JP6723073B2 - Wireless telemeter system and radio - Google Patents

Description

The present invention relates to a wireless telemeter system and a wireless device.

Conventionally, in a wireless telemeter system developed for meter reading of gas, water, etc., a PHS (Personal Handyphone System) network and a FOMA (Freedom Of Mobile multimedia Access) network are provided in a center side device equipped with a host computer and a center network control device. A wireless master device is connected via a wide area wireless network such as. A plurality of wireless slave devices are connected to the wireless master device, and a meter for meter reading is connected to each of the wireless slave devices. Data such as the meter reading value obtained from the meter is transmitted from the wireless slave unit to the wireless master unit, and further transmitted from the wireless master unit to the center side device.

In such a wireless telemeter system, when a wireless slave device is newly installed, mutual authentication (a framing) is performed between the newly installed wireless slave device and the wireless master device to mutually authenticate the communication partner.

In the current installation work, the radio wave intensity at the installation site is measured using a portable radio wave measurement device, and the installation site and installation direction of the wireless slave device are determined.

JP, 2009-10799, A

However, the conventional method of determining the place and orientation of the wireless slave device using the portable radio wave measuring device is often influenced by the experience of the worker who performs the installation work. Moreover, since the wireless slave device to be installed and the radio wave measuring device have different reception characteristics, it is not always possible to determine an appropriate installation place. As a result, there is a problem that a communication error may occur during the actual operation after the connection even if the installation location is determined by using the radio wave measuring device.

The present invention has been made in view of such circumstances, and a wireless telemeter system and a wireless device capable of defining an installation location without depending on the skill of an installation operator and suppressing communication errors after operation. The purpose is to provide.

A wireless telemeter system of the present application includes a master unit communicatively connected to an external communication device, a connection unit that connects a meter, and a slave unit wirelessly connected to the master unit, the master unit and the slave unit. In the wireless telemeter system that performs mutual authentication for authenticating a communication partner with each other and permits the wireless communication between the master unit and the slave unit when the mutual authentication is successful, the master unit Includes a reception unit that receives a mutual authentication start instruction to authenticate a newly wirelessly connected child device, and a transmission unit that transmits a radio wave when the start instruction is received, and the child device is the parent device. A reception unit that receives a mutual authentication start instruction to authenticate the machine, and when the start instruction is received, the radio wave transmitted from the transmission unit is received in a reception period that starts after a lapse of a predetermined time. A receiving unit, a measuring unit that measures a radio wave intensity each time a radio wave is received by the receiving unit, and, when the reception period has elapsed, based on the radio wave intensity of each radio wave measured by the measuring unit, the master unit And a notification unit for notifying the judgment result of the judgment unit.

The wireless device of the present application performs mutual authentication with another wireless device to mutually authenticate a communication partner, and if the mutual authentication is successful, a wireless device permitted to perform wireless communication with the other wireless device. In the above, in the receiving unit that receives a mutual authentication start instruction to authenticate the other wireless device, and when the start instruction is received, the other wireless device is received in a reception period that starts after a predetermined time has elapsed. A receiver that receives the radio waves transmitted from the transmitter of the machine , a measurement unit that measures the radio field intensity each time the receiver receives the radio waves, and a measurement unit that measures the reception period when the reception period has elapsed. It is characterized in that it is provided with a judging unit for judging whether or not mutual authentication with the other radio device can be executed based on the strength of each radio wave, and a notifying unit for notifying the judgment result of the judging unit.

According to the present application, it is possible to determine the installation location regardless of the skill of the installation operator, and to suppress communication errors after operation.

It is a block diagram which shows the whole wireless telemetry system structure. FIG. 3 is a block diagram showing an internal configuration of a wireless master device according to the first embodiment. FIG. 3 is a block diagram showing an internal configuration of the wireless slave device according to the first embodiment. 6 is a flowchart illustrating an edge forming operation according to the first embodiment. 9 is a flowchart illustrating an framing operation in the second embodiment. 9 is a flowchart illustrating an framing operation in the third embodiment.

Hereinafter, the present invention will be specifically described based on the drawings showing the embodiments.
(Embodiment 1)
FIG. 1 is a block diagram showing the overall configuration of a wireless telemeter system. The wireless telemeter system according to the present embodiment includes a host computer 11 and a center-side network control device 12 as a center side configuration, and a wireless master device 21, wireless slave devices 22, 22,..., As a terminal side configuration. 22 and meters 23, 23,..., 23. The meter 23 is a measuring device that is installed, for example, in each consumer such as a private house, measures the amount of gas, water, electricity, etc. used and outputs the measurement result (meter reading value).

In the wireless telemeter system, various data output from the terminal side, such as meter reading data output from the meter 23 and data indicating the operating states of the wireless master device 21 and the wireless slave device 22, are sent to the center side using communication. At the same time as transmitting, various data including control commands for controlling the operations of the wireless master device 21 and the wireless slave device 22 are transmitted from the center side to the terminal side.

The center-side network control device 12 and the wireless master device 21 on the terminal side are connected to a wide area wireless network N1 such as a PHS network or a FOMA network, and perform wireless communication via the wide area wireless network N1. In the example shown in FIG. 1, the number of the wireless master devices 21 connected to the wide area wireless network N1 is one, but a configuration including a plurality of wireless master devices 21 may be used. Further, although the wireless master device 21 and the center side network control device 12 are connected to the wide area wireless network N1 in the present embodiment, they may be connected by a wired communication network.

The center side network control device 12 has a function of controlling communication with the terminal side via the wide area wireless network N1. When the data to be transmitted to the terminal side is input from the host computer 11, the center-side network control device 12 transmits the data to the terminal side by the communication method conforming to the communication standard of the wide area wireless network N1. Further, the center side network control device 12 is configured to transmit the received data to the host computer 11 when receiving the data transmitted from the terminal side via the wide area wireless network N1.

The wireless master device 21 and the wireless slave devices 22, 22,..., 22 form a short-range wireless network N2. The wireless master device 21 is wirelessly authenticated as a communication partner (hereinafter, also referred to as “framing”) with each wireless slave device 22, 22,..., 22 and a communication method (for example, a specific small Wireless communication is performed by the electric power wireless system). In the example shown in FIG. 1, each wireless slave device 22 is configured to be directly connected to the wireless master device 21 via the short-range wireless network N2, but the wireless master device 21 is connected via the relay wireless device. May be connected to the.

When the wireless slave device 22 acquires the meter reading value from the meter 23 connected to the wireless slave device 22, the wireless slave device 22 transmits the data of the meter reading value to the wireless master device 21. In addition, when the wireless master device 21 receives the data of the meter reading value transmitted from the wireless slave device 22, or when an event to be notified to the host computer 11 occurs in its own device, the wireless master device 21 transmits via the wide area wireless network N1. Wirelessly communicates with the host computer 11.

FIG. 2 is a block diagram showing an internal configuration of the wireless master device 21 according to the first embodiment. The wireless master device 21 includes a control unit 210, a storage unit 211, a wide area wireless communication unit 212, a narrow area wireless communication unit 213, a display unit 214, an operation unit 215, and the like. Each hardware unit included in the wireless master device 21 is configured to operate by electric power supplied from a battery or a commercial power source (not shown).

The control unit 210 includes, for example, a CPU (Central Processing Unit), a ROM (Read Only memory), and the like, and the CPU executes a control program stored in the ROM in advance, so that the entire device operates as a master unit according to the present invention. Other radios). Further, the control unit 210 may be provided with functions such as a timer that measures an elapsed time from when a measurement start instruction is given until a measurement end instruction is given, a counter that counts the number, and the like.

The storage unit 211 is composed of, for example, a nonvolatile memory such as an EPROM (Erasable Programmable Read Only Memory), and stores setting information regarding the operation of the own device, an identifier of the wireless slave device 22 that is associated with the own device, and the like. ..

The wide area wireless communication unit 212 performs wireless communication via the wide area wireless network N1 by transmitting or receiving radio waves through the antenna 212a. For example, when the wireless master device 21 receives the data of the meter reading value transmitted from the wireless slave device 22 in the narrow range wireless communication unit 213, when an event to be notified to the center side such as a decrease in battery voltage occurs. In such a case, the control unit 210 generates a signal conforming to the communication standard of the wide area wireless network N1 and drives the antenna 212a of the wide area wireless communication unit 212 to emit a radio wave, thereby performing a process of transmitting the signal.

Further, when the wide area wireless communication unit 212 receives a radio wave from the antenna 212a, the wide area wireless communication unit 212 acquires a signal conforming to the communication standard of the wide area wireless network N1 by decoding the received radio wave. The wide area wireless communication unit 212 outputs the signal obtained by decoding to the control unit 210. When the signal output from the wide area wireless communication unit 212 is acquired, the control unit 210 performs various controls based on the signal.

The short-range wireless communication unit 213 performs wireless communication with the associated wireless slave devices 22, 22,..., 22 by transmitting or receiving radio waves through the antenna 213a. As the wireless communication between the wireless master device 21 and the wireless slave device 22, for example, a specific low power wireless communication can be used.

The display unit 214 includes an LED lamp (LED: Light Emitting Diode), a liquid crystal display panel, and the like, and is information to be notified to a worker or the like who performs maintenance work based on a control signal output from the control unit 210. Is displayed.

The operation unit 215 includes various switches such as a DIP switch and buttons, and receives various setting operations by, for example, an operator who performs maintenance work. The control unit 210 performs various controls based on the setting content input from the operation unit 215, and stores the setting content in the storage unit 211 as necessary.

In the present embodiment, the wireless master device 21 has been described as having an NCU (Network Control Unit) function, but a network control device having an NCU function is prepared as an individual device and the wireless master device 21 It may be configured to be connected to the network control device. In this case, the wireless master device 21 may be configured to include a connection interface for connecting the network control device and to communicate with the center side via the network control device connected to the connection interface.

In addition, the wireless master device 21 may include a connection unit for connecting a meter 23 that measures the usage amount of gas, water, electricity or the like. In this case, the wireless master device 21 can acquire the meter reading value from the meter 23 connected to the connection unit and transmit the acquired meter reading value to the center side.

FIG. 3 is a block diagram showing an internal configuration of the wireless slave device 22 according to the first embodiment. The wireless slave device 22 includes a control unit 220, a storage unit 221, a short-range wireless communication unit 222, a meter IF 223, a display unit 224, an operation unit 225, and the like. Each hardware unit included in the wireless slave device 22 is configured to operate by electric power supplied from a battery (not shown).

The control unit 220 includes, for example, a CPU, a ROM, and the like, and causes the entire device to function as a slave device (radio device) according to the present invention by the CPU executing a control program stored in the ROM in advance. Further, the control unit 220 may be provided with functions such as a timer that measures an elapsed time from when a measurement start instruction is given to when a measurement end instruction is given, a counter that counts the number, and the like.

The storage unit 221 is composed of, for example, a non-volatile memory such as an EPROM, and stores setting information regarding the operation of the own device, an identifier of the related wireless master device 21, and the like.

The short-range wireless communication unit 222 performs wireless communication with the related wireless master device 21 by transmitting or receiving a radio wave through the antenna 222a by a communication method conforming to the communication standard of the narrow-range wireless network N2. .. As the wireless communication between the wireless slave device 22 and the wireless master device 21, for example, a specific low power wireless communication can be used.

The meter IF 223 is an interface for connecting the meter 23 that measures the usage amount of gas, water, electricity, and the like. When the meter IF 223 acquires the meter reading value from the connected meter 23, the meter IF 223 sends a signal indicating the meter reading value to the control unit 220.

The display unit 224 includes an LED lamp, a liquid crystal display panel, and the like, and displays information to be notified to a worker or the like who performs maintenance work based on a control signal output from the control unit 220.

The operation unit 225 includes various switches such as a DIP switch and buttons, and receives various setting operations by, for example, an operator who performs maintenance work. The control unit 220 performs various controls based on the setting content input from the operation unit 225, and stores the setting content in the storage unit 221 as necessary.

Hereinafter, the framing operation when newly installing the wireless slave device 22 in the short-range wireless network N2 will be described.
FIG. 4 is a flow chart for explaining the framing operation in the first embodiment. When installing the wireless slave device 22 at a new installation location, the worker who performs the installation work starts the framing for both the newly installed wireless slave device 22 (hereinafter referred to as a newly installed terminal) and the wireless master device 21. Give instructions.

The newly installed terminal can receive an edge start instruction through the operation unit 225, for example. When the operation start-up instruction is received by the operation unit 225 (step S101), the control unit 220 of the newly installed terminal shifts to a reception waiting state of waiting for a radio wave for intensity measurement intermittently transmitted from the wireless master device 21. (Step S102).

The wireless master device 21 can accept an edge start instruction through the operation unit 225 or the short-range wireless communication unit 213, for example. When the control unit 210 of the wireless master device 21 receives the start-of-frame instruction (step S103), the short-range wireless communication unit 213 intermittently transmits a radio wave for intensity measurement (step S104). When the wireless master device 21 is instructed to start the framing by wireless communication, a wireless setting device (not shown) that is preliminarily connected to the wireless master device 21 can be used. That is, by transmitting an edge start instruction to the wireless base unit 21 from the wireless setting device operated by the worker, the edge start instruction can be given to the wireless base unit 21.
Although the intensity measurement radio wave is transmitted intermittently here, the wireless master device 21 may be configured to continue transmitting the intensity measurement radio wave during the measurement period. In this case, since the newly installed terminal does not need to know the timing of measuring the intensity, it can intermittently perform the receiving operation for the measurement.

The short-range wireless communication unit 222 of the newly installed terminal is intermittently transmitted from the wireless master device 21 until a preset reception period (for example, 1 minute after shifting to the reception waiting state) elapses. The radio field intensity is measured every time the received radio wave is received (step S105).

When the reception period has elapsed, the control unit 220 of the newly installed terminal determines, based on the radio field intensity measured by the short-range wireless communication unit 222, whether or not the connection with the wireless master device 21 can be executed (step S106). Here, the control unit 220 can determine whether or not the frame can be executed by statistically analyzing the data group of the measured radio field intensity. For example, the control unit 220 determines that the framing can be executed when the radio field intensity that is equal to or higher than the threshold value is 90% or more of the radio field intensity obtained during the reception period, and the radio wave obtained during the reception period is determined. If the radio wave intensity that is equal to or higher than the threshold value among the intensities is less than 90%, it is determined that the frame cannot be executed. Further, the control unit 220 may determine the feasibility of execution of the frame by obtaining the minimum value, the average value, and the maximum value of the radio field intensity obtained during the reception period and comparing them with the threshold values set for each. ..

Next, the control unit 220 of the newly installed terminal notifies the determination result of the execution possibility (step S107). The determination result of the execution propriety is notified by the control unit 220 controlling the lighting of the LED lamp included in the display unit 224, for example. In addition, when the newly installed terminal is provided with a voice output unit, the determination result of the feasibility may be notified by voice.

When the control unit 220 of the newly installed terminal determines that the execution of the connection with the wireless base device 21 is possible, the control unit 220 transmits an execution start instruction of the connection to the wireless base device 21 (step S108). In addition, when it is determined that the execution of the connection with the wireless master device 21 is not permitted, the connection is stopped without transmitting the execution start instruction to the wireless master device 21.

When receiving the execution start instruction of the edge transmitted from the newly installed terminal in the short range wireless communication unit 213, the wireless master device 21 shifts to an edge standby state in which it waits for an edge request transmitted from the newly installed terminal (step). S109).

The newly installed terminal sends an execution start instruction of the framing to the wireless master device 21, and then sends a framing request including the identifier of the own terminal to the wireless master device 21 (step S110). The identifier of the newly installed terminal may be a unique ID such as a manufacturing number that is previously assigned to the newly installed terminal, or an ID that is assigned to identify each device in the short-range wireless network N2. .. Further, when the identifiers of the wireless master device 21 and the wireless slave device 22 installed in the short-range wireless network N2 are partly common, the shortened ID excluding the common part may be used as the identifier.

When receiving the edge request transmitted from the newly installed terminal, the wireless master device 21 extracts the identifier of the newly installed terminal included in the received edge request, and uses the extracted identifier as the identifier of the authenticated communication partner. It registers in 211 (step S111). In addition, the wireless master device 21 returns an edge response including the identifier of the wireless master device to the newly installed terminal (step S112). The identifier of the wireless master device 21 may be a unique ID such as a manufacturing number that is assigned in advance to the wireless master device 21, or an ID that is assigned to identify each device in the narrow-range wireless network N2. Good. Further, when the identifiers of the wireless master device 21 and the wireless slave device 22 installed in the short-range wireless network N2 are partly common, the shortened ID excluding the common part may be used as the identifier.

When the newly installed terminal receives the edge response transmitted from the wireless parent 21, the newly installed terminal extracts the identifier of the wireless parent 21 included in the received edge response and stores the extracted identifier as the identifier of the authenticated communication partner. It is registered in the section 221 (step S113).

By the above-described framing operation, mutual authentication can be performed between the newly installed terminal and the wireless master device 21. When the mutual authentication is successful and the newly installed terminal and the wireless master device 21 register their respective identifiers, wireless communication between the newly installed terminal and the wireless master device 21 is permitted. When the wireless communication is permitted, the newly installed terminal functions as one of the wireless slave devices 22 in the short-range wireless network N2, and, for example, when the meter reading value from the meter 23 connected to the own device is acquired, It is possible to transmit the data including the read meter reading value to the center side via the wireless master device 21.

As described above, in the first embodiment, the radio wave intensity of the received radio wave is received until the reception period elapses, when the radio wave is intermittently transmitted from the communication partner (radio base unit 21) during the framing operation. Based on the above, it is determined whether or not the connection can be executed. When it is determined that the radio field intensity is insufficient during the reception period, the newly installed terminal can stop the execution of the connection, and thus it is possible to avoid a situation in which communication errors frequently occur during operation after the connection. Further, it is possible to reduce the variation in work quality due to the skill of the worker who installs the newly installed terminal.

Note that in the flowchart shown in FIG. 4, when the newly installed terminal receives an edge start instruction, it shifts to a reception waiting state in which it waits for the radio wave for measuring the radio field intensity transmitted intermittently from the wireless master device 21. However, when the frame start instruction is received, the built-in timer of the control unit 220 may be activated to shift to the reception waiting state after a predetermined time (for example, 5 seconds) has elapsed. Since the worker can leave the installation location of the newly installed terminal before a predetermined time has elapsed, it is possible to measure the radio field intensity under the same environment as during operation.

Further, in the present embodiment, the configuration is such that the control unit 220 of the newly installed terminal determines whether or not the frame can be executed, but the suitability degree of the installation location may be determined and the determination result may be notified via the display unit 224. .. For example, the control unit 220 determines that the suitability degree of the installation location is “excellent” when the radio field intensity that is equal to or higher than the threshold value is 95% or more among the radio field intensity obtained during the reception period, and displays that effect. This is displayed in the section 224. Similarly, among the radio field intensities obtained during the reception period, the radio field intensities that are equal to or greater than the threshold are, for example, 90% or more and less than 95%, 70% or more and less than 90%, or less than 70%, The control unit 220 determines the suitability degrees to be “good”, “good”, and “impossible”, and displays the fact on the display unit 224. By displaying the determination result of such aptitude, it is possible to know to what extent the radio field intensity is insufficient. Therefore, if the aptitude of the installation location is judged to be “OK” or “No”, the new reception terminal It is possible to encourage the change of the installation location and the direction to install. When the suitability degree of the installation place is determined to be “excellent” or “good”, the control unit 220 continues the framing operation.

(Embodiment 2)
In the first embodiment, when the wireless master device 21 receives the edge start instruction, the intensity measurement radio wave is transmitted intermittently. However, the intensity measurement radio wave is transmitted by the measurement start instruction from the newly installed terminal. It may be configured to start transmission.
In the second embodiment, a configuration will be described in which transmission of a radio wave for intensity measurement is started in response to a measurement start instruction from a newly installed terminal.
Since the overall configuration of the wireless telemeter system and the internal configurations of the wireless master device 21 and the wireless slave device 22 are the same as those in the first embodiment, the description thereof will be omitted.

FIG. 5 is a flow chart for explaining the framing operation in the second embodiment. When the wireless slave device 22 is installed at a new installation location, the worker who performs the installation work gives an edge start instruction to both the newly installed wireless slave device 22 (newly installed terminal) and the wireless master device 21. ..

The wireless master device 21 can accept an edge start instruction through the operation unit 215 or the short-range wireless communication unit 213, for example. When the control unit 210 of the wireless master device 21 receives the frame start instruction (step S201), the control unit 210 shifts to a reception standby state waiting for the measurement start instruction transmitted from the newly installed terminal (step S202).

On the other hand, the newly installed terminal can accept an edge start instruction through the operation unit 225, for example. When the operation unit 225 receives the frame start instruction (step S203), the control unit 220 of the newly installed terminal transmits the measurement start instruction from the short range wireless communication unit 222 (step S204). The measurement start instruction transmitted from the newly installed terminal is received by the wireless master device 21 that has transitioned to a reception waiting state in which it has received the edge start instruction and waits for the measurement start instruction.

When receiving the measurement start instruction transmitted from the newly installed terminal in the reception waiting state, the wireless main unit 21 intermittently transmits the radio wave for intensity measurement from the short range wireless communication unit 213 (step S205). ..

The short-range wireless communication unit 222 of the newly installed terminal transmits intermittently from the wireless master device 21 until a preset reception period (for example, 1 minute after transmitting the measurement start instruction) elapses. Each time the radio wave is received, the radio wave intensity is measured (step S206).

When the reception period has elapsed, the control unit 220 of the newly installed terminal determines whether or not the connection with the wireless master device 21 can be executed based on the radio field intensity measured by the short-range wireless communication unit 222 (step S207). Here, the control unit 220 can determine whether or not the frame can be executed by statistically analyzing the data group of the measured radio field intensity. Specifically, the determination method similar to that of the first embodiment can be used.

Then, the control unit 220 of the newly installed terminal notifies the determination result of the execution possibility (step S208). The determination result of the feasibility of execution is notified by, for example, controlling the lighting of an LED lamp included in the display unit 224.

In addition, when the control unit 220 of the newly installed terminal determines that the execution of the connection with the wireless master device 21 is possible, the control unit 220 transmits an execution start instruction of the connection to the wireless master device 21 (step S209). In addition, when it is determined that the execution of the connection with the wireless master device 21 is not permitted, the connection is stopped without transmitting the execution start instruction to the wireless master device 21.

When receiving the execution start instruction of the edge transmitted from the newly installed terminal in the short range wireless communication unit 213, the wireless master device 21 shifts to an edge standby state in which it waits for an edge request transmitted from the newly installed terminal (step). S210).

The newly installed terminal, after transmitting the execution start instruction of the framing to the wireless master device 21, transmits a framing request including the identifier of the own terminal to the wireless master device 21 (step S211). The identifier of the newly installed terminal may be a unique ID such as a manufacturing number that is previously assigned to the newly installed terminal, or an ID that is assigned to identify each device in the short-range wireless network N2. .. Further, when the identifiers of the wireless master device 21 and the wireless slave device 22 installed in the short-range wireless network N2 are partly common, the shortened ID excluding the common part may be used as the identifier.

When receiving the edge request transmitted from the newly installed terminal, the wireless master device 21 extracts the identifier of the newly installed terminal included in the received edge request, and uses the extracted identifier as the identifier of the authenticated communication partner. It registers in 211 (step S212). Further, the wireless master device 21 returns an edge response including the identifier of the wireless master device to the newly installed terminal (step S213). The identifier of the wireless master device 21 may be a unique ID such as a manufacturing number that is assigned in advance to the wireless master device 21, or an ID that is assigned to identify each device in the narrow-range wireless network N2. Good. Further, when the identifiers of the wireless master device 21 and the wireless slave device 22 installed in the short-range wireless network N2 are partly common, the shortened ID excluding the common part may be used as the identifier.

When the newly installed terminal receives the edge response transmitted from the wireless parent 21, the newly installed terminal extracts the identifier of the wireless parent 21 included in the received edge response and stores the extracted identifier as the identifier of the authenticated communication partner. It is registered in the section 221 (step S214).

As described above, in the second embodiment, the radio wave for intensity measurement is transmitted only when the measurement start instruction is received from the newly installed terminal. Therefore, since the radio base unit 21 transmits the radio wave for intensity measurement when the newly installed terminal is ready for reception, it is not necessary to intermittently transmit the radio wave before the completion of the preparation for reception, and the radio base unit 21 does not need to be transmitted. It is possible to suppress power consumption in the.

In the second embodiment, since the wireless base unit 21 transmits a radio wave for intensity measurement in response to a measurement start instruction from the newly installed terminal, for example, the newly installed terminal is installed near the wireless base unit 21. Therefore, under a situation where the occurrence of communication errors due to the radio field intensity is considered to be small, the framing operation may be performed without measuring the radio field intensity. In this case, the newly installed terminal may transmit the execution start instruction of the framing instead of transmitting the measurement start instruction in step S<b>204 and perform the framing with the wireless master device 21.

(Embodiment 3)
In the first and second embodiments, the radio base station 21 intermittently transmits radio waves and measures the radio field intensity of the radio waves received by the newly installed terminal. Since the strength and the strength of the radio wave transmitted from the newly installed terminal do not necessarily match, the strength of the radio wave is measured by both the newly installed terminal and the wireless base unit 21, and the feasibility of the framing can be determined for each. Good.
In the third embodiment, a configuration in which the radio wave intensity is measured by both the newly installed terminal and the wireless master device 21 will be described.
Since the overall configuration of the wireless telemeter system and the internal configurations of the wireless master device 21 and the wireless slave device 22 are the same as those in the first embodiment, the description thereof will be omitted.

FIG. 6 is a flowchart for explaining the framing operation in the third embodiment. When the wireless slave device 22 is installed at a new installation location, the worker who performs the installation work gives an edge start instruction to both the newly installed wireless slave device 22 (newly installed terminal) and the wireless master device 21. ..

The wireless master device 21 can accept an edge start instruction through the operation unit 215 or the short-range wireless communication unit 213, for example. When the control unit 210 of the wireless master device 21 receives the frame start instruction (step S301), the control unit 210 shifts to a reception waiting state for waiting the transmission start instruction transmitted from the newly installed terminal (step S302).

The newly installed terminal can receive an edge start instruction through the operation unit 225, for example. When the operation unit 225 receives the frame start instruction (step S303), the control unit 220 of the newly installed terminal transmits the measurement start instruction from the short range wireless communication unit 222 (step S304). The measurement start instruction transmitted from the newly installed terminal is received by the wireless master device 21 that has transitioned to a reception waiting state in which it has received the edge start instruction and waits for the measurement start instruction.

When receiving the measurement start instruction transmitted from the newly installed terminal in the waiting state for reception, the wireless master device 21 intermittently transmits the radio wave for intensity measurement from the short range wireless communication unit 213 (step S305). .. After the transmission of the intensity measurement radio wave is completed, the control unit 210 of the wireless master device 21 shifts to the reception waiting state of waiting for the backward measurement start instruction.

The short-range wireless communication unit 222 of the newly installed terminal transmits intermittently from the wireless master device 21 until a preset reception period (for example, 1 minute after transmitting the measurement start instruction) elapses. Each time the radio wave is received, the radio wave intensity is measured (step S306).

When the reception period has elapsed, the control unit 220 of the newly installed terminal determines whether or not the connection with the wireless master device 21 can be executed based on the radio field intensity measured by the short-range wireless communication unit 222 (step S307). Here, the control unit 220 can determine whether or not the frame can be executed by statistically analyzing the data group of the measured radio field intensity. Specifically, the determination method similar to that of the first embodiment can be used.

Next, the control unit 220 of the newly installed terminal transmits a backward measurement start instruction from the short range wireless communication unit 222 (step S308). The backward measurement start instruction transmitted from the newly installed terminal is received by the wireless master device 21 that has transitioned to the reception waiting state for waiting for the backward measurement start instruction after the transmission of the intensity measurement radio wave is completed.

Next, the newly installed terminal intermittently transmits a radio wave for intensity measurement from the short-range wireless communication unit 222 (step S309). After the transmission of the intensity measuring radio wave is completed, the control unit 220 of the newly installed terminal shifts to a reception waiting state of waiting for the determination result of the wireless master device 21.

The short-range wireless communication unit 213 of the wireless master device 21 transmits intermittently from the newly installed terminal until a preset reception period (for example, 1 minute after receiving the backward measurement start instruction) elapses. Each time the received radio wave is received, the radio wave intensity is measured (step S310).

When the reception period has elapsed, the control unit 210 of the wireless master device 21 determines whether or not the connection with the newly installed terminal can be performed based on the radio field intensity measured by the short-range wireless communication unit 213 (step S311). Here, the control unit 210 can determine whether or not the frame can be executed by statistically analyzing the data group of the measured radio field intensity. Specifically, the determination method similar to that of the first embodiment can be used.

Next, the control unit 210 of the wireless master device 21 transmits the determination result of the feasibility of execution from the short-range wireless communication unit 213 (step S312). The determination result transmitted from the wireless master device 21 is received by the newly installed terminal that has shifted to the reception waiting state after the transmission of the intensity measuring radio wave is completed.

After receiving the determination result transmitted from the wireless master device 21, the control unit 220 of the newly installed terminal notifies the determination result (step S313). At this time, when the determination result of step S307 and the determination result received from the wireless master device 21 are both acceptable, the control unit 220 notifies that the framing can be executed. On the other hand, if at least one of the determination result of step S307 and the determination result received from the wireless master device 21 is negative, a notification that the execution of the framing is denied is performed. The control unit 220 can notify the determination result of whether or not it can be executed by controlling the lighting of the LED lamp included in the display unit 224, for example.

In addition, when the control unit 220 of the newly installed terminal determines that the execution of the connection with the wireless base device 21 is possible, the control unit 220 transmits an execution start instruction of the connection to the wireless base device 21 (step S314). In addition, when it is determined that the execution of the connection with the wireless master device 21 is not permitted, the connection is stopped without transmitting the execution start instruction to the wireless master device 21.

When receiving the execution start instruction of the edge transmitted from the newly installed terminal in the short range wireless communication unit 213, the wireless master device 21 shifts to an edge standby state in which it waits for an edge request transmitted from the newly installed terminal (step). S315).

The newly installed terminal, after transmitting the execution start instruction of the framing to the wireless master device 21, transmits a framing request including the identifier of the own terminal to the wireless master device 21 (step S316). The identifier of the newly installed terminal may be a unique ID such as a manufacturing number that is previously assigned to the newly installed terminal, or an ID that is assigned to identify each device in the short-range wireless network N2. .. Further, when the identifiers of the wireless master device 21 and the wireless slave device 22 installed in the short-range wireless network N2 are partly common, the shortened ID excluding the common part may be used as the identifier.

When receiving the edge request transmitted from the newly installed terminal, the wireless master device 21 extracts the identifier of the newly installed terminal included in the received edge request, and uses the extracted identifier as the identifier of the authenticated communication partner. It registers in 211 (step S317). Further, the wireless master device 21 returns an edge response including the identifier of its own device to the newly installed terminal (step S318). The identifier of the wireless master device 21 may be a unique ID such as a manufacturing number that is assigned in advance to the wireless master device 21, or an ID that is assigned to identify each device in the narrow-range wireless network N2. Good. Further, when the identifiers of the wireless master device 21 and the wireless slave device 22 installed in the short-range wireless network N2 are partly common, the shortened ID excluding the common part may be used as the identifier.

When the newly installed terminal receives the edge response transmitted from the wireless parent 21, the newly installed terminal extracts the identifier of the wireless parent 21 included in the received edge response and stores the extracted identifier as the identifier of the authenticated communication partner. It is registered in the section 221 (step S319).

As described above, in the third embodiment, it is determined whether or not the connection can be executed in consideration of not only the transmission from the wireless master device 21 to the newly installed terminal but also the transmission from the newly installed terminal to the wireless master device 21. , It is possible to suppress the occurrence of communication error in the operation after the connection.

The embodiments disclosed this time are to be considered as illustrative in all points and not restrictive. The scope of the present invention is defined by the scope of the claims rather than by the meaning described above, and is intended to include meanings equivalent to the scope of the claims and all modifications within the scope.

The following supplementary notes are disclosed regarding the above-described embodiment.

A wireless telemeter system of the present application includes a master unit (21) communicatively connected to an external communication device (11) and a connection unit (223) connecting a meter, and is wirelessly connected to the master unit (21). Mutual authentication for authenticating a communication partner between the parent device (21) and the child device (22) including a child device (22) is performed, and if the mutual authentication is successful, the parent device In a wireless telemeter system that permits wireless communication between (21) and the child device (22), the parent device (21) performs mutual authentication to authenticate the newly connected child device (22). The reception unit (212, 215) that receives the start instruction and the transmission unit (213) that transmits a radio wave when the start instruction is received are provided, and the slave unit (22) authenticates the master unit (21). In order to do so, a reception unit (225) that receives a mutual authentication start instruction, and a reception unit (222) that receives a radio wave transmitted from the transmission unit (213) from the reception of the start instruction to the elapse of a set period. ), and a measurement unit (222) that measures radio field intensity each time the reception unit (222) receives a radio wave, and a radio wave of each radio wave measured by the measurement unit (222) when the set period has elapsed. A determination unit (220) that determines whether or not mutual authentication with the parent device (21) can be performed based on the strength, and a notification unit (224) that notifies the determination result of the determination unit (220). And

In the present application, radio waves transmitted from a communication partner (master device) during mutual authentication are received until a set period elapses, and whether mutual authentication can be performed or not is determined based on the radio field intensity of the received radio waves. That is, in the present application, since the slave unit itself has the function of measuring the radio field intensity and the function of determining whether or not mutual authentication can be performed, it is possible to reduce variations in work quality of workers who install the slave unit. You can Further, when it is determined that the radio field intensity is insufficient during the set period, the execution of mutual authentication is stopped, so that it is possible to avoid a situation in which communication errors frequently occur during operation after mutual authentication.

In the wireless telemeter system of the present application, the slave unit (22) determines the suitability degree of the installation place where the slave unit (22) is installed based on the radio field intensity of each radio wave measured by the measuring unit (222). The determination section (220) is provided, and the aptitude degree determined by the determination section (220) is notified from the notification section (224).

In the present application, by notifying the suitability of the installation place, it is possible to promote the improvement of the installation method such as the installation place and the installation direction.

The wireless telemeter system of the present application is characterized in that the slave unit (22) starts reception of the radio wave by the reception unit (222) after a predetermined time has elapsed after receiving the start instruction.

In the present application, the radio wave intensity can be measured in the communication environment during normal operation by the operator installing the slave unit moving away from the installation site until the predetermined time elapses.

In the wireless telemeter system of the present application, when the slave unit (22) receives an instruction to start mutual authentication with the master unit (21), a transmission start instruction to instruct the master unit (21) to start transmitting radio waves. The base unit (21) is characterized by including a unit (220), and when the master unit (21) receives the instruction to start the transmission, the transmission unit (213) starts transmission of radio waves.

In the present application, even when the parent device has received the mutual authentication start instruction, if the child device has not received the mutual authentication start instruction, no radio wave is transmitted from the parent device. Power consumption in the machine can be suppressed.

In the wireless telemeter system of the present application, the slave unit (22) has a measurement start instruction unit (220) for instructing the master unit (21) to start measurement of radio field intensity, and a radio wave after instructing to start measurement of radio field intensity. And a transmission unit (222) for transmitting the message, the master unit (21) transmits the transmission unit (222) of the slave unit (22) until a set period elapses after receiving the instruction to start the measurement. ), a receiving unit (213) for receiving the radio wave transmitted from ), a measuring unit (213) for measuring the radio wave intensity each time the receiving unit (213) receives the radio wave, and when the set period has elapsed, A determination unit (210) that determines whether or not mutual authentication with the slave unit (22) can be performed based on the measured radio field intensity of each radio wave, and a determination result of the determination unit (210) to the slave unit (22). And a notification unit (213) for notifying.

In the present application, both the parent device and the child device measure the radio field intensity of the radio wave transmitted from the communication partner to determine whether or not mutual authentication can be performed, so that a communication error is less likely to occur during operation after mutual authentication. be able to.

The wireless device of the present application performs mutual authentication with another wireless device (21) to mutually authenticate a communication partner, and if the mutual authentication is successful, wireless communication with the other wireless device (21) is performed. In the wireless device (22) which is permitted to perform the following, a receiving unit (225) that receives a mutual authentication start instruction to authenticate the other wireless device (21), and a set period elapses after receiving the start instruction. During the period, the receiving unit (222) that receives the radio wave transmitted from the other wireless device (21) and the measuring unit (222) that measures the radio wave intensity each time the receiving unit (222) receives the radio wave. And a judgment unit (220) for judging whether or not mutual authentication with the other radio device can be performed based on the radio field intensity of each radio wave measured by the measurement unit (222) when the set period has elapsed. And a notification unit (224) for notifying the determination result of the determination unit (220).

In the present application, radio waves transmitted from a communication partner (other radio device) at the time of mutual authentication are received until a set period elapses, and whether mutual authentication can be performed or not is determined based on the strength of the received radio waves. .. That is, in the present application, since the wireless device itself has the function of measuring the radio field intensity and the function of determining whether or not mutual authentication can be performed, it is possible to reduce variations in work quality of workers who install the wireless device. You can Further, when it is determined that the radio field intensity is insufficient during the set period, the execution of mutual authentication is stopped, so that it is possible to avoid a situation in which communication errors frequently occur during operation after mutual authentication.

11 host computer 12 center side network control device 21 wireless master device 22 wireless slave device 23 meter 210, 220 control unit 211, 221 storage unit 212 wide area wireless communication unit 213, 222 narrow area wireless communication unit 214, 224 display unit 215, 225 Operation unit 223 Meter IF

Claims (5)

A master unit communicatively connected to an external communication device and a connection unit for connecting a meter are included, and a slave unit wirelessly connected to the master unit is included, and the master unit and the slave unit communicate with each other. Mutual authentication for authenticating the other party is performed, and if the mutual authentication is successful, in a wireless telemeter system that permits wireless communication between the master unit and the slave unit,
The base unit is
A reception unit that receives a mutual authentication start instruction in order to authenticate a newly wirelessly connected slave unit,
When receiving the start instruction, a transmitter for transmitting radio waves is provided,
The cordless handset is
A reception unit that receives a mutual authentication start instruction to authenticate the parent device,
When receiving the start instruction, in a reception period started after a lapse of a predetermined time , a receiving unit that receives a radio wave transmitted from the transmitting unit,
A measuring unit that measures the radio field intensity each time the receiving unit receives a radio wave,
When the reception period has elapsed, based on the radio field intensity of each radio wave measured by the measurement unit, a determination unit that determines whether or not mutual authentication with the parent device can be performed,
A wireless telemeter system, comprising: a notification unit that notifies the determination result of the determination unit. The cordless handset is
A determination unit that determines the suitability of the installation location where the slave unit is installed based on the radio field intensity of each radio wave measured by the measurement unit;
The wireless telemeter system according to claim 1, wherein the notifying unit notifies the suitability determined by the determining unit. The cordless handset is
When a start instruction of mutual authentication with the master unit is received, a transmission start instruction unit for instructing the master unit to start transmission of radio waves,
The base unit is
The radio telemeter system according to claim 1 or 2 , wherein when the instruction for starting the transmission is received, transmission of the radio wave is started from the transmitting unit. The cordless handset is
A measurement start instruction unit for instructing the base unit to start measuring the radio field intensity,
After instructing to start the measurement of the radio field intensity, it has a transmission unit that transmits radio waves,
The base unit is
A receiving unit that receives a radio wave transmitted from the transmitting unit of the slave unit until a set period elapses after receiving an instruction related to the measurement start,
A measuring unit that measures the radio field intensity each time the receiving unit receives a radio wave,
When the set period has elapsed, a determination unit that determines whether or not mutual authentication with the slave unit can be performed based on the measured radio field intensity of each radio wave.
The wireless telemeter system according to any one of claims 1 to 3 , further comprising: a notification unit that notifies the slave unit of a determination result of the determination unit. Mutual authentication is performed to mutually authenticate the communication partner with another wireless device, and if the mutual authentication is successful, in a wireless device permitted to wirelessly communicate with the other wireless device,
A reception unit that receives a mutual authentication start instruction to authenticate the other wireless device,
When receiving the start instruction, in a reception period started after a predetermined time has elapsed, a receiving unit that receives a radio wave transmitted from the transmitting unit of the other wireless device,
A measuring unit that measures the radio field intensity each time the receiving unit receives a radio wave,
When the reception period has elapsed, based on the radio field intensity of each radio wave measured by the measurement unit, a determination unit that determines whether or not mutual authentication with the other wireless device can be performed.
And a notification unit that notifies the determination result of the determination unit.

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