JP6334136B2 - Wireless communication terminal and state monitoring method thereof - Google Patents

Description

  The present invention relates to a wireless communication terminal and a state monitoring method thereof, and more particularly to a device state monitoring method of a wireless communication terminal that operates on a battery.

  In recent years, mobile routers have become widespread for Internet connection on the go, and there is a demand for longer operating time. A mobile router is a device that wirelessly connects a smartphone to the Internet, for example, and generally operates on a battery. In order to increase the operating time of such devices, it is conceivable to mainly “increase the battery capacity” and “reduce power consumption”. When the battery capacity is increased, the device size is inevitably increased, which is not suitable for mobile use. Therefore, there are high expectations for reducing power consumption. In addition, it is desirable that the device status of the mobile router can always be monitored from a terminal such as a smartphone in order to confirm whether it is usable at that time.

  FIG. 8 is a block diagram showing a mobile router and a smartphone for explaining a related state monitoring method as a background art. The mobile router 30 in FIG. 8 includes a wide area network communication unit (WAN communication unit) 301, a central processing unit (CPU unit) 302, a battery 303, and a wireless local area network communication unit (WLAN communication unit) 304. doing. The smartphone 40 in FIG. 8 includes a wide area network communication unit (WAN communication unit) 401, a central processing unit (CPU unit) 402, and a display unit 403.

  In the mobile router 30 of FIG. 8, the WAN communication unit 301 is connected to the Internet. The CPU unit 302 is connected to the WAN communication unit 301 and the WLAN communication unit 304, and relays internet communication of the smartphone 40 by wirelessly connecting to the WLAN communication unit 401 of the smartphone 40. A battery 303 is a power source for operating the mobile router 30 and supplies operating power to the WAN communication unit 301, the CPU unit 302, the WLAN communication unit 304, and the like.

  In the related state monitoring method, the state monitoring software 305 of the CPU unit 302 collects the state in each device of the mobile router 30, for example, the remaining amount state from the battery 303 and the state of the wireless line from the WAN communication unit 301. The collected status information is wirelessly output from the WAN communication unit 304. In the smartphone 40, the state monitor software 404 of the CPU unit 402 extracts the state information and displays it on the display unit 403. In this way, the smartphone 40 can know the status information of the mobile router 30.

  Patent Document 1 relates to a state monitoring method for a multi-function peripheral that receives an instruction for printing, facsimile transmission, and the like by wireless communication from a personal computer. The multifunction device disclosed in Patent Document 1 includes a Bluetooth (registered trademark) communication module, and performs wireless communication based on the Bluetooth standard. When the multifunction device's Bluetooth communication module receives a search command from a personal computer, it adds text to the Bluetooth device name and sends the status of the multifunction device, such as standby, facsimile reception, or printing, from the Bluetooth communication module. To do. The Bluetooth communication module of the personal computer receives the transmitted Bluetooth device name, and displays the Bluetooth device name to which the status of the multifunction device is added on the display unit. For example, if the multifunction device is receiving a facsimile when a search command is sent from a personal computer, the Bluetooth communication module of the multifunction device adds the text “(Receiving FAX)” to the Bluetooth device name and the Bluetooth device name. Send as. As a result, the personal computer can know the device name and status of the multifunction peripheral.

JP 2004-40469 A

  However, the state monitoring method described above has the following problems.

  In the state monitoring method of the background art shown in FIG. 8, since the mobile router 30 and the smart phone 40 are connected by a WLAN line and the device state of the mobile router 30 is read through the mobile line, power for transmitting and receiving by WLAN communication is required. It is. In particular, in the state reading in the power saving state with low apparatus power, the effect of shortening the operation time is increased due to the increase in power consumption by the WLAN communication. For this reason, it is necessary to reduce the apparatus power by not performing the state monitoring or performing the state monitoring but increasing the monitoring interval.

  In Patent Document 1, the device status of the multifunction device at that time is notified when the Bluetooth communication module in the multifunction device receives a search command from a personal computer as a trigger. Therefore, two-way communication is necessary to know the status of the multifunction device. For this reason, power consumption increases. A status monitor of a battery-operated device is not considered, and is not suitable for monitoring a device status of a wireless communication terminal operating on a battery.

  An object of the present invention is to provide a wireless communication terminal and a state monitoring method thereof for solving the problem that it is difficult to properly monitor a device state in a wireless communication terminal operating on a battery. .

To achieve the above object, a wireless communication terminal according to the present invention is a wireless communication terminal that operates on a battery and is identified by terminal identification information,
Information collecting means for encoding information relating to the terminal status including the remaining battery information and adding the information to the terminal identification information; and a short-range wireless communication unit for transmitting the terminal identification information to which the information relating to the terminal status is added And having.

A state monitoring method for a wireless communication terminal according to the present invention is a state monitoring method for a wireless communication terminal that operates on a battery and has a normal operation mode and a power saving mode with lower power consumption than the normal operation mode,
Regardless of the normal operation mode and the power saving mode, the terminal state information including the remaining battery information is collected, the collected information is encoded, added to the terminal identification information, and the terminal state. The terminal identification information with the information added is transmitted.

  ADVANTAGE OF THE INVENTION According to this invention, the apparatus state of the radio | wireless communication terminal which operate | moves with a battery can be monitored with low power consumption.

It is a block diagram which shows the mobile router and smart phone to which the state monitoring method of the radio | wireless communication terminal which concerns on 1st Embodiment of this invention was applied. It is a block diagram for demonstrating operation | movement of the mobile router and smart phone of FIG. It is a block diagram for demonstrating operation | movement of the mobile router and smart phone of FIG. It is a block diagram for demonstrating operation | movement of the mobile router and smart phone of FIG. (A) is a figure which shows an example of the form of the collection information data which the Bluetooth communication part of the mobile router of FIG. 1 sends out, (b) is a figure which shows the specific example of the code value of the apparatus state of (a). . It is a block diagram which shows the mobile router and smart phone to which the state monitoring method of the radio | wireless communication terminal which concerns on 2nd Embodiment of this invention was applied, and its operation | movement. It is a figure which shows an example of the form of the collection information data which the wireless LAN communication part of the mobile router of FIG. 6 sends out. It is a block diagram for demonstrating communication between the mobile router and smart phone of background art.

  Preferred embodiments of the present invention will be described in detail with reference to the drawings.

[First Embodiment]
First, the wireless communication terminal and its state monitoring method according to the first embodiment of the present invention will be described. The present embodiment relates to an example of monitoring the state of a mobile router from a smartphone that can be connected to the Internet via the mobile router. FIG. 1 is a block diagram illustrating a mobile router and a smartphone to which a state monitoring method for a wireless communication terminal according to a first embodiment of the present invention is applied. In the present embodiment, the Bluetooth standard will be described as an example of short-range wireless communication.

  As shown in FIG. 1, the mobile router 10 of the present embodiment includes a wide area network communication unit (WAN communication unit) 101, a central processing unit (CPU unit) 102, a battery 103, and a wireless local area network communication unit ( WLAN communication unit) 104, Bluetooth communication unit 105, and state collection unit 106 as an example of an information collection unit. As shown in FIG. 1, the smartphone 20 of this embodiment includes a wide area network communication unit (WAN communication unit) 201, a central processing unit (CPU unit) 202, a Bluetooth communication unit 203, and a display unit 205. doing.

  In the mobile router 10 of FIG. 1, the WAN communication unit 101 is connected to the Internet. The CPU unit 102 is connected to the WAN communication unit 101 and the WLAN communication unit 104, and relays internet communication of the smartphone 20 by wirelessly connecting to the WLAN communication unit 201 of the smartphone 20. The battery 103 is a power source for operating the mobile router 10 and supplies operating power to the WAN communication unit 101, the CPU unit 102, the WLAN communication unit 104, the Bluetooth communication unit 105, and the like.

  When the mobile router 10 is in the power saving state, the WAN communication unit 101, the CPU unit 102, and the WLAN communication unit 104 are in the power saving mode. The state collection unit 106 collects device states in the mobile router 10 and controls the Bluetooth communication unit 105. Regardless of whether the mobile router 10 is in a normal state or a power saving state, the state collection unit 106 periodically performs state monitoring while power is being supplied from the battery 103.

  The state monitor software 204 is executed in the CPU unit 202 in the smartphone 20 of FIG. The device status of the mobile router 10 is obtained from the device scan information of the Bluetooth communication unit 203, that is, a search result obtained by searching for a device that performs wireless communication based on the Bluetooth standard and is located in the vicinity of the smartphone 20. The display unit 205 displays the monitor information obtained by the state monitor software 204 and notifies the user of the smartphone 10 of the device state of the mobile router 10.

  Next, the state monitoring method of the present embodiment will be described with reference to FIGS. 2 to 4 are block diagrams for explaining the operation of the mobile router and the smartphone shown in FIG. FIG. 5A is a diagram showing an example of the form of collected information data transmitted by the Bluetooth communication unit of the mobile router of FIG. 1, and FIG. 5B is a specific example of the device state code value of FIG. 5A. It is a figure which shows an example.

  The information collecting unit 106 autonomously periodically changes the state in each device of the mobile router 10, for example, the remaining state from the battery 103, the state of the wireless line from the WAN communication unit 101, and the operation mode of the device from the CPU unit 102. To collect. For example, the information collection interval is every 10 minutes. If the frequency of information collection is about 10 minutes, power consumption can be reduced.

  Next, as shown in FIG. 3, the state collection unit 106 encodes the collected state information, adds it to the Bluetooth device name, and sets it in the Bluetooth communication unit 105. The Bluetooth communication unit 105 wirelessly outputs with the set device name.

  Next, as shown in FIG. 4, the status monitor software 204 of the smartphone 20 controls the Bluetooth communication unit 203 to obtain the Bluetooth device name of the mobile router 10 to be monitored, and extracts the added code therefrom. The code is decoded and returned to the state in each apparatus and displayed on the display unit 205.

  Here, an example of the data configuration of the Bluetooth device name set in the Bluetooth communication unit 105 in FIG. 3 will be described. As shown in FIG. 5A, this data is composed of a Bluetooth device name, a fixed value unique to the device of the mobile router, and a code value of the device status. In this way, the collected status information may be encoded and added to the Bluetooth device name and set in the Bluetooth communication unit 105. Further, an example of the device state code value will be described. As shown in FIG. 5B, the remaining battery level of the battery 103 may be a code in which the remaining battery level of 0% to 100% is encoded as 7-bit data. Further, the state of the wireless line of the WAN communication unit 101 may be encoded as 3 bit data corresponding to 0 antennas to 4 antennas, for example. Also, if the operation mode of the device from the CPU unit 102 is assumed to be three states of power saving I (first power saving mode), power saving II (second power saving mode) and normal (normal mode), this is supported. It can be coded as 2bit data.

  The state information of the mobile router 10 that is encoded and set in the Bluetooth communication unit 105 is decoded by the state monitor software 204 of the smartphone 20, and the display unit 205 displays, for example, an antenna pictogram as a remaining battery level of 80% and a wireless state. (4 ANTs), the operation mode is displayed as power saving I.

  According to the above operation, in the present embodiment, the mobile router 10 does not operate the CPU unit 102 and the WLAN communication unit 104 with high power consumption in the power saving state, and the state collection unit 106 and the Bluetooth communication unit 105 with low power consumption are operated. By operating, the device status of the mobile router can be monitored and notified to the smartphone.

  According to the present embodiment, the information collection unit 106 autonomously collects the state in each device of the mobile router 10, encodes the collected information, adds it to the Bluetooth device name, and transmits it from the Bluetooth communication unit 105. doing. Unlike Patent Document 1, since it is not necessary to receive a search command from a personal computer, a Bluetooth receiving circuit and reception control can be made unnecessary. That is, in the present embodiment, the Bluetooth communication unit 105 is used, but the status collection unit 106 and the Bluetooth communication unit 105 are configured to perform Bluetooth connection / communication control and the like only for a one-way operation of outputting a Bluetooth device name. Two-way communication is not necessary.

  Since the collected information can be notified in one direction, power for bidirectional communication can be eliminated. Therefore, cost reduction and power saving can be realized more than Patent Document 1. A monitoring method suitable for a wireless communication terminal operating on a battery can be provided.

[Second Embodiment]
Next, a state monitoring method for a wireless communication terminal according to the second embodiment of the present invention will be described. Similar to the first embodiment, this embodiment also relates to an example in which the state of the mobile router is monitored from a smartphone that can be connected to the Internet via the mobile router. Detailed description of the same contents as in the first embodiment will be omitted.

  In the present embodiment, the apparatus state is added to the SSID (Service Set Identifier) of the wireless local area network (WLAN), while the apparatus state is added to the Bluetooth device name in the first embodiment.

  FIG. 6 is a block diagram illustrating a mobile router, a smart phone, and an operation thereof to which the wireless communication terminal state monitoring method according to the second embodiment of the present invention is applied. FIG. 7 is a diagram showing an example of the form of collected information data transmitted by the wireless LAN communication unit of the mobile router in FIG.

  As shown in FIG. 6, the mobile router 10a of this embodiment includes a wide area network communication unit (WAN communication unit) 101, a central processing unit (CPU unit) 102a, a battery 103, and a wireless local area network communication unit ( WLAN communication unit) 104. As shown in FIG. 6, the smartphone 20 of this embodiment includes a wireless local area network communication unit (WLAN communication unit) 201, a central processing unit (CPU unit) 202, and a display unit 205. The information collection unit of the present embodiment is the state monitor software 107 executed by the CPU unit 202.

  In the mobile router 10a of FIG. 6, the WAN communication unit 101 is connected to the Internet. The CPU unit 102a is connected to the WAN communication unit 101 and the WLAN communication unit 104, and relays Internet communication of the smartphone 20 by wirelessly connecting to the WLAN communication unit 201 of the smartphone 20. The battery 103 is a power source for operating the mobile router 10a, and supplies operating power to the WAN communication unit 101, the CPU unit 102a, the WLAN communication unit 104, and the like.

  In the normal state, the CPU unit 102a of the mobile router 10a executes the state monitor software 107 to check the state in each device of the mobile router 10a, for example, the remaining state from the battery 103 and the state of the wireless line from the WAN communication unit 101. Collect regularly. The state monitor software 107 encodes the collected state information, adds it to the SSID of the mobile router 10a, and sets it in the WLAN communication unit 104. The WLAN communication unit 104 wirelessly outputs with the set SSID. The status monitor software 204 of the smartphone 20 controls the WLAN communication unit 201 to obtain the SSID of the mobile router 10a to be monitored, and extracts the added code therefrom. The code is decoded and returned to the state in each apparatus and displayed on the display unit 205.

  Here, an example of the data configuration of the SSID set in the WLAN communication unit 104 in FIG. 6 will be described. As shown in FIG. 7, this data includes a WLAN SSID, a fixed value unique to the device of the mobile router, and a code value of the device status. In this way, the collected status information may be encoded and added to the SSID, and set in the WLAN communication unit 104. The code value of the device state can be the same as that of the first embodiment shown in FIG.

  According to the present embodiment, even in a mobile router without Bluetooth, the mobile router 10a does not monitor the transmission / reception via the WLAN connection, but the mobile router 10a only performs the output with the device status added to the SSID, and the smartphone 20 only performs the SSID monitoring. As a result, the device state can be monitored without performing bidirectional communication, and the power consumption of the device can be reduced. In this embodiment, the WLAN communication unit 104 is used. However, since the operation is only one-way operation such as SSID output, the CPU unit 102a and the WLAN communication unit 104 do not need bidirectional communication such as connection / communication control. Thereby, power saving can be realized as in the first embodiment.

  As mentioned above, although preferable embodiment of this invention was described, this invention is not limited to this. It goes without saying that various modifications are possible within the scope of the invention described in the claims, and these are also included in the scope of the present invention.

  As an application example of the present invention, a mobile router and software of a personal computer or a smartphone for monitoring the status of the mobile router can be considered.

DESCRIPTION OF SYMBOLS 10, 10a Mobile router 20 Smartphone 101 WAN communication part 102, 102a CPU part 103 Battery 104 WLAN communication part 105 Bluetooth communication part 106 Status collection part 107 Status monitor software 201 WLAN communication part 202 CPU part 203 Bluetooth communication part 204 Status monitor software 205 Display section

Claims (7)

A wireless communication terminal that operates on a battery and is identified by terminal identification information,
Information collecting means for encoding information relating to the terminal state including the remaining battery information and adding the information to the terminal identification information; and a short-range wireless communication unit for transmitting the terminal identification information to which the information relating to the terminal state is added If, have a, a central processing unit section for controlling the wireless communication unit,
The information collecting means collects information on the terminal state at regular intervals regardless of any of the normal operation mode and the power saving mode in which the power consumption is smaller than that of the normal operation mode, and the central processing unit is configured to A wireless communication terminal that suspends operation in the power saving mode .   The wireless communication terminal according to claim 1, wherein the short-range wireless communication unit transmits the terminal identification information to which information on the terminal state is added at regular intervals. The wireless communication terminal according to claim 1, wherein the information collection unit is an information collection unit provided separately from the central processing unit . The wireless communication terminal according to any one of claims 1 to 3, wherein the terminal identification information is a device name defined by a short-range wireless communication standard . The wireless communication terminal according to any one of claims 1 to 3, wherein the terminal identification information is an identifier defined by a wireless local area network standard . A method for monitoring a state of a wireless communication terminal that operates on a battery, is identified by terminal identification information, and has a normal operation mode and a power saving mode in which power consumption is smaller than the normal operation mode,
The wireless communication terminal encodes information relating to the terminal state including the remaining battery information, and transmits information collecting means for adding the information to the terminal identification information, and the terminal identification information to which the information relating to the terminal state is added. A short-range wireless communication unit, and a central processing unit that controls the short-range wireless communication unit,
The information collecting means collects information related to the terminal state including the remaining battery level information regardless of the normal operation mode and the power saving mode, encodes the collected information, and adds the information to the terminal identification information The short-range wireless communication unit transmits the terminal identification information to which information on the terminal state is added, and the central processing unit is a state monitor of a wireless communication terminal that suspends operation in the power saving mode Way . The information collecting means collects information related to the terminal state at regular intervals, encodes the collected information and adds it to the terminal identification information, and the short-range wireless communication unit adds information related to the terminal state. The method for monitoring a state of a wireless communication terminal according to claim 6, wherein the terminal identification information is transmitted at regular intervals .

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