JP5586567B2 - Wireless network system, control method and program - Google Patents

Description

  The present invention relates to a wireless network system, a control method, and a program.

  In a sensor terminal to which a sensor is connected, wireless communication is often used to transmit a sensor detection value (sensor value) to the outside for the purpose of reducing installation and wiring costs. A wireless terminal to which such a sensor is connected (hereinafter referred to as a wireless communication device) is mainly driven by a battery. A wireless communication device driven by a battery is desirably operated intermittently by alternately switching between an active state and a sleep state for the purpose of reducing power consumption.

  The wireless communication device transmits the sensor detection values (sensor values) acquired at regular intervals to a wireless terminal (hereinafter referred to as a controller) that collects the sensor values by wireless communication. More specifically, the wireless communication device shifts from the sleep state to the active state at a constant cycle, and after shifting to the active state, acquires the sensor value from the sensor, transmits it to the controller, and returns to the sleep state again. When returning to the sleep state, the wireless communication device cannot perform wireless communication until the wireless communication device becomes active again.

  In view of this, a system that performs asynchronous communication from a controller or the like to a wireless communication device that operates intermittently has been proposed. For example, a remote power supply control device that controls starting and stopping of the power supply of the information processing device from a remote location via a communication line is an example of such a wireless communication device (see, for example, Patent Document 1).

  This remote power supply control device is wirelessly connected to an information processing device to be controlled. The information processing apparatus is normally in a sleep state. The remote power control device switches between an active state and a sleep state at regular intervals, and waits for a power-on message from the host computer when in the active state. When the remote power control device becomes active and receives a power-on message from the host computer, it transmits a power-on instruction to the information processing device to activate the information processing device. Thus, if the remote power supply control device is operated intermittently, the power consumption can be reduced.

Japanese Patent Laid-Open No. 5-14434

  In the remote power supply control device described in Patent Document 1, it is difficult to receive a message from the host computer unless it is in an active state. However, the host computer has no way of knowing when the remote power supply control device is in the active state. For this reason, it is necessary for the host computer to transmit the message a plurality of times until the remote power supply control device becomes active and receives the message.

  Further, the interval of the intermittent operation of the remote power supply control device is fixed and cannot be changed dynamically. For this reason, it becomes difficult to perform flexible operations such as changing the transmission interval of sensor values between day and night.

  For example, when performing a communication test during network maintenance, switching from intermittent operation to continuous operation enables the wireless communication apparatus to reliably receive a test-transmitted packet. However, in the remote power supply control device described in Patent Document 1, it is difficult to switch from intermittent operation to continuous operation.

  The present invention has been made in view of the above circumstances, and provides a wireless network system, a control method, and a program capable of efficient and flexible operation by controlling intermittent operation of a wireless communication device from a controller. The purpose is to do.

In order to achieve the above object, a wireless network system according to the present invention provides:
A wireless network system comprising at least one wireless communication device that performs periodic notification and a controller that receives the periodic notification from the wireless communication device by wireless communication,
The wireless communication device
When the setting of the low power consumption mode can be changed in response to an external setting request, and the setting of the low power consumption mode is set to invalid, the operation is performed in the active state, and the setting of the low power consumption mode is performed. Is set to valid, it operates based on a start cycle and start time that can be changed in response to a setting request from the outside , and transitions from the sleep state to the active state in the cycle set as the start cycle. after, transmitting the periodic notification to the controller, and go to sleep after a time set as the starting time has elapsed,
The controller is
The wireless communication device the wireless communication device estimates the cycle to start based on the plurality of the periodic notice transmit interval for transmitting the active state the wireless communication device based on the estimated period The low power consumption mode is transmitted to the wireless communication apparatus at a timing estimated to be invalid, and the predetermined processing execution request is transmitted to the wireless communication apparatus. Is sent to the wireless communication apparatus.

  According to the present invention, the controller estimates the period at which the wireless communication device is activated based on the interval at which periodic notifications are transmitted from the wireless communication device. Furthermore, the controller transmits an invalid setting request for the low power consumption mode to the wireless communication device at a timing at which the wireless communication device is estimated to be in an active state according to the activation cycle.

  When receiving the invalid setting request for the low power consumption mode, the wireless communication device continues to be in the active state. For this reason, after that, when the controller transmits an execution request for a predetermined process, the wireless communication apparatus can quickly perform the predetermined process according to the execution request. In other words, according to the present invention, an efficient and flexible system operation can be performed by controlling the intermittent operation of the wireless communication apparatus from the controller.

1 is a block diagram showing a schematic configuration of a radio network system according to Embodiment 1 of the present invention. 2 is a flowchart showing an operation after power-on of the wireless communication apparatus of FIG. It is a flowchart which shows the operation | movement after power activation of the controller of FIG. It is a timing chart for demonstrating the process which estimates the starting period of the controller of FIG. It is a timing chart of the signal transmitted / received between a radio | wireless communication apparatus and a controller. It is a timing chart which shows operation | movement of the radio | wireless network system which concerns on Embodiment 2 of this invention. It is a timing chart which shows operation | movement of the radio | wireless network system which concerns on Embodiment 3 of this invention.

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

Embodiment 1 FIG.
First, a first embodiment of the present invention will be described.

  FIG. 1 shows a schematic configuration of a radio network system 1 according to the first embodiment. As shown in FIG. 1, the wireless network system 1 includes a wireless communication device 100 and a controller 200.

  In FIG. 1, only one wireless communication device 100 is shown, but actually, there may be a plurality of wireless communication devices 100. That is, a plurality of wireless communication devices 100 may be connected to one controller 200.

  The wireless communication device 100 and the controller 200 are computers. In the wireless communication device 100 and the controller 200, the CPU executes a program stored in a memory, thereby linking with hardware such as a wireless communication interface, thereby realizing the following various functions.

  A sensor 300 that detects a detection value related to predetermined information is connected to the wireless communication device 100. Examples of information detected by the sensor 300 include temperature and humidity. The wireless communication device 100 acquires a detection value detected by the sensor 300, that is, a sensor value from the sensor 300. The controller 200 controls the wireless communication device 100 and collects sensor values.

  The wireless communication apparatus 100 includes a wireless communication unit 101, an application unit 102, an RSSI / PER measurement unit 103, a power consumption control unit 104, and a packet distribution unit 105.

  The wireless communication unit 101 performs wireless communication. The wireless communication unit 101 is connected to the power consumption control unit 104 and the packet distribution unit 105. The wireless communication unit 101 transmits the packet received from the controller 200 to the packet sorting unit 105, and transmits the packet notified from the packet sorting unit 105 to the controller 200.

  Further, the wireless communication unit 101 switches its operation state (active state, sleep state) according to a command from the power consumption control unit 104.

  The application unit 102 is connected to the power consumption control unit 104 and the packet distribution unit 105. The application unit 102 is notified of a packet related to the application unit 102 among the received packets input from the wireless communication unit 101 to the packet sorting unit 105. When transmitting a packet from the application unit 102 to the controller 200, the packet to be transmitted is output to the packet sorting unit 105.

  In addition, the application unit 102 instructs the power consumption control unit 104 to switch the states (active state and sleep state) of the wireless communication device 100 and the wireless communication unit 101.

  Further, the application unit 102 is connected to the sensor 300. The application unit 102 acquires a sensor value from the sensor 300 as application processing. The application unit 102 transmits a packet including the acquired sensor value to the controller 200 via the packet distribution unit 105, the wireless communication unit 101, and the like.

  The RSSI / PER measurement unit 103 performs RSSI / PER measurement between the wireless communication device 100 and the controller 200, that is, measures an RSSI value and a PER value. Here, RSSI represents a received signal strength indication, and PER represents a packet error rate.

  The RSSI / PER measurement unit 103 is connected to the packet distribution unit 105. Of the received packets input from the wireless communication unit 101 to the packet distribution unit 105, a packet related to the RSSI / PER measurement unit 103 is input. The RSSI / PER measurement unit 103 measures the RSSI value and the PER value based on the contents of the input packet, and returns a packet including the RSSI value and the PER value.

  Further, when a packet is transmitted from the RSSI / PER measurement unit 103 to the controller 200, the packet to be transmitted is output to the packet distribution unit 105. The packet distribution unit 105 transmits a packet including the measured RSSI value and PER value to the controller 200 via the wireless communication unit 101.

  The power consumption control unit 104 is connected to the packet distribution unit 105. Of the received packets output from the wireless communication unit 101 to the packet sorting unit 105, a packet related to the power consumption control unit 104 is input to the power consumption control unit 104. The power consumption control unit 104 performs power consumption control of the wireless communication apparatus 100 including the wireless communication unit 101 according to the contents of the input packet.

  More specifically, the power consumption control unit 104 changes the operation state of the wireless communication device 100 at regular intervals when the setting of the low power consumption mode is enabled as the operation mode of the wireless communication device 100. Intermittent control is performed to switch between the active state and the sleep state. When the wireless communication device 100 is in an active state, use of power is not restricted. Further, in the wireless communication device 100, use of power is significantly limited in the sleep state.

  The power consumption control unit 104 also outputs a command to switch the operation state (active state, sleep state) to the wireless communication unit 101. When an active state command is output from the power consumption control unit 104 to the wireless communication unit 101, the wireless communication unit 101 is in a state in which power is supplied and radio waves can be transmitted and received. On the other hand, when a sleep state command is output from the power consumption control unit 104 to the wireless communication unit 101, the wireless communication unit 101 is in a state where it cannot transmit or receive a radio wave whose power supply is interrupted.

  Note that the power consumption control unit 104 stores a set value of the time for maintaining the active state, that is, the startup time. The power consumption control unit 104 activates the wireless communication device 100 including the wireless communication unit 101 for the time set as the activation time, and shifts to the sleep state after the time has elapsed.

  Further, the power consumption control unit 104 stores a cycle for starting the active state, that is, a set value for the startup cycle. The power consumption control unit 104 shifts the wireless communication device 100 including the wireless communication unit 101 from the sleep state to the active state according to the cycle set as the activation cycle.

  The power consumption control unit 104 has a timer. The power consumption control unit 104 performs intermittent control according to the elapsed time measured by the timer.

  The wireless communication device 100 is provided with a low power consumption mode as an operation mode. The power consumption control unit 104 stores a setting value indicating whether the low power consumption mode is currently valid or invalid. When the set value of the low power consumption mode is set to invalid, the power consumption control unit 104 operates the wireless communication device 100 including the wireless communication unit 101 in an always active state. On the other hand, when the set value of the low power consumption mode is set to be valid, the power consumption control unit 104 causes the wireless communication device 100 to shift from the sleep state to the active state in the cycle set as the activation cycle. Then, after the time set as the activation time has elapsed, the sleep state is entered.

  The packet distribution unit 105 inputs the packet received by the wireless communication unit 101 and analyzes the input packet. The packet distribution unit 105 distributes the packet to any of the application unit 102, the RSSI / PER measurement unit 103, and the power consumption control unit 104 according to the analysis result of the packet and outputs the packet. The packet distribution unit 105 wirelessly transmits a packet input from the application unit 102, the RSSI / PER measurement unit 103, and the power consumption control unit 104 to the controller 200 as necessary.

  The controller 200 includes a wireless communication unit 201 and a control unit 202.

  The wireless communication unit 201 is connected to the control unit 202. The wireless communication unit 201 performs wireless communication in the same manner as the wireless communication unit 101 of the wireless communication device 100. When wireless communication unit 201 receives a packet from wireless communication device 100 by wireless communication, wireless communication unit 201 outputs the packet to control unit 202. In addition, when a packet is input from the control unit 202, the wireless communication unit 201 transmits the packet to the wireless communication device 100 by wireless communication.

  The control unit 202 receives the sensor values of the wireless communication device 100 via the wireless communication unit 201 and collects the sensor values. Further, the control unit 202 transmits a packet related to power consumption control to the wireless communication apparatus 100 via the wireless communication unit 201.

  Next, the operation of the wireless network system 1 according to this embodiment will be described.

  FIG. 2 shows an operation after the wireless communication device 100 is turned on. The wireless communication device 100 operates in accordance with preset start time, start cycle, and low power consumption mode set values after power-on. For example, when the activation time is set to 5 seconds, the activation cycle is set to 1 minute, and the setting of the low power consumption mode is enabled, the wireless communication device 100 is in an active state according to those setting values Intermittent control is performed by alternately switching between the sleep state and the sleep state. Hereinafter, the active state is also referred to as an active mode, and the sleep state is also referred to as a sleep mode.

  As shown in FIG. 2, first, the wireless communication device 100 performs initial setting of the wireless communication device 100 at a power-on timing (step S1). At this time, in the wireless communication device 100 (power consumption control unit 104), the setting value of the low power consumption mode is set to be valid in the initial setting. In addition, the wireless communication device 100 is activated in the active mode.

  Subsequently, the wireless communication device 100 (power consumption control unit 104) resets the measured value of the elapsed time from the start of activation (step S2). Thereafter, the wireless communication device 100 (power consumption control unit 104) starts measuring elapsed time (step S3).

  Subsequently, the wireless communication apparatus 100 (application unit 102) performs application processing. More specifically, the wireless communication device 100 (application unit 102) acquires a sensor value connected to the wireless communication device 100 (step S4). Subsequently, the wireless communication device 100 (application unit 102) transmits a packet including the sensor value to the controller 200 via the packet distribution unit 105 and the wireless communication unit 101 (step S5). After the transmission, the application unit 102 may end the process immediately, or may end the process after waiting for a response from the controller 200.

  After the end of the application process, the wireless communication device 100 (power consumption control unit 104) waits until the time when the measurement is started in step S3 exceeds the value set in the activation time (step S6; No).

  When the elapsed time exceeds the set value of the activation time (step S6; Yes), the wireless communication device 100 (power consumption control unit 104) shifts the wireless communication device 100 to the sleep mode (step S7). At this time, the wireless communication unit 101 also shifts to the sleep mode. The wireless communication unit 101 cannot transmit or receive a packet at all in the sleep mode.

  Subsequently, after shifting to the sleep mode, the wireless communication device 100 (power consumption control unit 104) waits until the elapsed time exceeds the value set in the activation cycle (step S8; No). When the elapsed time exceeds the activation cycle (step S8; Yes), the wireless communication device 100 (power consumption control unit 104) shifts the wireless communication device 100 including the wireless communication unit 201 to the active mode (step S9). Thereafter, the wireless communication device 100 returns to step S2.

  Thereafter, the wireless communication device 100 repeats steps S2, S3, S4, S5, S6, S7, S8, and S9 in this order, and performs acquisition, transmission, and intermittent operation of sensor values in the activation cycle.

  Note that the wireless communication device 100 may set a time until returning to the active mode when shifting to the sleep mode in step S5. In step S9, the time required to return from the sleep mode to the active mode can be obtained by (starting cycle−elapsed time until now).

  Further, when the setting value of the low power consumption mode is set to invalid, the wireless communication device 100 operates in an active state in which communication is always possible, and thus forcibly ends the operation illustrated in FIG. In addition, when the setting value of the low power consumption mode is set again valid, the wireless communication device 100 resumes the operation illustrated in FIG.

  Next, with reference to FIGS. 3 to 5, a description will be given of the processing of the controller 200 and the method for changing the setting values of power consumption control such as the activation time and activation cycle of the wireless communication apparatus 100.

  FIG. 3 shows an operation after the controller 200 is powered on.

  As shown in FIG. 3, first, the controller 200 (control unit 202) performs initial setting of the controller 200 after power-on (step S21).

  The controller 200 (control unit 202) receives the packet including the sensor value from the wireless communication device 100 via the wireless communication unit 201, and collects the sensor value (step S22). At this time, the control unit 202 may perform processing such as averaging on the collected sensor values.

  Subsequently, the controller 200 (control unit 202) determines whether or not sensor values are collected from the wireless communication device 100 for the second time or later (step S23). If sensor values are collected for the first time (step S23; No), the controller 200 (control unit 202) proceeds to step S25.

  On the other hand, if the sensor value is collected for the second time or later (step S23; Yes), the controller 200 (control unit 202) calculates the elapsed time from the previous notification and estimates the activation cycle of the wireless communication device 100. (Step S24). For example, as shown in FIG. 4, the reception time of the packet including the previous sensor value, that is, the sensor value packet S31 is 10:00 am, and the reception time of the latest sensor value packet S32 is 10:01:01. If it is seconds, the control unit 202 estimates the estimated value of the activation period as 1 minute 01 seconds. However, for the estimated value of the start cycle, the calculated time difference may be used as it is, or may be rounded down or rounded up within the expected error range. When rounding down, for example, if the time difference is 1 minute 01 seconds, the estimated value may be 1 minute.

  Returning to FIG. 3, subsequently, the controller 200 (the control unit 202) determines whether or not to change the activation time or activation cycle of the wireless communication device 100 (step S25). When not changing (step S25; No), the controller 200 (control part 202) returns to step S22. Thereafter, the controller 200 (control unit 202) repeats steps S22 → S23 → S24 → S25 until the activation time or activation cycle of the wireless communication device 100 is changed.

  When changing the activation time or activation cycle of the wireless communication device 100 (step S25; Yes), the controller 200 (control unit 202) disables the low power consumption mode in the wireless communication device 100 after receiving the sensor value packet S40. A setting request is transmitted (step S26). FIG. 5 shows a state where the low power consumption mode invalid setting request S50 transmitted in this way is transmitted from the controller 200 to the wireless communication apparatus 100. Note that the control unit 202 may transmit the invalid setting request 50 in the low power consumption mode after receiving the sensor value packet 40, or it is estimated that the wireless communication device 100 is activated from the estimated value of the activation period. It is also possible to transmit at a timing.

  The wireless communication apparatus 100 that has received the invalid setting request 50 for the low power consumption mode does not shift to the sleep mode and maintains the active mode until the setting value for the low power consumption mode is enabled. At this time, the wireless communication device 100 returns a low power consumption mode invalid setting response 51 to the controller 200. By receiving this response, step S26 shown in FIG. 3 ends.

  Subsequently, the controller 200 (control unit 202) sets a new activation time in the power consumption control unit 104 of the wireless communication device 100 by transmitting an activation time setting request to the wireless communication device 100 (step S27). FIG. 5 shows a state where the activation time setting request 52 is transmitted from the controller 200 to the wireless communication apparatus 100. The wireless communication apparatus 100 (power consumption control unit 104) that has received the activation time setting request 52 updates the activation time. At this time, the wireless communication device 100 (power consumption control unit 104) returns a startup time setting response 53 to the controller 200. By receiving this response, step S27 shown in FIG. 3 ends.

  Subsequently, the controller 200 (control unit 202) sets a new activation cycle by transmitting an activation cycle setting request to the wireless communication device 100 (step S28). FIG. 5 shows a state where the activation cycle setting request 54 is transmitted from the controller 200 to the wireless communication apparatus 100. The wireless communication apparatus 100 (power consumption control unit 104) that has received the activation cycle setting request 54 updates the activation cycle. At this time, the wireless communication device 100 (power consumption control unit 104) returns a start cycle setting response 55 to the controller 200. By receiving this response, step S28 shown in FIG. 3 ends.

  Subsequently, the controller 200 transmits a valid setting request for the low power consumption mode to the wireless communication device 100 (step S29). FIG. 5 shows a state in which an effective setting request 56 for the low power consumption mode is transmitted from the controller 200 to the wireless communication apparatus 100. The wireless communication apparatus 100 (power consumption control unit 104) that has received the low power consumption mode valid setting request 56 starts the intermittent operation again based on the newly set activation time and activation period. At this time, the wireless communication device 100 (power consumption control unit 104) returns a low power consumption mode valid setting response 57 to the controller 200. By receiving this response, step S29 shown in FIG. 3 ends.

  When step S29 ends, the controller 200 (control unit 202) returns to step S22. Thereafter, steps S22 to S29 are repeatedly executed.

  In this embodiment, the controller 200 changes both the startup time and the startup cycle, but only one of them may be changed.

  As described above in detail, according to this embodiment, the controller 200 (control unit 202) performs wireless communication based on the interval at which the detection value (sensor value) of the sensor 300 is transmitted from the wireless communication device 100. The period at which the device 100 is activated is estimated. Furthermore, the controller 200 transmits an invalid setting request for the low power consumption mode to the wireless communication device 100 at a timing at which the wireless communication device 100 is estimated to be in an active state according to the activation cycle.

  When receiving the invalid setting request for the low power consumption mode, the wireless communication device 100 maintains the active state. For this reason, after that, when the controller 200 transmits a request for setting the activation time and the activation cycle, the wireless communication apparatus 100 can quickly set the activation time and the activation cycle according to the setting request. That is, according to this embodiment, by controlling the intermittent operation of the wireless communication apparatus 100 from the controller 200, efficient and flexible operation is possible.

Embodiment 2. FIG.
Next, a second embodiment of the present invention will be described with reference to FIG.

  The configuration of the wireless network system 1 according to this embodiment is the same as the configuration of the first embodiment.

  The controller 200 according to the first embodiment changes the setting values of the start time and the start cycle after setting the low power consumption mode of the wireless communication device 100 to be invalid. The RSSI value between the wireless communication device 100 and the controller 200 is measured while the device 100 is continuously operating, that is, in the active state.

  FIG. 6 shows an example of the operation of the wireless network system 1 when measuring RSSI.

  As shown in FIG. 6, for example, after receiving the sensor value packet S40, the controller 200 (control unit 202) transmits a low power consumption mode invalid setting request S60 to the wireless communication device 100 (power consumption control unit 104), and wirelessly The communication device 100 is switched to continuous operation (active mode). The wireless communication device 100 (power consumption control unit 104) sets the low power consumption mode to be invalid, and shifts its own device to a continuous operation (active mode). In addition, the wireless communication device 100 (power consumption control unit 104) returns a low power consumption mode invalid setting response S61 to the controller 200.

  Subsequently, the controller 200 (control unit 202) transmits the RSSI measurement request 62 to the wireless communication device 100 (RSSI / PER measurement unit 103). The wireless communication apparatus 100 that has received the RSSI measurement request 62 measures the RSSI value when the packet of the RSSI measurement request 62 is received, and transmits the measurement result (RSSI value) to the controller 200 by the RSSI measurement response 63. The RSSI value may be measured by transmitting a measurement packet separately from the RSSI measurement request 62.

  The controller 200 that has received the RSSI measurement response 63 transmits a low power consumption mode valid setting request 64 to the wireless communication device 100 (power consumption unit 104), and switches the wireless communication device 100 to intermittent operation again.

  In addition, you may change starting time or a starting period simultaneously with RSSI measurement.

  As described in detail above, according to this embodiment, the RSSI value can be measured by utilizing the fact that the wireless communication device 100 is switched to the continuous operation. According to this embodiment, the RSSI value between the wireless communication device 100 and the controller 200 can be measured while the wireless communication device 100 and the controller 200 are installed during maintenance of the wireless network system 1. As a result, maintenance of the wireless network system 1 is facilitated.

Embodiment 3 FIG.
Next, a third embodiment of the present invention will be described with reference to FIG.

  The configuration of radio network system 1 according to this embodiment is the same as that of the first and second embodiments.

  In this embodiment, the controller 200 measures the PER value between the wireless communication device 100 and the controller 200 while the wireless communication device 100 is continuously operating, that is, in the active state.

  FIG. 7 shows an example of the operation of the wireless network system 1 when measuring the PER value.

  As shown in FIG. 7, for example, after receiving the sensor value packet S40, the controller 200 (control unit 202) transmits a low power consumption mode invalid setting request S70 to the wireless communication device 100 (power consumption control unit 104), and wirelessly The communication device 100 is switched to continuous operation (active mode). The wireless communication device 100 (power consumption control unit 104) switches its own device to a continuous operation (active mode). Also, the wireless communication device 100 (power consumption control unit 104) returns a low power consumption mode invalid setting response S71 to the controller 200.

  Thereafter, the controller 200 (control unit 202) transmits a PER measurement request 72 to the wireless communication device 100 (RSSI / PER measurement unit 103). The PER measurement request 72 includes, for example, the number of measurement packet transmissions. The wireless communication apparatus 100 that has received the PER measurement request 72 prepares for PER measurement. In preparation for PER measurement, for example, the number of times of reception of a measurement packet is reset. After completing the preparation for PER measurement, the wireless communication device 100 (RSSI / PER measurement unit 103) returns a PER measurement response 73 to the controller 200.

  The controller 200 (control unit 202) transmits measurement packets S74 to S75 to the wireless communication device 100 a predetermined number of times. This number of times is, for example, the number of packets transmitted to the wireless communication device 100 in accordance with the PER measurement request 72, and can be 1000 times, for example. The wireless communication device 100 adds the number of receptions of the measurement packet.

  After transmitting the measurement packets 74 to 75 a predetermined number of times, the controller 200 (control unit 202) transmits a PER measurement result request 76 to the wireless communication apparatus 100 to the wireless communication apparatus 100 (RSSI / PER measurement unit 103). The wireless communication apparatus 100 that has received the PER measurement result request 76 calculates the PER value from the number of receptions of the measurement packets 74 to 75 and the number of transmissions of the measurement packet transmitted in response to the PER measurement request 72, and calculates the calculation result. A PER measurement result response 77 is returned to the controller 100 (control unit 202).

Here, if the number of receptions is R and the number of transmissions is T, the PER value (PER) (%) is expressed by the following equation.
PER (%) = (R / T) × 100 (1)

  The controller 200 (control unit 202) that has received the PER measurement result response 77 transmits a low power consumption mode valid setting request 78 to the wireless communication device 100 (power consumption control unit 104). The wireless communication device 100 (power consumption control unit 104) returns to the low power consumption mode valid setting response 79 after switching to the intermittent operation again in accordance with this request.

  At the same time as the measurement of the PER value, the activation time or activation cycle may be changed, the RSSI value may be measured.

  As described above in detail, according to this embodiment, it is possible to perform PER measurement using the fact that the wireless communication device 100 switches to continuous operation. The PER measurement according to this embodiment can measure the PER value between the wireless communication apparatus 100 and the controller 200 while the wireless communication apparatus 100 and the controller 200 are installed during maintenance of the wireless network system 1. As a result, maintenance of the wireless network system 1 is facilitated.

  In the first embodiment, when the elapsed time after returning from the sleep mode to the active mode exceeds the set value of the activation time, the wireless communication device 100 transitions to the sleep mode again. However, if the application unit 102 is operating when the elapsed time exceeds the setting of the activation time, the operation of the application unit 102 is prioritized, and after the operation of the application unit 102 ends, the wireless communication device 100 May be shifted to the sleep mode.

  Further, the application unit 102 may output an application end notification to the power consumption control unit 104 after the operation ends. In this case, the power consumption control unit 104 receives a notification of termination of the application unit 102, and when the elapsed time after returning from the sleep mode to the active mode exceeds the set value of the startup time, the wireless communication device 100 may be shifted to the sleep mode. That is, the power consumption control unit 104 causes the wireless communication device 100 to transition to the sleep mode after waiting until the start time if the elapsed time when the processing end notification is input from the application unit 102 is within the start time, If the elapsed time exceeds the activation time, the wireless communication apparatus 100 may immediately shift to the sleep mode.

  In this way, the operation of the application unit 102 can be reliably completed. In addition, the application unit 102 does not need to be aware of the setting values of the processing time and activation time of the application unit 102 itself.

  In each of the above embodiments, the application process executed by the application unit 102 is acquisition and transmission of the detection value of the sensor 300, but the present invention is not limited to this. For example, the application unit 102 may execute, for example, acquisition and transmission of maintenance information (execution log data, operation parameters, etc.) of the electrical device as application processing.

  In the above embodiment, the program to be executed is a computer-readable recording medium such as a flexible disk, a CD-ROM (Compact Disc Read-Only Memory), a DVD (Digital Versatile Disc), and an MO (Magneto-Optical Disc). A system that executes the above-described thread may be configured by storing and distributing the program in a medium and installing the program.

  Further, the program may be stored in a disk device or the like of a predetermined server device on a communication network such as the Internet, and may be downloaded, for example, superimposed on a carrier wave.

  In addition, when the above functions are realized by sharing an OS (Operating System), or when the functions are realized by cooperation between the OS and an application, only the part other than the OS may be stored in a medium and distributed. You may also download it.

  Various embodiments and modifications can be made to the present invention without departing from the broad spirit and scope of the present invention. The above-described embodiments are for explaining the present invention and do not limit the scope of the present invention. In other words, the scope of the present invention is shown not by the embodiments but by the claims. Various modifications within the scope of the claims and within the scope of the equivalent invention are considered to be within the scope of the present invention.

  The present invention is suitable for use in a sensor network in which a plurality of sensors are connected.

DESCRIPTION OF SYMBOLS 1 Wireless network system 100 Wireless communication apparatus 101 Wireless communication part 102 Application part 103 RSSI / PER measurement part 104 Power consumption control part 105 Packet distribution part 200 Controller 201 Wireless communication part 202 Control part 300 Sensor

Claims (9)

A wireless network system comprising at least one wireless communication device that performs periodic notification and a controller that receives the periodic notification from the wireless communication device by wireless communication,
The wireless communication device
When the setting of the low power consumption mode can be changed in response to an external setting request, and the setting of the low power consumption mode is set to invalid, the operation is performed in the active state, and the setting of the low power consumption mode is performed. Is set to valid, it operates based on a start cycle and start time that can be changed in response to a setting request from the outside , and transitions from the sleep state to the active state in the cycle set as the start cycle. after, transmitting the periodic notification to the controller, and go to sleep after a time set as the starting time has elapsed,
The controller is
The wireless communication device the wireless communication device estimates the cycle to start based on the plurality of the periodic notice transmit interval for transmitting the active state the wireless communication device based on the estimated period The low power consumption mode is transmitted to the wireless communication apparatus at a timing estimated to be invalid, and the predetermined processing execution request is transmitted to the wireless communication apparatus. A wireless network system for transmitting a valid setting request to the wireless communication device. The controller is
When changing at least one of the start cycle and the start time, the low power consumption mode invalidity setting request is transmitted to the wireless communication device, and then the start cycle and the predetermined processing execution request are transmitted. After transmitting the setting request of at least one of the activation times to the wireless communication device, the effective setting request of the low power consumption mode is transmitted to the wireless communication device,
The wireless communication device
According to the setting request of at least one of the activation cycle and the activation time, as the predetermined processing, set at least one of the activation cycle and the activation time,
The wireless network system according to claim 1. The wireless communication device
An RSSI measurement unit for measuring the received signal strength from the controller;
The controller is
When measuring the received signal strength in the wireless communication device, an invalid setting request for the low power consumption mode is transmitted to the wireless communication device, and then an RSSI value measurement request is issued as an execution request for the predetermined processing. After transmitting to the wireless communication device and obtaining the measured RSSI value, the effective setting request for the low power consumption mode is transmitted to the wireless communication device,
In the wireless communication device,
In response to the RSSI value measurement request, the RSSI measurement unit measures the RSSI value as the predetermined processing, and returns the measured RSSI value to the controller.
The wireless network system according to claim 1. The wireless communication device
A PER measurement unit that measures an error rate of a packet with the wireless communication device based on the number of receptions of the measurement packet transmitted from the controller a predetermined number of times,
The controller is
When measuring an error rate of a packet transferred from the wireless communication device, after sending an invalid setting request for the low power consumption mode to the wireless communication device, an error rate as an execution request of the predetermined process After transmitting a measurement request to the wireless communication device, transmitting a measurement packet a predetermined number of times, transmitting an error rate measurement result acquisition request to the wireless communication device, and acquiring an error rate measurement result, the low consumption Sending a power mode valid setting request to the wireless communication device,
The wireless communication device
In response to the measurement request, as the predetermined process, an error rate is measured based on the number of receptions of the measurement packet, and a measurement result is returned to the controller.
The wireless network system according to claim 1. The wireless communication device
An application unit for executing application processing is further provided.
Even if the setting request for enabling the low power consumption mode is received from the controller, the active state is maintained during the operation of the application unit.
The wireless network system according to claim 1, wherein the wireless network system is a wireless network system. The wireless communication device
A power consumption control unit that switches between an active state and a sleep state is further provided,
The power consumption control unit
Input the application process end notification from the application unit, and on the condition that the time set as the start-up time has been exceeded, to shift the device to the sleep state,
The wireless network system according to claim 5. The application part is
As the application process, a process for acquiring a detection value of a sensor and transmitting it to the controller is performed.
7. The wireless network system according to claim 5 or 6, wherein: A control method for a wireless network system, comprising: at least one wireless communication device that performs periodic notification; and a controller that receives the periodic notification from the wireless communication device by wireless communication,
In the wireless communication device, the step of changing the setting of the low power consumption mode according to a setting request from the outside,
When the low power consumption mode is set to invalid in the wireless communication device, operating the wireless communication device in an active state capable of communication; and
When the low power consumption mode is set to be effective in the wireless communication device, the wireless communication device is operated based on a start cycle and start time that can be changed according to a setting request from the outside, and is set as the start cycle in the period, the after the wireless communication device to shift from the sleep state to the active state, the periodic notification is transmitted from the wireless communication device to the controller, the radio after a lapse of a time set as the start time Transitioning the communication device to a sleep state;
In the controller, a step of the wireless communication device is the wireless communication apparatus for estimating a cycle to start based on the plurality of the periodic notice transmit interval to be transmitted,
In the controller, at a timing when the wireless communication device is estimated to be in an active state based on the estimated period, a step of transmitting an invalid setting request for the low power consumption mode to the wireless communication device;
Transmitting an execution request for a predetermined process from the controller to the wireless communication device;
Transmitting a valid setting request for the low power consumption mode from the controller to the wireless communication device;
Control method. A program for controlling a computer that controls at least one wireless communication device that performs periodic notification and a computer that controls a controller that collects the periodic notification from the wireless communication device by wireless communication,
A computer for controlling the wireless communication device;
A procedure for changing the low power consumption mode setting in response to an external setting request;
If the low power consumption mode is disabled, the procedure to operate in the active state that can communicate,
When the low power consumption mode is set to be effective, it is operated based on a start cycle and start time that can be changed according to a setting request from the outside , and the sleep state is set at the cycle set as the start cycle. the procedure shifts to a sleep state after after transitioning to the active state, transmits the periodic notification to the controller, the time set as the start time has passed since,
And execute
A computer for controlling the controller;
A step of said plurality of times of on the basis of the periodic notification of transmit interval wireless communication apparatus for estimating a cycle of start of the wireless communication device transmits,
A procedure of transmitting an invalid setting request for the low power consumption mode to the wireless communication device at a timing at which the wireless communication device is estimated to be in an active state based on the estimated period;
A procedure for transmitting an execution request for predetermined processing to the wireless communication device;
A procedure for transmitting an effective setting request for the low power consumption mode to the wireless communication device;
A program that executes

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