KR101935684B1 - Power management system using power signal of electric power equipment - Google Patents

Abstract

The present invention relates to a power management system. More specifically, the present invention relates to a power management system using the power signal of electric power equipment. A power signal measuring apparatus is installed in the main power part of a distribution board provided to distribute electric power in a consumer such as a general home or an office. When the measured power signal is transmitted to a power signal monitoring server through a communication network, the power signal monitoring server receiving the power signal analyzes the power signal. Power consumption can be monitored for each power device after specifying power equipment consuming the power. So, not only the total power consumption of the customer but also the power consumption of each power device can be analyzed and managed by installing a single power signal measuring apparatus.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a power management system using a unique power signal of a power device,

The present invention relates to a power management system, and more particularly, to a power management system in which a power signal measurement apparatus is installed in a main power section of a distribution board, To the power signal monitoring server, the power signal monitoring server receives the power signal and analyzes the power signal to identify the power device consuming the power and then monitor the power consumption by each power device, And more particularly, to a power management system using a unique power signal of a power device that can analyze and manage not only the total power consumption in a customer but also the power consumption per power device by simply installing the device.

Generally, the power management system monitors the operation status of various power equipment used in industry or housing, and based on this monitoring information, it is determined whether there is an abnormal situation that can cause power failure such as power failure, overcurrent, So that the user can be informed of the measurement result, thereby enabling the user to recognize the degree of increase in power consumption and to prevent excessive use of electric power. And is being used to help plan power usage.

In recent years, in order to manage electric power demand, a change in electric power consumption pattern is informed to a power bill chart in order to grasp a change in electric power usage of a corresponding consumer compared with a past electric power use history, or information about an average usage amount of other nearby consumers By providing a simple statistical data, the customer is aware of the use of the electric power itself, so that the excessive use of electricity can also lead to self-regulation.

In addition, as the recent communication technology develops, monthly power consumption in an office or a house can be automatically transmitted from a Smart Meter, a watt hour meter installed in a customer, to a power supplier, Values can be used to perform systematic power management, and at the same time, it is possible to use power without inconvenience of measurement of power consumption on the side of a customer.

However, in the case of a smart meter that can acquire and manage power consumption information by bidirectional communication between the power supplier side and the customer side, only the value of the total power consumption used by the corresponding customer for a certain period of time is obtained , It is difficult to monitor the usage amount of each power device used by the customer.

Accordingly, recently, a smart plug equipped with an IoT device capable of measuring power consumption and transmitting data through a communication network is connected to an individual outlet that supplies power to the power device, and the degree of increase or decrease of power supplied through the outlet is measured , Devices that measure the amount of power used by each power device and transmit it to the user's smartphone or to a server of the local area have been introduced.

However, in the case of such a smart plug, not only the usage amount of power supplied to the plug of the power device from the outlet can be individually measured, but also the convenience of being able to cut off the power supply to the power device using an external smart phone However, it is cumbersome to combine smart plugs into each outlet and register them separately.

Therefore, there is a problem in that not only the cost of using such a smart plug in combination with all outlets increases but also the inconvenience of use is increased, so that it is difficult to widely spread in most homes and offices.

In addition, to all the customers, a commercial power supplied from the power supplier is appropriately distributed to a plurality of outlets provided on the customer side, and the presence or absence of an abnormal situation is detected to automatically shut off power supply, A distribution board (or an electric distribution board) is installed.

Due to the recent development of IoT technology, the function of such a distribution board is not only to supply commercial power, but also to automatically shut off the power supply in response to an abnormal situation, and after power information is supplied to the customer through the distribution board to monitor the power information consumed, The smart distribution board has been actively developed to enable stable and optimized power usage while preventing excessive power consumption.

As an example of the development of such a smart distribution board, Korean Patent Registration No. 10-1645647 discloses a smart distribution board capable of easily transmitting and receiving information by multiple communication without limitation of a communication method according to a usage environment in which a distribution board is installed, And a smart distribution board controller capable of accurately warning overload.

However, the conventional smart distribution boards including the Korean Patent No. 10-1645647 can still obtain information on the total amount of power used while being branched from the distribution panel and being supplied to the respective outlets inside the customer, There is still a problem that it is difficult to monitor and manage the power use situation in individual electric power devices since it is only possible to monitor the usage amount.

Korean Patent No. 10-1645647 Korea Patent No. 10-0994375 Korean Patent No. 10-1295843 Korean Patent Publication No. 10-2013-0114953 Korean Patent No. 10-1349333

In the present invention, a power signal measuring apparatus is installed in a main power section of a distribution board provided to distribute electric power in a customer such as a home or office, and when the measured power signal is transmitted to a power signal monitoring server through a communication network, A power signal monitoring server analyzes the power signal to identify the power device consuming the power and then monitor the power consumption by each power device so that even if only one power signal measuring device is installed, It is another object of the present invention to provide a power management system using a unique power signal of a power device capable of analyzing and managing not only power consumption but also power consumption per power device.

In order to solve the above problem, a power management system using a unique power signal of a power device includes:

A power signal measuring apparatus connected to a main power unit of a distribution board provided in a customer and measuring a power signal supplied to a customer through a distribution board and transmitting the measured power signal through a communication network; And a controller for receiving a power signal of each customer transmitted from the power signal measuring apparatus and updating and storing a change in power usage for each of the power devices on the list of previously registered users, A power signal monitoring server for transmitting information; The power signal monitoring system of the present invention includes a base signal modeling server for deriving a base model at the request of the power signal monitoring server, ; The power signal of each customer transmitted from the power signal monitoring server is modeled and stored as a power signal pattern for each power device registered by the user with respect to the corresponding customer and the current power is consumed or consumed by the power signal of each customer A power signal learning modeling server for discriminating power devices whose patterns have changed and transmitting the power devices to the power signal monitoring server; And generating and storing an acceptance model indicating the power devices of the corresponding customer by selecting or adding the power model that is actually operating in the customer after receiving the basic model from the power signal monitoring server on the wireless communication network, And a smart phone for receiving and displaying power monitoring information indicating power consumption of each power device to be transmitted.

At this time, the power signal measuring apparatus includes:

A power signal measuring unit connected to the main power unit of the distribution board and measuring a power signal indicating a power consumption level for operation of the power equipment used in the customer; And a power signal transmitter for transmitting the power signal measured by the power signal measuring unit to a power signal monitoring server using a communication network.

The power signal monitoring server may further include:

A power signal receiver for receiving a power signal transmitted from the power signal transmitter and accumulating the power signal in a power status database; A base model providing unit that receives a basic model that matches electric power devices that can be used in a customer with a power signal pattern of each electric power equipment, from the basic signal modeling server and provides the basic model to a user's smartphone; Receiving the power device modification information for selecting, adding or removing power devices used by the user by using the smartphone receiving the basic model, and receiving the power device modification information from the device / A custodian model manager for storing the custodian in a device list database; And a controller configured to receive a power signal transmitted from the power signal measuring device at predetermined intervals to specify a power device while comparing power signal patterns generated when the power devices on the customer model are driven, And a device-specific monitoring information management unit that updates the usage change and stores the updated usage monitoring information as power monitoring information and transmits the monitoring information to the smartphone.

Also, the power signal monitoring server may transmit the power signal transmitted at a predetermined period in the power signal measuring device to the power signal learning modeling server while the power management service continues, and update the power signal model on the acceptance model, And a consumer model learning unit for modeling and storing the power signal of only the corresponding customer based on the power device list on the customer model registered by the customer.

In addition, the basic signal modeling server is configured to classify power devices according to the type of a load, and then generate basic models by matching with the respective power signal patterns.

In addition,

A customer model setting unit for generating or updating a customer list by selecting, removing or adding a power device on a list of power devices transmitted in the basic model service or on a list of already created customers; And a monitoring information display unit for receiving the monitoring information for each device transmitted from the power signal monitoring server and displaying the received monitoring information to the display unit.

The present invention is characterized in that a power signal measuring apparatus is installed in a main power section of a distribution board and then a power signal consumed by analyzing the measured power signal is specified so that an inexpensive installation and maintenance cost It is possible to monitor the power consumption by each power device.

Further, according to the present invention, it is possible to analyze and manage not only the total power consumption in the customer but also the power consumption by each power device by a simple operation of installing one power signal measuring device in the main power section of the distribution board, There is an effect that can contribute.

1 is a system outline diagram of a power management system using a unique power signal of a power device according to the present invention;
BACKGROUND OF THE INVENTION Field of the Invention [0001] The present invention relates to a power management system,
3 is a block diagram of a power management system using a unique power signal of a power device according to the present invention.
4 is an exemplary view showing a data flow at the time of initial setting in which a power device provided in a customer is registered in a power signal monitoring server according to the present invention;
5 is a diagram illustrating a data flow when providing a service for monitoring a power usage status by a power signal transmitted from a power signal measurement apparatus according to the present invention;

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

FIG. 2 is a system configuration diagram of a power management system using a unique power signal of a power device according to the present invention. FIG. 3 is a block diagram of a power management system using a power signal of the power device according to the present invention. FIG. 2 is a block diagram of a power management system using a unique power signal of a power device according to the present invention;

1 to 3, a power management system using an eigenpower signal of a power device according to the present invention is connected to a main power unit of a distribution board provided in a customer and receives a power signal A power signal measuring apparatus 100 for measuring a power signal transmitted from the power signal measuring apparatus and transmitting the measured power signal through a communication network, A power signal monitoring server 200 that updates and saves a change in power usage for each power device and transmits updated power monitoring information to a user's smartphone, Is registered as a basic model for each type of power device and is stored in the request of the power signal monitoring server A basic signal modeling server 300 for deriving a basic model based on the received power signal and providing power signals of the respective receptors transmitted from the power signal monitoring server to power meters registered by a user for the corresponding receptacle, A power signal learning modeling server 400 for storing the power model of the power model and storing power model of the power model, The power signal monitoring server generates and stores an acceptance model representing the power devices of the corresponding customer by selecting or adding the power devices actually operating in the customer after receiving the power signal from the monitoring server, Number of monitoring information And it is configured to include a smart phone (500) to express.

The power signal measuring apparatus 100 includes a power signal measuring unit 110 connected to the main power unit of the distribution board and measuring a power signal indicating a power consumption level for operation of the power equipment used in the customer, And a power signal transmission unit 120 for transmitting the power signal measured by the power signal measurement unit to the power signal monitoring server using a communication network.

Since the power signal measuring apparatus 100 is connected to the main power unit of the distribution board to measure the degree of power usage in the customer, it is not necessary to provide the power signal measuring apparatus 100 for each outlet like a normal smart plug, The power management can be performed by simply installing and maintaining the power management system, thereby reducing the installation and maintenance cost of the power management system.

As shown in FIG. 1, the power signal measuring unit 110 is connected to the main power unit of the distribution board to measure a power signal. Therefore, the power signal measuring unit 110 may be connected to various power sources such as an air conditioner, a computer, a fan, a refrigerator, The total sum of electric power supplied to the electric power equipment (electric equipment) can be measured.

1, the power signal measured by the power signal measuring unit 100 may be changed by the number of power devices currently being driven or the number of power devices that are currently being driven, as shown by the power status analysis or the power signal deep learning And an analog signal whose magnitude and waveform change according to the driving state of the motor.

As described above, the power signal measuring unit 100 measures the total power consumption by the power devices used in the customer, by using the power signal, but the power signal is a sum of the individual power signals consumed in the respective power devices The power signal measuring unit may analyze the power signal measured by the power signal measuring unit to recognize the power devices used to represent the power signal pattern, do.

The power signal transmission unit 120 includes a communication module for transmitting the power signal measured by the power signal measurement unit to the power signal monitoring server 200 in a remote location on a communication network. As shown in FIG. 2, A remote communication module capable of wirelessly transmitting the measured power signal using the router is provided. In addition, as shown in FIG. 4, in order to register the power devices used in the customer as a customer model, And a short range communication module capable of directly transmitting the measured power signal to the smart phone 500 so that it can be easily determined.

In order to generate a customer model by selecting, removing or adding power devices actually provided to the customer based on the basic model provided by the power signal monitoring server 200, It is possible to transmit the signal to the smartphone 500 by the local communication module in the signal transmission unit 120. However, after the customer model is generated and stored in the power signal monitoring server, the measured power signal is analyzed, The measured power signal is transmitted from the power signal transmitting unit 120 to the power signal monitoring server 200 by the remote communication module as shown in FIG. thereafter. The power signal transmitter may be configured to freely change an object to which a power signal measured according to a user's requirement is to be transmitted.

The power signal monitoring server 200 includes a power signal receiver 210 for receiving a power signal transmitted from the power signal transmitter and accumulating the power signal in the power status database, A basic model providing unit 220 for receiving a basic model matched with a power signal pattern from the basic signal modeling server and providing the received basic model to a smartphone of a user and a user using a smart phone receiving the basic model, A customer model manager 230 for receiving the power device modification information for selecting, adding or removing the power device and storing the power device modification information in the device / device list database as a customer model indicating the power devices driven in the customer's customer, Receives and receives a power signal transmitted from the measuring device every predetermined period The power consumption of each of the power devices is updated by comparing with the combination of the power signal patterns generated when the power devices on the model are driven and storing the power consumption information as power monitoring information, And a star monitoring information management unit 240.

2, 4, and 5, the power signal monitoring server 200 can maintain data receivable and receivable state with the power signal measuring apparatus 100 and the smart phone 500 on the web or wireless communication network To be displayed as a web / apps service server.

The power signal receiving unit 210 includes communication means connected to the power signal transmitting unit 120 so that data can be exchanged with the power signal transmitting unit 120 on the wireless communication network. And accumulates the data in the power status database as data for monitoring the power use status of the customer after receiving the power signal.

As described above, the power signal of the customer received by the power signal receiving unit 210 indicates the total power consumption used in the customer, and is used as raw data for deriving individual power devices driven in the customer As well as data for monitoring the total amount of power used in the customer.

Accordingly, the power monitoring information generated by the device-specific monitoring information management unit 240 may be calculated not only by the power consumption of each power device consuming the current power, but also by the charging date of the electricity charge .

The basic modeling unit 220 performs a basic model in which various types of power devices are matched with a power signal pattern that is a unique power signal according to an operation state of the power device by the basic signal modeling server 300, And is received from the basic signal modeling server 300 and provided to the user's smartphone 500.

In order to utilize the power management service provided according to the present invention as basic data for generating an acceptance list at an initial stage of using the power management service provided by the present invention, And to transmit to the user's smartphone 500 a list of selectable powered devices operating in the customer using the phone.

After receiving the power signal transmitted from the power signal measuring apparatus 100, the basic model providing unit 220 derives power devices determined to be currently operating based on a list selected by the user, To the smartphone 500 in the form of a list.

When transmitting the derived power device list based on the power signal currently measured in the basic model providing unit 220, the user directly confirms whether the corresponding power devices are currently operating in the customer, and then corrects the corresponding power device list .

The cus- tomer model managing unit 230 is used to generate or update a cus- tomer model representing the power devices used in the cus- tomer. The cus- tomer model managing unit 230 selects a power device operating in the cus- tomer on the list provided from the basic model providing unit 220 Receiving the list modification information to be added or removed and storing it in the device / device list database as a customer model, or, when there is a replacement or purchase of the power device, the power device on the already stored customer model And is configured to receive list update information to be added or removed and store it in the device / device list database in an updated customer model.

In the case where the list of power devices derived based on the power signal measured by the power signal measuring apparatus 100 is received from the basic model providing unit 220, the customer model managing unit 230 determines that the user It is possible to generate the acceptance model by directly checking whether the devices are operated or not and then inputting the power device list modification information.

At this time, when the power signal pattern matched to the power device selected or added by the user is registered by the basic signal modeling server 300, the customer model managing part 230 stores the power signal pattern of the power device It is needless to say that it is required to be configured to be registered in the customer model together with the name of the power device.

The device-specific monitoring information management unit 240 receives a power signal transmitted from the power signal measuring device 100 after the registration of the consumer model every predetermined period and identifies the power device consuming the current power from the pattern of the power signal Calculates the amount of power used in the power device based on the time during which the power signal pattern is held and the size of the power signal, and generates power monitoring information for the corresponding power device to transmit the power usage information to the smart phone 500 do.

At this time, the device-specific monitoring information management unit 240 not only monitors the amount of power used by each power device specified by the power signal analysis modeling server 400 and the power signal monitoring server 200, The power monitoring information including the information on the total amount of power used in the customer during the billing period is generated so that the user viewing the power monitoring information monitors the power usage information in the entire customer as in the conventional smart distribution panel It is desirable to enable stable power management while monitoring the amount of power usage by each power device without separately providing a separate smart plug.

In addition, the power signal monitoring server 200 transmits a power signal, which is transmitted every predetermined period in the power signal measuring apparatus, to the power signal learning modeling server 400 while the power management service continues, And a customer model learning unit 250 capable of modeling and storing the power signal of only the corresponding customer based on the power device list on the customer model registered by the user by allowing the model to be updated desirable.

The power signal model of only the corresponding customer, which is stored in the power signal learning modeling server 400 and updated at regular intervals by the customer model learning unit 250, is then calculated from the power signal pattern transmitted from the power signal measurement apparatus It can be provided as a criterion for discriminating power devices or monitoring power consumption.

Thus, power device discrimination and power consumption monitoring are performed based on the power signal model only for the corresponding customer. Therefore, as the learned and updated power signal model increases, power devices are discriminated based on the power signals, The accuracy of the monitored result can be improved.

The basic signal modeling server 300 is connected to the power signal monitoring server 200 through an internal dedicated network and is connected to the power signal monitoring server 200 through a dedicated network, The power signal patterns composed of the power signals are matched to the respective power devices, and then the power signal patterns are registered for each type of power device and stored as a basic model.

In order to match the power device with the power signal pattern, various types of power devices such as blood type air conditioner, electric heater, TV, refrigerator, washing machine, computer, and communication device are turned on and off, The power supplied from the distribution panel is changed when a change in the driving state that causes a change in the power consumption occurs, such as a change in the brightness of the illumination during the operation and a change in the driving mode of the air conditioner or the electric heater The power signal pattern of each power device for each of these cases must be matched to each power device and stored.

In addition, power signal patterns may be different depending on a manufacturer or a model even for the same type of power equipment. In this case, the power devices are classified according to the manufacturer or model, and then the power devices are matched with the respective power signal patterns to generate a basic model desirable. It may also be desirable to configure the power devices to be based on the type of load and then to match the power signal patterns to generate a base model. That is, the type of the load may vary depending on the motor type, the lighting, the charging or the heating, and the type of the load may vary depending on the refrigerator, the computer, the TV, or the washing machine.

At this time, the power signal pattern of each power equipment is formed of a time series signal, and a time series signal indicating the power on / off and operation state can be learned and modeled by a machine learning method based on Deep Learning such as RNN , And a pattern change that occurs upon application of an on-off signal to turn off or turn on the power device is preferably modeled.

The power signal learning modeling server 400 receives a power signal transmitted from the power signal monitoring server 200 at a predetermined period in the power signal measuring apparatus 100, Modeling the power signal of the corresponding customer by modeling, storing and updating the signal in the signal pattern, and calculating the power signal of the customer from the power signal measured by the power signal measuring apparatus 100 based on the stored power signal model of the corresponding customer And transmits the signal to the power signal monitoring server 200.

2, 4, and 5, the basic signal modeling server 300 is represented by a signal modeling server A, the power model learning server 400 is represented by a signal modeling server B, .

In this manner, the power signal learning modeling server 400 learns while updating the power signal model of only the customer, and determines power devices consuming power based on the learned power signal model, As a result, as the power management service continues, it becomes possible to improve the accuracy of discriminating the power equipment from the power signal.

The power consumed by each power device has a constant power signal pattern at the time of on-off or operation, and when power is simultaneously consumed by a plurality of power devices in the customer, it is supplied to a plurality of power devices operating through the power distribution panel, The power signal learning modeling server can determine which power devices are consuming power based on the degree of change of the power signal pattern .

In addition, the number and type of power devices used in the customer are somewhat limited. In the power signal learning modeling server 400, a power signal model of only the corresponding customer can be classified into a machine learning method by Deep Learning And the power device consuming power is determined based on the power signal model of the corresponding customer modeled as described above. Therefore, as the service usage increases, the accuracy of the discrimination can be improved as the updated data increases .

The smartphone 500 includes a user who wants to receive a power management service and is capable of transmitting and receiving data with the power signal monitoring server 200 on a wireless communication network, And a power management service application programmed to display the power usage amount of each of the power devices by receiving the power monitoring information to be transmitted.

As shown in FIG. 5, the smart phone 500 is capable of transmitting and receiving data to and from the power signal monitoring server 200 via a wireless communication network by means of a self-contained remote communication module, And can be configured to transmit and receive data to and from the power signal measuring apparatus 100 through a self-contained short-range communication module.

The smartphone 500 includes a customer model setting unit 510 for generating or updating a customer list by selecting, removing or adding a power device on a list of power devices transmitted in the basic model service or on an already generated customer list, And a monitoring information display unit 520 for receiving the monitoring information for each device transmitted from the power signal monitoring server and displaying the monitoring information to the display unit.

The consumer model setting unit 510 selects an electric power equipment provided in the customer on the list of power equipment transmitted by the basic model supplier and transmits the selection information to the customer model managing unit so that the customer model Respectively.

At this time, the acceptance model setting unit 510 receives a list of the power devices determined to be currently operating using the power signal transmitted from the power signal measuring device from the customer model managing unit, If the corresponding power device is operating, the power device is selected and included in the list of customers. If there is any device that does not actually operate, the power device is removed from the list of customers. The power device not shown in the figure is manually added to generate a customer model.

In addition, the monitoring information display unit 520 receives the monitoring information for each device transmitted from the power signal monitoring server 200 and exposes the monitoring information to the display unit, thereby allowing the user to check the amount of power consumed in the consumer by the power device .

To this end, the smartphone needs to store a list of power devices constituting a consumer model, and the power consumption in the power devices on the consumer model is not only the current usage amount but also the cumulative usage amount for a certain period of time , It is possible to manage power consumption with a greater emphasis on management of power devices consuming excessive power.

Thus, by analyzing the power signal pattern measured by the power signal measuring device installed in the distribution board in each customer by the power signal pattern modeled for each customer or each power device, the power device consuming the power is identified and the power By monitoring the usage, it is possible to monitor not only the total power usage in the customer but also the power usage per power device by simply installing a single power signal measurement device in the distribution board without plugging the smart plug every outlet So that the spread of the power management system can be activated.

While the present invention has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the invention is not limited to the disclosed embodiments. It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the scope of the present invention.

100: Power signal measuring apparatus 110: Power signal measuring unit
120: Power signal transmission unit
200: power signal monitoring server 210: power signal receiver
220: basic modeling unit 230: customer model management unit
240: monitoring information management unit for each device 250:
300: Basic signal modeling server
400: Power Signal Learning Modeling Server
500: smartphone 510: customer model setting unit
520: Monitoring information display section

Claims (6)

The main power unit of the distribution board is connected to the main power unit of the distribution board to measure the power signal supplied to the customer through the distribution board and to transmit the measured power signal through the communication network. A power signal transmission unit for transmitting a power signal measured by the power signal measurement unit to a power signal monitoring server using a communication network; A power signal measuring device configured to measure the power signal;
And a controller for receiving a power signal of each customer transmitted from the power signal measuring apparatus and updating and storing a change in power usage for each of the power devices on the list of previously registered users, A power signal receiver for receiving a power signal transmitted from the power signal transmitter and accumulating the power signal in a power status database to transmit information; A base model providing base model in which power devices that can be used in a customer are matched with power signal patterns of each power device from a basic signal modeling server and providing the base model to a user's smartphone; Receiving the power device modification information for selecting, adding, or removing power devices used by the user by using the smartphone receiving the basic model, and receiving the power device modification information from the device / A customer model manager for storing the customer model in a list database; And a controller configured to receive a power signal transmitted from the power signal measuring device at predetermined intervals to specify a power device while comparing power signal patterns generated when the power devices on the customer model are driven, A monitoring information management unit for each device for updating the change and storing it as power monitoring information and transmitting the same to the smart phone; And the power signal is transmitted to the power signal learning modeling server by the power signal measuring device during a predetermined period while the power management service is continuously performed to update the power signal model on the acceptance model, A power model monitoring server configured to model and store a power signal of only the corresponding customer based on the list;
The power signal monitoring system of the present invention includes a base signal modeling server for deriving a base model at the request of the power signal monitoring server, ;
The power signal of each customer transmitted from the power signal monitoring server is modeled and stored as a power signal pattern for each power device registered by the user with respect to the corresponding customer and the current power is consumed or consumed by the power signal of each customer A power signal learning modeling server for discriminating power devices whose patterns have changed and transmitting the power devices to the power signal monitoring server; And
The base model is received from the power signal monitoring server on a wireless communication network, and then a consumer model representing the power devices of the corresponding customer is generated and stored by selecting or adding a power device that is actually operating in the customer, A list of electric apparatuses to be transmitted in the basic modeling unit or a list of electric appliances already created is selected, removed or added to generate a list of electric appliances A customer model setting unit for updating the customer model; And a monitoring information display unit configured to receive the monitoring information for each device transmitted from the power signal monitoring server and display the monitoring information on the display unit,

After receiving the power signal transmitted from the power signal measuring apparatus, the basic model providing unit derives the power devices that are determined to be currently operating based on the list selected by the user, and retransmits the derived power device list to the smart phone If the list is transmitted, the user directly confirms whether the corresponding power devices are currently operating in the customer, and then corrects the list of the power devices,
The device-specific monitoring information management unit may be configured to monitor not only the amount of power used by each power device specified by the power signal analysis modeling server and the power signal monitoring server but also the total amount of power used in the corresponding period And generating the power monitoring information including information on the usage amount,
The basic signal modeling server is configured to classify power devices according to a type of a load and to generate a basic model by matching with each power signal pattern, wherein each of the power signal patterns includes a time-series Wherein the signal is modeled by learning by a machine learning method by a deep learning. delete delete delete delete delete

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