JP2015040701A - Information communication device, information communication system, and program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To appropriately achieve power saving while considering a remaining power storage capacity of an external communicable information communication device.SOLUTION: A wrist type terminal 2 includes: a remaining-power-storage-capacity acquisition unit 207a that acquires a remaining power storage capacity of a storage battery of a mobile terminal 1 by a communication control unit 205; the communication control unit 205 that acquires first motion related information changing in association with a motion of a main body of the mobile terminal 1 acquired by the mobile terminal 1; a GPS processing unit 208 that acquires second motion related information changing in association with a motion; a remaining-power-storage-capacity detection unit 206a that detects the remaining power storage capacity of the storage battery; and an operation control unit 210 that controls the communication control unit 205 and the GPS processing unit 208 to switchably execute acquisition of the first motion related information and the second motion related information on the basis of a result of comparison between the acquired remaining power storage capacity of the storage battery of the mobile terminal 1 and the detected remaining power storage capacity of the storage battery.

Description

  The present invention relates to an information communication device, an information communication system, and a program.

  Conventionally, it is a terminal that can communicate wirelessly with external information communication devices such as smartphones, and it can acquire position information and measure movement distance, speed, etc. using a GPS (Global Positioning System) antenna and various sensors There are terminals equipped with various functions (see, for example, Patent Document 1).

JP 2012-182576 A

  However, in the external device, when measurement using the GPS antenna and various sensors is possible, the same measurement is performed on both the external device and a terminal connected to be communicable with the external device. It is not preferable from the viewpoint of power saving.

  Therefore, an object of the present invention is to provide an information communication device, an information communication system, and a program that can favorably save power in consideration of the remaining amount of power stored in an external information communication device that can communicate.

In order to solve the above problems, an information communication apparatus according to the present invention provides:
Detection means for detecting the remaining amount of storage battery that supplies power to each unit, communication means capable of communicating with an external information communication device connected via a communication line, and the external information communication device acquired by the external information communication device First movement acquisition means for acquiring first movement related information that changes in relation to the movement of an external information communication apparatus main body via the communication means, and the remaining charge of the storage battery of the external information communication apparatus as the communication A remaining amount acquisition means acquired by the means, a second movement acquisition means for acquiring second movement related information that changes in relation to the movement, and a storage battery of the external information communication device acquired by the remaining amount acquisition means. Comparing means for comparing the remaining amount of electricity stored and the remaining amount of electricity stored in the storage battery detected by the detecting means; and acquiring the first motion related information by the first motion acquiring means based on the comparison result by the comparing means; It is characterized by and a control means for controlling to execute switching between acquisition of the second motion-related information by the second motion acquisition unit.

An information communication apparatus according to the present invention is
A first communication means capable of communicating with an external device connected via a first communication line; a second communication means capable of communicating with an external information communication apparatus connected via a second communication line; Detecting means for detecting the remaining amount of storage battery that supplies power to the battery, remaining amount acquisition means for acquiring the remaining storage amount of the storage battery of the external information communication device by the second communication means, and remaining amount acquisition means Based on the comparison result obtained by the comparison means, the comparison means for comparing the obtained remaining charge amount of the storage battery of the external information communication device and the remaining charge amount of the storage battery detected by the detection means, the first A process of acquiring various information transmitted from the external device without connecting the communication unit and the external device by the second communication unit via the external information communication device; and the first communication unit and the external device Equipment and It is characterized by and a control means for controlling to execute switching between processing for acquired by the first communication means various information transmitted from the external device by connection.

Moreover, the information communication system according to the present invention includes:
An information communication system in which a first information communication device and a second information communication device are connected via a communication line, wherein the first information communication device changes in relation to the movement of the device main body. 1st movement acquisition means which acquires the 1st movement related information, and detection means which detects the electrical storage remaining amount of the storage battery which supplies power to each part, The 2nd above-mentioned information communication apparatus is via a communication line A communication means capable of communicating with the connected first information communication device; a remaining amount acquisition means for acquiring, by the communication means, a remaining charge amount of the storage battery detected by the detection means of the first information communication device; A second movement acquisition means for acquiring second movement related information that changes in relation to the movement of the apparatus main body; a detection means for detecting a remaining amount of storage battery that supplies power to each unit; and the remaining quantity acquisition means. The acquired first information communication device A comparing means for comparing the remaining amount of electricity stored in the storage battery with the remaining amount of electricity stored in the storage battery detected by the detecting means of the second information communication device, and the first motion acquisition means based on the comparison result by the comparing means Control for switching and executing the process of acquiring the first motion related information acquired by the communication means via the communication means and the process of acquiring the second motion related information by the second motion acquisition means Means.

Moreover, the information communication system according to the present invention includes:
An information communication system in which a first information communication device and a second information communication device are connected via a communication line, wherein the first information communication device is a remaining storage amount of a storage battery that supplies power to each unit. And the second information communication apparatus is connected via a second communication line to a first communication means capable of communicating with an external device connected via the first communication line. Second communication means capable of communicating with the first information communication device, detection means for detecting the remaining amount of storage battery that supplies power to each unit, and the remaining charge amount of the storage battery of the first information communication device Remaining amount acquisition means acquired by the second communication means, remaining storage amount of the storage battery of the first information communication device acquired by the remaining amount acquisition means, and remaining storage amount of the storage battery detected by the detection means; And comparing means for comparing A process for acquiring various information transmitted from the external device without connecting the first communication unit and the external device based on the results by the second communication unit via the first information communication device; Control means for controlling to switch and execute processing for connecting the first communication means and the external device to obtain various information transmitted from the external device by the first communication means. It is characterized by that.

The program according to the present invention is
A computer for an information communication device comprising a communication means capable of communicating with an external information communication device connected via a communication line, a detecting means for detecting the remaining amount of storage battery that supplies power to each part, the external information communication First movement acquisition means for acquiring, via the communication means, first movement related information that changes in relation to movement of the external information communication apparatus main body acquired by the apparatus, and storage of the storage battery of the external information communication apparatus A remaining amount acquiring unit that acquires a remaining amount by the communication unit, a second movement acquiring unit that acquires second movement related information that changes in relation to a motion, and the external information communication device acquired by the remaining amount acquiring unit Comparing means for comparing the remaining amount of storage battery of the storage battery and the remaining amount of storage battery power detected by the detecting means, and based on the comparison result by the comparing means, the first movement obtaining means And obtaining the first motion-related information, it is characterized in that to the above mentioned, by second motion obtaining unit second control means for controlling to execute switches between the acquisition of the motion related information functions as.

The program according to the present invention is
A first communication means capable of communicating with an external device connected via a first communication line; and a second communication means capable of communicating with an external information communication apparatus connected via a second communication line. A computer for an information communication apparatus comprising: a detecting means for detecting a remaining amount of storage battery that supplies power to each unit; a remaining amount acquiring means for acquiring the remaining amount of storage battery of the storage battery of the external information communication apparatus by the second communication means A comparison unit that compares the remaining amount of storage of the storage battery of the external information communication device acquired by the remaining amount acquisition unit with the remaining amount of storage of the storage battery detected by the detection unit; A process of acquiring various information transmitted from the external device without connecting the first communication unit and the external device by the second communication unit via the external information communication device; The first communication means is connected to the external device to function as a control means for controlling to switch and execute processing for acquiring various information transmitted from the external device by the first communication means. It is a feature.

  ADVANTAGE OF THE INVENTION According to this invention, power saving can be aimed at suitably considering the electrical storage remaining amount of the external information communication apparatus which can communicate.

It is a figure which shows schematic structure of the information communication system of Embodiment 1 to which this invention is applied. It is a block diagram which shows schematic structure of the portable terminal which comprises the information communication system of FIG. It is a block diagram which shows schematic structure of the list | wrist type terminal which comprises the information communication system of FIG. 3 is a flowchart illustrating an example of an operation related to an operation control process performed by the mobile terminal in FIG. 2. 4 is a flowchart showing an example of an operation related to an operation control process by the list type terminal of FIG. 3. It is a figure for demonstrating the operation control process of FIG.4 and FIG.5. It is a figure which shows schematic structure of the information communication system of Embodiment 2 to which this invention is applied. It is a block diagram which shows schematic structure of the portable terminal which comprises the information communication system of FIG. It is a block diagram which shows schematic structure of the list | wrist type terminal which comprises the information communication system of FIG. It is a flowchart which shows an example of the operation | movement which concerns on the operation control process by the portable terminal of FIG. 10 is a flowchart illustrating an example of an operation related to an operation control process by the list type terminal of FIG. 9. It is a figure for demonstrating the operation control process of FIG.10 and FIG.11.

  Hereinafter, specific embodiments of the present invention will be described with reference to the drawings. However, the scope of the invention is not limited to the illustrated examples.

[Embodiment 1]
FIG. 1 is a diagram showing a schematic configuration of an information communication system 100 according to the first embodiment to which the present invention is applied.
As shown in FIG. 1, the information communication system 100 of Embodiment 1 includes a mobile terminal (see FIG. 2) 1 and a wrist terminal (see FIG. 3) 2. The mobile terminal 1 and the wrist terminal 2 are In addition, information communication is possible via a wireless communication line (for example, a wireless PAN (Personal Area Network) such as Bluetooth (registered trademark)).
Here, the portable terminal 1 and the wrist terminal 2 are, for example, owned and used by the same user, but may be owned and used by different users.

First, the mobile terminal 1 will be described with reference to FIG.
FIG. 2 is a block diagram showing a schematic configuration of the mobile terminal 1 constituting the information communication system 100.

As shown in FIG. 2, the mobile terminal 1 includes a central control unit 101, a memory 102, a display unit 103, a display control unit 104, a transmission / reception unit 105, a first communication control unit 106, and a second communication. A control unit 107, a power supply unit 108, a GPS processing unit 109, a movement detection unit 110, an operation control unit 111, an operation input unit 112, and the like are provided.
Also, central control unit 101, memory 102, display control unit 104, transmission / reception unit 105, first communication control unit 106, second communication control unit 107, power supply unit 108, GPS processing unit 109, movement detection unit 110, and operation control The unit 111 is connected via the bus line 113.

  The mobile terminal 1 includes, for example, mobile stations used in mobile communication networks such as mobile phones and PHS (Personal Handy-phone System), PDAs (Personal Data Assistants), and the like.

  The central control unit 101 controls each unit of the mobile terminal 1. Specifically, the central control unit 101 includes a CPU (Central Processing Unit; not shown) that controls each part of the mobile terminal 1 and performs various control operations according to various processing programs (not shown) for the mobile terminal 1. Do.

  The memory 102 is configured by, for example, a DRAM (Dynamic Random Access Memory) or the like. The memory 102 stores a buffer memory that temporarily stores data processed by the central control unit 101, a working memory such as the central control unit 101, and various programs and data related to the functions of the mobile terminal 1. A program memory (not shown).

  The display unit 103 is composed of, for example, a liquid crystal display panel, and displays various operation screens, web pages, and the like on the display screen based on the video signal from the display control unit 104.

The display control unit 104 performs control to read display image data temporarily stored in the memory 102 and display it on the display unit 103.
Specifically, the display control unit 104 includes a VRAM (Video Random Access Memory), a VRAM controller, a digital video encoder, and the like. The digital video encoder reads the luminance signal Y and the color difference signals Cb and Cr read from the memory 102 and stored in the VRAM (not shown) under the control of the central control unit 101 via the VRAM controller. And a video signal is generated based on these data and output to the display unit 103.

The transmission / reception unit 105 performs a call with an external user of an external device connected via the communication network N.
Specifically, the transmission / reception unit 105 includes a microphone 105a, a speaker 105b, a data conversion unit 105c, and the like. Then, the transmission / reception unit 105 performs A / D conversion processing on the user's transmission voice input from the microphone 105 a by the data conversion unit 105 c and outputs the transmission voice data to the central control unit 101. Under the control, voice data such as received voice data output from the first communication control unit 106 and input is subjected to D / A conversion processing by the data conversion unit 105c and output from the speaker 105b.

The first communication control unit 106 transmits and receives data via the communication network N and the communication antenna 106a.
That is, the communication antenna 106a is connected to a predetermined communication method (for example, W-CDMA (Wideband Code Division Multiple Access) method, GSM (Global System)) used by the mobile terminal 1 for communication with a radio base station (not shown). for Mobile Communications (registered trademark) system, etc.). The first communication control unit 106 transmits / receives data to / from the radio base station via the communication antenna 106a using a communication channel set in the communication method according to a communication protocol corresponding to a predetermined communication method. That is, the first communication control unit 106 transmits / receives voice during a call with an external user of the external device to the external device of the communication partner based on the instruction signal output from the central control unit 101 and input. Or send and receive e-mail data.
Note that the configuration of the first communication control unit 106 is an example and is not limited to this, and can be arbitrarily changed as appropriate. For example, although not illustrated, a wireless LAN module is mounted and an access point (Access The communication network N may be accessible via the (Point).

The communication network N is, for example, a communication network that connects the mobile terminal 1 to an external device via a wireless base station, a gateway server (not shown), or the like.
The communication network N is a communication network constructed using, for example, a dedicated line or an existing general public line, and various line forms such as a LAN (Local Area Network) and a WAN (Wide Area Network) are applied. Is possible. The communication network N includes, for example, various communication network networks such as a telephone line network, ISDN line network, dedicated line, mobile communication network, communication satellite line, CATV line network, IP network, VoIP (Voice over Internet Protocol). ) Gateways, Internet service providers, etc. are included.

The second communication control unit 107 communicates with the wrist terminal 2 connected via a predetermined wireless communication line.
That is, for example, the second communication control unit 107 connects to the wrist terminal 2 via a wireless PAN realized by a short-range wireless communication standard in which a wireless communicable distance such as Bluetooth is limited to a predetermined distance.
Specifically, the second communication control unit 107 includes a control module for performing Bluetooth communication with the wrist terminal 2 via the communication antenna 107a, for example. And the 2nd communication control part 107 exchanges mutual device information and the data of an authentication key with a communicating party by a radio signal by performing the communication setting process called pairing previously, for example. Thereby, thereafter, the communication setting process is automatically or semi-automatically connected to or disconnected from the communication partner without performing the communication setting process every time. For example, the communication connection is canceled when the mobile terminal 1 and the wrist terminal 2 are separated from a range where radio waves do not reach, while the communication connection is automatically established when the mobile terminal 1 approaches the range where radio waves reach. Alternatively, the communication connection or release is semi-automatically performed by a connection or release operation.

  In addition, the second communication control unit 107 transmits the remaining power amount of the storage battery detected by the remaining power amount detection unit 108a of the power supply unit 108 to the list type terminal 2 via the wireless PAN. That is, the second communication control unit 107 acquires the remaining amount of power stored in the storage battery temporarily held in the memory 102 and sequentially transmits the remaining amount of stored power to the list type terminal 2 via the wireless PAN.

  In addition, when the movement-related information acquisition request instruction transmitted from the list-type terminal 2 is received, the second communication control unit 107 acquires position information from the GPS processing unit 109 or movement information from the movement detection unit 110. And the position information and movement information are sequentially transmitted to the list type terminal 2 via the wireless PAN.

The power supply unit 108 supplies power to each unit constituting the terminal body.
That is, the power supply unit 108 includes, for example, various types of storage batteries (for example, lithium ion batteries, nickel / hydrogen rechargeable batteries, etc.). Therefore, the power supply capacity that can be supplied from the power supply unit 108 is limited to a predetermined amount.

In addition, the power supply unit 108 includes a remaining power storage detection unit 108a that detects the remaining power storage of the storage battery. That is, the remaining power storage detection unit 108a detects, for example, the amount of charge that can be released from the storage battery under a predetermined condition as a remaining power storage at predetermined time intervals. Note that, instead of the amount of charge, the time during which the device can be driven may be calculated based on the amount of charge and detected as the remaining amount of power storage.
Note that the detected remaining power storage amount may be output to the memory 102 and temporarily held in the memory 102.

The GPS processing unit 109 receives a signal transmitted from the GPS satellite S, and measures the current position where the terminal body exists.
Specifically, the GPS processing unit 109, for example, GPS signals (for example, almanac) transmitted from a plurality of GPS satellites (positioning satellites; only one is shown in FIG. 1) S launched in low earth orbit. (Schematic trajectory information) and ephemeris (detailed trajectory information) are received by the receiving antenna 109a at a predetermined timing. In addition, the GPS processing unit 109 performs GPS signal demodulation processing received via the reception antenna 109a to generate GPS information.

Then, the positioning unit 109b of the GPS processing unit 109 performs a predetermined positioning calculation based on the generated GPS information, thereby positioning the absolute three-dimensional current position (latitude, longitude, altitude) of the terminal body. Then, position information (for example, latitude, longitude, altitude coordinate information) related to the position is acquired. As described above, the positioning unit 109b sequentially measures the current position of the terminal body, and acquires position information representing the displacement of the terminal body as motion related information.
Note that the position information of the current position of the terminal main body acquired by the positioning unit 109b may be output to the memory 102 and temporarily held in the memory 102.

The movement detection unit 110 includes a triaxial acceleration sensor 110a.
The triaxial acceleration sensor 110a detects accelerations in the triaxial directions orthogonal to each other. The triaxial acceleration sensor 110a samples the detected signals of the respective axes at a predetermined frequency. The movement detection unit 110 calculates the movement amount of the terminal body based on the detection result by the three-axis acceleration sensor 110a. That is, the movement detection unit 110 identifies the acceleration component of the terminal body from the output of the three-axis acceleration sensor 110a, and calculates the number of steps of the user from the change of the acceleration component. And the movement detection part 110 calculates the movement amount by walking as movement information by multiplying the calculated step count and preset step length data. Further, the movement detection unit 110 calculates the movement speed as movement information from the calculated movement amount and the time required for movement. In this manner, the movement detection unit 110 acquires movement information representing the displacement of the terminal body as movement related information.
The calculated movement information may be output to the memory 102 and temporarily held in the memory 102.

  The movement detection unit 110 may include a triaxial geomagnetic sensor that detects the magnitudes of geomagnetism in three axial directions orthogonal to each other, an atmospheric pressure sensor that detects atmospheric pressure in order to obtain a height difference, and the like.

The operation control unit 111 controls the operation of each unit of the terminal body based on an instruction from the list type terminal 2.
That is, when the second communication control unit 107 receives a request for acquiring motion-related information transmitted from the list type terminal 2, the operation control unit 111 instructs the GPS processing unit 109 to apply from the power supply unit 108. A signal to be executed is output to the power supply unit 108, and an instruction to perform positioning processing is output to the GPS processing unit 109. Further, the operation control unit 111 outputs a signal instructing application from the power supply unit 108 to the movement detection unit 110 to the power supply unit 108, and outputs an instruction to execute movement information calculation processing to the movement detection unit 110. .
On the other hand, when the second communication control unit 107 receives an instruction to stop acquisition of motion related information transmitted from the list type terminal 2, the operation control unit 111 stops application from the power supply unit 108 to the GPS processing unit 109. Is output to the power supply unit 108, and a positioning processing execution stop instruction is output to the GPS processing unit 109. In addition, the operation control unit 111 outputs a signal instructing the movement detection unit 110 to stop application from the power supply unit 108 to the power supply unit 108, and instructs the movement detection unit 110 to stop executing the movement information calculation process. Output.

The operation input unit 112 is for inputting various instructions to the terminal body.
Specifically, the operation input unit 112 includes a power button for turning on / off the terminal body, up / down / left / right cursor buttons / decision buttons for selecting instructions such as modes and functions, incoming / outgoing calls and e-mails. Various buttons (not shown) such as communication related buttons related to execution instructions such as transmission / reception and numeric buttons and symbol buttons related to text input instructions are provided.
When various buttons are operated by the user, the operation input unit 112 outputs an operation instruction corresponding to the operated button to the central control unit 101. The central control unit 101 causes each unit to execute a predetermined operation (for example, incoming / outgoing calls, transmission / reception of an e-mail, etc.) according to an operation instruction output from the operation input unit 112 and input.

  Note that the operation input unit 112 may include a touch panel provided integrally with the display unit 103, and based on a predetermined operation of the touch panel by the user, an operation instruction corresponding to the predetermined operation is given to the central control unit. 101 may be output.

Next, the list type terminal 2 will be described with reference to FIG.
FIG. 3 is a block diagram showing a schematic configuration of the list type terminal 2 constituting the information communication system 100.

The wrist-type terminal 2 is used, for example, while being worn on the user's wrist. Specifically, as shown in FIG. 3, the list type terminal 2 includes a central control unit 201, a memory 202, a display unit 203, a display control unit 204, a communication control unit 205, a power supply unit 206, A comparison unit 207, a GPS processing unit 208, a movement detection unit 209, an operation control unit 210, an operation input unit 211, and the like are provided.
The central control unit 201, the memory 202, the display control unit 204, the communication control unit 205, the power supply unit 206, the comparison unit 207, the GPS processing unit 208, the movement detection unit 209, and the operation control unit 210 are connected via a bus line 212. It is connected.

  The central control unit 201 controls each unit of the list type terminal 2. Specifically, the central control unit 201 includes a CPU (not shown) that controls each part of the list type terminal 2 and performs various control operations according to various processing programs (not shown) for the list type terminal 2.

  The memory 202 is configured by, for example, a DRAM or the like. The memory 202 also stores a buffer memory that temporarily stores data processed by the central control unit 201, a working memory such as the central control unit 201, and various programs and data relating to the functions of the list type terminal 2. A stored program memory or the like (all not shown) is provided.

  The configurations and functions of the display unit 203 and the display control unit 204 are substantially the same as those of the display unit 103 and the display control unit 104 included in the mobile terminal 1 described above, and detailed description thereof is omitted.

The communication control unit 205 communicates with the mobile terminal 1 connected via a predetermined wireless communication line.
That is, the communication control unit 205 includes, for example, a communication antenna 205a, and communicates with the mobile terminal 1 via a wireless PAN realized by a short-range wireless communication standard in which a wirelessly communicable distance such as Bluetooth is limited to a predetermined distance. Connecting.
Note that the configuration and function of the communication control unit 205 are substantially the same as those of the second communication control unit 107 provided in the mobile terminal 1 described above, and a detailed description thereof will be omitted.

  In addition, the communication control unit 205 receives the remaining storage amount of the storage battery transmitted from the second communication control unit 107 of the mobile terminal 1 at predetermined time intervals via the wireless PAN. Then, the communication control unit 205 outputs the received remaining power of the storage battery of the mobile terminal 1 to the comparison unit 207.

  Further, the communication control unit 205 receives position information and movement information transmitted from the second communication control unit 107 of the mobile terminal 1 via a wireless PAN (communication line). That is, when the position information acquired by the GPS processing unit 109 of the mobile terminal 1 or the movement information calculated by the movement detection unit 110 is transmitted from the second communication control unit 107 of the mobile terminal 1, the communication control unit 205 The position information and the movement information are received as motion related information (first motion related information) via the wireless PAN. Thereby, the communication control unit 205 acquires first motion related information that changes in relation to the motion of the mobile terminal 1.

The power supply unit 206 supplies power to each unit constituting the terminal body.
That is, the power supply unit 206 includes, for example, various types of storage batteries (for example, lithium ion batteries, nickel / hydrogen rechargeable batteries, and the like). Therefore, the power supply capacity that can be supplied from the power supply unit 206 is limited to a predetermined amount.

Further, the power supply unit 206 includes a remaining power storage detection unit 206a that detects the remaining power storage of the storage battery. That is, the remaining power storage detection unit 206a detects, for example, the amount of charge that can be released from the storage battery under a predetermined condition as the remaining power storage. Here, the remaining amount of electricity stored in the storage battery is not limited to the absolute amount (for example, the amount of charge that can be released) of the remaining amount of electricity stored in the storage battery. The ratio of the amount of charges, etc.).
Note that the detected remaining power amount may be output to the memory 202 and temporarily held in the memory 202.

The comparison unit 207 compares the remaining power level of the storage battery of the mobile terminal 1 with the remaining power level of the storage battery of the list type terminal 2.
That is, the comparison unit 207 includes a remaining power storage unit 207 a that acquires, from the communication control unit 205, the remaining power of the storage battery of the mobile terminal (external information communication device) 1. The remaining battery charge acquisition unit 207a acquires the remaining battery charge of the storage battery of the mobile terminal 1 transmitted from the mobile terminal 1 and received by the communication control unit 205 at predetermined time intervals. Here, the remaining amount of electricity stored in the storage battery may be an absolute amount of the remaining amount of electricity stored in the storage battery (for example, the amount of charge that can be released) or a relative amount (for example, discharge relative to the maximum amount of charge that can be supplied). It may be a ratio of possible charge amount).
And the comparison part 207 acquires the electrical storage residual amount of the storage battery of the said list type terminal 2 detected by the electrical storage residual amount detection part 206a from the memory 202, and the storage battery of the portable terminal 1 acquired by the electrical storage residual amount acquisition part 207a Compared with the remaining power storage. For example, whether or not the remaining power of the storage battery of the list type terminal 2 is greater than the remaining power of the storage battery of the mobile terminal 1, or the remaining driveable time of the list type terminal 2 is the remaining driveable time of the mobile terminal 1 Compare whether or not more.
The comparison by the comparison unit 207 may be performed by comparing the absolute amounts (for example, the amount of charge that can be released) of the remaining power of the storage batteries of the mobile terminal 1 and the wrist terminal 2, or relative It may be performed by comparing the amounts (for example, the ratio of the charge amount that can be released to the maximum charge amount that can be supplied).
Then, the comparison unit 207 outputs the comparison result to the operation control unit 210.

The GPS processing unit 208 receives a signal transmitted from the GPS satellite S in a manner similar to the GPS processing unit 109 provided in the mobile terminal 1, and measures the current position where the terminal body exists.
Specifically, for example, the GPS processing unit 208 receives GPS signals transmitted from a plurality of GPS satellites S,... Launched in a low earth orbit by the receiving antenna 208a at a predetermined timing. Also, the GPS processing unit 208 performs GPS signal demodulation processing received via the reception antenna 208a to generate GPS information.

Then, the positioning unit 208b of the GPS processing unit 208 performs a predetermined positioning calculation based on the generated GPS information, thereby positioning the absolute three-dimensional current position (latitude, longitude, altitude) of the terminal body. Then, position information (for example, latitude, longitude, altitude coordinate information) related to the position is acquired. Specifically, as a result of the comparison by the comparison unit 207, when the remaining power level of the storage battery of the portable terminal 1 is not greater than the remaining power level of the storage battery of the list type terminal 2, under the control of the operation control unit 210 The positioning unit 208b generates position information of the current position where the terminal body exists based on the GPS information.
As described above, the GPS processing unit 208 (positioning unit 208b) sequentially measures the current position of the terminal body, and acquires position information representing the displacement of the terminal body as motion related information (second motion related information). To do.
Note that the position information of the current position of the terminal main body acquired by the positioning unit 208b may be sequentially output to the memory 202 and temporarily held in the memory 202.

The configuration and function of the movement detection unit 209 are substantially the same as those of the movement detection unit 110 provided in the mobile terminal 1 described above.
That is, the movement detection unit 209 includes a triaxial acceleration sensor 209a that detects accelerations in three axial directions orthogonal to each other. The triaxial acceleration sensor 209a samples the detected signals of the respective axes at a predetermined frequency.
The movement detection unit 209 is under the control of the operation control unit 210 when the remaining power level of the storage battery of the portable terminal 1 is not greater than the remaining power level of the storage battery of the list type terminal 2 as a result of the comparison by the comparison unit 207. Then, based on the detection result by the three-axis acceleration sensor 209a, the movement amount and movement speed of the terminal body are calculated and acquired as movement information (second movement related information) representing the displacement of the terminal body.
The calculated movement information may be output to the memory 202 and temporarily held in the memory 202.

The operation control unit 210 controls each unit according to the comparison result by the comparison unit 207.
That is, the operation control unit 210 performs control so as to switch between acquisition of the first motion related information and acquisition of the second motion related information based on the comparison result by the comparison unit 207. At this time, for example, when the remaining power level of the storage battery of the mobile terminal 1 is greater than the remaining power level of the storage battery of the list type terminal 2, the operation control unit 210 acquires movement related information by the list type terminal 2. When the communication control unit 205 acquires the motion-related information (first motion-related information) acquired by the mobile terminal 1 while stopping, the list-type terminal when the remaining power of the storage battery of the mobile terminal 1 is not large 2 to acquire motion related information (second motion related information).
Specifically, when the comparison unit 207 shows that the remaining power of the storage battery of the mobile terminal 1 is greater than the remaining power of the storage battery of the list type terminal 2 (see FIG. 6A), the operation control unit 210 outputs a signal for instructing the GPS processing unit 208 to stop application from the power source unit 206 to the power source unit 206, and also outputs an instruction to stop execution of the positioning processing for the current position to the GPS processing unit 208. Further, the operation control unit 210 outputs a signal for instructing the movement detection unit 209 to stop application from the power supply unit 206 to the power supply unit 206, and executes the movement information calculation processing of the terminal body to the movement detection unit 209. Output a stop instruction. In addition, the operation control unit 210 controls the communication control unit 205 to transmit a request instruction for acquisition of motion related information (position information and movement information) to the mobile terminal 1 and is acquired by the mobile terminal 1. The motion related information is acquired via the wireless PAN.
On the other hand, as a result of the comparison by the comparison unit 207, when the remaining power of the storage battery of the portable terminal 1 is not greater than the remaining power of the storage battery of the list type terminal 2 (see FIG. 6B), the operation control unit 210 In addition, a signal instructing application from the power supply unit 206 to the GPS processing unit 208 is output to the power supply unit 206, and an instruction to execute a positioning process for the current position is output to the GPS processing unit 208. Furthermore, the operation control unit 210 outputs a signal instructing application from the power supply unit 206 to the movement detection unit 209 to the power supply unit 206, and also instructs the movement detection unit 209 to execute movement information calculation processing of the terminal body. Is output. In addition, the operation control unit 210 controls the communication control unit 205 to transmit an instruction to stop acquisition of motion related information (position information and movement information) to the mobile terminal 1.

The operation input unit 211 is for inputting various instructions to the terminal body.
Specifically, the operation input unit 211 includes, for example, a power button for turning on / off the power of the terminal body, a selection determination button (none of which is not shown) for selecting instructions such as a mode and a function. When various buttons are operated by the user, the operation input unit 211 outputs an operation instruction corresponding to the operated button to the central control unit 201. The central control unit 201 causes each unit to execute a predetermined operation in accordance with an operation instruction output from the operation input unit 211 and input.

<Mobile terminal operation control processing>
Below, the operation control process by the portable terminal 1 is demonstrated in detail with reference to FIG.
FIG. 4 is a flowchart illustrating an example of an operation related to the operation control process by the mobile terminal 1.

  As shown in FIG. 4, the second communication control unit 107 can perform information communication with the wrist terminal 2 via a wireless PAN realized by a short-range wireless communication standard in which a wireless communicable distance is limited to a predetermined distance. (Step S1).

Next, the remaining power storage detection unit 108a of the power supply unit 108 detects the remaining power storage of the storage battery at predetermined time intervals (step S2). The detected remaining power amount is output to the memory 102 and temporarily held in the memory 102.
Subsequently, the second communication control unit 107 acquires the remaining amount of power stored in the storage battery temporarily held in the memory 102, and sequentially transmits the remaining amount of stored power to the wrist terminal 2 via the wireless PAN ( Step S3).

Next, the second communication control unit 107 determines whether or not a motion-related information acquisition stop request instruction transmitted from the list type terminal 2 via the wireless PAN has been received (step S4).
Here, if it is determined that an instruction to stop acquisition of motion-related information has been received (step S4; YES), the operation control unit 111 performs positioning processing of the current position of the terminal body with respect to the GPS processing unit 109. An execution stop instruction is output, and an execution stop instruction for the movement information calculation process of the terminal body is output to the movement detection unit 110 (step S5). As a result, positioning of the current position by the GPS processing unit 109 is stopped, and calculation of movement information by the movement detection unit 110 is stopped.

Thereafter, the CPU of the central control unit 101 determines whether or not the remaining amount of electricity stored in the storage battery detected by the remaining amount of electricity detection unit 108a has become zero (step S6).
Here, if it is determined that the remaining power of the storage battery is not 0 (step S6; NO), the CPU of the central control unit 101 returns the process to step S2, and sequentially executes the subsequent processes. .

On the other hand, if it is determined in step S4 that an instruction to stop acquisition of motion related information has not been received (step S4; NO), the second communication control unit 107 transmits the wireless communication PAN from the list type terminal 2. Then, it is determined whether or not the request for acquiring the motion related information transmitted is received (step S7).
Here, if it is determined that a request instruction for acquisition of motion related information has been received (step S7; YES), the operation control unit 111 executes a positioning process of the current position of the terminal main body with respect to the GPS processing unit 109. In addition to outputting an instruction, an instruction to execute movement information calculation processing of the terminal main body is output to the movement detection unit 110 (step S8).
Thereby, the GPS processing unit 109 receives a signal transmitted from the GPS satellite S via the reception antenna 109a, performs a demodulation process of the GPS signal, generates GPS information, and based on the generated GPS information By performing a predetermined positioning calculation, the current position (latitude, longitude, altitude) of the terminal body is measured. In addition, the movement detection unit 110 identifies the acceleration component of the terminal body from the output of the three-axis acceleration sensor 110a, calculates the number of steps of the user from the change of the acceleration component, and sets the calculated number of steps per predetermined time. Based on this, the movement amount and movement speed by walking are calculated as movement information.

Next, the second communication control unit 107 acquires position information from the GPS processing unit 109 and movement information from the movement detection unit 110 as movement-related information, and transmits the position information and movement information via the wireless PAN. It transmits to the list type terminal 2 (step S9).
If it is determined in step S7 that a motion-related information acquisition request instruction has not been received (step S7; NO), the CPU of the central control unit 101 proceeds to step S2 in the same manner as described above. Return, and the subsequent processes are sequentially executed.

Thereafter, the CPU of the central control unit 101 shifts the processing to step S6, and determines whether or not the remaining amount of electricity stored in the storage battery detected by the remaining amount of electricity detection unit 108a has become 0 (step S6).
Here, when it is determined that the remaining power of the storage battery is not 0 (step S6; NO), the CPU of the central control unit 101 returns the process to step S2 in the same manner as described above, and thereafter Processes are executed sequentially.
On the other hand, when it is determined that the remaining power of the storage battery has become 0 (step S6; NO), the CPU of the central control unit 101 ends the operation control process.

<Operation control processing of list type terminal>
Hereinafter, the operation control process by the list type terminal 2 will be described in detail with reference to FIG.
FIG. 5 is a flowchart showing an example of the operation related to the operation control process by the list type terminal 2.

  As shown in FIG. 5, the communication control unit 205 connects to the mobile terminal 1 so that information communication is possible via a wireless PAN realized by a short-range wireless communication standard in which a wirelessly communicable distance is limited to a predetermined distance. (Step S11).

Next, the communication control unit 205 determines whether or not the remaining storage amount of the storage battery of the mobile terminal 1 transmitted from the mobile terminal 1 via the wireless PAN has been received (step S12).
Here, if it is determined that the remaining amount of power stored in the storage battery of the mobile terminal 1 has not been received (step S12; NO), the communication control unit 205 stores the remaining power stored in the storage battery of the mobile terminal 1 at predetermined time intervals. The process of determining whether or not an amount has been received is repeatedly executed.

If it determines with having received the electrical storage remaining amount of the storage battery of the portable terminal 1 in step S12 (step S12; YES), the electrical storage residual amount detection part 206a of the power supply part 206 will detect the electrical storage residual amount of a storage battery ( Step S13). The detected remaining power amount is output to the memory 202 and temporarily held in the memory 202. Further, the remaining amount of electricity stored in the storage battery of the mobile terminal 1 received by the communication control unit 205 is acquired by the remaining amount of electricity acquiring unit 207a.
Subsequently, the comparison unit 207 acquires the remaining amount of storage battery of the list type terminal 2 detected by the remaining storage amount detection unit 206a from the memory 202, and the portable terminal 1 acquired by the remaining storage amount acquisition unit 207a. By comparing with the remaining amount of electricity stored in the storage battery, it is determined whether or not the remaining amount of electricity stored in the storage battery of the portable terminal 1 is greater than the remaining amount of electricity stored in the storage battery of the list type terminal 2 (step S14).

When it is determined in step S14 that the remaining power level of the storage battery of the portable terminal 1 is not larger than the remaining power level of the storage battery of the list type terminal 2 (step S14; NO), the operation control unit 210 performs GPS processing. An instruction to execute the positioning process of the current position of the terminal body is output to the unit 208, and an instruction to execute the movement information calculation process of the terminal body is output to the movement detection unit 209 (step S15).
Thereby, the GPS processing unit 208 receives the signal transmitted from the GPS satellite S via the reception antenna 208a, performs a demodulation process of the GPS signal, generates GPS information, and based on the generated GPS information By performing a predetermined positioning calculation, the current position (latitude, longitude, altitude) of the terminal body is measured (see FIG. 6B). Further, the movement detection unit 209 identifies the acceleration component of the terminal body from the output of the triaxial acceleration sensor 209a, calculates the number of steps of the user from the change of the acceleration component, and sets the calculated number of steps per predetermined time. Based on this, the amount of movement and the movement speed by walking are calculated as movement information (see FIG. 6B).

Subsequently, the operation control unit 210 controls the communication control unit 205 to transmit an instruction to stop acquisition of motion related information (position information and movement information) to the mobile terminal 1 (step S16).
Thereafter, the CPU of the central control unit 201 determines whether or not the remaining amount of electricity stored in the storage battery detected by the remaining amount of electricity detection unit 206a has become zero (step S17).
Here, if it is determined that the remaining power of the storage battery is not 0 (step S17; NO), the CPU of the central control unit 201 returns the process to step S12, and sequentially executes the subsequent processes. .

  On the other hand, when it is determined in step S14 that the remaining power of the storage battery of the portable terminal 1 is larger than the remaining power of the storage battery of the list type terminal 2 (step S14; YES), the operation control unit 210 performs GPS. An instruction to stop execution of positioning processing of the current position of the terminal body is output to the processing unit 208, and an instruction to stop execution of calculation processing of movement information of the terminal body is output to the movement detection unit 209 (step S18). ). As a result, positioning of the current position by the GPS processing unit 208 is stopped, and calculation of movement information by the movement detection unit 209 is stopped (see FIG. 6A).

Subsequently, the operation control unit 210 controls the communication control unit 205 to transmit a request for acquisition of motion related information (position information and movement information) to the mobile terminal 1 (step S19).
Thereafter, the communication control unit 205 acquires the position information acquired by the GPS processing unit 109 of the mobile terminal 1 and the movement information calculated by the movement detection unit 110 via the wireless PAN as the movement related information (step S20). . That is, when the position information acquired by the GPS processing unit 109 of the mobile terminal 1 or the movement information calculated by the movement detection unit 110 is transmitted from the mobile terminal 1, the communication control unit 205 transmits the position via the wireless PAN. Information and movement information are received as motion related information.
Thereafter, the CPU of the central control unit 201 shifts the process to step S17, and determines whether or not the remaining power storage amount of the storage battery detected by the remaining power storage detection unit 206a has become 0 (step S17).

If it is determined in step S17 that the remaining power of the storage battery is not zero (step S17; NO), the CPU of the central control unit 201 returns the process to step S12 in the same manner as described above, and thereafter. These processes are sequentially executed.
On the other hand, if it determines with the electrical storage remaining amount of a storage battery having become 0 (step S17; NO), CPU of the central control part 201 will complete | finish the said operation control process.

  The motion related information (position information and movement information) acquired by the operation control process is recorded in a predetermined storage means (for example, a recording medium) in association with the current time measured by a timer (not shown).

As described above, according to the information communication system 100 of the first embodiment, the list type terminal 2 is based on the comparison result between the remaining power level of the storage battery of the mobile terminal 1 and the remaining power level of the storage battery of the list type terminal 2. Thus, the acquisition of the first motion related information and the acquisition of the second motion related information can be switched and executed. Specifically, when it is determined that the remaining amount of electricity stored in the storage battery of the mobile terminal 1 is greater than the remaining amount of electricity stored in the storage battery of the list type terminal 2, acquisition of motion related information by the GPS processing unit 208 or the movement detection unit 209 is obtained. And the movement control information (first movement related information) acquired by the mobile terminal 1 is acquired by the communication control unit 205, while the remaining battery charge of the storage battery of the mobile terminal 1 is equal to the storage battery of the list type terminal 2. If it is determined that there is not more than the remaining amount of power storage, the GPS processing unit 208 or the movement detection unit 209 causes the movement related information (second movement related information) to be acquired. The power saving can be suitably achieved in consideration of the remaining amount of stored electricity.
That is, in a situation where the remaining battery level of the storage battery of the mobile terminal 1 is relatively large, it is assumed that the remaining battery level of the storage battery of the wrist terminal 2 is not sufficient, and the GPS processing unit 208 performs positioning processing and movement detection of the current position. The movement information calculation processing such as the movement amount and movement speed by the unit 209 is stopped, and the position information acquired by the GPS processing unit 109 from the mobile terminal 1 and the movement information calculated by the movement detection unit 110 are converted into motion-related information ( By acquiring as the first motion related information), it is possible to relatively reduce power consumption and to save power of the list type terminal 2 itself. On the other hand, in a situation where the remaining battery level of the storage battery of the portable terminal 1 is relatively small, it is assumed that the remaining battery level of the storage battery of the wrist terminal 2 is sufficient, and the positioning process by the GPS processing unit 208 and the movement detection unit 209 are performed. By executing the movement information calculation process according to the above, the list type terminal 2 itself can acquire the motion related information (second motion related information).

Further, when it is determined that the remaining power level of the storage battery of the mobile terminal 1 is greater than the remaining power level of the storage battery of the list type terminal 2, the first motion related information is acquired from the communication control unit 205 to the mobile terminal 1. Since the instruction | indication which requests | requires is transmitted, position information and movement information can be appropriately acquired from the portable terminal 1 as 1st motion related information. On the other hand, if it is determined that the remaining amount of electricity stored in the storage battery of the portable terminal 1 is not greater than the remaining amount of electricity stored in the storage battery of the list type terminal 2, the communication control unit 205 performs the first motion related to the portable terminal 1. Since an instruction to request acquisition stop of information is transmitted, it is possible to stop the positioning processing of the current position by the GPS processing unit 109 in the portable terminal 1 and the calculation processing of movement information by the movement detecting unit 110, and the like. Power saving can be suitably achieved.
Thereby, the time for connecting the wrist terminal 2 and the portable terminal 1 so that information communication is possible can be made longer, and power saving of the entire information communication system 100 can be achieved.

[Embodiment 2]
Below, the information communication system 200 of Embodiment 2 is demonstrated.
The information communication system 200 according to the second embodiment has substantially the same configuration as the information communication system 100 according to the first embodiment except for the details described below, and detailed description thereof is omitted.

FIG. 7 is a diagram showing a schematic configuration of an information communication system 200 according to the second embodiment to which the present invention is applied.
As illustrated in FIG. 7, the information communication system 200 according to the second embodiment includes a mobile terminal (see FIG. 8) 1 </ b> A, a list-type terminal (see FIG. 9) 2 </ b> A, and a server 3 that configures a cloud. 1A and a wrist terminal 2A are connected to a server 3 through a predetermined communication network N so as to be able to communicate information.

The server 3 has, for example, a function of opening a Web page (for example, a content information providing page) on the Internet as a Web (World Wide Web) server. Then, the server 3 transmits page information, content information, and the like of various SNS web pages to the portable terminal 1A and the list type terminal 2A in response to access from the portable terminal 1A and the list type terminal 2A.
Here, the server 3 may have any configuration as long as it is configured by a computer connectable to the communication network N, and detailed description thereof is omitted.

First, the mobile terminal 1A will be described with reference to FIG.
FIG. 8 is a block diagram showing a schematic configuration of the mobile terminal 1A constituting the information communication system 200. As shown in FIG.
As shown in FIG. 8, the mobile terminal 1A includes a central control unit 101, a memory 102, a display unit 103, a display control unit 104, a transmitter / receiver 105, a first communication control unit 106, and a second communication. A control unit 107, a power supply unit 108, an operation control unit 111A, an operation input unit 112, and the like are provided.
That is, the mobile terminal 1A does not include the GPS processing unit 109 and the movement detection unit 110 included in the mobile terminal 1 of the first embodiment. In addition, the configuration other than the operation control unit 1A described below has substantially the same configuration and functions as those provided in the mobile terminal 1 of the first embodiment, and a detailed description thereof will be omitted.

Similar to the operation control unit 111 of the first embodiment, the operation control unit 111A controls the operation of each unit of the terminal body based on an instruction from the wrist terminal 2.
That is, when the second communication control unit 107 receives a connection request instruction for the server 3 transmitted from the list type terminal 2, the operation control unit 111A controls the first communication control unit 106 to control the communication network N. The server 3 is connected so as to be able to communicate information.
On the other hand, when the second communication control unit 107 receives a connection stop request instruction for the server 3 transmitted from the list type terminal 2, the operation control unit 111A causes the first communication control unit 106 to pass through the communication network N. The first communication control unit 106 is controlled so as not to be connected to the server 3.

Next, the list type terminal 2A will be described with reference to FIG.
FIG. 9 is a block diagram showing a schematic configuration of the list type terminal 2 </ b> A constituting the information communication system 200.
As shown in FIG. 9, the list type terminal 2A includes a central control unit 201, a memory 202, a display unit 203, a display control unit 204, a power supply unit 206, a comparison unit 207, an operation control unit 210A, An operation input unit 211, a first communication control unit 213, a second communication control unit 214, and the like are provided.
That is, the list type terminal 2A does not include the GPS processing unit 207 and the movement detection unit 208 included in the mobile terminal 1 of the first embodiment, and includes the first communication control unit 213 and the second communication control unit 214. Yes. In addition, configurations other than those described below have substantially the same configurations and functions as those provided in the wrist terminal 2 of the first embodiment, and detailed descriptions thereof are omitted.

The first communication control unit 213 is configured to be able to communicate with a server (external device) 3 connected via a communication network (first communication line) N.
That is, the first communication control unit 213 is equipped with, for example, a wireless LAN module including a communication antenna 213a, performs predetermined wireless communication with an access point (not shown), and is connected via the communication network N. The server 3 communicates with the server. Then, the first communication control unit 213 receives various information transmitted from the server 3 via the communication network N.
The configuration of the first communication control unit 213 described above is an example and is not limited to this, and can be arbitrarily changed as appropriate.

The second communication control unit 214 has substantially the same configuration and function as the communication control unit 205 included in the wrist terminal 2 of the first embodiment, and communicates with the mobile terminal 1 connected via a predetermined wireless communication line. .
That is, the second communication control unit 214 is configured to be able to communicate with a mobile terminal (external information communication apparatus) 1A connected via a wireless PAN (second communication line). Specifically, the second communication control unit 214 includes a communication antenna 214a, for example, via a wireless PAN realized by a short-range wireless communication standard in which a wirelessly communicable distance such as Bluetooth is limited to a predetermined distance. To connect to the portable terminal 1A.

  Moreover, the 2nd communication control part 214 receives the electrical storage residual amount of the storage battery transmitted from the 2nd communication control part 107 of 1 A of portable terminals via wireless PAN for every predetermined time interval. Then, the second communication control unit 214 outputs the received remaining storage amount of the storage battery of the mobile terminal 1A to the comparison unit 207.

  The second communication control unit 214 receives various information transmitted from the second communication control unit 107 of the mobile terminal 1A via a wireless PAN (communication line). That is, when various information transmitted from the server 3 and received by the first communication control unit 106 of the mobile terminal 1A is transmitted from the second communication control unit 107 of the mobile terminal 1A, the second communication control unit 214 The various information is received via the PAN.

Similar to the operation control unit 210 of the first embodiment, the operation control unit 210A controls each unit according to the determination result by the comparison unit 207.
That is, based on the comparison result by the comparison unit 207, the operation control unit 210A receives various information transmitted from the server 3 without connecting the first communication control unit 213 and the server 3 via the portable terminal 1A. A process of acquiring by the communication control unit 214 and a process of connecting the first communication control unit 213 and the server 3 and acquiring various information transmitted from the server 3 by the first communication control unit 213 are switched and executed. To control. At this time, for example, the operation control unit 210A connects the first communication control unit 213 and the server 3 when the remaining amount of power stored in the storage battery of the mobile terminal 1A is larger than the remaining amount of power stored in the storage battery of the list type terminal 2A. When the second communication control unit 214 obtains various information transmitted from the server 3 without the mobile terminal 1A, while the remaining charge of the storage battery of the mobile terminal 1A is not large, the first communication control unit 213 The first communication control unit 213 acquires various information transmitted from the server 3 by connecting to the server 3.
Specifically, as a result of the comparison by the comparison unit 207, when the remaining power amount of the storage battery of the portable terminal 1A is larger than the remaining power amount of the storage battery of the list type terminal 2A (see FIG. 12A), the operation control unit 210A controls the first communication control unit 213 so that the first communication control unit 213 is not connected to the server 3 via the communication network N, and also controls the second communication control unit 214 to control the first communication control unit 213 via the wireless PAN. The mobile terminal 1A is connected so as to be capable of information communication. Furthermore, the operation control unit 210A controls the second communication control unit 214 to cause the portable terminal 1A to transmit a connection request instruction for the server 3 via the wireless PAN.
On the other hand, as a result of the comparison by the comparison unit 207, when the remaining power level of the storage battery of the portable terminal 1A is not greater than the remaining power level of the storage battery of the list type terminal 2A (see FIG. 12B), the operation control unit 210A The first communication control unit 213 is controlled to connect to the server 3 via the communication network N so that information communication is possible. In addition, the operation control unit 210A controls the second communication control unit 214 to cause the mobile terminal 1A to transmit a connection stop request instruction requesting not to connect to the server 3 via the wireless PAN.

  Note that the operation control unit 210A controls the first communication control unit 213 to provide the server 3 with various types of information according to the display mode (output mode) from the terminal body (for example, resolution or format). It is also possible to transmit an instruction for conversion into a variety of information converted into a format according to the display mode from the terminal body transmitted from the server 3. This eliminates the need for the list type terminal 2A to perform processing for converting various types of information acquired from the server 3 into a format according to the display mode (output mode), thereby reducing the power consumption of the list type terminal 2A. This can be achieved more suitably.

<Mobile terminal operation control processing>
Hereinafter, the operation control process by the mobile terminal 1A will be described in detail with reference to FIG.
FIG. 10 is a flowchart illustrating an example of an operation related to an operation control process performed by the mobile terminal 1A.

  As shown in FIG. 10, substantially similar to the operation control processing of the above embodiment, the second communication control unit 107 is a wireless that is realized by a short-range wireless communication standard in which a wirelessly communicable distance is limited to a predetermined distance. It connects to the list type terminal 2 via the PAN so that information communication is possible (step S1).

Next, in substantially the same manner as the operation control process of the above-described embodiment, the remaining power level detection unit 108a of the power supply unit 108 detects the remaining power level of the storage battery at predetermined time intervals (step S2). The detected remaining power amount is output to the memory 102 and temporarily held in the memory 102.
Subsequently, the second communication control unit 107 acquires the remaining amount of power stored in the storage battery temporarily held in the memory 102, and sequentially transmits the remaining amount of stored power to the wrist terminal 2 via the wireless PAN ( Step S3).

Next, the second communication control unit 107 determines whether or not a connection request instruction for the server 3 transmitted from the list type terminal 2 via the wireless PAN has been received (step S24).
Here, if it is determined that a connection request instruction for the server 3 has been received (step S24; YES), the operation control unit 111A controls the first communication control unit 106 to connect the server 3 via the communication network N. Are connected so as to be able to communicate with each other (step S25). Thereby, when the operation signal according to the predetermined operation of the list type terminal 2A by the user is transmitted to the portable terminal 1A via the wireless PAN and received by the second communication control unit 107, the first communication control unit 106 A request corresponding to the received operation signal is transmitted to the server 3 via the communication network N. Further, the first communication control unit 106 receives various information transmitted from the server 3 via the communication network N, and the second communication control unit 107 transmits the received various information to the list type terminal 2A via the wireless PAN. (Step S26).

Thereafter, in substantially the same manner as the operation control process of the above-described embodiment, the CPU of the central control unit 101 determines whether or not the remaining power level of the storage battery detected by the remaining power level detection unit 108a has become 0 (step S6). ).
Here, if it is determined that the remaining power of the storage battery is not 0 (step S6; NO), the CPU of the central control unit 101 returns the process to step S2, and sequentially executes the subsequent processes. .

On the other hand, if it is determined in step S24 that a connection request instruction for the server 3 has not been received (step S24; NO), the second communication control unit 107 transmits the data from the list type terminal 2 via the wireless PAN. It is determined whether or not a connection stop request instruction to the server 3 has been received (step S27).
Here, when it is determined that a connection stop request instruction for the server 3 has been received (step S27; YES), the operation control unit 111A does not connect the first communication control unit 106 to the server 3 via the communication network N. In this manner, the first communication control unit 106 is controlled (step S28).
On the other hand, if it is determined in step S27 that the connection stop request instruction for the server 3 has not been received (step S27; NO), the CPU of the central control unit 101 proceeds to step S2 in the same manner as described above. Return, and the subsequent processes are sequentially executed.

Thereafter, in substantially the same manner as the operation control process of the above-described embodiment, the CPU of the central control unit 101 shifts the process to step S6, and the remaining power level of the storage battery detected by the remaining power level detection unit 108a becomes zero. It is determined whether or not (step S6).
Here, when it is determined that the remaining power of the storage battery is not 0 (step S6; NO), the CPU of the central control unit 101 returns the process to step S2 in the same manner as described above, and thereafter Processes are executed sequentially.
On the other hand, when it is determined that the remaining power of the storage battery has become 0 (step S6; NO), the CPU of the central control unit 101 ends the operation control process.

<Operation control processing of list type terminal>
Hereinafter, the operation control process by the list type terminal 2A will be described in detail with reference to FIG.
FIG. 11 is a flowchart illustrating an example of an operation related to an operation control process performed by the wrist terminal 2A.

  As shown in FIG. 11, substantially the same as the operation control processing of the above embodiment, the first communication control unit 213 is a wireless that is realized by a short-range wireless communication standard in which a wirelessly communicable distance is limited to a predetermined distance. The mobile terminal 1A is connected to the mobile terminal 1A through the PAN so that information communication is possible (step S11).

Next, substantially the same as the operation control process of the above embodiment, the first communication control unit 213 receives whether or not the remaining storage amount of the storage battery of the mobile terminal 1A transmitted from the mobile terminal 1A via the wireless PAN is received. Is determined (step S12).
Here, if it determines with not having received the electrical storage residual amount of the storage battery of the portable terminal 1 (step S12; NO), the 1st communication control part 213 will be the storage battery of 1 A of portable terminals for every predetermined time interval. The process of determining whether or not the remaining amount of electricity has been received is repeatedly executed.

If it is determined in step S12 that the remaining amount of power stored in the storage battery of the portable terminal 1A has been received (step S12; YES), substantially the same as the operation control process of the above embodiment, the remaining power level detection unit of the power supply unit 206. 206a detects the electrical storage remaining amount of a storage battery (step S13). The detected remaining power amount is output to the memory 202 and temporarily held in the memory 202. Further, the remaining amount of power stored in the storage battery of the mobile terminal 1A received by the communication control unit 205 is acquired by the remaining power storage amount acquiring unit 207a.
Subsequently, in substantially the same manner as in the operation control process of the above embodiment, the comparison unit 207 acquires the remaining charge amount of the storage battery of the list type terminal 2A detected by the remaining charge amount detection unit 206a from the memory 202, and stores the remaining charge amount. Whether or not the remaining charge of the storage battery of the portable terminal 1 is greater than the remaining charge of the storage battery of the list type terminal 2A by comparing with the remaining charge of the storage battery of the portable terminal 1A acquired by the amount acquisition unit 207a Is determined (step S14).

When it is determined in step S14 that the remaining power of the storage battery of the portable terminal 1A is not greater than the remaining power of the storage battery of the wrist terminal 2A (step S14; NO), the operation control unit 210A The communication control unit 213 is controlled to connect to the server 3 via the communication network N so that information communication is possible (step S35). Subsequently, the operation control unit 210A causes the second communication control unit 214 to transmit a connection stop request instruction for requesting the mobile terminal 1A not to connect to the server 3 via the wireless PAN (step S36).
Accordingly, the first communication control unit 213 transmits a request corresponding to an operation signal corresponding to a predetermined operation of the list type terminal 2A by the user to the server 3 via the communication network N. Furthermore, the 1st communication control part 213 receives the various information transmitted via the communication network N from the server 3 (refer FIG.12 (b)).

Thereafter, in substantially the same manner as the operation control process of the above-described embodiment, the CPU of the central control unit 201 determines whether or not the remaining power level of the storage battery detected by the remaining power level detection unit 206a has become 0 (step S17). ).
Here, if it is determined that the remaining power of the storage battery is not 0 (step S17; NO), the CPU of the central control unit 201 returns the process to step S12, and sequentially executes the subsequent processes. .

On the other hand, when it is determined in step S14 that the remaining power of the storage battery of the portable terminal 1 is greater than the remaining power of the storage battery of the list type terminal 2 (step S14; YES), the operation control unit 210A The first communication control unit 213 controls the first communication control unit 213 so as not to connect to the server 3 via the communication network N (step S37), and further controls the second communication control unit 214 to set the wireless PAN. The mobile terminal 1A is connected so as to be able to communicate information (step S38). Subsequently, the operation control unit 210A causes the portable terminal 1A to transmit a connection request instruction to the server 3 from the second communication control unit 214 via the wireless PAN (step S39).
As a result, the list type terminal 2A is in a state capable of information communication with the server 3 via the portable terminal 1A (step S40). That is, the second communication control unit 214 transmits a request corresponding to an operation signal corresponding to a predetermined operation of the list type terminal 2A by the user to the portable terminal 1A via the wireless PAN, so that the portable terminal 1A Is transmitted to the server 3 via the communication network N. Furthermore, when various information transmitted from the server 3 is received by the mobile terminal 1A, the mobile terminal 1A transmits the various information to the list type terminal 2A via the wireless PAN (see FIG. 12A).

Thereafter, in substantially the same manner as the operation control process of the above-described embodiment, the CPU of the central control unit 201 moves the process to step S17, and the remaining power level of the storage battery detected by the remaining power level detection unit 206a becomes zero. It is determined whether or not (step S17).
If it is determined in step S17 that the remaining power of the storage battery is not zero (step S17; NO), the CPU of the central control unit 201 returns the process to step S12 in the same manner as described above, and thereafter. These processes are sequentially executed.
On the other hand, if it determines with the electrical storage remaining amount of a storage battery having become 0 (step S17; NO), CPU of the central control part 201 will complete | finish the said operation control process.

  The display control unit 204 of the list type terminal 2A causes the display unit 203 to display various types of information acquired by the operation control process.

As described above, according to the information communication system 200 of the second embodiment, the list type terminal 2A is based on the comparison result between the remaining power level of the storage battery of the mobile terminal 1A and the remaining power level of the storage battery of the list type terminal 2. The first communication control unit 213 and the server 3 are not connected to each other, and the second communication control unit 214 acquires various information transmitted from the server 3 via the portable terminal 1A, and the first communication control unit 213. The server 3 can be connected to the server 3 and various information transmitted from the server 3 can be switched and executed by the first communication control unit 213. Specifically, when it is determined that the remaining power of the storage battery of the portable terminal 1A is greater than the remaining power of the storage battery of the list type terminal 2, the first communication control unit 213 and the server 3 are not connected. While the various types of information transmitted from the server 3 are acquired by the second communication control unit 214 via the mobile terminal 1A, the remaining power level of the storage battery of the mobile terminal 1A is greater than the remaining power level of the storage battery of the list type terminal 2A. If it is determined that there is not much, the first communication control unit 213 and the server 3 are connected and various information transmitted from the server 3 is acquired by the first communication control unit 213. Power saving can be suitably achieved in consideration of the remaining amount.
That is, in a situation where the remaining amount of power stored in the storage battery of the mobile terminal 1A is relatively large, the connection between the first communication control unit 213 and the server 3 is assumed assuming that the remaining amount of power stored in the storage battery of the wrist terminal 2A is not sufficient. While stopping, by making the 2nd communication control part 214 acquire the various information transmitted from the server 3 via the portable terminal 1A, a power consumption is restrained relatively and the power consumption of the said list type terminal 2A itself is saved. Can be achieved. On the other hand, in a situation where the remaining battery level of the storage battery of the portable terminal 1A is relatively small, the first communication control unit 213 and the server 3 are connected assuming that the remaining battery level of the storage battery of the wrist terminal 2A is sufficient. Thus, the various types of information transmitted from the server 3 can be acquired by the list type terminal 2A itself.

Further, when it is determined that the remaining amount of electricity stored in the storage battery of the portable terminal 1A is greater than the remaining amount of electricity stored in the storage battery of the list type terminal 2, the second communication control unit 214 connects the server 3 to the portable terminal 1A. Therefore, the mobile terminal 1A can appropriately acquire various information from the server 3. On the other hand, when it is determined that the remaining power level of the storage battery of the portable terminal 1A is not larger than the remaining power level of the storage battery of the list type terminal 2A, the second communication control unit 214 sends the server 3 to the portable terminal 1A. Therefore, it is possible to stop the acquisition of various information from the server 3 by the mobile terminal 1 and to favorably save the power of the mobile terminal 1A.
Thereby, it is possible to extend the time for connecting the list-type terminal 2A and the portable terminal 1A so that information communication is possible, and to achieve power saving of the entire information communication system 200.

The present invention is not limited to the above-described embodiment, and various improvements and design changes may be made without departing from the spirit of the present invention.
For example, in the first embodiment, the position information and the movement information of the list type terminal 2 are exemplified as the motion related information. However, the information is not limited to the example, and can be arbitrarily changed as appropriate. . That is, the list type terminal 2 is not necessarily provided with the GPS processing unit 208 and the movement detection unit 209.

In addition, the configurations and the numbers of the mobile terminals 1 and 1A and the list type terminals 2 and 2A are merely examples as illustrated in the first and second embodiments, and are not limited thereto.
Further, in the first and second embodiments, the mobile terminal 1 is illustrated as an external information communication device, and the list type terminal 2 is illustrated as an information communication device. However, the embodiment is not limited to this example. The wrist terminal 2 may function as an external information communication device, and the mobile terminal 1 may function as an information communication device.

In addition, in the first embodiment, the functions of the detection means, the first motion acquisition means, the remaining amount acquisition means, the second motion acquisition means, the comparison means, and the control means are provided as functions of the central control unit of the list type terminal 2. Under the control of the CPU 201, the remaining power storage detection unit 206a, the communication control unit 205, the remaining power storage acquisition unit 207a, the GPS processing unit 208, the movement detection unit 209, the comparison unit 207, and the operation control unit 210 are driven. However, the present invention is not limited to this, and may be realized by executing a predetermined program or the like by the central control unit 201.
That is, a program memory (not shown) that stores a program stores a program including a detection processing routine, a first motion acquisition processing routine, a remaining amount acquisition processing routine, a second motion acquisition processing routine, a comparison processing routine, and a control processing routine. Keep it. Then, the CPU of the central control unit 201 may function as a means for detecting the remaining amount of power stored in a storage battery that supplies power to each unit by a detection processing routine. In addition, the CPU of the central control unit 201 transmits the first movement related information that changes in relation to the movement of the external information communication apparatus main body acquired by the external information communication apparatus via the communication unit. It may be made to function as a means for obtaining the information. Further, the CPU of the central control unit 201 may function as a means for acquiring the remaining amount of power stored in the storage battery of the external information communication device by the communication means by the remaining amount acquisition processing routine. Further, the CPU of the central control unit 201 may function as means for acquiring second motion related information that changes in relation to the motion by the second motion acquisition processing routine. In addition, the CPU of the central control unit 201 may function as a means for comparing the acquired remaining battery charge of the external information communication device and the detected remaining battery charge of the storage battery by the comparison processing routine. . Further, the CPU of the central control unit 201 is caused to function as a means for controlling to switch between the acquisition of the first motion related information and the acquisition of the second motion related information based on the comparison result by the control processing routine. You may do it.

Similarly, in the second embodiment, the functions as the detection unit, the remaining amount acquisition unit, the comparison unit, and the control unit are performed under the control of the CPU of the central control unit 201 of the list type terminal 2. The detection unit 206a, the remaining power storage acquisition unit 207a, the comparison unit 207, and the operation control unit 210A are configured to be driven. However, the present invention is not limited to this, and the central control unit 201 can execute a predetermined program or the like. It is good also as a structure implement | achieved by performing.
That is, a program including a detection process routine, a remaining amount acquisition process routine, a comparison process routine, and a control process routine is stored in a program memory (not shown) that stores the program. Then, the CPU of the central control unit 201 may function as a means for detecting the remaining amount of power stored in a storage battery that supplies power to each unit by a detection processing routine. Further, the CPU of the central control unit 201 may function as a means for acquiring the remaining amount of power stored in the storage battery of the external information communication device by the second communication means by the remaining amount acquisition processing routine. In addition, the CPU of the central control unit 201 may function as a means for comparing the acquired remaining battery charge of the external information communication device and the detected remaining battery charge of the storage battery by the comparison processing routine. . In addition, the CPU of the central control unit 201 transmits various information transmitted from the external device without connecting the first communication means and the external device based on the comparison result via the external information communication device. Means for switching and executing a process to be acquired by the second communication means and a process to connect the first communication means and the external device to acquire various information transmitted from the external device by the first communication means You may make it function as.

  Furthermore, as a computer-readable medium storing a program for executing each of the above processes, a non-volatile memory such as a flash memory or a portable recording medium such as a CD-ROM is applied in addition to a ROM or a hard disk. Is also possible. A carrier wave is also used as a medium for providing program data via a predetermined communication line.

Although several embodiments of the present invention have been described, the scope of the present invention is not limited to the above-described embodiments, but includes the scope of the invention described in the claims and equivalents thereof.
The invention described in the scope of claims attached to the application of this application will be added below. The item numbers of the claims described in the appendix are as set forth in the claims attached to the application of this application.
[Appendix]
<Claim 1>
Detecting means for detecting the remaining amount of storage battery that supplies power to each unit;
A communication means capable of communicating with an external information communication apparatus connected via a communication line;
First movement acquisition means for acquiring, via the communication means, first movement related information that changes in relation to movement of the external information communication apparatus main body acquired by the external information communication apparatus;
A remaining amount acquisition means for acquiring the remaining storage amount of the storage battery of the external information communication device by the communication means;
Second movement acquisition means for acquiring second movement related information that changes in relation to movement;
A comparison unit that compares the remaining amount of electricity stored in the storage battery of the external information communication device acquired by the remaining amount acquisition unit with the remaining amount of storage battery detected by the detection unit;
Based on the comparison result by the comparison unit, the acquisition of the first motion related information by the first motion acquisition unit and the acquisition of the second motion related information by the second motion acquisition unit are switched and executed. Control means for controlling;
An information communication apparatus comprising:
<Claim 2>
The control means further includes
When the first motion acquisition unit acquires the first motion related information, the communication unit transmits an instruction for requesting acquisition of the first motion related information to the external information communication device. The information communication apparatus according to claim 1.
<Claim 3>
The control means further includes
When the second motion acquisition unit acquires the second motion related information, the communication unit transmits an instruction for requesting the external information communication device to stop acquiring the first motion related information. The information communication apparatus according to claim 1 or 2.
<Claim 4>
A receiving means for sequentially receiving signals transmitted from the positioning satellites;
The second motion acquisition means includes
The current position of the apparatus main body is sequentially measured based on the signal received by the receiving means, and position information representing the displacement of the apparatus main body is acquired as the second motion related information. The information communication device according to any one of?
<Claim 5>
An acceleration sensor for detecting acceleration in a predetermined axial direction;
The second motion acquisition means includes
The movement amount and movement speed of the apparatus main body are detected based on the acceleration detected by the acceleration sensor, and movement information representing the displacement of the apparatus main body is acquired as the second movement related information. The information communication apparatus according to any one of 1 to 4.
<Claim 6>
First communication means capable of communicating with an external device connected via a first communication line;
A second communication means capable of communicating with an external information communication apparatus connected via a second communication line;
Detecting means for detecting the remaining amount of storage battery that supplies power to each unit;
A remaining amount acquisition means for acquiring a remaining storage amount of a storage battery of the external information communication device by the second communication means;
Comparing means for comparing the remaining amount of electricity stored in the storage battery of the external information communication device acquired by the remaining amount acquisition means with the remaining amount of electricity stored in the storage battery detected by the detecting means;
Based on the comparison result by the comparison means, the second communication means transmits various information transmitted from the external device without connecting the first communication means and the external device via the external information communication device. Control means for controlling to switch and execute processing to be acquired and processing to connect the first communication means and the external device to acquire various information transmitted from the external device by the first communication means When,
An information communication apparatus comprising:
<Claim 7>
The control means further includes
As a result of the comparison by the comparison unit, when the remaining amount of storage battery of the external information communication device is large, the second communication unit instructs the external information communication device to request connection to the external device. On the other hand, if the remaining storage amount of the storage battery of the external information communication device is not large, an instruction requesting that the external information communication device is not connected to the external device is transmitted from the second communication means The information communication apparatus according to claim 6, wherein:
<Claim 8>
The control means further includes
As a result of comparison by the comparison means, when the remaining amount of storage battery of the external information communication device is not large, the various information is sent from the first communication means to the external device according to the output mode from the device main body. An instruction to convert the information into a format, and the first communication means acquires the various information converted into a format according to an output mode from the apparatus main body transmitted from the external device. The information communication apparatus according to claim 6 or 7.
<Claim 9>
An information communication system in which a first information communication device and a second information communication device are connected via a communication line,
The first information communication apparatus includes:
First movement acquisition means for acquiring first movement related information that changes in relation to movement of the apparatus main body;
Detecting means for detecting the remaining amount of storage battery that supplies power to each unit,
The second information communication device is:
A communication means capable of communicating with the first information communication apparatus connected via a communication line;
A remaining amount acquisition means for acquiring a remaining storage amount of the storage battery detected by the detection means of the first information communication device by the communication means;
Second movement acquisition means for acquiring second movement related information that changes in relation to the movement of the apparatus body;
Detecting means for detecting the remaining amount of storage battery that supplies power to each unit;
Comparison means for comparing the remaining amount of electricity stored in the storage battery of the first information communication device acquired by the remaining amount acquisition means with the remaining amount of storage battery detected by the detection means of the second information communication device;
Based on the comparison result by the comparison means, the process for acquiring the first motion related information acquired by the first motion acquisition means via the communication means, and the second motion acquisition means by the second motion acquisition means A control means for controlling to execute a process for acquiring information;
An information communication system comprising:
<Claim 10>
An information communication system in which a first information communication device and a second information communication device are connected via a predetermined communication line,
The first information communication apparatus includes:
Provided with detection means for detecting the remaining amount of storage battery that supplies power to each part,
The second information communication device is:
First communication means capable of communicating with an external device connected via a first communication line;
A second communication means capable of communicating with the first information communication apparatus connected via the second communication line;
Detecting means for detecting the remaining amount of storage battery that supplies power to each unit;
A remaining amount acquisition means for acquiring a remaining storage amount of the storage battery of the first information communication device by the second communication means;
Comparing means for comparing the remaining amount of electricity stored in the storage battery of the first information communication device acquired by the remaining amount acquisition means with the remaining amount of electricity stored in the storage battery detected by the detecting means;
Based on the comparison result by the comparison unit, various information transmitted from the external device without connecting the first communication unit and the external device is transmitted to the second communication unit via the first information communication device. Control to switch and execute processing to be acquired by the first communication unit and processing to acquire various information transmitted from the external device by the first communication unit by connecting the first communication unit and the external device Means,
An information communication system comprising:
<Claim 11>
A computer of an information communication device comprising a communication means capable of communicating with an external information communication device connected via a communication line,
Detection means for detecting the remaining amount of storage battery that supplies power to each unit;
First movement acquisition means for acquiring first movement related information that changes in relation to movement of the external information communication apparatus main body acquired by the external information communication apparatus via the communication means;
A remaining amount acquisition means for acquiring a remaining storage amount of a storage battery of the external information communication device by the communication means;
Second movement acquisition means for acquiring second movement related information that changes in relation to movement;
Comparing means for comparing the remaining charge of the storage battery of the external information communication device acquired by the remaining charge acquisition means with the remaining charge of the storage battery detected by the detection means;
Based on the comparison result by the comparison unit, the acquisition of the first motion related information by the first motion acquisition unit and the acquisition of the second motion related information by the second motion acquisition unit are switched and executed. Control means for controlling,
A program characterized by functioning as
<Claim 12>
A first communication means capable of communicating with an external device connected via a first communication line; and a second communication means capable of communicating with an external information communication apparatus connected via a second communication line. A computer of an information communication device comprising:
Detection means for detecting the remaining amount of storage battery that supplies power to each unit;
A remaining amount acquisition means for acquiring a remaining storage amount of a storage battery of the external information communication device by the second communication means;
Comparing means for comparing the remaining amount of electricity stored in the storage battery of the external information communication device acquired by the remaining amount acquisition means with the remaining amount of electricity stored in the storage battery detected by the detecting means;
Based on the comparison result by the comparison means, the second communication means transmits various information transmitted from the external device without connecting the first communication means and the external device via the external information communication device. Control means for controlling to switch and execute processing to be acquired and processing to connect the first communication means and the external device to acquire various information transmitted from the external device by the first communication means ,
A program characterized by functioning as

100, 200 Information communication system 1, 1A Mobile terminal 107 Second communication control unit 108 Power supply unit 108a Power storage remaining amount detection unit 109 GPS processing unit 110 Movement detection unit 2, 2A List type terminal 201 Central control unit 205 Communication control unit 206 Power supply Unit 206a Remaining power storage detection unit 207 Comparison unit 207a Remaining power storage acquisition unit 208 GPS processing unit 208a Receiving antenna 209 Movement detection unit 209a Three-axis acceleration sensor 210, 210A Operation control unit 213 First communication control unit 214 Second communication control unit 3 Server N Communication network

Claims (12)

Detecting means for detecting the remaining amount of storage battery that supplies power to each unit;
A communication means capable of communicating with an external information communication apparatus connected via a communication line;
First movement acquisition means for acquiring, via the communication means, first movement related information that changes in relation to movement of the external information communication apparatus main body acquired by the external information communication apparatus;
A remaining amount acquisition means for acquiring the remaining storage amount of the storage battery of the external information communication device by the communication means;
Second movement acquisition means for acquiring second movement related information that changes in relation to movement;
A comparison unit that compares the remaining amount of electricity stored in the storage battery of the external information communication device acquired by the remaining amount acquisition unit with the remaining amount of storage battery detected by the detection unit;
Based on the comparison result by the comparison unit, the acquisition of the first motion related information by the first motion acquisition unit and the acquisition of the second motion related information by the second motion acquisition unit are switched and executed. Control means for controlling;
An information communication apparatus comprising: The control means further includes
When the first motion acquisition unit acquires the first motion related information, the communication unit transmits an instruction for requesting acquisition of the first motion related information to the external information communication device. The information communication apparatus according to claim 1. The control means further includes
When the second motion acquisition unit acquires the second motion related information, the communication unit transmits an instruction for requesting the external information communication device to stop acquiring the first motion related information. The information communication apparatus according to claim 1 or 2. A receiving means for sequentially receiving signals transmitted from the positioning satellites;
The second motion acquisition means includes
The current position of the apparatus main body is sequentially measured based on the signal received by the receiving means, and position information representing the displacement of the apparatus main body is acquired as the second motion related information. The information communication device according to any one of? An acceleration sensor for detecting acceleration in a predetermined axial direction;
The second motion acquisition means includes
The movement amount and movement speed of the apparatus main body are detected based on the acceleration detected by the acceleration sensor, and movement information representing the displacement of the apparatus main body is acquired as the second movement related information. The information communication apparatus according to any one of 1 to 4. First communication means capable of communicating with an external device connected via a first communication line;
A second communication means capable of communicating with an external information communication apparatus connected via a second communication line;
Detecting means for detecting the remaining amount of storage battery that supplies power to each unit;
A remaining amount acquisition means for acquiring a remaining storage amount of a storage battery of the external information communication device by the second communication means;
Comparing means for comparing the remaining amount of electricity stored in the storage battery of the external information communication device acquired by the remaining amount acquisition means with the remaining amount of electricity stored in the storage battery detected by the detecting means;
Based on the comparison result by the comparison means, the second communication means transmits various information transmitted from the external device without connecting the first communication means and the external device via the external information communication device. Control means for controlling to switch and execute processing to be acquired and processing to connect the first communication means and the external device to acquire various information transmitted from the external device by the first communication means When,
An information communication apparatus comprising: The control means further includes
As a result of the comparison by the comparison unit, when the remaining amount of storage battery of the external information communication device is large, the second communication unit instructs the external information communication device to request connection to the external device. On the other hand, if the remaining storage amount of the storage battery of the external information communication device is not large, an instruction requesting that the external information communication device is not connected to the external device is transmitted from the second communication means The information communication apparatus according to claim 6, wherein: The control means further includes
As a result of comparison by the comparison means, when the remaining amount of storage battery of the external information communication device is not large, the various information is sent from the first communication means to the external device according to the output mode from the device main body. An instruction to convert the information into a format, and the first communication means acquires the various information converted into a format according to an output mode from the apparatus main body transmitted from the external device. The information communication apparatus according to claim 6 or 7. An information communication system in which a first information communication device and a second information communication device are connected via a communication line,
The first information communication apparatus includes:
First movement acquisition means for acquiring first movement related information that changes in relation to movement of the apparatus main body;
Detecting means for detecting the remaining amount of storage battery that supplies power to each unit,
The second information communication device is:
A communication means capable of communicating with the first information communication apparatus connected via a communication line;
A remaining amount acquisition means for acquiring a remaining storage amount of the storage battery detected by the detection means of the first information communication device by the communication means;
Second movement acquisition means for acquiring second movement related information that changes in relation to the movement of the apparatus body;
Detecting means for detecting the remaining amount of storage battery that supplies power to each unit;
Comparison means for comparing the remaining amount of electricity stored in the storage battery of the first information communication device acquired by the remaining amount acquisition means with the remaining amount of storage battery detected by the detection means of the second information communication device;
Based on the comparison result by the comparison means, the process for acquiring the first motion related information acquired by the first motion acquisition means via the communication means, and the second motion acquisition means by the second motion acquisition means A control means for controlling to execute a process for acquiring information;
An information communication system comprising: An information communication system in which a first information communication device and a second information communication device are connected via a communication line,
The first information communication apparatus includes:
Provided with detection means for detecting the remaining amount of storage battery that supplies power to each part,
The second information communication device is:
First communication means capable of communicating with an external device connected via a first communication line;
A second communication means capable of communicating with the first information communication apparatus connected via the second communication line;
Detecting means for detecting the remaining amount of storage battery that supplies power to each unit;
A remaining amount acquisition means for acquiring a remaining storage amount of the storage battery of the first information communication device by the second communication means;
Comparing means for comparing the remaining amount of electricity stored in the storage battery of the first information communication device acquired by the remaining amount acquisition means with the remaining amount of electricity stored in the storage battery detected by the detecting means;
Based on the comparison result by the comparison unit, various information transmitted from the external device without connecting the first communication unit and the external device is transmitted to the second communication unit via the first information communication device. Control to switch and execute processing to be acquired by the first communication unit and processing to acquire various information transmitted from the external device by the first communication unit by connecting the first communication unit and the external device Means,
An information communication system comprising: A computer of an information communication device comprising a communication means capable of communicating with an external information communication device connected via a communication line,
Detection means for detecting the remaining amount of storage battery that supplies power to each unit;
First movement acquisition means for acquiring first movement related information that changes in relation to movement of the external information communication apparatus main body acquired by the external information communication apparatus via the communication means;
A remaining amount acquisition means for acquiring a remaining storage amount of a storage battery of the external information communication device by the communication means;
Second movement acquisition means for acquiring second movement related information that changes in relation to movement;
Comparing means for comparing the remaining charge of the storage battery of the external information communication device acquired by the remaining charge acquisition means with the remaining charge of the storage battery detected by the detection means;
Based on the comparison result by the comparison unit, the acquisition of the first motion related information by the first motion acquisition unit and the acquisition of the second motion related information by the second motion acquisition unit are switched and executed. Control means for controlling,
A program characterized by functioning as A first communication means capable of communicating with an external device connected via a first communication line; and a second communication means capable of communicating with an external information communication apparatus connected via a second communication line. A computer of an information communication device comprising:
Detection means for detecting the remaining amount of storage battery that supplies power to each unit;
A remaining amount acquisition means for acquiring a remaining storage amount of a storage battery of the external information communication device by the second communication means;
Comparing means for comparing the remaining amount of electricity stored in the storage battery of the external information communication device acquired by the remaining amount acquisition means with the remaining amount of electricity stored in the storage battery detected by the detecting means;
Based on the comparison result by the comparison means, the second communication means transmits various information transmitted from the external device without connecting the first communication means and the external device via the external information communication device. Control means for controlling to switch and execute processing to be acquired and processing to connect the first communication means and the external device to acquire various information transmitted from the external device by the first communication means ,
A program characterized by functioning as

Images