JPH07107182A - Method and system for collecting data - Google Patents

Abstract

PURPOSE:To conduct the data collection with high density and at a high speed, and to reduce the communication cost by constituting the system so that only a terminal equipment which holds data corresponding to a condition of control information transmitted from a center equipment transmits the data requested by the center equipment. CONSTITUTION:Control information is transmitted by a simultaneous broadcast communication to a terminal equipment 2 from a center equipment 1 provided with a control information transmitting part 11 for transmitting the control information to the terminal equipment 2, and the terminal equipment 2 which receives this control information decides whether data held by the own terminal equipment 2 coincides with a condition transmitted to the center equipment 1 or not, based on this control information, and only the terminal equipment concerned 2 which decides that it coincides with the transmitting condition transmits prescribed data to the center equipment 1 through a communication line by terminal calling. That is, the terminal equipment 2 receives the control information transmitted from the center equipment 1, and only the terminal equipment 2 which holds the data clinciding with the condition of this control information transmits the data requested by the center equipment 1.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention mainly relates to a data collecting method and a data collecting system for collecting data of a power meter, a gas meter, a water meter, etc. using a communication line.

[0002]

2. Description of the Related Art In recent years, a method of meter reading every two months has been introduced due to labor shortage and soaring labor costs for meter reading of the amount of electricity, gas, water, etc. used. From such a background, the practical use of the load survey system, which is a data collection system for automating the meter reading work, is on track. In this type of road survey system, in addition to the regular meter reading work for calculating the usage charge, sampling is also a major work for demand trend research. Each demand forecast model can be identified from a survey of consumption trends targeting a specific large-scale consumer and a survey of consumption trends targeting general consumers.

An example of using such a load survey system in a power amount data collection system will be described below with reference to FIG. The terminal device 102 samples the voltage signal and the current signal at a predetermined cycle by an internal clock circuit to calculate and integrate the instantaneous power. The integrated electric energy is sequentially stored at fixed time intervals similarly instructed by the internal clock circuit, and normally the terminal device 102 sends a call request signal to the terminal side network control at a preset time once a day. Output to the device 4 (hereinafter, the network control device is referred to as NCU). When the NCU 4 on the terminal side receives the call request signal, the center unit 101 receives the call through the subscriber line 7-2.
By outputting the dial number of, the connection is made to the center side NCU 3 via the exchange 6 and the subscriber line 7-1, so that the power consumption per unit time stored in the terminal device 102 is transmitted to the center device 101. can do.

[0004]

However, the above-described conventional data collection method and data collection system can collect only data at time intervals preset in the terminal device. Therefore, it is difficult to perform an operation of investigating the amount of electric power used by a large-scale consumer around the time when the maximum temperature is expected in the summer and requesting the consumer to adjust the load. In addition, it was difficult to obtain data for identifying the demand forecast model as described above.
On the other hand, if the time interval for data collection is set to be short in order to obtain detailed data, the line usage fee will increase, and the waste of time by collecting unnecessary data will reduce the economic efficiency and immediacy. , There was a problem in practical use.

The present invention has been made in order to solve such a conventional problem, and a data collection method and a data collection method capable of efficiently and promptly collecting only necessary data according to an instruction from a center device. The purpose is to provide a system.

[0006]

To achieve the above object, in a system in which a center device performs a required process on data transmitted from a plurality of terminal devices via a communication line, the center device changes On the other hand, the terminal device that transmits the control information by the simultaneous broadcast communication and receives the control information determines whether or not the condition that the data held by the own terminal device is transmitted to the center device is matched based on the control information. However, the gist is that only the terminal device that is determined to match the transmission condition transmits the predetermined data to the center device via the communication line by calling the terminal.

According to a second aspect of the present invention, in a system in which a center device performs a required process on data transmitted from a plurality of terminal devices via a communication line,
The control information transmitting unit, which is provided in the center device and transmits control information to the terminal devices by simultaneous broadcast communication, and the control information receiving unit, which is provided in the terminal device and receives the control information sent from the center device, are also the same. A comparison and determination unit, which is provided in the terminal device, decodes the control information sent from the center device, and determines whether or not the conditions held by the terminal device are transmitted to the center device, and the terminal device. And a data transmission unit for transmitting data to the center device.

Further, the present invention according to claim 3 is a system in which a center device performs a required process on data transmitted from a plurality of terminal devices via a communication line, to the terminal device from the center device. When the control device transmits the control information and receives the control information, when the control information is addressed to the own terminal device, the terminal calling time and the calling condition are set based on the control information, and the setting is performed. The gist is to transmit the data held by the own terminal device to the center device via the communication line by calling the terminal based on the control information.

The present invention according to claim 4 is a system in which a center device performs a required process on data transmitted from a plurality of terminal devices via a communication line.
A control information transmitting unit provided in the center device for transmitting control information to the terminal device, a control information receiving unit provided in the terminal device for receiving control information sent from the center device, and also provided in the terminal device. A calling condition setting unit that decodes the control information sent from the center device and, when the control information is addressed to its own terminal device, sets a terminal calling time and a calling condition based on the control information. Similarly, the gist is that the terminal device is provided with a data transmission unit that transmits data to the center device.

[0010]

According to the present invention, the terminal device receives the control information transmitted from the center device, and only the terminal device having the data that meets the condition of the control information transmits the data requested by the center device. Thus, it is possible to increase the density and speed of data collection by selective data collection.

Further, in the present invention, the terminal device receives the control information transmitted from the center device, and the time at which the data is transmitted to the center device is set by the control information for each terminal device. It is possible to increase the density and speed of data collection by collecting data.

[0012]

Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a block diagram showing an embodiment in which the present invention is applied to a load survey system for electric energy. In FIG. 1, 1 is a center device that collects data transmitted from the terminal device 2, and 2 is a center device that regularly calculates the amount of electric power calculated from a voltage signal and a current signal or according to a request from the center device 1. 1 is a terminal device for transmitting to terminal 1, 3 is a center side NCU for connecting center device 1 to subscriber line 7-1, 4 is terminal device 2 for subscriber line 7-
The terminal-side NCU for connecting to 2 is an off-talk terminal that receives the control information transmitted from the center apparatus 1 by the off-talk communication service and outputs it to the terminal apparatus 6, 6 is a switch of the subscriber telephone network, and 7 is a subscriber. A line, 8 is a dedicated line for transmitting the control information transmitted from the center apparatus 1 to the exchange 6 by the off-talk communication service, 9 is a telephone, and 11 is a control information transmitting section for transmitting control information to the terminal apparatus 2. .

FIG. 2 is a block diagram of the terminal device 2. Reference numeral 21 is a power calculator for calculating instantaneous power from a voltage signal and a current signal, 22 is a sampling cycle of the voltage signal and the current signal, a power amount calculation cycle, And a clock unit for managing data transmission time to the center device 1, 23 is a data storage unit for storing data such as instantaneous electric power and electric energy, and 24 is a data transmission unit for transmitting predetermined data to the center device 1. Reference numeral 25 is a control information receiving unit that receives the control information sent from the center device 1, and 26 is the data stored in the data storage unit 23 that is decrypted by the control information sent from the center device 1 to the center device 1. A comparison / determination unit that determines whether or not the transmission condition is met, and a control unit 27 that controls the calculation of the amount of power and the overall operation.

Next, the operation of the apparatus configured as described above will be described. The power calculation unit 21 samples the voltage signal and the current signal based on the sampling timing output from the clock unit 22 to calculate the instantaneous power. The calculated instantaneous power is once stored in the data storage unit 23, and the control unit 27 calculates the power amount from the instantaneous power stored in the data storage unit 23 based on the power amount calculation cycle output from the clock unit 22. Then, the data is stored in the data storage unit 23. The control unit 27 outputs 3 times each according to the output of the clock unit 22.
The 0-minute electric energy, the 1-hour electric energy, the 24-hour electric energy, the 1-month electric energy, the maximum electric energy, and the like are sequentially calculated at regular time intervals and stored in the data storage unit 23. At a preset time such as once a day or once a month, the control unit 27 outputs predetermined data to the data transmission unit 24, and the data transmission unit 24 outputs a call request signal to the terminal side NCU 4. . The terminal side NCU 4 receives the call request signal and outputs the dial number of the center unit 1 through the subscriber line 7-2. When the line is connected to the center side NCU 3 via the exchange 6 and the subscriber line 7-1, predetermined data is transmitted to the center unit 1.

On the other hand, since the center device 1 needs to monitor the power consumption so as not to exceed the installed capacity, it surveys the power consumption of large consumers around the time when the maximum temperature is expected and requests load adjustment. You have to select the customers who will do this. Further, it is also necessary to make a demand forecast from a survey of consumption trends targeting a specific large-scale consumer and a survey of consumption trends targeting general consumers. For example, a customer who requests load adjustment is selected based on the following criteria.

(1) When the rate of increase in the amount of electric power used immediately before the time when the maximum temperature is expected to exceed a specified value (2) On the day when the maximum temperature is expected to occur, the day before or similar to that day When the rate of increase in the amount of electric power used at the same time on the day of the weather condition exceeds a specified value, from the control information transmission unit 11 of the center device 1, for example,
Control information for all terminal devices, "Control the increase rate of the amount of power used at T-1 with respect to the amount of power used at T-1 and call only the terminal device whose value is K% or more." To send. This control information is transmitted to the offtalk terminal 5 by the offtalk communication service function via the leased line 8, the exchange 6, and the subscriber line 7-2. The control unit 27 of the terminal device 2 receives the control information via the control information receiving unit 25, and calculates the increase rate from the power amount data at T-1 and the power amount data at T stored in the data storage unit 23. calculate. The comparison and judgment unit 26 compares the calculated increase rate with the designated value K of the increase rate given by the control information, and if the calling condition is satisfied, the data is calculated to the data transmission unit 24 via the control unit 27. Output increase rate data. Thereafter, the call request signal is transmitted to the terminal side NCU 4 as in the case of the transmission of the scheduled data.
When the line is connected to the center device 1, the subscriber line 7-2, the exchange 6, and the subscriber line 7-1 are output.
Predetermined data is transmitted to the center device 1 via the.
If the calculated increase rate is determined by the comparison / determination unit 26 not to correspond to the calling condition, the terminal device 2
Ends the process for the control information.

Therefore, according to the configuration of the above embodiment, it is not necessary to monitor all the terminal devices other than the regular data, and the terminal corresponding to the condition of the control information transmitted by the center device is not required. Since only the device needs to send data to the center device, it is possible to speed up data collection and reduce communication costs.

FIG. 3 is a block diagram of a terminal device 2 according to another embodiment of the present invention. In the figure, 21 is a power calculator that calculates the instantaneous power from the voltage signal and the current signal, and 22 manages the sampling period of the voltage signal and the current signal, the power amount calculation period, and the data transmission time to the center device 1. A clock unit, 23 is a data storage unit for storing data such as instantaneous electric power and electric energy, 24 is a data transmission unit for transmitting predetermined data to the center device 1, and 25 is control information sent from the center device 1. The control information receiving unit 36 for receiving the information decodes the control information sent from the center device 1, and when this control information is addressed to its own terminal device, the terminal calling time and calling condition are based on the control information. Is a call condition setting unit, and 27 is a control unit that controls the calculation of the amount of power and the overall operation.

Next, the operation of the apparatus configured as described above will be described. The power calculation unit 21 samples the voltage signal and the current signal based on the sampling timing output from the clock unit 22 to calculate the instantaneous power. The calculated instantaneous power is once stored in the data storage unit 23, and the control unit 27 calculates the power amount from the instantaneous power stored in the data storage unit 23 based on the power amount calculation cycle output from the clock unit 22. Then, the data is stored in the data storage unit 23. The control unit 27 outputs 3 times each according to the output of the clock unit 22.
The 0-minute electric energy, the 1-hour electric energy, the 24-hour electric energy, the 1-month electric energy, the maximum electric energy, and the like are sequentially calculated at regular time intervals and stored in the data storage unit 23. At a preset time such as once a day or once a month, the control unit 27 outputs predetermined data to the data transmission unit 24, and the data transmission unit 24 outputs a call request signal to the terminal side NCU 4. . The terminal side NCU 4 receives the call request signal and outputs the dial number of the center unit 1 through the subscriber line 7-2. When the line is connected to the center side NCU 3 via the exchange 6 and the subscriber line 7-1, predetermined data is transmitted to the center unit 1.

On the other hand, the center device 1 needs to monitor the amount of electric power used so as not to exceed the installed capacity. Therefore, the amount of electric power used by large consumers before and after the time when the maximum temperature is expected is investigated and a load adjustment is requested. You have to select the customers who will do this. Further, it is also necessary to make a demand forecast from a survey of consumption trends targeting a specific large-scale consumer and a survey of consumption trends targeting general consumers. For example, a customer who requests load adjustment is selected based on the following criteria.

(1) When the rate of increase in the amount of electric power used immediately before the time when the maximum temperature is expected to exceed a specified value (2) On the day when the maximum temperature is expected to occur, the day before or similar to that day When the rate of increase in the amount of electric power used at the same time on the day of the weather condition exceeds a specified value, from the control information transmission unit 11 of the center device 1, for example,
Control information that "a terminal device of rank A calculates the rate of increase of the amount of electric power used at T with respect to the amount of electric power used at T-1 and calls only the terminal device whose value is K% or more." To all terminal devices. This control information is transmitted to the offtalk terminal 5 by the offtalk communication service function via the leased line 8, the exchange 6, and the subscriber line 7-2. The calling condition setting unit 36 of the terminal device 2 receives this control information via the control information receiving unit 25 and the control unit 27, and if the rank of its own terminal device is A, the power consumption at T-1 hour Then, the increase rate of the amount of electric power used at T is calculated, and if the value is K% or more, the calling condition is set so that the call is made.
Therefore, when the calling condition setting unit 36 receives the time signal at T hour from the clock unit 22, the calling condition setting unit 36 determines the increase rate from the power amount data at T-1 hour and the power amount data at T hour stored in the data storage unit 23. The calculated rate of increase is compared with the designated value K of the rate of increase given by the control information, and if the calling condition is met, the data transmitter 24 via the controller 27.
The calculated increase rate data is output to. Thereafter, when a call request signal is output to the terminal side NCU 4 similarly to the transmission of the scheduled data and a line is connected to the center unit 1, the subscriber line 7-2, the exchange 6, and the subscriber line 7-1 are connected. Predetermined data is transmitted to the center device 1 via the. In addition,
When it is determined that the calculated increase rate does not correspond to the calling condition, the terminal device 2 ends the process for the control information.

Therefore, according to the configuration of the above embodiment, it is not necessary to monitor the data other than the scheduled data for all the terminal devices, and the control information transmitted by the center device is set. Since only the terminal device that meets the conditions of the call condition setting unit transmits data to the center device, it is possible to speed up data collection and reduce communication costs.

The calling condition setting unit 27 can set not only a specific terminal calling condition but also a regular transmission condition. In this case, there is an advantage that the scheduled transmission condition can be set independently for each terminal device.

[0024]

As described above, according to the present invention, the terminal device receives the control information transmitted from the center device, and only the terminal device having the data corresponding to the condition of this control information is requested by the center device. By transmitting the data to be transmitted, it is possible to increase the density and speed of data collection by selective data collection, and to reduce the communication cost.

Further, according to the present invention, the terminal device receives the control information transmitted from the center device, and only the terminal device having the data corresponding to the condition of this control information transmits the data requested by the center device. As a result, it is possible to achieve high density and high speed of data collection by selective data collection and reduction of communication cost.

[Brief description of drawings]

FIG. 1 is a block diagram of an embodiment of the present invention.

FIG. 2 is a block diagram showing a detailed configuration of a terminal device.

FIG. 3 is a block diagram showing a detailed configuration of a terminal device according to another embodiment of the present invention.

FIG. 4 is a block diagram of a conventional example.

[Explanation of symbols]

 1 Center device 2 Terminal device 3 Center side NCU 4 Terminal side NCU 5 Off-talk terminal 6 Exchange 7-1, 7-2 Subscribed line 8 Leased line 9 Telephone 11 Control information transmission part 21 Electric power calculation part 22 Clock part 23 Data storage part 24 Data transmission unit 25 Control information reception unit 26 Comparison judgment unit 27 Control unit 36 Calling condition setting unit

Claims (4)

[Claims] 1. In a system in which a center device performs required processing on data transmitted from a plurality of terminal devices via a communication line, control information is transmitted from the center device to the terminal devices by simultaneous broadcast communication. Then, the terminal device that has received this control information determines whether or not the condition for transmitting the data held by the own terminal device to the center device is met based on the control information, and the terminal device that is determined to match the transmission condition A data collection method, wherein only the device transmits predetermined data to the center device via the communication line by calling the terminal. 2. In a system in which a center device performs required processing on data transmitted from a plurality of terminal devices via a communication line, control information is provided to the terminal devices by simultaneous broadcast communication to the terminal devices. And a control information receiving unit that is provided in the terminal device and receives control information sent from the center device, and a control information receiving unit that is also provided in the terminal device and decodes the control information sent from the center device. The terminal device includes a comparison / determination unit that determines whether or not the data held by the terminal device meets a condition for transmitting the data to the center device, and a data transmission unit that is also provided in the terminal device and transmits data to the center device. A data collection system characterized in that 3. In a system in which a center device performs a required process on data transmitted from a plurality of terminal devices via a communication line, control information is transmitted from the center device to the terminal device, and the control information is transmitted. When the control information is addressed to the own terminal device, the terminal device that receives the message sets the terminal calling time and the calling condition based on the control information, and based on the set control information, the own terminal device. A data collection method characterized in that the data held by the terminal device is transmitted to the center device via the communication line by calling the terminal. 4. In a system in which a center device performs required processing on data transmitted from a plurality of terminal devices via a communication line, control information is provided in the center device and transmits control information to the terminal devices. A transmission unit, a control information receiving unit provided in the terminal device for receiving control information sent from the center device, and a control information receiving unit provided in the terminal device and decoding the control information sent from the center device, When it is addressed to its own terminal device, a calling condition setting unit that sets a terminal calling time and a calling condition based on the control information, and a data transmitting unit that is also provided in the terminal device and sends data to the center device A data collection system comprising: