JPH08194023A - Wireless automatic meter inspection system - Google Patents

Abstract

PURPOSE: To provide a wireless automatic meter inspection system capable of precisely carrying out communication without being caught by a net control device for a terminal and time-out monitoring of a meter as well as avoiding collision of radio communication between a wireless device master apparatus and a wireless device slave apparatus. CONSTITUTION: When a wireless device master apparatus 17 receives a starting telegram from a net control device 16 for a terminal, it adds information showing the number of transmission to this starting telegram and transmits the starting telegram added with the information to a wireless device slave apparatus 18 a specified number of times continuously. When the wireless device slave apparatus 18 receives the starting telegram from the wireless device master apparatus 17 by intermittent carrier sense motion, it detects information showing the number of transmission in the starting telegram, discriminates time when wireless communication of the wireless device master apparatus 17 is stopped from this detected information and transmits the starting telegram to a meter 19 within this discriminated time.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a wireless automatic meter reading system for automatically collecting usage data of water, electricity, gas, etc., via a telephone line and a wireless line.

[0002]

2. Description of the Related Art FIG. 2 is a block diagram showing a general structure of a wireless automatic meter reading system of this type. As shown in the figure, the wireless automatic meter reading system has a meter 19 which constitutes a terminal device for measuring the usage amount of, for example, water, electricity, gas, etc. The meter 19 is, for example, water, electricity, gas, etc. Will be installed at the customer's place.

The meter 19 is connected to a wireless device slave unit 18, and is connected to the wireless device master unit 17 from the wireless device slave unit 18 via a wireless line. In addition, the wireless device base unit 1
7 is connected to a terminal network control unit (T-NCU) 16 and is connected from the terminal network control unit 16 to a telephone exchange 14 via a telephone line. The telephone exchange 14 is a center side network control unit (C-NCU) 12 which is a no-ringing communication network control unit or an automatic receiving network control unit (MA-NC) which is a terminal calling communication network control unit via a telephone line.
U) 13 is connected to the center device 11. Further, a no ringing trunk 15 is connected to both ends of the telephone exchange 14.

In the wireless automatic meter reading system configured as described above, in order for the center device 11 to collect usage data of water, electricity, gas, etc. measured by the meter 19, the center device 11 controls the center side network control device. 12, a telephone exchange 14, and a no-ringing trunk 15 to receive a no-ringing call to a terminal network control device 16, and the terminal network control device 16 further receives a wireless device master device 17 and a wireless device slave device 1.
8 to call the meter 19 to perform data communication between the center device 11 and the meter 19, whereby the usage data measured by the meter 19 is sent from the meter 19 to the center device 11 via the reverse route. Transmission, center device 1
It is supposed to be collected in 1.

When an abnormal situation occurs in the meter 19, the meter 19 sends a call to the terminal to communicate with the wireless device slave device 18, the wireless device master device 17, the terminal network control device 16, and the like.
The center device 11 is called via the telephone exchange 14 and the automatic call receiving network control device 13, and the meter 19 and the center device 11 are called.
Data communication is performed between the meter 19 and the center device 11, and alarm information for notifying an abnormal state of the meter 19 is transmitted from the meter 19 to the center device 11.

[0006] In the wireless automatic meter reading system that operates as described above, the wireless device master unit 17 and the wireless device slave unit 18
Is installed near a customer's water meter, gas meter, etc., and it is difficult to use a commercial power source as an operating power source for the wireless device. It is mandatory to use. In addition, the useful life of the wireless device is the meter 19
It is required to operate for the same period of use as, for example, about 8 to 10 years.

As described above, since the wireless device is driven by a battery and has a considerably long service life, it is configured to achieve low power consumption so as to reduce battery consumption as much as possible. In this low power consumption, each wireless device of the wireless device master unit and the wireless device slave unit performs an intermittent carrier sense operation to receive the activation message from the partner wireless device, and the wireless device on the side that transmits the activation message. The device repeatedly and continuously transmits the activation message for a time longer than the interval of the intermittent carrier sense operation.

In FIG. 8, as described above, the center unit 11 controls the network control unit (C-NCU) 12, the telephone exchange 14, and the no ringing trunk 15 to the terminal network control unit (T-NCU) 16 for no ringing. FIG. 9 is a diagram showing an operation procedure during no ringing communication in which an incoming call is received, the meter 19 is called from the terminal network control device 16 via the wireless device master device 17 and the wireless device slave device 18, and meter reading data is collected from the meter 19.

As shown in FIG. 8C, the wireless device master unit 1
When 7 receives the activation message from the center side network control device 12 and the terminal network control device 16, the activation message is converted into a wireless activation message as one activation message, and the same activation message is repeatedly repeated a plurality of times. (In FIG. 8, m times).
The activation message transmitted repeatedly in this manner is detected by the wireless device slave unit 18 by the intermittent carrier sense operation, as shown in FIG. Upon receiving the activation message, the wireless device slave device 18 converts the received message to a wired activation message and transmits it to the meter 19.

Upon receiving the activation message from the wireless device slave device 18, the meter 19 sends a response message to the wireless device slave device 18, as shown in FIG. The wireless device slave 18 is
When the response message is received from the meter 19, the wired response message is converted into the wireless response message and then wirelessly immediately transmitted to the wireless device master device 17, as shown in FIG. 8D.
In this case, as shown in FIG. 8C, since the wireless device master device 17 is repeatedly transmitting the activation message, the response message from the wireless device slave device 18 to the wireless device master device 17 is shown in FIG. As indicated by the "x" mark in (d), the wireless device master unit 17
Will collide with the startup transmission from.

Further, in order to avoid such a collision,
After the wireless device slave device 18 detects the disconnection of the activation transmission carrier from the wireless device master device 17, the response message is transmitted to the wireless device master device 17 with a delay as shown in (a) of FIG. 8D. In this case, the wireless device slave device 18 receives the response message from the meter 19 and then sends the response message to the wireless device master device 17.
Since the time T ₃ until the transmission is started may be considerably long, the time-out monitoring of the meter 19, that is, the time T from the time when the meter 19 transmits the response message to the time when the next message is received from the center device 11 is received. The time-out monitoring of the meter 19 defined by ₄ may be caught, resulting in a communication error.

Although the above description is for the case of no ringing communication, the case of terminal calling communication is also described.
The other operations are the same as the above-described operations, except that the wireless device slave device 18 becomes the transmitting-side wireless device and the wireless device master device 17 becomes the receiving-side wireless device.

[0013]

As described above, when the wireless device slave unit receives the response message from the meter and then immediately transmits the response message to the wireless device master unit, the wireless device master unit starts transmission. There is a problem of colliding with.

Further, in order to avoid such a collision,
If the wireless device slave unit sends a response message to the wireless device master unit after detecting the disconnection of the activation transmission carrier from the wireless device master unit, it will be caught in the time-out monitoring of the meter, resulting in a communication error. There is a problem that it may become.

The present invention has been made in view of the above,
The purpose is to avoid collision of wireless communication between the wireless device master unit and the wireless device slave unit, and to perform accurate communication without being caught by the time-out monitoring of the terminal network control device and the meter. The object is to provide a wireless automatic meter reading system that can be used.

[0016]

In order to achieve the above object, a wireless automatic meter reading system of the present invention connects a wireless device master unit to a telephone line via a terminal network control device, and the wireless device master unit is connected to the wireless device master unit. Wireless device connected via wireless line By connecting a handset to a terminal device, information including meter reading data of the terminal device is collected from the telephone line by no ringing communication, and from the terminal device by terminal call communication from the terminal device. In the wireless automatic meter reading system that collects information of the above through the telephone line, the wireless device master unit receives the activation message from the terminal network control device, and the number of transmissions in the activation message received by the reception unit. An information adding unit for adding the information shown, and a continuous transmitting unit for continuously transmitting the activation message to which the information is added by the information adding unit to the wireless device slave unit a plurality of predetermined times. The wireless device slave unit receives the activation message from the wireless device master unit by the intermittent carrier sense operation, and the information detection unit that detects information indicating the number of transmissions in the activation message received by the receiving unit. When,
Identification means for identifying the time when the wireless communication of the wireless device master unit is cut off from the information detected by the information detection means, and transmission means for transmitting the activation message to the terminal device at the time identified by the identification means. Having it is the gist.

The wireless automatic meter reading system of the present invention is
No-ringing communication from a telephone line by connecting a wireless device master unit to a telephone line via a terminal network control device, and connecting a wireless device slave unit connected to the wireless device master unit to a terminal device In the wireless automatic meter reading system, the information including the meter reading data of the terminal device is collected by the terminal device, and the information from the terminal device is collected through the telephone line by the terminal calling communication from the terminal device. Receiving means for receiving the activation message from the wireless communication device, information adding means for adding information indicating the number of transmissions to the activation message received by the receiving means, and the activation message added with the information by the information adding means for the wireless device master unit. To the wireless device master unit for receiving the activation message from the wireless device slave unit by an intermittent carrier sense operation. A step, an information detecting means for detecting information indicating the number of times of transmission in the activation message received by the receiving means, and a time period during which the wireless communication of the wireless device slave unit is cut off from the information detected by the information detecting means. The gist is to have an identifying means for identifying and a transmitting means for transmitting the activation message to the terminal network control device at the time identified by the identifying means.

Furthermore, the wireless automatic meter reading system of the present invention is
No-ringing communication from a telephone line by connecting a wireless device master unit to a telephone line via a terminal network control device, and connecting a wireless device slave unit connected to the wireless device master unit to a terminal device In the wireless automatic meter reading system, the information including the meter reading data of the terminal device is collected by the terminal device, and the information from the terminal device is collected through the telephone line by the terminal calling communication from the terminal device. Receiving means for receiving the activation message from the wireless communication device, information adding means for adding information indicating the number of transmissions to the activation message received by the receiving means, and the activation message added with the information by the information adding means for the wireless device master unit. To the wireless device master unit for receiving the activation message from the wireless device slave unit by an intermittent carrier sense operation. A step, an information detecting means for detecting information indicating the number of times of transmission in the activation message received by the receiving means, and a time period during which the wireless communication of the wireless device slave unit is cut off from the information detected by the information detecting means. When the identifying means for identifying and the time identified by the identifying means are longer than the dialing time to the telephone line of the terminal network control device, the time obtained by subtracting the dialing time from the time identified by the identifying means. The gist of the present invention is to have a transmission means for transmitting the activation message to the terminal network control device.

In the wireless automatic meter reading system of the present invention, a wireless device master unit is connected to a telephone line via a terminal network control device,
By connecting a wireless device slave device connected to the wireless device master device via a wireless line to a terminal device, information including meter reading data of the terminal device is collected from the telephone line by no ringing communication, and the terminal device sends the information. In a wireless automatic meter reading system that collects information from a terminal device through a telephone line by call communication, the wireless device master device receives a start message from the terminal network control device, and a receiving unit that receives the activation message. Receiving means having continuous transmission means for continuously transmitting a start-up message to the wireless device slave device a plurality of times, and the wireless device slave device receiving the start-up message from the wireless device master device by intermittent carrier sense operation. A detecting unit for detecting a disconnection of the wireless communication carrier from the wireless device master unit, and a transmission for transmitting the activation message to the terminal device after the detecting unit detects the disconnection of the carrier And summarized in that and a stage.

The wireless automatic meter reading system of the present invention is
No-ringing communication from a telephone line by connecting a wireless device master unit to a telephone line via a terminal network control device, and connecting a wireless device slave unit connected to the wireless device master unit to a terminal device In the wireless automatic meter reading system, the information including the meter reading data of the terminal device is collected by the terminal device, and the information from the terminal device is collected through the telephone line by the terminal calling communication from the terminal device. From the wireless device master unit, and continuous transmitting means for continuously transmitting the activation message received by the receiving unit to the wireless device master unit a plurality of times. Receiving means for receiving the activation message from the wireless device slave unit by operation, detecting means for detecting disconnection of the wireless communication carrier from the wireless device slave device, and the detecting means for disconnecting the carrier. After issuing, and summarized in that a transmission means for transmitting the activation message to the terminal for network controller.

[0021]

In the wireless automatic meter-reading system of the present invention, when the wireless device master unit receives the activation message from the terminal network control device, the activation message is added with information indicating the number of transmissions, and the activation message added with the information is transmitted. When the wireless device slave unit continuously transmits a predetermined number of times and the wireless device slave unit receives the activation message from the wireless device master unit by the intermittent carrier sense operation, the information indicating the number of transmissions in the activation message is detected. Then, the time when the wireless communication of the wireless device master unit is cut off is identified from the information, and the activation message is transmitted to the terminal device at the identified time.

Further, in the wireless automatic meter reading system of the present invention, when the wireless device slave unit receives the activation message from the terminal device, information indicating the number of transmissions is added to the activation message, and the activation message added with the information is wirelessly transmitted. When the wireless device master device receives the activation message from the wireless device slave device by the intermittent carrier sense operation, the wireless device master device detects the information indicating the number of transmissions in the activation message by continuously transmitting the device message to the device device several times. Then, the time when the wireless communication of the wireless device slave unit is cut off is identified from the information, and the activation message is transmitted to the terminal network control device at the identified time.

Further, in the wireless automatic meter reading system of the present invention, when the wireless device slave unit receives the activation message from the terminal device, information indicating the number of transmissions is added to the activation message and the activation message added with the information is wirelessly transmitted. When the wireless device master device receives the activation message from the wireless device slave device by the intermittent carrier sense operation, the wireless device master device detects the information indicating the number of transmissions in the activation message by continuously transmitting the device message to the device device several times. Then, the time when the wireless communication of the wireless device slave unit is cut off is identified from the information, and if the identified time is longer than the dialing time to the telephone line of the terminal network control device, the time from the identification time to the dial The activation message is transmitted to the terminal network controller at the time after subtracting the ring time.

In the wireless automatic meter reading system of the present invention, when the wireless device master unit receives the activation message from the terminal network control device, the activation message is continuously transmitted to the wireless device slave unit a plurality of times, and the wireless device slave unit is transmitted. When receiving the activation message from the wireless device master unit by the intermittent carrier sense operation, detects the disconnection of the wireless communication carrier from the wireless device master unit, and then transmits the activation message to the terminal device.

Further, in the wireless automatic meter reading system of the present invention, when the wireless device slave device receives the activation message from the terminal device, the activation message is continuously transmitted to the wireless device master device a plurality of times, and the wireless device master device When the activation message is received from the wireless device slave device by the intermittent carrier sense operation, the activation message is transmitted to the terminal network control device after detecting disconnection of the wireless communication carrier from the wireless device slave device.

[0026]

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

FIG. 1 is a block diagram showing the configuration of a wireless device used in a wireless automatic meter reading system according to an embodiment of the present invention. The wireless device 1 shown in FIG.
The wireless device master device 17 and the wireless device slave device 18 shown in FIG. 2 are configured. When the wireless device is connected to the terminal network control device 16 as shown in FIG. In addition, when the wireless device is connected to the meter 19, the wireless device slave unit 18 is configured.

That is, the wireless device 1 shown in FIG. 1 has a CPU 5 which is a control unit for controlling the overall operation of the wireless device 1, and an interface circuit 4 is connected to the CPU 5. When connected to the terminal network control device 16 as shown in FIG.
In addition, when it is connected to the meter 19, the wireless device slave unit 18 is configured.

The CPU 5 wirelessly communicates with the partner wireless device via the wireless circuit 3 and the antenna 2, and receives a wireless signal from the partner wireless device via the antenna 2 and the wireless circuit 3. Further, a carrier detection circuit 9 is connected to the wireless circuit 3, and the carrier detection circuit 9 performs an intermittent carrier sense operation to detect the presence or absence of wireless communication from the partner wireless device via the wireless circuit 3. It has become.

The CPU 5 is connected with a timer circuit 6, a telegram time length setting circuit 7, a transmission number setting circuit 8, and a dialing operation time setting circuit 10. The timer circuit 6 is set by the CPU 5 and will be described later. A circuit for counting the delay time T ₅ , a 1-message time length setting circuit 7 is a circuit for setting the 1-message time T ₁ of the wireless start message in the CPU 5, and a transmission number setting circuit 8 is 1 for the wireless start message in the CPU 5. The dialing operation time setting circuit 10 is a circuit for setting the number of message transmissions m, and the dialing operation time setting circuit 10 performs dialing operation time T ₆ performed by the terminal network control device 16 for the automatic call reception network control device 13 at the time of the terminal call communication. Is a circuit for setting.

Next, the operation of the no-ringing communication of the wireless automatic meter reading system configured as described above will be described with reference to the timing chart shown in FIG.

The center device 11 is the center side network control device 1
2. When the terminal network control device 16 receives no ringing through the telephone exchange 14 and the no ringing trunk 15 and transmits a start message to the terminal network control device 16, the terminal network control device 16 transmits the start message to the wireless device. It is sent to the master unit 17. As shown in FIG. 3C, the wireless device master device 17 receives the activation message from the terminal network control device 16 via the interface circuit 4, supplies the activation message to the CPU 5, and transmits the activation message. Convert to wireless communication message. It should be noted that this wireless communication message is, for example, a "bit synchronization signal" for synchronizing between wireless devices, as standardized by a specific low power wireless standard for telemeter / telecontrol (RCR STD-16). , "1 frame" consisting of a "frame synchronization signal" indicating the beginning of a message, a "calling signal" for identifying each wireless device, and a command portion indicating an activation message from the terminal network control device 16 is basically used. The configuration.

The CPU 5 of the base unit 17 of the wireless device adds information indicating the number of transmissions to the wireless communication message, and
As shown in (c) "bit synchronization signal, a frame synchronization signal, the call signal, the number of transmissions n, start message" Create as one message (time T _1), to indicate the 1 message in FIG. 3 (c) The number of transmissions m set in the transmission number setting circuit 8 is repeatedly transmitted. Therefore, this continuous transmission time is m × T ₁ .

The wireless device slave unit 18 transmits the activation message repeatedly and continuously transmitted from the wireless device master unit 17 as shown in FIG. 3 (d).
As shown in FIG. 5, the carrier detection circuit 9 receives the signal by the intermittent carrier sensing operation of the time interval T ₂ , and the CPU 5 identifies the number of transmissions n in the received activation message. Based on the number of transmissions n, the number of transmissions m set in the transmission number setting circuit 8, and one telegram time T ₁ , the CPU 5 disconnects the wireless communication of the wireless device master device 17 with time T ₅ = (m− n) x T
₁ is calculated, this time T ₅ is set in the timer circuit 6, and counting of the time T ₅ is started.

Then, when the counting of the time T ₅ in the timer circuit 6 is completed, the CPU 5 judges that the continuous wireless communication from the wireless device master unit 17 has been completed, and FIGS.
As shown in FIG.
The activation message is transmitted to 9. When the meter 19 receives the activation message from the wireless device slave device 18, the meter 19 returns a response message to the wireless device slave device 18. The wireless device slave device 18 transmits a response message from the meter 19 to the wireless device master device 17, and the wireless device master device 17 further controls the terminal network control device 16, the telephone exchange 14, the no ringing trunk 15, and the center side network control. A response message is transmitted to the center device 11 via the device 12. When the center device 11 receives this response message,
The set message is transmitted to the meter 19 by the reverse route.

As described above, when the wireless device slave unit 18 identifies the end of wireless communication of the wireless device master unit 17 and delays the time for transmitting the activation message to the meter 19 by T _{5, the} wireless device slave unit 18 is delayed. The transmission timing of the activation message from the device 18 to the meter 19 is always constant, and the wireless communication from the wireless device master device 17 and the response transmission from the wireless device slave device 18 do not collide. Further, when the wireless device slave device 18 transmits a response message to the wireless device master device 17, it is not necessary to wait for the carrier disconnection from the wireless device master device 17,
The wireless communication waiting time T ₃ shown in FIG. 8 becomes 0, and the communication error does not occur due to the monitoring of the reception waiting time T ₄ of the meter 19 being timed out.

Next, referring to the timing chart shown in FIG. 4, the operation of the terminal calling communication will be described.

As shown in FIG. 4 (e), when the meter 19 makes a call to the terminal and sends the activation message to the wireless device slave device 18, the CPU 5 of the wireless device slave device 18 converts the activation message into a wireless communication message message. In addition to conversion, information indicating the number of times of transmission is added to the wireless communication message, and one message of "bit synchronization signal, frame synchronization signal, calling signal, number of transmissions n, activation message" as shown in FIG. (Time T ₁ ), and this one telegram is transmitted by the transmission number setting circuit 8 as shown in FIG.
The transmission is repeated continuously for the number of transmissions m set to.

The wireless device master unit 17 shows the activation message transmitted repeatedly and continuously from the wireless device slave unit 18 in FIG. 4 (c).
As shown in FIG. 5, the carrier detection circuit 9 receives the signal by the intermittent carrier sensing operation of the time interval T ₂ , and the CPU 5 identifies the number of transmissions n in the received activation message. Based on the number of transmissions n, the number of transmissions m set in the transmission number setting circuit 8, and one telegram time T ₁ , the CPU ₅ disconnects the wireless communication of the wireless device slave unit T ₅ = (m− n) x T
₁ is calculated, this time T ₅ is set in the timer circuit 6, and counting of the time T ₅ is started.

When the counting of the time T ₅ in the timer circuit 6 is completed, the CPU 5 of the wireless device master device 17 judges that the continuous wireless communication from the wireless device slave device 18 is completed,
As shown in FIGS. 4C and 4B, the activation message is transmitted to the terminal network control device 16 via the interface circuit 4. When the terminal network control device 16 receives the activation message from the wireless device master device 17, the terminal network control device 16 receives the activation message via the telephone line.
4 performs a dialing operation, thereby calling the center device 11 through the automatic incoming call network control device 13 and transmitting the activation message to the center device 11. On the other hand, the center device 11 includes the automatic call receiving network control device 13 and the telephone exchange 1.
4. A response message is transmitted to the wireless device master device 17 via the terminal network control device 16.

Upon receiving the response message from the center device, the wireless device master device 17 transmits the response message to the meter 19 via the wireless device slave device 18. When the meter 19 receives the response message, it sends the information message to the center device 11 via the wireless device slave device 18, the wireless device master device 17, the terminal network control device 16, the telephone exchange 14, and the automatic incoming call network control device 13. To do.

As described above, the wireless device master device 17 identifies the end of wireless communication of the wireless device slave device 18 and delays the time for transmitting the activation message to the terminal network control device 16 by T _5. , The transmission timing of the activation message from the wireless device master device 17 to the terminal network control device 16 is always constant, and the wireless communication from the wireless device slave device 18 and the wireless device master device 1
7 will not collide with the response transmission from 7. Also,
When the wireless device master device 17 transmits a response message to the wireless device slave device 18, it is not necessary to wait for the carrier disconnection from the wireless device slave device 18, so the wireless communication wait time T ₃ becomes 0, and There is no possibility that a communication error will occur due to the timeout monitoring of the reception waiting time T ₄ of the network control device 16.

Next, referring to the timing chart shown in FIG. 5, the operation of the terminal calling communication according to another embodiment of the present invention will be described.

In the terminal calling communication shown in FIG. 5, in the terminal calling communication shown in FIG. 4, the timing of the activation message transmitted from the wireless device master unit 17 to the terminal network controlling device 16 is set to the terminal network controlling device. The only difference is that the dialing operation time in 16 is set earlier.

That is, the wireless device slave unit 18 is operated by the meter 19
The information n indicating the number of transmissions is added to the activation message from ", and the bit synchronization signal, the frame synchronization signal, the calling signal,
As shown in FIG. 5 (d), one radio message consisting of “transmission number n, activation message” is repeatedly transmitted for the transmission number m, and the wireless device master device 17 is repeatedly and continuously transmitted from the wireless device slave device 18. When this activation message is received by the intermittent carrier sense operation of the carrier detection circuit 9 as shown in FIG. 5C, and the number of transmissions n in the received activation message is identified by the CPU 5, the CPU 5 determines the number of transmissions. n, the number of transmissions m set in the transmission number setting circuit 8, and the time T ₇ = (m−n) × T ₁ when the wireless communication of the wireless device slave unit 18 is cut off based on one message duration T _1. The time T ₇ is calculated and compared with the dialing operation time T ₆ from the terminal network control device 16 set in the dialing operation time setting circuit 10, and the time T ₇ is the dialing operation time T ₆ Longer than Said time by subtracting the dialing operation time T ₆ from T _7, the delay time _{T 5 (= T 7 -T 6} )
Is calculated, the delay time T ₅ is set in the timer circuit 6, and counting of the replacement time T ₅ is started.

After the completion of the counting of the delay time T ₅ , the wireless device master device 17 transmits a start message to the terminal network control device 16, whereby the wireless device master device 17 causes the terminal network control device to operate. 4 is that the start of transmission of the activation message to 16 is made earlier by the dialing operation time T ₆ .
The terminal calling communication shown in FIG. 4 is different from the terminal calling communication shown in FIG.

In the above-described terminal calling communication shown in FIG. 5, in addition to the effect obtained by the terminal calling communication shown in FIG. 4, it is possible to shorten the entire communication time by the dialing operation time T _6. it can.

Next, the operation of no-ringing communication according to still another embodiment of the present invention will be described with reference to the timing chart shown in FIG.

The no-ringing communication shown in FIG. 6 does not add the information n indicating the number of transmissions in the creation of the activation message in the wireless device master unit 17 in the no-ringing communication shown in FIG. A frame synchronization signal, a calling signal, and a start message "are created as one message, and this one message is repeatedly transmitted for the number of times m of transmission as shown in FIG. 6C, and the wireless device slave unit 18 detects the carrier. When the circuit 9 detects wireless communication from the wireless device master device 17 as shown in FIG. 6D, the wireless activation message from the wireless device master device 17 is converted into a wired activation message and then from the wireless device master device 17. The only difference is that the wireless communication carrier is disconnected and the activation message is transmitted from the wireless device slave unit 18 to the meter 19 by this confirmation. Action is the same as for non-ringing communication shown in FIG.

That is, in the no ringing communication of the embodiment shown in FIG. 6, after confirming the end of the wireless communication of the wireless device master device 17, that is, after detecting the disconnection of the carrier, the wireless device slave device 18 activates the meter 19. By sending a telegram, the same effect as the no ringing communication shown in FIG. 3 is achieved.

Next, referring to the timing chart shown in FIG. 7, the operation of the terminal calling communication according to another embodiment of the present invention will be described.

The terminal calling communication shown in FIG. 7 does not add the information n indicating the number of transmissions in the generation of the activation message in the wireless device slave 18 in the terminal calling communication shown in FIG. "Bit synchronization signal, frame synchronization signal, call signal, activation message" is created as one message, and this one message is repeatedly transmitted for the number of times of transmission m as shown in FIG. Reference numeral 17 indicates the wireless communication from the wireless device slave unit 18 by the carrier detection circuit 9.
When it is detected as shown in (c), the wireless activation message from the wireless device slave device 18 is converted into a wired activation message, and it is confirmed that the wireless communication carrier from the wireless device slave device 18 is disconnected. Only the difference is that the activation telegram is transmitted from the wireless device master device 17 to the terminal network control device 16 upon confirmation, and the other actions are the same as in the case of the terminal calling communication shown in FIG.

That is, in the terminal calling communication of the embodiment shown in FIG. 7, after confirming the end of the wireless communication of the wireless device slave device 18, that is, after detecting the disconnection of the carrier, the wireless device master device 17 is used for the terminal communication. By transmitting the activation message to the network control device 16, the same effect as the terminal calling communication shown in FIG. 4 is achieved.

[0054]

As described above, according to the present invention,
When the wireless device master unit continuously transmits the activation message to which the information indicating the number of transmissions is added a predetermined number of times and the wireless device slave unit receives the activation message, the wireless communication of the wireless device master unit is performed based on the information indicating the number of transmissions. Since the disconnection time is identified and the activation message is transmitted to the terminal device at this identified time, the wireless communication from the wireless device master unit and the response transmission from the wireless device slave unit will not collide, and There is no possibility that a communication error will occur due to the timeout monitoring of the reception waiting time of the terminal device.

Further, according to the present invention, the wireless device slave unit continuously transmits the activation message to which the information indicating the number of times of transmission is added a predetermined number of times, and when the wireless device master unit receives the activation message, the number of transmissions is set. The information indicating the time when the wireless communication of the wireless device slave unit is cut off is identified, and the activation message is transmitted to the terminal network control device at this identified time, so the wireless communication from the wireless device slave unit and the wireless device master unit are performed. There will be no collision with the response transmission from the terminal, and the communication error will not occur due to the timeout monitoring of the reception waiting time of the terminal network control device.

Further, according to the present invention, the wireless device slave unit continuously transmits the activation message to which the information indicating the number of times of transmission is added a predetermined number of times, and when the wireless device master unit receives the activation message, it indicates the number of transmissions. If the time when the wireless communication of the wireless device slave unit is cut off is identified from the information and this identified time is longer than the dialing time of the terminal network control device, it is activated at the time obtained by subtracting the dialing time from the identification time. Since the message is sent to the terminal network controller, the wireless communication from the wireless device slave unit and the response transmission from the wireless device master unit will not collide, and the reception waiting time of the terminal network controller will be monitored for timeout. It is possible to reduce the total communication time by the dialing operation time as well as the communication error.

According to the present invention, when the wireless device master device continuously transmits the activation message to the wireless device slave device a plurality of times and the wireless device slave device receives the activation message, the wireless communication carrier from the wireless device master device is transmitted. Since the activation message is sent to the terminal device after the disconnection of the wireless device is detected, the wireless communication from the wireless device master unit and the response transmission from the wireless device slave unit will not collide, and the reception waiting time of the terminal device will also be eliminated. Communication error will not occur due to the timeout monitoring of.

Further, according to the present invention, when the wireless device slave unit continuously transmits the activation message to the wireless device master unit a plurality of times and the wireless device master unit receives the activation message, the wireless device slave unit wirelessly transmits the activation message. After the disconnection of the communication carrier is detected, the activation message is transmitted to the terminal network control device, so that the wireless communication from the wireless device slave unit and the response transmission from the wireless device master unit do not collide, and the terminal device There is no possibility that a communication error will occur due to the timeout monitoring of the reception waiting time of the network control device.

[Brief description of drawings]

FIG. 1 is a block diagram showing a configuration of a wireless device used in a wireless automatic meter reading system according to an embodiment of the present invention.

FIG. 2 is a block diagram showing a general configuration of a wireless automatic meter reading system.

FIG. 3 is a timing chart showing the operation of no ringing communication of the wireless automatic meter reading system shown in FIG.

FIG. 4 is a timing diagram showing an operation of terminal calling communication of the wireless automatic meter reading system shown in FIG.

FIG. 5 is a timing diagram showing an operation of a terminal calling communication according to another embodiment of the present invention.

FIG. 6 is a timing diagram showing an operation of no ringing communication according to still another embodiment of the present invention.

FIG. 7 is a timing diagram showing an operation of a terminal calling communication according to another embodiment of the present invention.

FIG. 8 is a timing diagram showing an operation procedure during conventional non-ringing communication.

[Explanation of symbols]

 1 wireless device 3 wireless circuit 4 interface circuit 5 CPU 6 timer circuit 7 1 telegram time length setting circuit 8 transmission count setting circuit 9 carrier detection circuit 10 dialing operation time setting circuit 11 center device 16 terminal network control device 17 wireless device parent Machine 18 wireless device slave unit 19 meter

─────────────────────────────────────────────────── ─── Continuation of the front page (51) Int.Cl. ⁶ Identification code Internal reference number FI Technical indication location H04Q 9/00 311 H (72) Inventor Jun Fujiwara 2-3 Nakase, Mihama-ku, Chiba-shi, Chiba Tokyo Gas Information Technology Research Institute Co., Ltd. (72) Inventor Tetsuya Oki 70 Yanagimachi, Saiwai-ku, Kawasaki-shi, Kanagawa, Toshiba Yanagimachi Co., Ltd. (72) Inventor Tetsuya Hara 70 Yanagicho, Sachi-ku, Kawasaki-shi, Kanagawa Toshiba Yanagimachi Factory

Claims (5)

[Claims] 1. A wireless device master unit is connected to a telephone line via a terminal network controller, and a wireless device slave unit connected to the wireless unit master unit via a wireless line is connected to a terminal unit. In a wireless automatic meter reading system for collecting information including meter reading data of a terminal device from a telephone line by no ringing communication, and collecting information from the terminal device by terminal calling communication from the terminal device via a telephone line, the wireless device parent A receiving unit for receiving a start message from the terminal network controller, an information adding unit for adding information indicating the number of transmissions to the start message received by the receiving unit, and the information adding unit for adding the information. And a continuous transmission means for continuously transmitting a predetermined activation message to the wireless device slave device a predetermined number of times continuously, wherein the wireless device slave device is transmitted from the wireless device master device by an intermittent carrier sense operation. The receiving means for receiving the activation message, the information detecting means for detecting the information indicating the number of transmissions in the activation message received by the receiving means, and the wireless device wireless device wireless device based on the information detected by the information detecting means. A wireless automatic meter-reading system comprising: an identification unit that identifies a time when communication is cut off; and a transmission unit that transmits the activation message to the terminal device at the time identified by the identification unit. 2. A wireless device master unit is connected to a telephone line via a terminal network controller, and a wireless device slave unit connected to the wireless unit master unit via a wireless line is connected to a terminal unit. A wireless automatic meter reading system for collecting information including meter reading data of a terminal device from a telephone line by no ringing communication, and collecting information from the terminal device by terminal calling communication from the terminal device through a telephone line, The machine includes a receiving means for receiving a start message from the terminal device, an information adding means for adding information indicating the number of transmissions to the start message received by the receiving means, and a start message for adding the information by the information adding means. And a continuous transmission means for continuously transmitting a predetermined number of times to the wireless device master device, wherein the wireless device master device is activated from the wireless device slave device by an intermittent carrier sense operation. The receiving means for receiving the sentence, the information detecting means for detecting the information indicating the number of transmissions in the activation message received by the receiving means, and the wireless communication of the wireless device slave unit from the information detected by the information detecting means. A wireless automatic meter-reading system comprising: an identifying unit for identifying a disconnection time; and a transmitting unit for transmitting the activation message to the terminal network control device at the time identified by the identifying unit. 3. A wireless device master unit is connected to a telephone line via a terminal network control device, and a wireless device slave unit connected to the wireless device master unit via a wireless line is connected to a terminal device. A wireless automatic meter reading system for collecting information including meter reading data of a terminal device from a telephone line by no ringing communication, and collecting information from the terminal device by terminal calling communication from the terminal device through a telephone line, The machine includes a receiving means for receiving a start message from the terminal device, an information adding means for adding information indicating the number of transmissions to the start message received by the receiving means, and a start message for adding the information by the information adding means. And a continuous transmission means for continuously transmitting a predetermined number of times to the wireless device master device, wherein the wireless device master device is activated from the wireless device slave device by an intermittent carrier sense operation. The receiving means for receiving the sentence, the information detecting means for detecting the information indicating the number of transmissions in the activation message received by the receiving means, and the wireless communication of the wireless device slave unit from the information detected by the information detecting means. When the identification means for identifying the disconnection time and the time identified by the identification means are longer than the dialing time to the telephone line of the terminal network control device, the dialing time is calculated from the time identified by the identification means. And a transmission means for transmitting the activation message to the terminal network control device in a time period after subtracting. 4. A wireless device master unit is connected to a telephone line via a terminal network control device, and a wireless device slave unit connected to the wireless device master unit via a wireless line is connected to a terminal device. In a wireless automatic meter reading system for collecting information including meter reading data of a terminal device from a telephone line by no ringing communication, and collecting information from the terminal device by terminal calling communication from the terminal device via a telephone line, the wireless device parent A receiver has a receiving means for receiving a startup message from the terminal network control device, and a continuous transmitting means for continuously transmitting the startup message received by the receiving device to the wireless device slave device a plurality of times, The wireless device slave unit, receiving means for receiving the activation message from the wireless device master unit by intermittent carrier sense operation, and detection means for detecting disconnection of the wireless communication carrier from the wireless device master unit, After the detection means detects the disconnection of the carrier, the wireless automatic meter reading system, comprising a transmitting means for transmitting the activation message to the terminal device. 5. A wireless device master unit is connected to a telephone line via a terminal network controller, and a wireless device slave unit connected to the wireless unit master unit via a wireless line is connected to a terminal unit. A wireless automatic meter reading system for collecting information including meter reading data of a terminal device from a telephone line by no ringing communication, and collecting information from the terminal device by terminal calling communication from the terminal device through a telephone line, And a continuous transmission unit that continuously transmits the activation message received by the reception unit to the wireless device master unit a plurality of times, the receiving unit receiving the activation message from the terminal device. The device includes a receiving means for receiving the activation message from the wireless device slave device by the intermittent carrier sense operation, a detecting means for detecting disconnection of the wireless communication carrier from the wireless device slave device, and the detecting means. After There detecting the disconnection of the carrier, the wireless automatic meter reading system, comprising a transmitting means for transmitting the activation message to the terminal for network controller.