JPH0935170A - Wireless communication system - Google Patents

Abstract

(57) [Summary] [Purpose] When synchronization fails, it is quickly and reliably restored. [Structure] The synchronization failure measuring means A34 counts the number of times that intermittent synchronization fails a predetermined number of times and, when the number of times reaches a predetermined number of times, outputs a signal to that effect. Upon receiving the output signal of the synchronization measuring means A26, the operation restoring means A24 returns the wireless communication means A5 to the "initial synchronization mode". On the other hand, when the operation restoring means A24 receives the output signal from the synchronization failure measuring means A34, it returns the wireless communication means A5 to the "sleep mode". Here, the wireless communication means A5 can notify the data collection means 4 through the T-NCU 3 when the operation recovery means A24 returns the operation of the device to the "initial synchronization mode", and the operation recovery means A24. When the device returns the operation of the device to the "sleep mode", the fact can be notified to the data collecting means 4 through the T-NCU 3.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a periodic synchronization method in a wireless communication system for intermittent communication, and more particularly to a restoration method when initial synchronization or normal intermittent synchronization fails. .

[0002]

2. Description of the Related Art A method of recovering from a failure in synchronization of wireless intermittent communication when a conventional wireless communication system is applied to an automatic meter reading system such as a water meter will be described with reference to FIGS. In FIG. 6, reference numeral 1 is a meter having a communication function with the outside for measuring the flow rate value and performing remote control. Reference numeral 2 is a wireless communication means B connected to the meter 1 and having a wireless communication function. Reference numeral 3 is a telephone line network control unit (T-NCU) for communicating with a telephone line. Reference numeral 4 is a data collecting means for performing communication by the T-NCU 3 via a telephone line. Reference numeral 5 is a wireless communication means A which is connected to the T-NCU 3 and wirelessly communicates with the wireless communication means B2.

Here, the wireless communication means B2 and the wireless communication means A5 may be configured to have the meter 1 and the T-NCU 3 inside. Reference numeral 6 is a first operation mode control unit.
Reference numeral 7 is a second operation mode controller. Reference numeral 8 is a third operation mode control unit. 9 is a central control unit. Reference numeral 10 is a wireless communication unit. Reference numeral 11 is a start signal detecting means. First operation mode control unit 6, second operation mode control unit 7, third
Operation mode controller 8, central controller 9, wireless communication unit 1
0, the activation signal detection means 11 is inside the wireless communication means A5. Reference numeral 12 is a first operation mode control unit. Reference numeral 13 is a second operation mode control unit. Reference numeral 14 is a third operation mode control unit. Reference numeral 15 is a central control unit. Reference numeral 16 is a wireless communication unit. Reference numeral 17 is a start signal detecting means. The first operation mode control unit 12, the second operation mode control unit 13, the third operation mode control unit 14, the central control unit 15, the wireless communication unit 16, and the activation signal detection unit 17 are provided inside the wireless communication unit B2. is there.

In FIG. 6, the wireless communication means A5 and the wireless communication means B2 are brought into the first operation mode by the first operation mode control unit 6 and the first operation mode control unit 12 after the power is turned on. This first mode of operation is called "sleep mode". This "sleep mode" is an ultra-low power consumption operation state in which all the power supplies of the wireless unit that performs wireless communication with the wireless communication means on the partner side and the wired unit that communicates with the meter 1 or the T-NCU 3 are turned off. From this "sleep mode", wireless communication means A5 and wireless communication means B2
Is set to the second operation mode by the second operation mode control unit 7 and the second operation mode control unit 13 by a switch or the like. Input detection of switches and the like is performed by the activation signal detection means 11 and the activation signal detection means 17. This second operating mode is called the "initial synchronization mode". This "initial synchronization mode" is a mode in which wireless communication between the wireless communication means A5 and the wireless communication means B2 is synchronized.
For example, the wireless communication means A5 is in the "initial synchronization mode".
At, the wireless communication unit 10 enters the continuous transmission state of the initial synchronization signal. On the other hand, the wireless communication unit B2 is in the continuous reception state by the wireless communication unit 16 in the "initial synchronization mode". When the wireless communication unit A2 receives the initial synchronization signal sent from the wireless communication unit B5 at the wireless communication unit 16, the wireless communication unit A2 transmits a response signal to the initial synchronization signal from the wireless communication unit 16 to the wireless communication unit B5. The third operation mode control unit 14 shifts to the third operation mode. This third operation mode is called "data communication mode". A series of operations of the wireless communication means B2 is controlled by the central controller 15. On the other hand, after transmitting the initial synchronization signal to the wireless communication means B2, the wireless communication means A5 waits for reception of the initial synchronization response signal sent from the wireless communication means B2.

After the initial synchronization response signal is received by the wireless communication section 10, the "data communication mode" is entered. The series of operations of the wireless communication means A5 is performed by the central controller 9
Controlled by. In the "data communication mode", the wireless communication unit 10 and the wireless communication unit 16 operate intermittently. That is,
The wireless communication unit 10 and the wireless communication unit 16 are powered on only at the time of a periodical clock adjustment operation or when communication is started from the meter 1 or the data collection unit 4 and the data is transmitted to the wireless communication unit on the other side. Others are low power operation.
In this "data communication mode", there are cases where periodic synchronization communication fails. in this case,
It suffices if the synchronized communication can be performed again and recovered. However, if the synchronized communication fails for a certain number of times in succession, the clocks of the wireless communication means A5 and the wireless communication means B2 are offset, and wireless communication cannot be performed. In this case, the wireless communication means A5 indicates that it is NG for the synchronized communication by TN.
After notifying the data collecting means 4 through the CU 3, the process returns to the "initial synchronization mode".

Next, such an automatic meter reading system will be described more specifically with reference to FIG. In FIG. 7, reference numeral 1 denotes a meter having a communication function with the outside for measuring a flow rate value and performing remote control. Reference numeral 2 is a wireless communication means B connected to the meter 1 and having a wireless communication function. Reference numeral 3 is a telephone line network control unit (T-NCU) for communicating with a telephone line. Reference numeral 4 is a data collecting means for performing communication by the T-NCU 3 via a telephone line. Reference numeral 5 is a wireless communication means A which is connected to the T-NCU 3 and wirelessly communicates with the wireless communication means B2.

Here, the wireless communication means B2 and the wireless communication means A5 may have a structure in which the meter 1 and the T-NCU 3 are respectively provided. Reference numeral 18 denotes a timer A that measures a predetermined time and outputs a signal to that effect each time the measurement is completed. Reference numeral 19 is a wireless transmission / reception means A for performing wireless transmission / reception. Reference numeral 20 is carrier determination means for determining the presence or absence of a carrier and outputting the result. Reference numeral 21 is a counter A which counts a predetermined number of times. Reference numeral 22 is a synchronization signal storage means in which a synchronization signal is stored. Reference numeral 23 is a synchronization response signal determining means for analyzing a response signal from the other party to the synchronization signal. Reference numeral 24 is an operation restoring means A for resetting the operation of the device and returning it to the initial state. Reference numeral 25 is a control means A for controlling a series of operations of the wireless communication means A5. Reference numeral 26 is a synchronization measuring means A for measuring the number of times synchronization has failed.

Here, the timer A18, the wireless transmission / reception means A19, the carrier determination means 20, the synchronization signal storage means 2
2, the synchronization response signal determination means 23, the control means A25, and the synchronization measurement means A26 are inside the wireless communication means A5. The operation recovery means A24 is inside the control means A25, and the counter A21 is inside the synchronization measuring means A26. A timer B 27 measures a predetermined time and outputs a signal to that effect each time the measurement is completed. 28 is an operation recovery means B for resetting the operation of the device and returning it to the initial state.
It is. Reference numeral 29 is a wireless transmission / reception means B for performing wireless transmission / reception. Reference numeral 30 is a sync signal determination means for analyzing a sync signal sent from the other party. Reference numeral 31 is a counter B that counts a predetermined number of times. Reference numeral 32 is a control means B for controlling a series of operations of the wireless communication means B2. Reference numeral 33 is a synchronization measuring means B for measuring the number of times synchronization has failed.

Here, the timer B27, the wireless transmission / reception means B29, the synchronization signal determination means 30, the control means B32, and the synchronization measurement means B33 are inside the wireless communication means B2. The operation recovery means B28 is inside the control means B32, and the counter B31 is inside the synchronization measuring means B33.

In FIG. 7, the wireless communication means A5 and the wireless communication means B2 enter the "sleep mode" after the power is turned on. From the "sleep mode", the wireless communication means A5 and the wireless communication means B2 are switched to the "initial synchronization mode" by a switch or the like. This is an operation for performing the first synchronization because the wireless communication means A5 and the wireless communication means B2 are not yet synchronized with each other. The wireless communication means A5 activates the timer A18 after the operation is restored. The timer A18 measures a predetermined time and outputs a signal to that effect each time the measurement is completed. Here, the predetermined time is 5 seconds. The carrier determination means 20 receives the signal output from the timer A18 and checks whether the frequency at which communication is to be performed is being used by another system. That is, it is checked whether or not there is a radio wave having a frequency for communication. This is called "carrier sense". The carrier determination means 20 outputs the result of carrier sense. The wireless transmission / reception unit A19 transmits the initial synchronization signal stored in the synchronization signal storage unit 22 from the antenna when the carrier determination unit 20 outputs a signal indicating "no radio wave". After the transmission, the wireless transmission / reception means A19 shifts to the reception state for receiving the initial synchronization response signal from the other party.

At this time, the carrier determining means 20 checks by carrier sense whether the initial synchronization response signal is transmitted from the other party. As a result of the carrier sense, when the carrier determination means 20 determines that “there is a radio wave”, the wireless transmission / reception means A19 receives the initial synchronization response signal and outputs the received data to the synchronization response signal determination means 23.
The synchronization response signal judging means 23 analyzes the received data and judges whether it is correct or not. If the received data is correct, the synchronization response signal determination means 23 outputs a signal to that effect. The control means A25 receives the output of the synchronization response signal determination means 23, ends the "initial synchronization mode" of the wireless communication means A5, and shifts to the "data communication mode".

At this time, the control means A25 controls the timer A18.
Change the measurement time of from 5 seconds to another time. Here, the other time is 10 minutes. When the carrier determination unit 20 cannot transmit the initial synchronization signal by determining that there is an electric wave in the carrier sense before the initial synchronization signal is transmitted, the carrier determination unit 20 detects the carrier sense before receiving the initial synchronization response signal. If it is determined that there is no radio wave, or if the synchronization response signal determination means 23 determines that the received data is not the correct initial synchronization response signal, the control means A25 repeats the initial synchronization operation again. That is, a series of operations from carrier sensing is repeated in response to the signal output by the timer A18 every 5 seconds.

Next, the "initial synchronization mode" of the wireless communication means B2 will be described. After the operation is restored, the wireless communication means B2 puts the wireless transmission / reception means B29 into the continuous reception state, and becomes ready to receive the initial synchronization signal sent from the other side, that is, the wireless communication means A5. Wireless transmitting / receiving means B29
When receiving the initial synchronization signal, outputs the received data to the synchronization signal determination means 30. Sync signal determination means 30
Analyzes whether the received data is correct. Then, an initial synchronization response signal including the result is created and transmitted from the wireless transmission / reception means B29. When the synchronization signal determination means 30 determines that the initial synchronization signal received by the wireless transmission / reception means B29 is correct, the wireless communication means B2 terminates the "initial synchronization mode" after transmitting the initial synchronization response signal and the "data communication mode". Move to.

At this time, the control means B32 controls the timer B27.
Start. The timer B27 starts measuring a predetermined time. This predetermined time is assumed to be equal to the time measured by the timer A18 of the wireless communication means A5 after the end of the initial synchronization, and here it is set to 10 minutes. When the synchronization signal determination means 30 determines that the initial synchronization signal received by the wireless transmission / reception means B29 is not correct, the wireless communication means B2 performs continuous reception operation again after transmitting the initial synchronization response signal and is transmitted from the wireless communication means A5. Wait for the next initial synchronization signal to come.

Next, the "data communication mode" after the "initial synchronization mode" is completed will be described. Here, it is assumed that the intermittent operation is synchronized every 10 minutes. The timer A18 of the wireless communication means A5 repeatedly measures 10 minutes and outputs a signal to that effect each time the measurement is completed. The carrier determination means 20 receives the signal output by the timer A18, performs carrier sensing, and outputs the result. The wireless transmission / reception unit A19 transmits the synchronization signal stored in the synchronization signal storage unit 22 from the antenna when the carrier determination unit 20 outputs a signal indicating "no radio wave". After the transmission, the wireless transmission / reception means A19 shifts to the reception state for receiving the synchronization response signal from the other party.

At this time, the carrier determining means 20 checks by carrier sense whether the synchronization response signal is transmitted from the other party. As a result of the carrier sense, when the carrier determination means 20 determines that “there is a radio wave”, the wireless transmission / reception means A19 receives the synchronization response signal and outputs the received data to the synchronization response signal determination means 23. The synchronization response signal judging means 23 analyzes the received data and judges whether it is correct or not. If the received data is correct, the synchronization response signal determination means 23 outputs a signal to that effect. Control means A2
5 receives the output of the synchronization response signal determination means 23, completes the wireless communication operation of the wireless communication means A5, and waits for the output of the next measurement of the timer A18. If the carrier determination unit 20 determines that there is an electric wave in the carrier sense before transmitting the synchronization signal and cannot transmit the synchronization signal, the carrier determination unit 20 performs the carrier sense before receiving the synchronization response signal as “no radio wave”. If the synchronization response signal determination means 23 determines that the received data is not a correct synchronization response signal, the carrier determination means 20 and the synchronization response signal determination means 23 send a signal to that effect of the synchronization measurement means A26. Output to the internal counter A21. Each time the counter A21 receives an output signal from the carrier determination means 20 or the synchronization response signal determination means 23, it counts the number of times.

That is, the counter A21 counts the number of times that synchronization is not normally performed every 10 minutes. Here, when the synchronization is normally completed, the synchronization response signal determining means 23 outputs a signal to that effect to the synchronization measuring means A26, and the synchronization measuring means A26 causes the counter A to count.
It means that the count up to 21 is cleared. When the count of the counter A21 reaches a predetermined number of times, the synchronization measuring means A26 sends a signal to that effect to the control means A2.
5 Output to the operation recovery means A24 inside. Upon receiving the output signal of the synchronization measuring means A26, the operation restoring means A24 returns the wireless communication means A5 to the "initial synchronization mode".

That is, if the synchronization for every 10 minutes is not normally performed a fixed number of times in succession, the process returns to the "initial synchronization mode". Here, it is also possible to inform the data collecting means 4 through the T-NCU 3 that the synchronization correction has failed before returning to the initial synchronization operation. In this notification method, notification can be made at the same time as returning to the "initial synchronization mode", or notification can be made before returning to the "initial synchronization mode". That is, when the count of the counter A21 reaches the predetermined first number, the data collection means 4 is notified through the T-NCU 3, and thereafter the counter A21 continues counting and the count is larger than the first number. It is also possible to return to the "initial synchronization mode" when the second number of times is reached.

Next, the "data communication mode" of the wireless communication means B2 will be described. After the completion of the initial synchronization, the timer B27 repeatedly measures 10 minutes in the wireless communication means B2. The timer B27 outputs a signal to that effect every time measurement of 10 minutes is completed. Wireless transmitting / receiving means B29
When it receives the output signal of the timer B27, it shifts to the receiving state and receives the synchronization signal from the other side, that is, the wireless communication means A5. When the wireless transmission / reception means B29 receives the synchronization signal, the reception data is received by the synchronization signal determination means 30.
Output to The synchronization signal determination means 30 analyzes whether the received data is correct. Then, a synchronization response signal including the result is created and transmitted from the wireless transmission / reception means B29. When the synchronization signal determination means 30 determines that the synchronization signal received by the wireless transmission / reception means B29 is correct, it outputs a signal to that effect. The control unit B32 receives the output of the synchronization signal determination unit 30, ends the wireless communication operation of the wireless communication unit B2, and waits for the output of the next measurement of the timer B27. Even when the synchronization signal determination means 30 determines that the synchronization signal received by the wireless transmission / reception means B29 is incorrect, the wireless communication means B2 operates intermittently after transmitting the synchronization response signal.

On the other hand, the synchronization signal determination means 30 outputs a signal to that effect when the synchronization signal received by the wireless transmission / reception means B29 is not correct or when the wireless transmission / reception means B29 cannot receive the synchronization signal. The counter B31 inside the synchronization measuring means B33 is the synchronization signal determining means 3
Each time the output signal from 0 is received, the number of times is counted. That is, the counter B31 counts the number of times that synchronization is not normally performed every 10 minutes. Here, when the synchronization is normally completed, the synchronization signal determination means 30 outputs a signal to that effect to the synchronization measurement means B33, and the synchronization measurement means B33 clears the count of the counter B31 up to that point. Synchronous measuring means B
When the count of the counter B31 reaches a predetermined number, 33 outputs a signal to that effect to the operation restoring means B28 inside the control means B32. When the operation restoring means B28 receives the output signal of the synchronization measuring means B33, the wireless communication means B2.
To the "initial synchronization mode". That is, 1
If the synchronization every 0 minutes is not normally performed a fixed number of times in succession, the mode returns to the "initial synchronization mode" and the wireless communication means B2 enters the continuous reception state.

[0021]

However, the above-mentioned conventional configuration has a problem in dealing with the case where synchronization in the "data communication mode" every 10 minutes fails a plurality of times. That is, if the synchronization for every 10 minutes fails a plurality of times, it means that the device is placed in an environment where the radio wave propagation condition is obviously abnormal. In this case, if the synchronization fails every 10 minutes, "Initial synchronization mode"
In the conventional method of starting over from the beginning, there is a high possibility that synchronization will be lost again, resulting in a waste of current. Further, in such an environment where the radio wave propagation situation is bad, even initial synchronization may not be normally completed. In this case, the wireless communication unit B2 shifts to the "data communication mode" after transmitting the initial synchronization response signal, but the wireless communication unit A5 cannot receive the initial synchronization response signal and is in the "initial synchronization mode". It is also possible that it remains. In this case, the wireless communication means B2 and the wireless communication means A
There is a problem that the modes 5 are different and communication cannot be performed.

[0022]

In order to achieve the above object, the wireless communication system of the present invention is configured such that wireless communication means A and B for performing wireless communication with each other are wireless communication units for wireless data communication, and the wireless communication unit. Between the start signal detecting means for starting the device, the first operation mode controller for setting the start signal detecting means in the operating state and the wireless communication section in the non-operating state, and the wireless communication means A and B after the start signal is detected. A second operation mode control unit for performing initial synchronization for intermittent communication; a third operation mode control unit for intermittently performing synchronization correction at a predetermined time after completion of initial synchronization; A central control unit that controls each unit, and the central control unit stores the fact that the synchronization correction in the third operation mode control unit fails for a predetermined first time or a first number of times. The second operation mode control unit is operated, and further, a predetermined first time of synchronization correction in the third operation mode control unit or a second time in which a failure of a first number of times is predetermined or When the second number of times is reached, the first operation mode control section is operated.

Further, the central control unit stores the fact that the synchronization correction in the third operation mode control unit fails in the predetermined first time or the first number of times and stores the fact that the synchronization correction fails in the line terminal. It is also possible to have a configuration in which the second operation mode control unit is activated while notifying the device.

Further, the central control unit controls the synchronization correction in the third operation mode control unit at a predetermined first time or a predetermined number of failures at a predetermined second time or second time. When it reaches, it may be configured to notify the line terminal device of the failure of the synchronization correction and to activate the first operation mode control unit.

Further, wireless communication means A for performing wireless communication
And wireless communication means B for wirelessly performing data communication with the wireless communication means A and for transmitting information with the line terminal device, and the wireless communication means A and B wirelessly perform data communication. A start signal detecting unit for starting the wireless communication unit; a first operation mode control unit for setting the start signal detecting unit in an operating state and disabling the wireless communication unit; and wireless communication after the start signal is detected. A second operation mode control unit for performing initial synchronization for intermittent communication between the means A and B, and a third operation for intermittently performing synchronization correction at a predetermined time after completion of initial synchronization. The wireless communication means B includes a mode control unit and a central control unit that controls each unit. It may be configured to determine the loaded The information to communicate the work from the line terminal device.

Further, the central control section of the wireless communication means A has the operation after the synchronization correction in the third operation mode control section has failed for a predetermined time or a predetermined number of times in the wireless communication from the wireless communication means B. It is also possible to adopt a configuration in which it is determined by the information obtained.

Further, the wireless communication means A and B, which perform wireless communication with each other, have a wireless communication section for wirelessly performing data communication, a start signal detecting means for starting the wireless communication section, and the start signal detecting means in an operating state. A first operation mode control unit that puts the wireless communication unit into a non-operation state, and a second operation mode control unit that performs initial synchronization for intermittent communication between the wireless communication units A and B after detection of a start signal. And a third operation mode control unit that intermittently performs synchronization correction at predetermined time intervals after the completion of the initial synchronization, and a central control unit that controls each unit, and the central control unit includes the third control unit. When the signal of the initial synchronization communication of the second operation mode is received from the other party in the operation mode of No. 3, the time point is regarded as the end of the initial synchronization, and the third operation mode control unit is restarted. Rukoto can also.

[0028]

According to the present invention, with the above configuration, when the operation of the wireless unit is stopped and the activation signal is detected from the state of waiting for the detection of the activation signal, the wireless unit is activated to perform the initial synchronization, and the initial synchronization is completed. Then, the state is such that the synchronization correction is intermittently performed at every predetermined time, and if the synchronization correction fails for the predetermined first time or the first number of times or more, the operation of the wireless unit is stopped and the initial operation is performed again. The synchronization is performed, and when the failure phenomenon of the synchronization correction occurs for a predetermined second time or a second number of times, the state is automatically returned to the state of waiting for the start signal detection.

Further, when the activation signal is detected from the state in which the operation of the wireless unit is stopped and the activation signal is awaited to be detected, the wireless unit is activated to perform the initial synchronization, and the predetermined synchronization is completed. The synchronization correction is intermittently performed every time, and the synchronization correction is performed by the first predetermined
If the failure occurs during the time or the first number of times or more, the operation of the wireless unit is stopped, the fact is notified through the telephone line, and the initial synchronization is performed again. When it occurs the second number of times, it automatically returns to the state of waiting for the detection of the activation signal.

Further, when the operation of the wireless unit is stopped and the activation signal is detected from the state of waiting for the detection of the activation signal, the wireless unit is activated to perform the initial synchronization, and the predetermined synchronization is completed. When the synchronization correction is intermittently performed every time, and the synchronization correction fails for a predetermined first time or a first number of times or more, the operation of the wireless unit is stopped and the initial synchronization is performed again. When the synchronization correction failure phenomenon occurs for a predetermined second time or a second number of times, the fact is notified via the telephone line and the system automatically returns to the activation signal detection waiting state.

Further, when the operation of the wireless unit is stopped and the activation signal is detected from the state of waiting for the detection of the activation signal, the wireless unit is activated to perform the initial synchronization, and the predetermined synchronization is completed. When the synchronization correction is intermittently performed every hour, and the synchronization correction fails for a predetermined time or a certain number of times, the operation of the device connected to the line terminal device is performed from the center via the telephone line. It is decided based on the instruction.

Further, when the activation signal is detected from the state where the operation of the radio unit is stopped and the activation signal is awaiting detection, the radio unit is activated to perform the initial synchronization, and when the initial synchronization is completed, it is determined in advance. When the synchronization correction is intermittently performed every hour, and the synchronization correction fails for a predetermined time or number of times, the operation of the device connected to the meter is the side connected to the line terminal device. It is determined based on the information included in the intermittent synchronization correction signal from the device.

Further, when the activation signal is detected from the state in which the operation of the wireless unit is stopped and the activation signal is awaited to be detected, the wireless unit is activated to perform the initial synchronization, and when the initial synchronization is completed, it is determined in advance. The synchronization correction is intermittently performed every hour, and one of the equipment connected to the line terminal equipment and the equipment connected to the meter is in the state of performing initial synchronization, and the other intermittently. When the device in the state of performing the synchronization correction intermittently receives the initial synchronization signal from the device in the state of performing the initial synchronization in the state of performing the synchronization correction, the intermittent timing is reset and started.

[0034]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment in which the present invention is applied to an automatic meter reading system such as a water meter will be described below with reference to FIGS.

In FIG. 1, reference numeral 1 denotes a flow rate value,
It is a meter that has a communication function with the outside that performs remote control. Reference numeral 2 is a wireless communication means B connected to the meter 1 and having a wireless communication function. Reference numeral 3 is a telephone line network control unit (T-NCU) for communicating with a telephone line. 4 is T-N
It is a data collection means for performing communication by the CU 3 via a telephone line. 5 is connected to the T-NCU 3 and wireless communication means B
2 is a wireless communication means A that wirelessly communicates with Here, the wireless communication means B2 and the wireless communication means A5 are respectively the meters 1
It is also conceivable that the T-NCU3 and T-NCU3 are internally provided. Reference numeral 6 is a first operation mode control unit. Reference numeral 7 is a second operation mode controller. Reference numeral 8 is a third operation mode control unit. 9 is a central control unit. Reference numeral 10 is a wireless communication unit. Reference numeral 11 is a start signal detecting means. A first operation mode control unit 6, a second operation mode control unit 7, a third operation mode control unit 8,
Central control unit 9, wireless communication unit 10, activation signal detection means 11
Is inside the wireless communication means A5. Reference numeral 12 is a first operation mode control unit. Reference numeral 13 is a second operation mode control unit. Reference numeral 14 is a third operation mode control unit. Reference numeral 15 is a central control unit. Reference numeral 16 is a wireless communication unit. Reference numeral 17 is a start signal detecting means. First operation mode control unit 12, second
Operation mode controller 13, third operation mode controller 1
4, the central control unit 15, the wireless communication unit 16, and the activation signal detection unit 17 are inside the wireless communication unit B2.

In FIG. 1 of the first embodiment, after the wireless communication means A5 and the wireless communication means B2 are turned on, the first operation mode control section 6 and the first operation mode control section 12 perform the first operation. It becomes a mode. This first mode of operation is called "sleep mode". This "sleep mode" is an ultra-low power consumption operation state in which all the power supplies of the wireless unit that performs wireless communication with the wireless communication means on the partner side and the wired unit that communicates with the meter 1 or the T-NCU 3 are turned off. From this "sleep mode", the wireless communication means A5 and the wireless communication means B2 are brought into the second operation mode by the second operation mode control section 7 and the second operation mode control section 13 by means of a switch or the like. Input detection of switches and the like is performed by the activation signal detection means 11 and the activation signal detection means 17. This second operating mode is called the "initial synchronization mode". This "initial synchronization mode" is the wireless communication means A.
In this mode, the wireless communication between the wireless communication device 5 and the wireless communication means B2 is synchronized.

For example, the wireless communication means A5 is in the continuous transmission state of the initial synchronization signal by the wireless communication unit 10 in the "initial synchronization mode". On the other hand, the wireless communication means B
2 is the wireless communication unit 16 in the "initial synchronization mode"
Causes continuous reception. When the wireless communication unit A2 receives the initial synchronization signal sent from the wireless communication unit B5 at the wireless communication unit 16, the wireless communication unit A2 transmits a response signal to the initial synchronization signal from the wireless communication unit 16 to the wireless communication unit B5. The third operation mode control unit 14 shifts to the third operation mode. This third operation mode is called "data communication mode". A series of operations of the wireless communication means B2 is controlled by the central controller 15.

On the other hand, the wireless communication means A5 is the wireless communication means B.
After transmitting the initial synchronization signal to the wireless communication terminal 2, the system waits to receive the initial synchronization response signal sent from the wireless communication means B2. Then, after the initial synchronization response signal is received by the wireless communication unit 10, the "data communication mode" is entered. The series of operations of the wireless communication means A5 is performed by the central controller 9
Controlled by. In the "data communication mode", the wireless communication unit 10 and the wireless communication unit 16 operate intermittently. That is,
The wireless communication unit 10 and the wireless communication unit 16 are powered on only at the time of a periodical clock adjustment operation or when communication is started from the meter 1 or the data collection unit 4 and the data is transmitted to the wireless communication unit on the other side. Others are low power operation.
In this "data communication mode", there are cases where periodic synchronization communication fails.

In this case, it suffices if the synchronous communication can be recovered again by recovering. However, if the synchronous communication fails for a certain number of times in succession, the clocks of the wireless communication means A5 and the wireless communication means B2 are deviated and the wireless communication is performed. become unable. In this case, the wireless communication means A5 and the wireless communication means B2 store the fact that the synchronization is impossible as an NG for the synchronization communication, return to the "initial synchronization mode", and perform the initial synchronization again. When the number of times synchronization is impossible in the "data communication mode" reaches a predetermined number while repeating such operations, the wireless communication means A5 and the wireless communication means B2 return to the "sleep mode".

Next, the automatic meter reading system of the first embodiment will be described more specifically with reference to FIG. FIG.
, The T-NCU 3 of FIG. 1, the data collection means 4,
The meter 5 is omitted. In FIG. 2, reference numeral 2 is a wireless communication means B having a wireless communication function on the meter side. Reference numeral 5 is a wireless communication means A connected to a telephone line and wirelessly communicating with the wireless communication means B2. A timer A 18 measures a predetermined time and outputs a signal to that effect each time the measurement is completed.
It is. Reference numeral 19 is a wireless transmission / reception means A for performing wireless transmission / reception. Reference numeral 20 is carrier determination means for determining the presence or absence of a carrier and outputting the result. Reference numeral 21 is a counter A which counts a predetermined number of times. Reference numeral 22 is a synchronization signal storage means in which a synchronization signal is stored. Reference numeral 23 is a synchronization response signal determining means for analyzing a response signal from the other party to the synchronization signal. Reference numeral 24 is an operation restoring means A for changing the operation of the device. 25 is a wireless communication means A
5 is a control means A for controlling a series of operations of 5. Reference numeral 26 is a synchronization measuring means A for measuring the number of times synchronization has failed. Reference numeral 34 is a synchronization failure measuring means A for measuring the number of times synchronization is impossible.

Here, the timer A18, the wireless transmission / reception means A19, the carrier determination means 20, the synchronization signal storage means 2
2, the synchronization response signal determination means 23, the control means A25, the synchronization measurement means A26, and the synchronization failure measurement means A34 are inside the wireless communication means A5. The operation recovery means A24 is inside the control means A25, and the counter A21 is inside the synchronization measuring means A26. A timer B 27 measures a predetermined time and outputs a signal to that effect each time the measurement is completed. Reference numeral 28 is an operation restoring means B for resetting the operation of the device and returning it to the initial state. Reference numeral 29 is a wireless transmission / reception means B for performing wireless transmission / reception. Reference numeral 30 is a sync signal determination means for analyzing a sync signal sent from the other party.
Reference numeral 31 is a counter B that counts a predetermined number of times. Reference numeral 32 is a control means B for controlling a series of operations of the wireless communication means B2. Reference numeral 33 is a synchronization measuring means B for measuring the number of times synchronization has failed. Reference numeral 35 is a synchronization failure measuring means B for measuring the number of times synchronization is impossible.

Here, the timer B27, the wireless transmission / reception means B29, the synchronization signal determination means 30, the control means B32, the synchronization measurement means B33, and the synchronization failure measurement means B35 are inside the wireless communication means B2. The operation recovery means B28 is inside the control means B32, and the counter B31 is inside the synchronization measuring means B33.

In FIG. 2, the wireless communication means A5 and the wireless communication means B2 enter the "sleep mode" after the power is turned on. From the "sleep mode", the wireless communication means A5 and the wireless communication means B2 are switched to the "initial synchronization mode" by a switch or the like. This is an operation for performing the first synchronization because the wireless communication means A5 and the wireless communication means B2 are not yet synchronized with each other. The wireless communication means A5 activates the timer A18 after the operation is restored. The timer A18 measures a predetermined time and outputs a signal to that effect each time the measurement is completed. Here, the predetermined time is 5 seconds. The carrier determination means 20 receives the signal output from the timer A18 and checks whether the frequency at which communication is to be performed is being used by another system.

That is, the presence / absence of radio waves having a frequency for communication is checked. This is called "carrier sense". The carrier determination means 20 outputs the result of carrier sense. The wireless transmission / reception means A19 outputs the synchronization signal storage means 22 when the carrier determination means 20 outputs a signal indicating "no radio wave".
The initial synchronization signal stored in is transmitted from the antenna. After the transmission, the wireless transmission / reception means A19 shifts to the reception state for receiving the initial synchronization response signal from the other party. At this time, the carrier determination means 20 checks by carrier sense whether the initial synchronization response signal is transmitted from the other party. As a result of the carrier sense, when the carrier determination means 20 determines that “there is a radio wave”, the wireless transmission / reception means A19 receives the initial synchronization response signal and outputs the received data to the synchronization response signal determination means 23. The synchronization response signal judging means 23 analyzes the received data and judges whether it is correct or not. If the received data is correct, the synchronization response signal determination means 23 outputs a signal to that effect. Control means A
25 receives the output of the synchronization response signal determination means 23 and ends the "initial synchronization mode" of the wireless communication means A5 and shifts to the "data communication mode".

At this time, the control means A25 uses the timer A18.
Change the measurement time of from 5 seconds to another time. Here, the other time is 10 minutes. When the carrier determination unit 20 cannot transmit the initial synchronization signal by determining that there is an electric wave in the carrier sense before the initial synchronization signal is transmitted, the carrier determination unit 20 detects the carrier sense before receiving the initial synchronization response signal. If it is determined that there is no radio wave, or if the synchronization response signal determination means 23 determines that the received data is not the correct initial synchronization response signal, the control means A25 repeats the initial synchronization operation again. That is, a series of operations from carrier sensing is repeated in response to the signal output by the timer A18 every 5 seconds. Next, the "initial synchronization mode" of the wireless communication means B2 will be described. The wireless communication means B2 is the wireless transmission / reception means B after the operation is restored.
29 is set to the continuous reception state, and the receiving system receives the initial synchronization signal sent from the other side, that is, the wireless communication means A5. Upon receiving the initial synchronization signal, the wireless transmission / reception means B29 outputs the received data to the synchronization signal determination means 30. The synchronization signal determination means 30 analyzes whether the received data is correct. Then, an initial synchronization response signal including the result is created and transmitted from the wireless transmission / reception means B29. When the synchronization signal determination means 30 determines that the initial synchronization signal received by the wireless transmission / reception means B29 is correct,
After transmitting the initial synchronization response signal, the wireless communication means B2 ends the "initial synchronization mode" and shifts to the "data communication mode".

At this time, the control means B32 controls the timer B27.
Start. The timer B27 starts measuring a predetermined time. This predetermined time is assumed to be equal to the time measured by the timer A18 of the wireless communication means A5 after the end of the initial synchronization, and here it is set to 10 minutes. When the synchronization signal determination means 30 determines that the initial synchronization signal received by the wireless transmission / reception means B29 is not correct, the wireless communication means B2 performs continuous reception operation again after transmitting the initial synchronization response signal and is transmitted from the wireless communication means A5. Wait for the next initial synchronization signal to come.

Next, the "data communication mode" after the "initial synchronization mode" is completed will be described. Here, it is assumed that the intermittent operation is synchronized every 10 minutes. The timer A18 of the wireless communication means A5 repeatedly measures 10 minutes and outputs a signal to that effect each time the measurement is completed. The carrier determination means 20 receives the signal output by the timer A18, performs carrier sensing, and outputs the result. The wireless transmission / reception unit A19 transmits the synchronization signal stored in the synchronization signal storage unit 22 from the antenna when the carrier determination unit 20 outputs a signal indicating "no radio wave". After the transmission, the wireless transmission / reception means A19 shifts to the reception state for receiving the synchronization response signal from the other party.

At this time, the carrier determination means 20 checks by carrier sense whether the synchronization response signal is transmitted from the other party. As a result of the carrier sense, when the carrier determination means 20 determines that “there is a radio wave”, the wireless transmission / reception means A19 receives the synchronization response signal and outputs the received data to the synchronization response signal determination means 23. The synchronization response signal judging means 23 analyzes the received data and judges whether it is correct or not. If the received data is correct, the synchronization response signal determination means 23 outputs a signal to that effect. Control means A2
5 receives the output of the synchronization response signal determination means 23, completes the wireless communication operation of the wireless communication means A5, and waits for the output of the next measurement of the timer A18. If the carrier determination unit 20 determines that there is an electric wave in the carrier sense before transmitting the synchronization signal and cannot transmit the synchronization signal, the carrier determination unit 20 performs the carrier sense before receiving the synchronization response signal as “no radio wave”. If the synchronization response signal determination means 23 determines that the received data is not a correct synchronization response signal, the carrier determination means 20 and the synchronization response signal determination means 23 send a signal to that effect of the synchronization measurement means A26. Output to the internal counter A21. Each time the counter A21 receives an output signal from the carrier determination means 20 or the synchronization response signal determination means 23, it counts the number of times.

That is, the counter A21 counts the number of times that synchronization is not normally performed every 10 minutes. Here, when the synchronization is normally completed, the synchronization response signal determining means 23 outputs a signal to that effect to the synchronization measuring means A26, and the synchronization measuring means A26 causes the counter A to count.
It means that the count up to 21 is cleared. When the count of the counter A21 reaches a predetermined number of times, the synchronization measuring means A26 sends a signal to that effect to the synchronization failure measuring means A34 and the operation restoring means A inside the control means A25.
24. The synchronization failure measuring means A34 counts the number of output signals of the synchronization measuring means A26, and when the count reaches a predetermined number, outputs a signal to that effect to the operation restoring means A24 inside the control means A25.

That is, the synchronization failure measuring means A34 counts the number of times when the intermittent synchronization fails a predetermined number of times, and when the number of times reaches the predetermined number of times, that is, the synchronization depends on the radio wave propagation situation. When it is determined that the alignment will not be performed normally even if the alignment is further performed, a signal to that effect is output. Upon receiving the output signal of the synchronization measuring means A26, the operation restoring means A24 returns the wireless communication means A5 to the "initial synchronization mode". That is, 10
If the synchronization for each minute is not normally performed a certain number of times in succession, the process returns to the "initial synchronization mode".

On the other hand, the operation restoring means A24 receives the output signal from the synchronization failure measuring means A34, and then the wireless communication means A5.
To return to "sleep mode". Here, the wireless communication means A
5 can notify the data collecting means 4 through the T-NCU 3 of FIG. 1 when the operation returning means A24 returns the operation of the equipment to the "initial synchronization mode", and the operation returning means A24 can When returning the operation to the "sleep mode", the fact can be notified to the data collecting means 4 through the T-NCU 3 in FIG.

Next, the "data communication mode" of the wireless communication means B2 will be described. After the completion of the initial synchronization, the timer B27 repeatedly measures 10 minutes in the wireless communication means B2. The timer B27 outputs a signal to that effect every time measurement of 10 minutes is completed. Wireless transmitting / receiving means B29
When it receives the output signal of the timer B27, it shifts to the receiving state and receives the synchronization signal from the other side, that is, the wireless communication means A5. When the wireless transmission / reception means B29 receives the synchronization signal, the reception data is received by the synchronization signal determination means 30.
Output to The synchronization signal determination means 30 analyzes whether the received data is correct. Then, a synchronization response signal including the result is created and transmitted from the wireless transmission / reception means B29. When the synchronization signal determination means 30 determines that the synchronization signal received by the wireless transmission / reception means B29 is correct, it outputs a signal to that effect. The control unit B32 receives the output of the synchronization signal determination unit 30, ends the wireless communication operation of the wireless communication unit B2, and waits for the output of the next measurement of the timer B27. Even when the synchronization signal determination means 30 determines that the synchronization signal received by the wireless transmission / reception means B29 is incorrect, the wireless communication means B2 operates intermittently after transmitting the synchronization response signal.

On the other hand, the synchronization signal determination means 30 outputs a signal to that effect when the synchronization signal received by the wireless transmission / reception means B29 is not correct or when the wireless transmission / reception means B29 cannot receive the synchronization signal. The counter B31 inside the synchronization measuring means B33 is the synchronization signal determining means 3
Each time the output signal from 0 is received, the number of times is counted. That is, the counter B31 counts the number of times that synchronization is not normally performed every 10 minutes. Here, when the synchronization is normally completed, the synchronization signal determination means 30 outputs a signal to that effect to the synchronization measurement means B33, and the synchronization measurement means B33 clears the count of the counter B31 up to that point. Synchronous measuring means B
When the count of the counter B31 reaches a predetermined number, 33 outputs a signal to that effect to the synchronization failure measuring means B35 and the operation restoring means B28 inside the control means B32. The synchronization failure measurement means B35 counts the number of output signals of the synchronization measurement means B33, and when the count reaches a predetermined number, outputs a signal to that effect to the operation recovery means B28 inside the control means B32. That is, the synchronization failure measuring means B35 counts the number of times that the intermittent synchronization fails a predetermined number of times, and when the number of times reaches the predetermined number of times, that is, the synchronization is determined according to the radio wave propagation situation. When it is determined that the operation will not be performed normally even if the above operation is performed, a signal to that effect is output. Upon receiving the output signal of the synchronization measuring means B33, the operation restoring means B28 returns the wireless communication means B2 to the "initial synchronization mode". That is, when synchronization for every 10 minutes is not normally performed a fixed number of times in succession, the wireless communication means B2 returns to the "initial synchronization mode" and enters the continuous reception state. On the other hand, when the operation restoring means B28 receives the output signal from the synchronization failure measuring means B35, it returns the wireless communication means B2 to the "sleep mode".

On the other hand, the following method can be considered as a method of restoring the operation of the device. The method of the third embodiment will be described with reference to FIG. In FIG. 3, reference numeral 1 is a meter having a communication function with the outside for measuring the flow rate value and performing remote control. Reference numeral 2 is a wireless communication means B connected to the meter 1 and having a wireless communication function. Reference numeral 3 is a telephone line network control unit (T-NCU) for communicating with a telephone line. Reference numeral 4 is a data collecting means for performing communication by the T-NCU 3 via a telephone line. Reference numeral 5 is a wireless communication means A which is connected to the T-NCU 3 and wirelessly communicates with the wireless communication means B2. Reference numeral 18 denotes a timer A that measures a predetermined time and outputs a signal to that effect each time the measurement is completed. Reference numeral 19 is a wireless transmission / reception means A for performing wireless transmission / reception. Reference numeral 20 is carrier determination means for determining the presence or absence of a carrier and outputting the result. Reference numeral 21 is a counter A which counts a predetermined number of times. Reference numeral 22 is a synchronization signal storage means in which a synchronization signal is stored. Reference numeral 23 is a synchronization response signal determining means for analyzing a response signal from the other party to the synchronization signal. Reference numeral 24 is an operation restoring means A for changing the operation of the device. Reference numeral 25 is a control means A for controlling a series of operations of the wireless communication means A5. Reference numeral 26 is a synchronization measuring means A for measuring the number of times synchronization has failed. Reference numeral 36 is a synchronization failure selection means A for selecting a process in the case where synchronization cannot be achieved.

Here, the timer A18, the wireless transmission / reception means A19, the carrier determination means 20, the synchronization signal storage means 2
2, the synchronization response signal determination means 23, the control means A25, the synchronization measurement means A26, and the synchronization failure selection means A36 are inside the wireless communication means A5. The operation recovery means A24 is inside the control means A25, and the counter A21 is inside the synchronization measuring means A26. A timer B 27 measures a predetermined time and outputs a signal to that effect each time the measurement is completed. Reference numeral 28 is an operation restoring means B for resetting the operation of the device and returning it to the initial state. Reference numeral 29 is a wireless transmission / reception means B for performing wireless transmission / reception. Reference numeral 30 is a sync signal determination means for analyzing a sync signal sent from the other party.
Reference numeral 31 is a counter B that counts a predetermined number of times. Reference numeral 32 is a control means B for controlling a series of operations of the wireless communication means B2. Reference numeral 33 is a synchronization measuring means B for measuring the number of times synchronization has failed. Reference numeral 35 is a synchronization failure selection means B for selecting the processing when the synchronization cannot be achieved.

Here, the timer B27, the wireless transmission / reception means B29, the synchronization signal determination means 30, the control means B32, the synchronization measurement means B33, and the synchronization failure selection means B37 are inside the wireless communication means B2. The operation recovery means B28 is inside the control means B32, and the counter B31 is inside the synchronization measuring means B33.

In FIG. 3, the wireless communication means A5 and the wireless communication means B2 enter the "sleep mode" after the power is turned on. From the "sleep mode", the wireless communication means A5 and the wireless communication means B2 are switched to the "initial synchronization mode" by a switch or the like. This is an operation for performing the first synchronization because the wireless communication means A5 and the wireless communication means B2 are not yet synchronized with each other. The wireless communication means A5 activates the timer A18 after the operation is restored. The timer A18 measures a predetermined time and outputs a signal to that effect each time the measurement is completed. Here, the predetermined time is 5 seconds. The carrier determination means 20 receives the signal output from the timer A18 and checks whether the frequency at which communication is to be performed is being used by another system.

That is, the presence / absence of radio waves having a frequency for communication is checked. This is called "carrier sense". The carrier determination means 20 outputs the result of carrier sense. The wireless transmission / reception means A19 outputs the synchronization signal storage means 22 when the carrier determination means 20 outputs a signal indicating "no radio wave".
The initial synchronization signal stored in is transmitted from the antenna. After the transmission, the wireless transmission / reception means A19 shifts to the reception state for receiving the initial synchronization response signal from the other party. At this time, the carrier determination means 20 checks by carrier sense whether the initial synchronization response signal is transmitted from the other party. As a result of the carrier sense, when the carrier determination means 20 determines that “there is a radio wave”, the wireless transmission / reception means A19 receives the initial synchronization response signal and outputs the received data to the synchronization response signal determination means 23. The synchronization response signal judging means 23 analyzes the received data and judges whether it is correct or not. If the received data is correct, the synchronization response signal determination means 23 outputs a signal to that effect. Control means A
25 receives the output of the synchronization response signal determination means 23 and ends the "initial synchronization mode" of the wireless communication means A5 and shifts to the "data communication mode". At this time, the control means A25 changes the measurement time of the timer A18 from 5 seconds to another time.

Here, the other time is 10 minutes. When the carrier determination unit 20 cannot transmit the initial synchronization signal by determining that there is an electric wave in the carrier sense before the initial synchronization signal is transmitted, the carrier determination unit 20 detects the carrier sense before receiving the initial synchronization response signal. If it is determined that there is no radio wave, or if the synchronization response signal determination means 23 determines that the received data is not the correct initial synchronization response signal, the control means A25 repeats the initial synchronization operation again. That is, a series of operations from carrier sensing is repeated in response to the signal output by the timer A18 every 5 seconds.

Next, the "initial synchronization mode" of the wireless communication means B2 will be described. After the operation is restored, the wireless communication means B2 puts the wireless transmission / reception means B29 into the continuous reception state, and becomes ready to receive the initial synchronization signal sent from the other side, that is, the wireless communication means A5. Wireless transmitting / receiving means B29
When receiving the initial synchronization signal, outputs the received data to the synchronization signal determination means 30. Sync signal determination means 30
Analyzes whether the received data is correct. Then, an initial synchronization response signal including the result is created and transmitted from the wireless transmission / reception means B29. When the synchronization signal determination means 30 determines that the initial synchronization signal received by the wireless transmission / reception means B29 is correct, the wireless communication means B2 terminates the "initial synchronization mode" after transmitting the initial synchronization response signal and the "data communication mode". Move to.

At this time, the control means B32 controls the timer B27.
Start. The timer B27 starts measuring a predetermined time. This predetermined time is assumed to be equal to the time measured by the timer A18 of the wireless communication means A5 after the end of the initial synchronization, and here it is set to 10 minutes. When the synchronization signal determination means 30 determines that the initial synchronization signal received by the wireless transmission / reception means B29 is not correct, the wireless communication means B2 performs continuous reception operation again after transmitting the initial synchronization response signal and is transmitted from the wireless communication means A5. Wait for the next initial synchronization signal to come.

Next, the "data communication mode" after the "initial synchronization mode" is completed will be described. Here, it is assumed that the intermittent operation is synchronized every 10 minutes. The timer A18 of the wireless communication means A5 repeatedly measures 10 minutes and outputs a signal to that effect each time the measurement is completed. The carrier determination means 20 receives the signal output by the timer A18, performs carrier sensing, and outputs the result. The wireless transmission / reception unit A19 transmits the synchronization signal stored in the synchronization signal storage unit 22 from the antenna when the carrier determination unit 20 outputs a signal indicating "no radio wave". After the transmission, the wireless transmission / reception means A19 shifts to the reception state for receiving the synchronization response signal from the other party.

At this time, the carrier determination means 20 checks by carrier sense whether the synchronization response signal is transmitted from the other party. As a result of the carrier sense, when the carrier determination means 20 determines that “there is a radio wave”, the wireless transmission / reception means A19 receives the synchronization response signal and outputs the received data to the synchronization response signal determination means 23. The synchronization response signal judging means 23 analyzes the received data and judges whether it is correct or not. If the received data is correct, the synchronization response signal determination means 23 outputs a signal to that effect. Control means A2
5 receives the output of the synchronization response signal determination means 23, completes the wireless communication operation of the wireless communication means A5, and waits for the output of the next measurement of the timer A18. If the carrier determination unit 20 determines that there is an electric wave in the carrier sense before transmitting the synchronization signal and cannot transmit the synchronization signal, the carrier determination unit 20 performs the carrier sense before receiving the synchronization response signal as “no radio wave”. If the synchronization response signal determination means 23 determines that the received data is not a correct synchronization response signal, the carrier determination means 20 and the synchronization response signal determination means 23 send a signal to that effect of the synchronization measurement means A26. Output to the internal counter A21. Each time the counter A21 receives an output signal from the carrier determination means 20 or the synchronization response signal determination means 23, it counts the number of times. That is, the counter A21 counts the number of times that synchronization is not normally performed every 10 minutes.

Here, when the synchronization is normally completed, the synchronization response signal determining means 23 outputs a signal to that effect to the synchronization measuring means A26, and the synchronization measuring means A26 causes the counter A to count.
It means that the count up to 21 is cleared. When the count of the counter A21 reaches a predetermined number of times, the synchronization measuring means A26 sends a signal to that effect to the control means A2.
5 Output to the operation recovery means A24 inside. The operation restoring means A24 changes the operation mode of the wireless communication means A5 when receiving the output signal from the synchronization measuring means A26, but which operation mode is changed is determined by the signal previously received from the synchronization failure selecting means A36. .

Here, the role of the synchronization failure selection means A36 will be described. In the "data communication mode", the wireless communication means A5 sends a signal sent by wire from the data collection means 4 through the T-NCU 3 or wirelessly sent from the meter 1 through the wireless communication means B2 in addition to the synchronization operation every 10 minutes. The incoming signals are transmitted to the wireless communication means B2 and T-NC, respectively.
It also plays the role of sending to U3. Also, the data collection means 4
Communication between the wireless communication means A5 and the wireless communication means A5 is also performed. FIG. 4 shows a sequence diagram of an example of communication only between the data collecting means 4 and the wireless communication means A5. Wireless communication means A in FIG.
And data collection means refer to the wireless communication means A5 and data collection means 4 of FIG. 3, respectively. The T-NCU 3 is omitted. In FIG. 4, the communication starts with the “start message” from the data collecting means 4 and ends with the “end message”. The wireless communication means A5 transmits a response telegram to each data excluding the "end telegram" to the data collection means 4.

Here, the "operation mode message" includes processing information in the case where the wireless communication means A5 and the wireless communication means B2 cannot synchronize in wireless communication. Specifically, the information is whether to return to the "initial synchronization mode" or the "sleep mode". When the wireless communication means A5 receives this "operation mode message", it stores the internal processing information in the synchronization failure selection means A36. The synchronization failure selection means A36 outputs the processing information to the operation restoration means A24 and the wireless communication means A19. Here, the operation restoring means A24 shifts the state of the device to the "initial synchronization mode" or the "sleep mode" according to the output signal from the synchronization measuring means A26 based on the information from the synchronization failure selecting means A36. Here, when the operation recovery means A24 returns the operation of the device to the "initial synchronization mode", the wireless communication means A5 indicates that to the T-NCU of FIG.
3 to the data collection means 4, or when the operation recovery means A24 returns the operation of the device to the "sleep mode", the data collection means 4 may be notified to the data collection means 4 via the T-NCU 3 of FIG. it can.

On the other hand, the wireless communication means A5 transmits the processing information received from the synchronization failure selection means A36 on the synchronization signal every 10 minutes from the antenna. Next, the "data communication mode" of the wireless communication means B2 will be described. After completion of the initial synchronization, the wireless communication means B2 uses the timer B27.
Repeatedly measures 10 minutes. The timer B27 outputs a signal to that effect every time measurement of 10 minutes is completed.
When the wireless transmission / reception means B29 receives the output signal of the timer B27, the wireless transmission / reception means B29 shifts to the reception state and receives the synchronization signal from the other side, that is, the wireless communication means A5. Upon receiving the synchronization signal, the wireless transmission / reception means B29 outputs the received data to the synchronization signal determination means 30. Sync signal determination means 3
0 analyzes whether the received data is correct. Then, a synchronization response signal including the result is created and transmitted from the wireless transmission / reception means B29.

When the wireless transmission / reception means B29 determines that the data received by the synchronization signal determination means 30 is correct, the wireless communication means B2 included in the synchronization signal cannot synchronize in wireless communication. The processing information is output to the synchronization failure selection means B37. When the received data is correct, the synchronization signal determination means 30 outputs a signal to that effect. The control unit B32 receives the output of the synchronization signal determination unit 30, ends the wireless communication operation of the wireless communication unit B2, and waits for the output of the next measurement of the timer B27. Even when the synchronization signal determination unit 30 determines that the synchronization signal received by the wireless transmission / reception unit B29 is incorrect, the wireless communication unit B
2 becomes an intermittent operation after transmitting the synchronization response signal.

On the other hand, the synchronization signal determination means 30 outputs a signal to that effect even when the synchronization signal received by the wireless transmission / reception means B29 is incorrect or when the wireless transmission / reception means B29 cannot receive the synchronization synchronization signal. The counter B31 inside the synchronization measuring means B33 is the synchronization signal determining means 3
Each time the output signal from 0 is received, the number of times is counted. That is, the counter B31 counts the number of times that synchronization is not normally performed every 10 minutes. Here, when the synchronization is normally completed, the synchronization signal determination means 30 outputs a signal to that effect to the synchronization measurement means B33, and the synchronization measurement means B33 clears the count of the counter B31 up to that point. Synchronous measuring means B
When the count of the counter B31 reaches a predetermined number, 33 outputs a signal to that effect to the operation restoring means B28 inside the control means B32. The operation restoring means B28 changes the operation mode of the wireless communication means B2 when receiving the output signal from the synchronization measuring means B33. Which operation mode should be changed depends on the synchronization stored in the synchronization failure selecting means B37. It is determined based on the processing information in the case of being incapable.

Specifically, the information is for returning to the "initial synchronization mode" or the "sleep mode". That is, the operation restoration means B28 is the synchronization failure selection means B.
Based on the information from 37, the state of the device is shifted to the "initial synchronization mode" or "sleep mode" according to the output signal from the synchronization measuring means B33. By doing so, it is possible to control the return mode in the case where the wireless communication means A5 and the wireless communication means B2 have fallen out of synchronization by the command from the data collection means 4.

Although the operation modes of the wireless communication means A5 and the wireless communication means B2 are made to be the same by the above method, the operation modes of the wireless communication means A5 and the wireless communication means B2 may be different for some reason. There are different operating modes, one is "sleep mode" and the other is "initial synchronization mode", the other is "initial synchronization mode" and the other is "data communication mode". To be The former can be dealt with by activating the device in the "sleep mode" with a switch or the like and shifting to the "initial synchronization mode", but the latter cannot be dealt with as it is. The reason for the latter situation is that the side receiving the initial synchronization signal normally received the initial synchronization signal, completed the transmission of the initial synchronization response signal, and transitioned to the "data communication mode". This may occur when the device at the other end cannot receive the initial synchronization response signal.

Therefore, a coping method in the case of the third embodiment will be described with reference to FIG. In FIG. 5, reference numeral 1 is a meter having a communication function with the outside for measuring a flow rate value and performing remote control. Reference numeral 2 is a wireless communication means B connected to the meter 1 and having a wireless communication function. Reference numeral 3 is a telephone line network control unit (T-NCU) for communicating with a telephone line. Four
Is a data collecting means for performing communication by the T-NCU 3 via a telephone line. Reference numeral 5 is a wireless communication means A which is connected to the T-NCU 3 and wirelessly communicates with the wireless communication means B2. 1
A timer A 8 measures a predetermined time and outputs a signal to that effect each time the measurement is completed. Reference numeral 19 is a wireless transmission / reception means A for performing wireless transmission / reception. Reference numeral 20 is carrier determination means for determining the presence or absence of a carrier and outputting the result. Reference numeral 21 is a counter A which counts a predetermined number of times. Reference numeral 22 is a synchronization signal storage means in which a synchronization signal is stored. Reference numeral 23 is a synchronization response signal determining means for analyzing a response signal from the other party to the synchronization signal. Reference numeral 24 is an operation restoring means A for changing the operation of the device. Reference numeral 25 is a control means A for controlling a series of operations of the wireless communication means A5. Reference numeral 26 is a synchronization measuring means A for measuring the number of times synchronization has failed.

Here, the timer A18, the wireless transmission / reception means A19, the carrier determination means 20, the synchronization signal storage means 2
2, the synchronization response signal determination means 23, the control means A25, and the synchronization measurement means A26 are inside the wireless communication means A5. The operation recovery means A24 is inside the control means A25, and the counter A21 is inside the synchronization measuring means A26. A timer B 27 measures a predetermined time and outputs a signal to that effect each time the measurement is completed. 28 is an operation recovery means B for resetting the operation of the device and returning it to the initial state.
It is. Reference numeral 29 is a wireless transmission / reception means B for performing wireless transmission / reception. Reference numeral 30 is a sync signal determination means for analyzing a sync signal sent from the other party. Reference numeral 31 is a counter B that counts a predetermined number of times. Reference numeral 32 is a control means B for controlling a series of operations of the wireless communication means B2. Reference numeral 33 is a synchronization measuring means B for measuring the number of times synchronization has failed. Reference numeral 38 is an initial synchronization recognition means for recognizing the initial synchronization signal.

Here, the timer B27, the wireless transmission / reception means B29, the synchronization signal determination means 30, the control means B32, the synchronization measurement means B33, and the initial synchronization recognition means 38 are inside the wireless communication means B2. The operation recovery means B28 is inside the control means B32, and the counter B31 is inside the synchronization measuring means B33.

The "initial synchronization mode" in FIG. 5 will be described. The wireless communication means A5 activates the timer A18 after returning from the "sleep mode". The timer A18 measures a predetermined time and outputs a signal to that effect each time the measurement is completed. Here, the predetermined time is 5 seconds. The carrier determination means 20 receives the signal output from the timer A18 and checks whether the frequency at which communication is to be performed is being used by another system.

That is, the presence / absence of radio waves having a frequency for communication is checked. This is called "carrier sense". The carrier determination means 20 outputs the result of carrier sense. The wireless transmission / reception means A19 outputs the synchronization signal storage means 22 when the carrier determination means 20 outputs a signal indicating "no radio wave".
The initial synchronization signal stored in is transmitted from the antenna. After the transmission, the wireless transmission / reception means A19 shifts to the reception state for receiving the initial synchronization response signal from the other party.

At this time, the carrier determining means 20 checks by carrier sense whether the initial synchronization response signal is transmitted from the other party. As a result of the carrier sense, when the carrier determination means 20 determines that “there is a radio wave”, the wireless transmission / reception means A19 receives the initial synchronization response signal and outputs the received data to the synchronization response signal determination means 23.
The synchronization response signal judging means 23 analyzes the received data and judges whether it is correct or not. If the received data is correct, the synchronization response signal determination means 23 outputs a signal to that effect. The control means A25 receives the output of the synchronization response signal determination means 23, ends the "initial synchronization mode" of the wireless communication means A5, and shifts to the "data communication mode".

At this time, the control means A25 uses the timer A18.
Change the measurement time of from 5 seconds to another time. Here, the other time is 10 minutes. When the carrier determination unit 20 cannot transmit the initial synchronization signal by determining that there is an electric wave in the carrier sense before the initial synchronization signal is transmitted, the carrier determination unit 20 detects the carrier sense before receiving the initial synchronization response signal. If it is determined that there is no radio wave, or if the synchronization response signal determination means 23 determines that the received data is not the correct initial synchronization response signal, the control means A25 repeats the initial synchronization operation again.

That is, a series of operations from carrier sensing is repeated in response to the signal output by the timer A18 every 5 seconds. Next, the "initial synchronization mode" of the wireless communication means B2 will be described. After the operation is returned from the "sleep mode", the wireless communication means B2 sets the wireless transmission / reception means B29 to the continuous reception state, and becomes ready to receive the initial synchronization signal sent from the other side, that is, the wireless communication means A5.
Upon receiving the initial synchronization signal, the wireless transmission / reception means B29 outputs the received data to the synchronization signal determination means 30.
The synchronization signal determination means 30 analyzes whether the received data is correct. Then, an initial synchronization response signal including the result is created and transmitted from the wireless transmission / reception means B29. When the synchronization signal determination means 30 determines that the initial synchronization signal received by the wireless transmission / reception means B29 is correct, the wireless communication means B2 terminates the "initial synchronization mode" after transmitting the initial synchronization response signal and the "data communication mode". Move to.

At this time, the control means B32 controls the timer B27.
Start. The timer B27 starts measuring a predetermined time. This predetermined time is assumed to be equal to the time measured by the timer A18 of the wireless communication means A5 after the end of the initial synchronization, and here it is set to 10 minutes. When the synchronization signal determination means 30 determines that the initial synchronization signal received by the wireless transmission / reception means B29 is not correct, the wireless communication means B2 performs continuous reception operation again after transmitting the initial synchronization response signal and is transmitted from the wireless communication means A5. Wait for the next initial synchronization signal to come.

In this series of operations, the wireless communication means A
A description will be given of the processing when the device 5 cannot receive the initial synchronization response signal from the wireless communication means B2. In the wireless communication means B2, the synchronization signal determination means 30 is the wireless transmission / reception means B.
When 29 determines that the received initial synchronization signal is correct, the wireless communication means B2 ends the "initial synchronization mode" after transmitting the initial synchronization response signal and shifts to the "data communication mode". In the "data communication mode", the timer B27 repeatedly measures 30 seconds in the wireless communication means B2. This is because the intermittent synchronization correction is performed every 10 minutes, but other than that, the signal transmitted from the data collection means 4 to the wireless communication means A5 through the T-NCU 3 is received. That is, the wireless communication unit in the communication between the data collection means 4 and the meter 1 is intermittently operated for 30 seconds. The timer B27 counts the timing of 30 seconds 20 times and repeatedly measures the timing of 10 minutes. On the other hand, since the wireless communication means A5 could not receive the initial synchronization response signal from the wireless communication means B2, the control means A25 repeats the initial synchronization operation again.

That is, a series of operations in the "initial synchronization mode" from the carrier sense is repeated in response to the signal output by the timer A18 every 5 seconds. That is, the wireless communication unit A5 is in the "initial synchronization mode" in which the initial synchronization signal is transmitted every 5 seconds, and the wireless communication unit B2 is 30.
It is a receiving operation every second. Therefore, the wireless communication means B
2 can receive the initial synchronization signal from the wireless communication means A5 once every six times. The timer B27 of the wireless communication means B2 outputs a signal to that effect every time measurement of 30 seconds is completed. Upon receiving the output signal of the timer B27, the wireless transmission / reception means B29 shifts to the reception state. Upon receiving the signal, the wireless transmitting / receiving means B29 outputs the received data to the synchronization signal determining means 30. The sync signal determination means 30 analyzes the content of the received data. As a result, if the received data is a synchronization signal every 10 minutes, a synchronization response signal is created and transmitted from the wireless transmission / reception means B29, and a signal to that effect is output. The control unit B32 receives the output of the synchronization signal determination unit 30, ends the wireless communication operation of the wireless communication unit B2, and waits for the output of the next measurement of the timer B27.

On the other hand, if the received data is the initial synchronization signal, a signal to that effect is sent to the initial synchronization recognition means 3
Output to 8. The initial synchronization recognizing means 38 creates a response signal to the received initial synchronization signal and outputs it to the wireless transmitting / receiving means B29. The wireless transmitting / receiving means B29 transmits the initial synchronization response signal from the antenna. Further, the initial synchronization recognition unit 38 outputs a signal indicating that the initial synchronization signal has been received to the operation recovery unit B28 inside the control unit B. The operation recovering means B28 receives the signal and resets the timer B which measures 30 seconds in the "data communication mode". By doing this,
The wireless communication means B2 can receive the initial synchronization signal from the wireless communication means A5 even in the "data communication mode".

In the above embodiment, the wireless communication means A is used.
5 and the wireless communication means B2 may be replaced with each other. In this case, the wireless communication means B2 will transmit the synchronization signal. It is also possible that a plurality of meters 1, wireless communication means B2, wireless communication means A5, T-NCU 3, and data collection means 4 are used, and intermittent operation is performed within the area. In this case as well, a similar system can be built by using a specific wireless communication means as a base station.

[0085]

As is apparent from the above description, the wireless communication system of the present invention has the following effects.

(1) When the synchronization correction fails for a predetermined time or number of times, the device is automatically returned to the initial synchronization operation, and such a returning operation is repeated for a predetermined time or number of times. By automatically returning the device to the sleep mode before starting, it is possible to improve the battery life of the device without consuming unnecessary current when applied to an automatic meter reading system.

(2) When the synchronization correction fails for a predetermined time or the number of times, the device is automatically returned to the initial synchronization operation and the center is notified so that the center can be used when applied to an automatic meter reading system. Since the synchronization abnormality information can be grasped quickly and the state of the equipment from the notification to the actual return to the initial synchronization operation can be monitored at the center, the reliability of the equipment can be further enhanced. it can.

(3) When the synchronization correction fails for a predetermined time or number of times, the device is automatically returned to the initial synchronization operation, and when such a returning operation is repeated for a predetermined time or number of times. By automatically returning the device to the sleep mode before startup and notifying the center, when applied to an automatic meter reading system, etc., the center can quickly detect the synchronization error information, further improving the reliability of the device. Can be increased.

(4) The automatic meter reading system is set up by setting the operation mode in which the device connected to the telephone line shifts by the communication from the center when the synchronization correction fails for a predetermined time or the number of times. When applied, the center can determine the state of the equipment,
By making settings according to the situation at that time, it is possible to reduce current consumption of the device and improve reliability.

(5) Applying to the automatic meter reading system by setting the operation mode in which the device connected to the meter shifts when the synchronization correction fails for a predetermined time or number of times by communication from the center In such a case, the state of the device can be determined at the center, and the current consumption of the device can be reduced and the reliability can be improved by making settings according to the situation at that time.

(6) By making it possible to receive the initial synchronization signal in the data communication mode, the operation mode of the device connected to the telephone line and the operation mode of the device connected to the meter are Even when they are different from each other, the intermittent timings can be automatically adjusted and the modes can be automatically unified to reduce the labor and improve the reliability of the device.

[Brief description of drawings]

FIG. 1 is a block diagram of a wireless communication system according to a first embodiment of the present invention.

FIG. 2 is a block diagram illustrating the system in more detail.

FIG. 3 is a block diagram of a wireless communication system according to a second embodiment of the present invention.

FIG. 4 is a communication sequence diagram of FIG.

FIG. 5 is a block diagram of a wireless communication system according to a third embodiment of the present invention.

FIG. 6 is a block diagram of a wireless communication system according to a conventional example.

FIG. 7 is a block diagram illustrating the system in more detail.

[Explanation of symbols]

 1 meter 2 wireless communication means B 3 T-NCU 4 data collection means 5 wireless communication means A 6 first operation mode control section 7 second operation mode control section 8 third operation mode control section 9 central control section 10 wireless Communication unit 11 Start-up signal detection unit 12 First operation mode control unit 13 Second operation mode control unit 14 Third operation mode control unit 15 Central control unit 16 Wireless communication unit 17 Start-up signal detection unit 18 Timer A 19 Wireless transmission / reception Means A 20 Carrier determination means 21 Counter A 22 Synchronization signal storage means 23 Synchronization response signal determination means 24 Operation recovery means A 25 Control means A 26 Synchronous measurement means A 27 Timer B 28 Operation recovery means B 29 Radio transmission / reception means B 30 Synchronization signal Judgment means 31 Counter B 32 Control means B 33 Synchronization measurement means B 34 Synchronization failure measurement means A 3 Synchronization failure measuring means B 36 synchronization failure selection unit A 37 synchronization failure selection unit B 38 initial synchronization combined recognition means

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Yoshio Horiike 1006 Kadoma, Kadoma City, Osaka Prefecture Matsushita Electric Industrial Co., Ltd. (72) Shinichi Nakane 1006 Kadoma, Kadoma City, Osaka Matsushita Electric Industrial Co., Ltd. 72) Inventor Yasuhiro Ban, 1006 Kadoma, Kadoma-shi, Osaka Prefecture Matsushita Electric Industrial Co., Ltd.

Claims (6)

[Claims] 1. Wireless communication means A and B for performing wireless communication with each other, a wireless communication section for wireless data communication, a start signal detection means for starting the wireless communication section, and the start signal detection means in an operating state. A first operation mode control unit that puts the wireless communication unit into a non-operation state; and a second operation mode control unit that performs initial synchronization for intermittent communication between the wireless communication units A and B after detection of a start signal. The third synchronization is performed intermittently at predetermined time intervals after the completion of the initial synchronization.
Of the operation mode control section and a central control section for controlling the respective sections, wherein the central control section fails the synchronization correction in the third operation mode control section for a predetermined first time or a first number of times. When that happens, the fact is stored, and the second operation mode control unit is operated, and further, the predetermined first time or the first number of failures of the synchronization correction in the third operation mode control unit is previously detected. A wireless communication system for activating the first operation mode control unit when a predetermined second time or a second number of times is reached. 2. The central control unit controls the synchronization correction in the third operation mode control unit at a predetermined first time or first time.
2. The wireless communication system according to claim 1, wherein when the number of times has failed, the fact is stored and the fact that the synchronization correction has failed is notified to the line terminal device and the second operation mode controller is operated. 3. The central control unit controls the synchronization operation in the third operation mode control unit at a predetermined first time or first time.
A predetermined number of failures or a second number of failures
2. The wireless communication system according to claim 1, wherein when the time reaches, the notification of failure of synchronization correction is sent to the line terminal device and the first operation mode control unit is operated. 4. A wireless communication unit A for performing wireless communication, and a wireless communication unit B for wirelessly performing data communication between the wireless communication unit A and information transmission with a line terminal device. Means A and B are a wireless communication unit that performs wireless data communication, a start signal detection unit that starts the wireless communication unit, and a first operation unit that activates the start signal detection unit and deactivates the wireless communication unit. An operation mode control unit, a second operation mode control unit that performs initial synchronization for intermittent communication between the wireless communication means A and B after the activation signal is detected, and a predetermined time after completion of the initial synchronization. The wireless communication means B includes a third operation mode control unit that intermittently performs synchronization correction for each unit, and a central control unit that controls each unit. Correction is expected Wireless communication system for determining a determined time or times failed operation after the placing was information to the communication from the line terminal device. 5. The central control unit of the wireless communication means A is the third.
5. The wireless communication system according to claim 4, wherein the operation after the synchronization correction in the operation mode control unit has failed for a predetermined time or a number of times is determined by the information put on the wireless communication from the wireless communication means B. 6. Wireless communication means A and B for wirelessly communicating with each other, a wireless communication section for performing wireless data communication, a start signal detection means for starting the wireless communication section, and the start signal detection means in an operating state. A first operation mode control unit that puts the wireless communication unit into a non-operation state; and a second operation mode control unit that performs initial synchronization for intermittent communication between the wireless communication units A and B after the activation signal is detected. The third synchronization is performed intermittently at predetermined time intervals after the completion of the initial synchronization.
And a central control unit for controlling the respective units, the central control unit receiving the signal of the initial synchronization communication of the second operation mode from the other side in the third operation mode. Is a wireless communication system that regards that time as the end of initial synchronization and restarts the third operation mode control unit.