KR100989712B1 - Recovering method after communication failure in automatic meter reading terminal - Google Patents

Abstract

PURPOSE: A communication failure restoration method of a remote inspection terminal is provided to retransmit the accumulated data in batch at a predetermined time by continuously accumulating the data after communication failure. CONSTITUTION: The cycle of the transmitting time is set. The time range of retransmission when communication failure and the interval of retransmission within the time range are determined by comparing the acquisition time of the inspection data and the present time(S11). The accumulated data is stored by accumulating the data received from the meter(S12).

Description

Recovering method after communication failure in automatic meter reading terminal

The present invention relates to a method for recovering a communication failure of a remote metering terminal, and in detail, when the data transmission fails due to a shield, such as a parking lot, a building, a person, or the surrounding noise, Resend all at the next set time, and if the communication situation is poor, resend the retransmission time for each data by setting the time range that is considered sufficient to solve the temporary radio wave shield, so that no data loss occurs due to communication failure. The present invention relates to a communication failure recovery method of a remote meter reading terminal.

Recently, remote metering equipment has been introduced for the metering of electricity, water or gas. The remote meter reading device receives the meter reading data from the meter reading data collector and automatically or manually wirelessly transmits to the meter collector located at a long distance.

In this case, the remote metering terminal uses a radio frequency of an ISM band (Industrial Scientific Medical band) which does not require a license as a communication channel. Since the transmission output of this band is limited to 10mW (10dBm) by the radio wave method, it is vulnerable to external noise, so the possibility of communication failure is very high.

Therefore, conventionally, the "retransmission of failure" scheme, which is widely used in various communication devices, has been proposed as a solution. However, although the conventional method is a very useful means in the remote metering terminal, retransmission after failure in the communication environment of the remote metering terminal which is frequently blocked for the terminal due to the surrounding conditions such as parking, buildings, narrow alleys, and also lasts for a long time. Even so, there is a high probability of failure again within a certain time frame.

In addition, since the retransmission method is continuously retransmitted after failure, it encounters the problem of "shortening the battery life" which is considered the most difficult in the remote meter reading terminal.

The present invention has been made to solve the above problems, an object of the present invention is to accumulate and store the data and the previous data collected after the communication failure of the remote meter terminal, and retransmitted collectively at the set time, transmission failure By extending the difference between the time point and the next retransmission point to the maximum range, it provides a communication failure recovery method of the remote metering terminal which can prevent the loss of data and waste of power during communication failure due to the temporary environment such as temporary radio shield. have.

The present invention includes the following embodiments in order to achieve the above object.

A first embodiment of the present invention is a communication failure recovery method of a remote metering terminal which receives and stores metering data of a wirelessly transmitted meter and transmits it to a metering collector. A setting step of setting a time range during which retransmission is performed and an interval for retransmission within the time range; A data receiving step of accumulating and storing metering data received from the meter; A transmission determination step of determining whether to transmit the accumulated data by comparing the set time with the current time; A data transmission step of collectively transmitting the stored data if both the current time and the setting time of the transmission determination step are matched; The success judging step may include: a success judging step of judging whether an acknowledgment signal is applied from a reading collector after the data transmission step; An initialization step of initializing the stored data by determining that the transmission is successful when the acknowledgment signal is applied from the meter reading collector in the success or failure determination step; And if the acknowledgment signal is not received from the meter collector in the success or failure determination step, determine that the transmission has failed, proceed with the data reception step, maintain the stored data, and accumulate the meter reading data received thereafter, and determine the transmission status. Characterized in that the step to the initialization step.

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As described above, the communication failure recovery method of the remote reading terminal according to the present invention continuously accumulates data after the communication failure and retransmits them in a set time frame, and the time interval between retransmissions in case of failure is sufficient to eliminate the temporary shield. As it increases by time, the transmission success rate is increased, and the data loss can be prevented in case of communication failure.

In addition, the present invention accumulates a predetermined number or more of data even when communication failure does not occur, thereby reducing the number of transmission and retransmission of the remote meter reading terminal to prevent waste of power for communication. It can be effective.

1 is a block diagram showing a communication failure recovery apparatus of the remote meter reading terminal according to the present invention,
2 is a flowchart illustrating a communication failure recovery method of a remote meter reading terminal according to the present invention.

Hereinafter, with reference to the accompanying drawings a preferred embodiment of the communication failure recovery method of the remote meter reading terminal according to the present invention will be described in detail.

1 is a block diagram showing a communication failure recovery apparatus of a remote meter reading terminal according to the present invention.

1, the communication failure recovery apparatus of the remote metering terminal according to the present invention includes a battery 70, a meter interface 50 for converting a signal transmitted from the meter 80 into a signal suitable for the remote metering terminal, Communication module 60 for transmitting and receiving a high frequency radio signal, a memory 30 for accumulating and storing the operation and the set transmission time and the received data, and the data received through the communication module 60 to the memory 30 And a control unit 20 for controlling to initialize the memory 30 by determining whether the transmission is successful by controlling the communication module 60 to transmit the accumulated data stored in the memory 30 at a set time. do.

The display 10 may display meter reading data and / or transmission results under the control of the controller 20.

The battery 70 supplies power to the driving power of the communication module 60 and the controller 20, and a rechargeable battery 70 or a disposable battery 70 may be applied.

The communication module 60 receives meter reading data from a meter 80 capable of transmitting and receiving radio signals such as a gas meter 80, a water meter 80, or an electric meter 80, and applies the meter data to the meter interface 50. The data accumulated by the transmission command applied from the control unit 20 is transmitted to the meter reading collector 90.

The meter interface 50 converts the meter reading data of the meter 80 received through the communication module 60 into a signal recognizable by the controller 20. For example, the meter interface 50 converts the analog signal received from the meter 80 into a digital signal and applies it to the controller 20.

The memory 30 accumulates and stores meter reading data applied through the controller 20, and initializes the stored data under the control of the controller 20.

The controller 20 stores the set transmission time, compares the setting time with the current time, and determines whether to transmit the data stored in the memory 30. In addition, the control unit 20 transmits data accumulated in the memory 30 to the meter reader 90, and determines whether the transmission is successful according to whether or not the meter collector 90 receives the confirmation signal. If the acknowledgment signal is not applied from the meter reading collector 90 even after the elapse of time, the memory 30 is controlled to accumulate and store newly received data in the data accumulated up to now. Alternatively, when an acknowledgment signal is applied from the meter reading collector 90, the data stored in the memory 30 is initialized and only the data stored thereafter is stored.

Here, the control unit 20 determines whether to retransmit the data according to the set time, which will be described later with reference to FIG. 2.

2 is a flowchart illustrating a communication failure recovery method of a remote meter reading terminal according to the present invention.

2, the communication failure recovery method of the remote metering terminal according to the present invention sets the period of the transmission time, compares the acquisition time and current time of the acquisition of the metering data to compare the time range of the retransmission and the time range at the time of communication failure A setting step (S11) for setting an interval for retransmission within the data, a data receiving step (S12) for accumulating and storing data received from the meter 80, and a transmission for comparing the set time and the current time to determine whether to transmit or not Success determination that determines whether the transmission is successful through the determination step (S13), the data transmission step (S14) for transmitting data when the time set in the transmission determination step (S13), and the reception signal of the receiver are received. Step S15 and an initialization step S16 for initializing the accumulated data if the transmission is successful in the success determination step S15.

 The setting step (S11) is a time range in which the control unit 20 sets a transmission time so that data is transmitted at predetermined intervals, and retransmission is performed after a communication failure in consideration of the time when the temporary shield is removed in the retransmission cycle. And setting the interval of retransmission within the time range. The control unit 20 stores the setting input signal received through the communication module 60 in the memory 30. The set time is the transmission time of the accumulated data. If the communication is not successful at the set time, the received data is accumulated and stored continuously. If the transmission is successful, the accumulated data is initialized.

The data receiving step (S12) is a step in which the control unit 20 accumulates and stores meter reading data received through the communication module 60 in the memory 30. Here, the controller 20 accumulates and stores the received data in the memory 30 when the signal received through the communication module 60 is converted into a signal through the meter interface 50.

The transmission determination step (S13) is a step of determining whether to transmit the accumulated data by comparing the current time and the time set in the control unit 20. Here, the controller 20 determines whether to transmit the accumulated data stored in the memory 30. At this time, the data to be transmitted becomes all the accumulated data after initialization.

The data transmission step (S14) is a step in which the control unit 20 transmits the data stored in the memory 30 when both of the comparison result of the present time and the set time of the transmission determination step (S13) match. The control unit 20 controls the communication module 60 to transmit the total data accumulated in the memory 30. Therefore, the communication module 60 transmits the accumulated data to the meter reader 90 or other terminal.

The success determination step (S15) is a step in which the control unit 20 determines whether or not the transmission success of the data transmission step (S14). Herein, the control unit 20 determines whether an acknowledgment signal is applied from the meter reading collector 90 from the communication module 60.

In the initializing step (S16), when the control unit 20 receives the acknowledgment signal from the communication module 60 in the success determination step (S15), it is determined that the transmission is successful and the data accumulated in the memory 30 This is the step of initializing.

Alternatively, if the acknowledgment signal is not received from the meter collector 90 in the success or failure determination step (S15), the controller 20 determines that data transmission has failed and maintains the data stored in the memory 30. The data received from the meter 80 and the like are accumulated. When the set time is reached, the control unit 20 transmits the accumulated data. That is, the controller 20 repeats the data receiving step 12 to the initializing step S15.

The present invention is made to the above steps and described briefly as a table as follows.

time action Stored meter reading data 1 o'clock Save after meter reading One 1:30 Save after meter reading 1, 2 2'o clock Save after meter reading 1, 2, 3 2:30 Data transmission and success reset 3 o'clock Save after meter reading 4 3:30 Save after meter reading 4, 5 4 o'clock Save after meter reading 4, 5, 6 4:30 Data transmission and failure 4, 5, 6 5 O'clock Save after meter reading 4, 5, 6, 7 5:30 Save after meter reading 4, 5, 6, 7, 8 6 o'clock Save after meter reading 4, 5, 6, 7, 8, 9 6:30 Data transmission and failure 4, 5, 6, 7, 8, 9 7 o'clock Save after meter reading 4, 5, 6, 7, 8, 9.10 7:30 Save after meter reading 4, 5, 6, 7, 8, 9.10, 11 8 o'clock Save after meter reading 4, 5, 6, 7, 8, 9.10, 11, 12 8:30 Data transmission and success reset

That is, the present invention accumulates the data after the meter reading in the remote metering terminal as described above, and transmits the accumulated data by periodic setting time to initialize the stored data upon success or accumulate data when the data transmission fails. It is possible to prevent the waste of communication power due to loss of data or random retransmission in case of communication failure.

As described above, with reference to the preferred embodiment of the present invention, those skilled in the art will be variously modified and modified within the scope of the present invention without departing from the spirit and scope of the present invention described in the claims below. It will be appreciated that it can be changed.

10 display 20 control unit
30: memory 50: meter interface
60: communication module 70: battery
80: meter 90: meter collector

Claims (2)

In the communication failure recovery method of the remote meter terminal receiving and storing the meter reading data of the wireless meter transmitted to the meter collector,
A setting step of setting a time period for periodically transmitting data, a time range during which retransmission is performed in case of communication failure, and an interval for retransmission within the time range;
A data receiving step of accumulating and storing metering data received from the meter;
A transmission determination step of determining whether to transmit the accumulated data by comparing the set time with the current time;
A data transmission step of collectively transmitting the stored data if both the current time and the setting time of the transmission determination step are matched;
The success judging step may include: a success judging step of judging whether an acknowledgment signal is applied from the meter reading collector after the data transmission step;
An initialization step of initializing the stored data by determining that the transmission is successful when the acknowledgment signal is applied from the meter reading collector in the success or failure determination step; And
In the success determination step, if the acknowledgment signal is not received from the meter reading collector, it is determined that the transmission has failed and the data reception step is performed to maintain the stored data and accumulate the reading data received thereafter, thereby determining whether the transmission is successful. Communication failure recovery method of a remote meter reading terminal, characterized in that for proceeding to the initialization step. delete

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