication environment information notification control unit 217.

  The external device communication unit 208 multiplies the notification information signal based on the communication environment information input from the data transmission unit 206 and the external control signal input from the connection management unit 207 by a spreading code specific to the external device 3. Later, digital-to-analog conversion is performed, then up-conversion is performed, and the notification information signal and the external control signal are transmitted to the external device 3 as radio waves. The external device communication unit 208 receives radio waves from the external device 3 as a received signal, down-converts the received signal, and multiplies the down-converted signal by a spreading code to generate an external response signal. The external device communication unit 208 outputs an external response signal to the connection management unit 207.

The setting input / output unit 210 displays a setting guide screen and inputs setting information corresponding to items included in the screen in accordance with a user operation. The setting information will be described later.
Further, the input setting information is output to the management information storage unit 211.
The management information storage unit 211 stores registration information input from the connection management unit 207 and setting information input from the setting input / output unit 210.

FIG. 3 is a diagram illustrating an example of registration information and setting information for each external device according to the present embodiment. In FIG. 3, the horizontal column indicates the types of external devices such as devices A, B, and C, and the vertical column indicates the type of information stored, that is, notification frequency information, input / output capability information, device type information, identification information, and correspondence Indicates profile information. Of these, the notification frequency information is the setting information. Input / output capability information, device type information, identification information, and corresponding profile information are registration information.
Here, the notification frequency information is information indicating a classification of the frequency of notification to the external device 3. The notification frequency information includes, for example, “low” indicating that the notification frequency is low, “medium” indicating that the notification frequency is medium, and “high” indicating that the notification frequency is high. “None” indicates that there is no notification frequency information. In FIG. 3, device A has no notification frequency information, device B has medium notification frequency information, and device C has high information.
The input / output capability information is information indicating the function of the external device 3. For example, “NoInputNoOutput” of the device A indicates that the external device A does not have a function of executing data input / output. “DisplayYesNo” indicates that the external device B has a display function and input buttons respectively corresponding to at least “Yes” and “No”. “DisplayOnly” indicates that the external device C does not have an input function but has a function of displaying data. Although not shown in FIG. 3, “KeyboardOnly” indicates that the external device 3 has an input device and does not have a display device.
The device type information is information indicating the type of the external device 3. For example, a headset (an input / output device in which an earphone and a microphone are integrated), a mobile phone, or a hands-free device (a communication device designed to be able to make a call without having a handset).
The identification information is information for identifying each external device 3. For example, a BD address. The BD address is a 48-bit unique address for identifying a device that complies with the Bluetooth standard. The device type information of the device A is a headset, the device B is a mobile phone, and the device C is hands-free. The corresponding profile information is information indicating a profile that can be executed by the external device 3. For example, the corresponding profile information of the device A is HSP, HFP, A2DP.

  A profile is a protocol formulated according to the function of each type of device. In the Bluetooth (registered trademark) standard, unless devices that are to communicate with each other can execute the same profile, communication using the profile cannot be realized. For example, HSP (Headset Profile, Headset Profile) is a profile for the external device 3 to receive a monaural audio signal. The HFP (Hands-Free Profile, hands-free profile) is a profile for the external device 3 to have not only a voice signal transmission / reception function but also a communication transmission / reception function. A2DP (Advanced Audio Distribution Profile, Advanced Audio Distribution Profile) is a profile for the external device 3 to receive a stereo audio signal. SPP (Serial Port Profile, serial port profile) is a profile for the external device 3 to execute a data transfer function as a serial port. The BIP (Basic Imaging Profile) is a profile for transferring a still image to the external device 3.

  Returning to FIG. 2, the management information storage unit 211 stores the section value of the reception level and the section information of the reception level in association with each other. The section information of the reception level is information for identifying the reception level displayed on the external device 3. For example, the reception level section information is the number of antennas displayed on the screen. In this case, for example, the management information storage unit 211 stores the reception level section information 1, 2 and 3 in association with the reception level section values of less than −110 dBm, −110 dBm or more, −105 dBm, or −105 dBm or more. . The section information of the reception level is 1, 2, and 3 corresponds to the number of antennas displayed on the screen being one, two, and three, respectively.

The secondary battery unit 212 stores electric power supplied from the outside. Further, the secondary battery unit 212 supplies the stored power to each unit of the mobile station device 2.
The remaining amount detection unit 213 detects the remaining amount of electric power stored in the secondary battery unit 212 and outputs the remaining amount information to the communication environment information notification control unit 217 as a kind of communication environment information.
The timer unit 214 receives the measurement start signal from the communication environment information notification control unit 217, and measures the time from when the measurement start signal is input. The timer unit 214 receives the measurement state inquiry signal from the communication environment information notification control unit 217, and outputs the measurement state signal to the communication environment information notification control unit 217 during the time measurement period. Further, the timer unit 214 outputs a non-measurement state signal to the communication environment information notification control unit 217 when time measurement is not performed. The timer unit 214 receives the time inquiry signal from the communication environment information communication control unit 217, and outputs the time information from the start of measurement to the communication environment information communication control unit 217. When the measurement stop signal is input from the communication environment information communication control unit 217, the timer unit 214 stops measuring time.
The operation input unit 215 receives operation inputs associated with communication such as communication start, identification number of another mobile station apparatus 7 that is a communication partner, communication end, and the like, and outputs an input signal corresponding to the input to the connection management unit 207. .

  The communication environment detection unit 216 detects various communication environment information and outputs the detected communication environment information to the communication environment information notification control unit 217. Communication environment information refers to information that affects the function and performance of the mobile station device 2 itself when the mobile station device 2 communicates with other mobile station devices 7 and external devices 3. For example, the reception level signal, the notification frequency information to the external device 3, the input / output capability information of the external device 3 detected or acquired by the demodulation unit 202, the connection management unit 207, the setting input / output unit 210 and the remaining amount detection unit 213. The remaining amount information of the secondary battery unit 212 corresponds to the communication environment information.

The communication environment information notification control unit 217 includes a reception level signal input from the demodulation unit 202, setting information and registration information read from the management information storage unit 211, or remaining amount information read from the remaining amount detection unit 213. The transmission time interval is determined according to any one or a combination thereof.
The communication environment information notification control unit 217 outputs a measurement start signal that instructs the timer unit 214 to start measuring time. The communication environment information notification control unit 217 outputs a measurement state inquiry signal for confirming whether or not time is being measured to the timer unit 214, and a measurement state signal indicating that the time measurement is being performed from the timer unit 214. Alternatively, a non-measurement state signal indicating that the time measurement is not being performed is input. The communication environment information notification control unit 217 outputs a measurement stop signal that instructs the timer unit 214 to stop time measurement. The communication environment information notification control unit 217 outputs a time inquiry signal for confirming the measured time to the timer unit 214, and the timer unit 214 receives time information indicating the measured time. The communication environment information notification control unit 217 may determine the above-described transmission time interval based on the measurement state signal, the non-measurement state signal, and the time information. Further, the communication environment information notification control unit 217 is detected. The notification information is determined based on the communication environment information. For example, the communication environment information notification control unit 217 refers to the management information storage unit 211 and determines reception level section information to which the reception level indicated by the input reception level signal belongs. Further, remaining amount section information to which the remaining amount indicated by the input remaining amount information belongs is determined. The communication environment information notification control unit 217 outputs the determined notification information, that is, reception level interval information or remaining amount interval information to the data transmission unit 206 at the transmission time interval described above.
The processing in the communication environment information notification control unit 217 will be described later.

FIG. 4 is a schematic block diagram showing the configuration of the external device 3. The external device 3 includes a mobile station communication unit 301, a demodulation unit 302, a D / A unit 303, a demodulation unit 304, a communication information display unit 305, a connection management unit 306, a setting input / output unit 307, a management information storage unit 308, and a notification An information reception control unit 309 is included.
The external device 3 described below reproduces the audio signal received from the mobile station device 2, but is not limited to this. The external device 3 may reproduce the video signal and text information received from the mobile station device 2. The external device 3 can receive an audio signal, a video signal, text information, and an operation input signal, and can transmit all or part of them to the mobile station apparatus 2.

The mobile station communication unit 301 receives the transmission signal transmitted by the mobile station device 2, down-converts it, performs analog / digital conversion, and outputs it to the demodulation unit 302 as a baseband signal. In addition, the mobile station communication unit 301 performs digital / analog conversion on the transmission signal input from the modulation unit 304, up-converts, and outputs the transmission signal to the mobile station apparatus 2 on the radio wave.
The demodulation unit 302 demodulates and decodes the received signal input from the mobile station communication unit 301, and extracts a data signal, notification information, and control information. Demodulation section 302 outputs a data signal to D / A section 303, outputs notification information to notification information reception control section 309, and outputs control information to connection management section 306 or setting input / output section 307.
The D / A unit 303 converts the data signal input from the demodulation unit 302 into an analog audio signal. Sound is reproduced by a speaker (not shown) or an earphone based on the converted analog sound signal.
The response signal input from the connection management unit 306 or the setting input / output unit transmits the response signal as a radio wave to the communication unit 301 of the mobile station device 3 via the modulation unit 304 and the mobile station communication unit 301.

The notification information display unit 305 performs display according to the notification information input from the notification information reception control unit 309. For example, when the notification information is reception level section information, the notification information display unit 305 displays the number of antennas corresponding to the reception level section information. A display example of the number of antennas corresponding to the section information of the reception level is shown in FIG. In FIG. 10, the left column shows the section information of the reception level, and the right column shows the screen display. In the example of FIG. 10, when the reception level section information is 1, 2, and 3, the number of antennas displayed on the screen is 1, 2, and 3, respectively.
When the notification information is remaining amount section information, the notification information display unit 305 may fill and display a portion corresponding to the remaining amount section of the battery symbol. The notification information display unit 305 includes a display device such as a liquid crystal display device or an organic EL display device for display.
When the mobile station apparatus 2 transmits a control signal to the external device 3, the connection management unit 306 outputs a response signal corresponding to the control signal input from the demodulation unit 302 to the modulation unit 304. For example, when the control signal is an authentication request signal, the connection management unit 306 checks the authentication information read from the management information storage unit 308, and if the control signal matches the condition specified by the input control signal, the authentication confirmation signal Is output to the modulation unit 304 as a response signal.
The setting input / output unit 307 also outputs a response signal corresponding to the control signal input from the demodulation unit 302 to the modulation unit 304. For example, when the control signal is an external device information request signal, the setting input / output unit 307 reads the device information of the external device 3 from the management information storage unit 308 as external device information, and uses the external device information as a response signal. The result is output to the modulation unit 304.
The management information storage unit 308 stores the above-described authentication information and external device information as information unique to the external device 3.
The notification information reception control unit 309 outputs the notification information input from the mobile station communication unit 301 via the demodulation unit 302 to the notification information display unit 305.

Next, processing in which the mobile station apparatus 2 sets the notification frequency of notification information based on communication environment information according to the capability of the external device 3 will be described using a flowchart.
FIG. 5 is a flowchart illustrating an example of processing for setting a notification frequency based on communication environment information in the present embodiment.
(Step S401) The connection management unit 207 of the mobile station apparatus 2 outputs a connection request signal with the external device 3 to the external device communication unit 208. The external device communication unit 208 transmits the connection request signal to the external device 3 as a transmission signal.
The mobile station communication unit 301 of the external device 3 receives the signal from the mobile station apparatus 2, down-converts the received signal received, and outputs the down-converted signal to the demodulation unit 302. Demodulation section 302 demodulates and decodes the down-converted signal, extracts a connection request signal from the decoded signal, and outputs the connection request signal to connection management section 306. The connection management unit 306 receives the connection request signal and outputs a connection confirmation signal to the modulation unit 306. Modulation section 304 encodes and modulates the connection request signal input from connection management section 306, and outputs this signal to mobile station communication section 301. The mobile station communication unit 301 up-converts the signal input from the modulation unit 304, generates a transmission signal, and transmits this transmission signal to the mobile station apparatus 2 as an electromagnetic wave. The external device communication unit 208 receives a reception signal from the external device 3 and down-converts the reception signal. The external device communication unit 208 extracts a connection confirmation signal from the down-converted signal and outputs it to the connection management unit 207.

(Step S <b> 402) The connection management unit 207 receives a connection confirmation signal from the external device communication unit 208 and outputs an authentication request signal to the external device communication unit 208. The external device communication unit 208 up-converts the authentication request signal and transmits it as a transmission signal to the external device 3 as a radio wave. The mobile station communication unit 301 of the external device 3 receives this transmission signal from the mobile station device 2, down-converts the received signal, and outputs it to the demodulation unit 302. Demodulation section 302 demodulates and decodes the down-converted signal, extracts an authentication request signal, and outputs the authentication request signal to connection management section 306. The connection management unit 306 collates the authentication request signal input from the demodulation unit 302 with the authentication information read from the management information storage unit 308. When the connection management unit 306 succeeds in the collation, an authentication confirmation signal is output to the modulation unit 304. Modulation section 304 encodes and modulates the authentication confirmation signal and outputs it to mobile station communication section 301. The mobile station communication unit 301 upconverts the signal received from the modulation unit 304 to generate a transmission signal, and transmits the transmission signal to the mobile station apparatus 2 as a radio wave. The external device communication unit 208 receives a reception signal from the external device 3 and down-converts the reception signal. The external device communication unit 208 extracts an authentication confirmation signal from the down-converted signal and outputs it to the connection management unit 207.

(Step S403) The connection management unit 207 of the mobile station apparatus 2 outputs a capability information request signal to the external device communication unit 208. The external device communication unit 208 up-converts the capability information request signal to generate a transmission signal, and transmits it to the external device 3. The mobile station communication unit 301 receives a transmission signal from the mobile station device 2. The mobile station communication unit 301 outputs the received signal to the demodulation unit 302. Demodulation section 302 down-converts the received signal, extracts a capability information request signal from the down-converted signal, and outputs it to connection management section 306. The connection management unit 306 receives the capability information request signal from the demodulation unit 302 and reads the input / output capability information from the management information storage unit 308.
The connection management unit 306 outputs the read input / output capability information to the modulation unit 304. Modulation section 304 up-converts the input / output capability information input from connection management section 306 to generate a transmission signal and outputs it to mobile station communication section 301. The mobile station communication unit 301 transmits the transmission signal input from the modulation unit 304 to the mobile station apparatus 2. The external device communication unit 208 down-converts the received signal from the external device 3, extracts input / output capability information from the down-converted signal, and outputs it to the connection management unit 207. The connection management unit 207 stores the input / output capability information input from the external device communication unit 208 in the management information storage unit 211.

(Step S404) The connection management unit 207 determines whether or not the input input / output capability information is information indicating that the external device 3 does not have an input display function. (Step S404 Y). For example, according to the specification in SECURE SIMPLE PAIRING of BLUETOOTH SPECIFICATION Version 2.1, such input / output capability information is “NoInputNoOutput” or “KeyboardOnly”. If the input / output capability information is information indicating that the external device 3 does not have an input display function, the connection management unit 207 proceeds to step S405. (Step S404 N) If the input / output capability information is not information indicating that the external device 3 does not have an input display function, the connection management unit 207 ends the process.

(Step S 405) The communication environment information notification control unit 217 generates a transmission frequency signal “non-transmission” indicating that notification information is not transmitted, and stores it in the management information storage unit 208.
Thereby, when the external device 3 does not have an input display function, the mobile station apparatus 2 does not need to transmit notification information. Therefore, the mobile station apparatus 2 can avoid power consumption for transmission.
In addition, when two or more mobile station apparatuses 2 and external devices 3 are connected and registered, by executing the above-described processing for each external device 3, transmission of notification information corresponding to the capability information of each external device 3 is performed. Necessity can be determined. Therefore, the mobile station apparatus 2 can optimize power consumption for transmission by providing necessary notification information and avoiding provision of unnecessary information.

Next, processing in the communication environment information notification control unit 217 according to the present embodiment will be described with reference to the drawings.
FIG. 6 is a flowchart illustrating an example of processing in the communication environment information notification control unit 217 according to the present embodiment.
(Step S 501) Communication environment information notification control unit 217 receives communication environment information such as a reception level signal from demodulation unit 202.
(Step S502) The communication environment information notification control unit 217 outputs a connection confirmation request signal for the external device 3 to the connection management unit 207. (Step S502 Y) When the communication environment information notification control unit 217 receives a connection confirmation signal as a response to the connection confirmation request signal, the process proceeds to step S503. (Step S502 N) When the communication environment information notification control unit 217 does not receive a connection confirmation signal within a certain time (for example, 90 seconds), the process is terminated.

(Step S503) The communication environment information notification control unit 217 outputs an operation mode confirmation signal to the connection management unit 207. (Step S503 Y) When a power saving mode signal is input as a response to the operation mode confirmation signal from the connection management unit 207, the process proceeds to step S504. (Step S503 N) When the normal operation mode signal is input from the connection management unit 207, the process proceeds to Step S506.
(Step S <b> 504) The communication environment information notification control unit 217 reads notification frequency information from the management information storage unit 211. (Step S504 Y) If the communication environment information notification control unit 217 has successfully read the notification frequency information, the process proceeds to step S505. (Step S504 N) If the communication environment information notification control unit 217 fails to read the notification frequency information, the process proceeds to Step S506.

(Step S505) The communication environment information notification control unit 217 executes processing to postpone transmission of notification information. After this process is completed, the communication environment information notification control unit 217 ends the process.
(Step S506) When the communication environment information is a reception level signal, the communication environment information notification control unit 217 refers to the management information storage unit 208 based on this, and receives the reception level section information as notification information based on the communication environment information. Determine. (Step S506 Y) If the communication environment information is the same as the communication environment information output immediately before, the process ends. (Step S506 N) When the determined notification information is changed from the notification information output immediately before, the process proceeds to Step S507.
(Step S507) The communication environment information notification control unit 212 outputs the determined notification information to the data transmission unit 203.

Next, the notification information transmission postponement process (step S505) will be described with reference to the drawings. FIG. 7 is a flowchart showing an example of the communication environment information notification postponing process according to the present embodiment.
(Step S601) The communication environment information notification control unit 217 receives communication environment information such as a reception level signal from the demodulation unit 202. When the communication environment information is a reception level signal, the communication environment information notification control unit 217 determines reception level section information as notification information based on the communication environment information with reference to the management information storage unit 208 based on this.
(Step S602) The communication environment information notification control unit 217 outputs a measurement state inquiry signal to the timer unit 214 for confirming whether or not time measurement is being performed. (Step S602 Y) When the communication environment information notification control unit 217 receives a measurement state signal indicating that the time measurement is being performed from the timer unit 214, the process proceeds to step S603. (Step S602 N) When the communication environment information notification control unit 217 receives a non-measurement state signal indicating that the time measurement is not being performed from the timer unit 214, the process proceeds to step S607.
(Step S603) The communication environment information notification control unit 217 stores the notification information.

(Step S604) The communication environment information notification control unit 217 outputs a time inquiry signal for confirming the time being measured to the timer unit 214, and the time information indicating the time being measured is input from the timer unit 214. The communication environment information notification control unit 217 determines whether the time indicated by the input time information is greater than a preset transmission time interval. (Step S604 Y) When the time indicated by the time information is larger than the set transmission time interval, the process proceeds to Step S605. A method for determining the transmission time interval will be described later. (Step S604 N) When the time indicated by the input time information is equal to or smaller than the set transmission time interval, the process returns to Step S601.
(Step S605) The communication environment information notification control unit 217 determines whether the stored notification information is the same as the notification information output immediately before. (Step S605 Y) If the stored notification information is the same as the notification information output immediately before, the process is terminated. (Step S605 N) When the stored notification information is not the same as the notification information output immediately before, the process proceeds to Step S606.
(Step S606) The communication environment information notification control unit 217 outputs the stored notification information to the data transmission unit 206. Thereby, when notification information changes, it will be transmitted to the external apparatus 3, and consumption of the electric power by transmitting the same notification information repeatedly is avoided.

(Step S607) The communication environment information communication control unit 217 outputs a measurement start signal instructing the timer unit 214 to start measuring time. The timer unit 214 starts time measurement when a measurement start signal is input from the communication environment information communication control unit 217.
(Step S608) When the communication environment information is a reception level signal, the communication environment information notification control unit 217 receives the reception level to which the reception level signal input with reference to the reception level section information stored in the management information storage unit 208 belongs. Section information is determined as notification information. The communication environment information notification control unit 217 determines whether the notification information is the same as the notification information output immediately before. (Step S608 Y) When the notification information is the same as the notification information output immediately before, the process returns to Step S601. (Step S608 N) When the notification information is not the same as the notification information output immediately before, the process proceeds to Step S609.
(Step S609) The communication environment information notification control unit 217 outputs the notification information to the data transmission unit 206. Again, when the notification information changes, it is transmitted to the external device 3, and it is not necessary to consume power by repeatedly transmitting the same notification information.

Therefore, the mobile station apparatus 2 is postponed to transmit the notification information based on the communication environment information to the external device 3 until the set transmission time interval elapses, and the notification information is transmitted at the set transmission time interval. become. As will be described later, the power consumption of the mobile station apparatus 2 can be further suppressed by further changing the transmission time interval.
In the above description, the case where the communication environment information is mainly the reception level signal and the notification information is the reception level section information is exemplified, but the present invention is not limited to this. The communication environment information may be, for example, the remaining amount signal of the secondary battery unit 212 and the notification information may be remaining amount level section information.

Next, a process in which the mobile station apparatus 2 displays a setting screen and sets a notification information transmission time interval will be described with reference to the drawings.
FIG. 8 is a flowchart illustrating an example of processing for setting a transmission time interval of notification information according to the present embodiment. Of these processes, steps S401 to S405 are common to the processes shown in FIG. Steps S406 to S410 subsequent to step S404 are newly added portions.
(Step S404 N) When the connection management unit 207 does not indicate that the input / output capability information of the external device 3 does not have the input display function, the process proceeds to Step S406.

(Step S406) The setting input / output unit 210 displays a setting guide screen. Information prompting the user to input setting information is displayed on the setting guide screen. For example, the setting input / output unit 210 displays the following contents.
Do you give priority to the power saving of mobile phones?
(1) High priority (2) Medium priority (3) Slight priority (4) No priority (5) Decrease depending on the remaining battery power This is information for prompting the user to input the power saving priority. (1) to (5) indicate setting items, respectively, and prompt the user to press the key input unit of the number corresponding to the setting item. For example, the setting item (1) indicates that a key indicating 1 is pressed to select this item.

(Step S407) When the user presses a key having a number corresponding to one setting item, the setting input / output unit 210 inputs the setting item information and outputs it to the communication environment information notification control unit 217. For example, when the user presses a key displaying 1, setting item information indicating that power saving is largely prioritized is output to the communication environment information notification control unit 217.
(Step S408) The communication environment information notification control unit 217 determines whether or not the input setting item information is a setting corresponding to the remaining battery level. (Step S408 N) The communication environment information notification control unit 217 proceeds to step S409 when the input setting item information is not set according to the remaining battery level, that is, in any of (1) to (4). . (Step S408 Y) If the communication environment information notification control unit 217 has the setting item information set according to the remaining battery level, that is, (5), the process proceeds to step S410.
(Step S409) The communication environment information notification control unit 217 reads transmission time interval information and notification frequency information corresponding to the setting item information input from the management information storage unit 211. Here, the management information storage unit 211 stores setting item information, notification frequency information, and the above-described transmission time interval information in association with each other. The communication environment information notification control unit 217 stores the read notification frequency information in the management information storage unit 211 as setting information associated with registration information for each device (see FIG. 3).

  Here, the notification frequency information stored in the management information storage unit 211 is lower in the order of the setting items (1) to (4). For example, for each of (1), (2), (3), and (4), for example, “low”, “medium”, “high”, and “highest”. Corresponding transmission time interval information is large in the order of (1) to (4). For example, 60 seconds, 30 seconds, 10 seconds, and 1 second for (1), (2), (3), and (4), respectively. That is, since the communication environment information notification control unit 217 sets large transmission time interval information in the order of (1) to (4), the mobile station apparatus 2 uses the transmission time interval to notify information based on the communication environment information. Is transmitted to the external device 3. Therefore, the mobile station apparatus 2 can reduce the power required for transmission by determining the notification frequency lower according to the user setting.

(Step S410) The communication environment information notification control unit 217 receives the remaining amount information indicating the remaining amount of the secondary battery unit 212 from the remaining amount detection unit 213. Here, the management information storage unit 211 stores the remaining amount section information and the transmission time interval information in association with each other. The communication environment information notification control unit 217 refers to the remaining amount section information stored in the management information storage unit 211 with reference to the remaining amount information stored in the management information storage unit 211, and determines the remaining amount thus determined. The transmission time interval information corresponding to the section information is read from the management information storage unit 211.
The remaining amount section information stored in the management information storage unit 211 is composed of, for example, four stages: less than 300 mAh, less than 300 mAh, less than 600 mAh, more than 600 mAh, less than 1000 mAh, and more than 1000 mAh. Further, the transmission time interval information corresponding to each section is composed of, for example, four stages of 60 seconds, 30 seconds, 10 seconds, and 1 second in descending order. Therefore, the mobile station apparatus 2 can reduce the power required for transmission by determining the transmission time interval to be larger, that is, the notification frequency is lower, as the remaining amount in the secondary battery unit 212 is smaller.

Next, another aspect of the notification information transmission postponing process (step S505) will be described with reference to the drawings.
FIG. 9 is a flowchart showing another example of the notification information transmission postponing process according to the present embodiment. Of these processes, steps S601 to S609 are common to the process shown in FIG. Steps S621 to S623 are parts newly added to the processing shown in FIG. The processing of these parts is characterized in that when the communication environment information is a reception level signal, the variation frequency is taken into consideration.

(Step S621) The communication environment information notification control unit 217 changes the reception level section information determined based on the reception level signal after outputting the measurement start signal instructing the timer unit 214 to start measuring time. Count.

(Step S622) The communication environment information notification control unit 217 determines whether or not the number of times the reception level section information has changed from the demodulation unit 202 exceeds a preset upper limit number. The upper limit number is, for example, 5 times. (Step S622 Y) If the number of changes in the reception level section information counted in Step S621 exceeds the upper limit number, the process proceeds to Step S605, and the communication environment information notification control unit 217 clears the information of the counted number. . (Step S622 N) When the number of times the reception level section information has changed does not exceed the upper limit number, the process proceeds to Step S623.
(Step S623) The communication environment information communication control unit 217 clears the counted number of information, and outputs a measurement start signal instructing the timer unit 214 to start measuring time. The timer unit 214 starts time measurement when a measurement start signal is input from the communication environment information communication control unit 217. The process returns to step S601.

  As a result, the communication environment information notification control unit 217 counts the number of times the reception level section changes for each set transmission time interval, and if the number does not exceed a predetermined upper limit number, the mobile station device 2 Transmits the reception level section information to the external device 3. If the number of times exceeds a predetermined upper limit number of times, the mobile station apparatus 2 further postpones transmission of the reception level section information until the transmission time interval elapses. If this upper limit number is reduced, there is a high possibility that transmission of reception level section information is postponed, so that the reception level notification frequency can be further lowered. On the other hand, if the upper limit number is increased, the possibility that the transmission of the reception level section information is postponed is reduced, so that the reception level notification frequency can be increased.

  For example, when the set transmission time interval is 30 seconds and the upper limit number is 6, when the reception level interval changes at least once every 5 seconds, the mobile station apparatus 2 transmits the reception level interval information until at least 30 seconds have elapsed. Postponed. Such a phenomenon that the reception level section frequently fluctuates often occurs during movement, and may continue even after the count of the number of times the reception level section changes is completed. In such a case, since the reception level section information that fluctuates frequently is not meaningful for the user, power consumption can be reduced by not transmitting the reception level section information.

In steps S506, S605, and S608, the communication environment information notification control unit 217 may use different determination criteria when comparing the current communication environment information with the previous communication environment information. In this way, it is possible to change the determination as to whether or not to transmit the communication environment information according to the change state of the communication environment information. For example, the communication environment information notification control unit 217 may determine whether or not the determined reception level interval information differs from the reception level interval information output immediately before by two or more intervals. For example, when the number of antennas displayed on the external device 3 changes from three to one, or from one to three, the reception level section information is changed when the reception level section changes significantly. Transmission is limited, and transmission of reception level section information can be avoided when fluctuations in reception level section information are moderate.
Thus, according to the present embodiment, it is possible to transmit effective notification information based on the communication environment information at a frequency determined based on the detected communication environment.

In addition, you may make it implement | achieve a part of mobile station apparatuses 2 in embodiment mentioned above, for example, the communication environment detection part 216, and the communication environment information notification control part 217 with a computer. In that case, the program for realizing the control function may be recorded on a computer-readable recording medium, and the program recorded on the recording medium may be read by the computer system and executed. Here, the “computer system” is a computer system built in the mobile station apparatus, and includes an OS and hardware such as peripheral devices. The computer-readable recording medium is a recording medium such as a flexible disk, a magneto-optical disk, a ROM, and a CD-ROM, and a storage device such as a hard disk built in the computer system. Furthermore, the “computer-readable recording medium” is a medium that dynamically holds a program for a short time, such as a communication line when transmitting a program via a network such as the Internet or a communication line such as a telephone line, In such a case, a volatile memory inside a computer system serving as a server or a client may be included and a program that holds a program for a certain period of time. The program may be a program for realizing a part of the functions described above, and may be a program capable of realizing the functions described above in combination with a program already recorded in a computer system.
Moreover, you may implement | achieve part or all of the mobile station apparatus in the embodiment mentioned above, and a mobile station apparatus as semiconductor integrated circuits, such as LSI (Large Scale Integration). The mobile station apparatus and each functional block of the mobile station apparatus may be individually made into a processor, or a part or all of them may be integrated into a processor. Further, the method of circuit integration is not limited to LSI, and may be realized by a dedicated circuit or a general-purpose processor. Further, in the case where an integrated circuit technology that replaces LSI appears due to progress in semiconductor technology, an integrated circuit based on the technology may be used.

  As described above, the embodiment of the present invention has been described in detail with reference to the drawings. However, the specific configuration is not limited to the above, and various design changes and the like can be made without departing from the scope of the present invention. It is possible to

DESCRIPTION OF SYMBOLS 1 ... Wireless communication system 2 ... Mobile station apparatus 3 ... External apparatus 4 ... Base station apparatus 5 ... Base station apparatus 6 ... Network 7 ... Mobile station apparatus 201 ... Network communication part 202 ... Demodulation part 203 ... D / A part 204 ... A / D section 205 ... modulation section 206 ... data transmission section 207 ... connection management section 208 ... external device communication section 210 ... setting input / output section 211 ... management information storage section 212 ... secondary power supply section 213 ... remaining amount detection section 214 ... timer 215: Operation input unit 216: Communication environment detection unit 217 ... Communication environment information notification control unit 301 ... Mobile station communication unit 302 ... Demodulation unit 303 ... D / A unit 304 ... Modulation unit 305 ... Communication environment information display unit 306 ... Connection Management unit 307 ... Setting input / output unit 308 ... Management information storage unit 309 ... Communication environment information reception control unit

Claims (7)

A communication environment detection unit for detecting communication environment information;
A communication environment information notification control unit for determining a transmission interval of notification information based on the communication environment information;
An external device communication unit that transmits the notification information to the external device at the transmission interval;
A communication device. A network communication unit for receiving information from the network;
The communication environment information is reception level information of the information;
The communication device according to claim 1. The communication environment detection unit receives capability information of the external device,
The communication environment information notification control unit determines the transmission interval based on the capability information;
The communication device according to claim 1. The communication environment information notification control unit extends the transmission interval when the frequency of the change of the notification information in the communication environment information is a certain frequency or more,
The communication device according to claim 1. The communication environment information is power remaining amount information;
The communication device according to claim 1. A communication method in a communication device,
A first process of detecting communication environment information;
A second step of determining a transmission interval of notification information based on the communication environment information;
And a third process of transmitting the notification information to an external device at the transmission interval. In the computer that the communication device has,
A first procedure for detecting communication environment information;
A second procedure for determining a transmission interval of notification information based on the communication environment information;
Performing the third procedure of transmitting the first information to the external device at the transmission interval,
A communication program characterized by

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