KR101829462B1 - Method and apparatus for detecting operation pattern associated with power control of electronic device - Google Patents

Abstract

According to an embodiment of the present invention, there is provided an apparatus for detecting power control-related operation patterns of various electric apparatuses, the apparatus comprising: a voltage measuring unit for measuring an operating voltage of the electric apparatus; A current measuring unit for measuring an operating current of the electric device; A pattern detector for detecting a voltage / current pattern corresponding to the operating voltage and the operating current; An EMI measurement unit for measuring EMI from the electromagnetic noise of the electric device to detect an EMI pattern; A pattern storage unit for storing the operation pattern including the voltage / current pattern and the EMI pattern correspondingly to the electric device; And a controller for comparing the detected operation pattern with an existing operation pattern to control the user to notify the occurrence of an event classified by the operation type of the electric device.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a method of detecting an operation pattern related to power control of an electric device,

The present invention relates to a method and apparatus for detecting an operation pattern for power control of an electric apparatus in a power control system, and more particularly, to a method and apparatus for detecting a power control related operation pattern in operation of various electric apparatuses.

Energy saving is inevitably required to cope effectively with environmental problems such as depletion of petroleum energy resources and reduction of carbon dioxide (CO 2) due to global warming. Accordingly, in order to cope with such a problem in the world, a so-called smart grid system has been introduced for research and development of eco-friendly power generation systems such as solar power, wind power and tidal power, as well as for efficient control of power supply and use.

The Smart Grid System is a next generation power control system that enhances system efficiency by combining information and communication technologies in the process of power generation, transportation, and consumption. It can increase efficiency by interacting with power suppliers and consumers. The Smart Grid System is a new concept power control system that manages all the electric currents, including various electric devices such as TVs, refrigerators, air conditioners, etc., used in ordinary households, as well as industrial equipment operated in factories.

In a factory or home where such a smart grid system is applied, a smart meter that performs functions of a conventional power meter may be provided. The smart meter is capable of real-time power consumption counting, and can confirm power consumption by time zone, thereby making prediction for stable power supply and preventing unnecessary power consumption.

The smart meter can count the amount of power used by a plurality of electric devices. However, in order to check the amount of electric power consumed by each electric device, a unique ID is assigned to each electric device, and when the smart meter recognizes the ID of each electric device So that the electric power consumption of each electric device can be checked and counted. However, in order to assign and manage a unique ID for each electric device, it is inconvenient to install a program for interfacing with a smart meter for each electric device. In the case of a conventional electric device in which such a program can not be mounted, the smart meter recognizes the electric device It is not possible to check individual power usage.

Also, a method of distinguishing electric devices by detecting voltage and current changes of electric devices in a smart meter or the like is being studied without assigning a unique ID to electric devices. In this regard, when other electric devices having similar voltage and current changes are used together in the home, the smart meter may erroneously recognize different electric devices as the same electric device.

Also, in the case of an electric device having a plurality of operation stages such as an air conditioner, an electric fan, and a heater, it is required to accurately detect a change in voltage and current according to the number of operation stages and to prevent misinterpretation to other electric devices when a voltage or a current changes.

The present invention provides a method for stably detecting a power control-related operation pattern of an electric device and a detecting device therefor.

The present invention also provides a method of detecting an electric device by detecting a voltage, a current pattern, and an EMI pattern at the time of operation of the electric device, and a detection device therefor.

The present invention also provides a method of detecting an electric device by detecting a voltage, a current pattern, and an EMI pattern at the time of operation of the electric device, and checking a power consumption amount of each electric device, and a detection device thereof.

According to an embodiment of the present invention, an apparatus for detecting a power control-related operation pattern of an electric apparatus includes: a voltage measuring unit for measuring an operating voltage of the electric apparatus; A current measuring unit for measuring an operating current of the electric device; A pattern detector for detecting a voltage / current pattern corresponding to the operating voltage and the operating current; An EMI measurement unit for measuring EMI from the electromagnetic noise of the electric device to detect an EMI pattern; A pattern storage unit for storing the operation pattern including the voltage / current pattern and the EMI pattern correspondingly to the electric device; And a controller for comparing the detected operation pattern with an existing operation pattern to control the user to notify the occurrence of an event classified by the operation type of the electric device.

According to another aspect of the present invention, there is provided a method of detecting a power control related operation pattern of an electric device, comprising: measuring an operation voltage and an operation current of the electric device; Detecting a voltage / current pattern according to the operating voltage and the operating current, and an EMI pattern from an electromagnetic noise of the electric device, in an operation pattern; Comparing the detected operation pattern with an existing operation pattern to determine occurrence of an event classified by operation type of the electric device; And notifying the determined event and mapping the detected operation pattern to an operation type of the electric device and storing the mapped operation pattern.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a diagram showing a configuration of a detection device for detecting a power control-related operation pattern of an electric device according to an embodiment of the present invention;
2A to 2C are diagrams showing an example of detection of an EMI pattern,
3A and 3B are diagrams showing examples of detection of an operation pattern using a window,
4 is a flowchart showing a method of detecting a power control related operation pattern and notifying an event according to Embodiment 1 of the present invention,
5 is a flowchart showing a method of detecting a power control related operation pattern and notifying an event according to Embodiment 2 of the present invention;

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

1 is a diagram showing a configuration of a detection device for detecting a power control-related operation pattern of an electric device according to an embodiment of the present invention.

In FIG. 1, reference numerals 11 and 13 denote plugs and devices of an electric appliance consuming power, respectively. Although only one electric device is shown in FIG. 1 for convenience of explanation, a plurality of electric devices in the house are electrically connected to the detecting device of FIG.

1, reference numeral 101 denotes a voltage measuring unit for measuring an operating voltage of the electric equipment, and 103 denotes a current measuring unit for measuring an operating current of the electric equipment. In FIG. 1, reference numeral 105 denotes an EMI measurement unit for measuring EMI (Electro Magnetic Interference), which is electromagnetic noise generated during operation of the electric apparatus, and recording the detected EMI pattern in the power control related operation pattern.

2A to 2C show an example of detection of an EMI pattern in the EMI measuring unit 105. In FIG. In general, EMI patterns are known to have a unique pattern for each type of electric apparatus. That is, the EMI patterns detected for different electrical devices will have different patterns. FIG. 2A shows an EMI pattern of an electric device. FIG. 2B shows an EMI pattern of another electric device including a new noise 201 as compared with the EMI pattern of FIG. 2A. The EMI measuring unit 105 detects and records an EMI pattern for each electric device as shown in FIGS. 2A and 2B. The controller 113, which will be described later, checks the difference in EMI patterns of each electric device as shown in FIG. It is possible to discriminate the difference between the EMI patterns.

In FIG. 1, reference numeral 107 denotes a voltage measuring unit 101 and a current measuring unit 103. The measuring unit 101 receives a voltage of the electric equipment and a current of the electric equipment measured through the current measuring unit 103, (Hereinafter referred to as "voltage / current pattern"). As another example, the pattern detector 107 may detect the power pattern of the electric device according to the measured voltage and the measured current in the voltage / current pattern.

In the embodiment of the present invention, the power control related operation pattern includes the voltage / current pattern and the EMI pattern, and the pattern information detected through the pattern detection unit 107 and the EMI measurement unit 105 is transmitted to a control unit 113 in the pattern storage unit 109 for each electric device.

The voltage / current pattern has a different pattern depending on the operation type of the same electric device. For example, when the electric device is a fan, the voltage / current pattern in the case of one-stage driving in which the operation type of the fan is weak is different from that in the case of two-stage driving in which stronger wind is generated. However, the EMI pattern has almost the same pattern if it is the same electric appliance regardless of the operation type.

1, the control unit 113 performs overall control for detecting and recording the power control related operation pattern, and displays an event generated when the event corresponding to the detection of the operation pattern is displayed on the display unit 117 or the user's registered communication By the means.

In the embodiment of the present invention, the type of the event according to the detection of the operation pattern is determined by comparing whether the currently detected operation pattern is the same as the previously detected operation pattern, and the type of the event is as shown in Table 1 below .

The control unit 113 determines whether the previous operation pattern recorded in the pattern storage unit 109 is present (newly detected) or not If the EMI pattern is different from the previously detected EMI pattern, the electrical device is identified as a new device. In this case, the control unit 113 notifies the user of an event informing the new operation type for the new apparatus, receives the name and operation type of the new apparatus from the user through the input unit 111, (Voltage / current pattern, EMI pattern) corresponding to the operation mode (for example, the first stage operation of the fan) and records the operation pattern in the pattern storage unit 109.

Also, the controller 113 compares the previous operation pattern recorded in the pattern storage unit 109 with the currently detected operation pattern, so that there is no voltage / current pattern identical to the voltage / current pattern detected this time. However, It is determined that the existing apparatus that has previously detected the operation pattern at least once operates in a different operation type. In this case, the controller 113 notifies the user of an event notifying the new operation type of the existing apparatus, receives the new operation type of the existing apparatus from the user through the input unit 111, (Voltage / current pattern, EMI pattern) corresponding to the first stage operation of the fan, and the second stage operation of the fan, although the operation of the first stage of the fan is previously recorded, is recorded in the pattern storage unit 109.

If the voltage / current pattern and the EMI pattern are both the same, the controller 113 compares the previous operation pattern recorded in the pattern storage unit 109 with the currently detected operation pattern, As shown in Fig. In this case, the control unit 113 notifies the user of an event informing the existing operation type of the existing apparatus.

In the embodiment of the present invention, the controller 113 can compare the operation patterns and check the operation patterns within the window setting period by setting time windows, time and frequency windows as shown in FIGS. 3A and 3B. FIG. 3A shows an example of confirming an operation pattern within a time interval of t1 through a time window 301, FIG. 3B shows an example of operation in a time interval of t1 and a frequency interval of f1 through a time and frequency window 303 And an example of confirming the pattern is shown.

1, the input unit 111 is provided with various function keys for operating a user's key, and receives user information (name of a new device, name of an operation type, etc.) related to detection and recording of the operation pattern . Also, the control unit 113 displays the operation state of the detection apparatus of FIG. 1, the detection result, and the like through the display unit 117. The user information includes various types of settings such as a detection period and a detection time related to the detection of the operation pattern as well as the name of the device and the operation type of the corresponding electric device inputted by the user in order to distinguish a plurality of electric devices from each other, Information, a telephone number of a user for notifying of the event, an e-mail address, and the like.

Meanwhile, in the above-described embodiment, it is assumed that the user directly drives the electric device at home and checks the operation state. However, when the manager of the remote device manages the device of Fig. 1, the control unit 113 communicates with the external device Transmits the operation pattern and the event related information to the manager at the remote site via the communication module 115 for performing event determination and notification. In this case, the input unit 111 and the display unit 117 may be selectively provided. When the detection device of FIG. 1 is provided in the smart meter, communication can be performed periodically or non-periodically through the communication module 115 and an external device that controls power supply in the smart grid system. In another embodiment, the detection device of FIG. 1 may notify the user of the event via the communication module 115 to the registered cellular phone.

In another embodiment, the control unit 113 can notify the user of the power consumption by notifying the user of the event notification, as well as the power consumption by the electric appliance, or by comparing the power consumption with the predetermined threshold value.

FIG. 4 is a flowchart showing a method of detecting a power control related operation pattern and notifying an event according to the first embodiment of the present invention. In the first embodiment, the EMI pattern is detected first and the voltage / Fig.

The reason why the EMI pattern is detected first is that the same electric device discriminates whether the detection target device is the same through the EMI pattern, regardless of whether the operation type is the same or not, In order to detect an operation pattern for each operation type.

In step 401 of FIG. 4, the user sets initial information for detection of the operation pattern of the detection apparatus and event notification. The initial information may be the above-described user information or the like. If the detection target apparatus is turned on in step 403, the detection apparatus of FIG. 1 detects the EMI pattern from the detection target apparatus in step 405 and inquires whether there is the same EMI pattern that has been stored (recorded). If it is determined in step 409 that the existing EMI pattern does not exist or that the same EMI pattern does not exist, then in step 411, the EMI pattern detected in step 405 is temporarily stored, and in step 413, And notifies the event notifying the operation type.

In step 415, the detection apparatus of FIG. 1 receives a device name and an operation type (for example, a first-stage fan operation) for a new event from a user, and in step 417 through step 421, Maps and stores the detected EMI pattern of the new device, and completes the new pattern traing for the new device.

On the other hand, if it is determined in step 409 of FIG. 4 that the previously stored EMI pattern exists, the existing device mapped to the EMI pattern is confirmed in step 423, and the voltage / current pattern is detected in step 425. When the detection of the voltage / current pattern is completed, the detection apparatus of FIG. 1 inquires whether the same stored voltage / current pattern exists in step 427. If it is determined in step 429 that the existing voltage / current pattern does not exist or the same voltage / current pattern does not exist, in step 431, the detected voltage / current pattern is temporarily stored in step 427, An event notifying the new operation type is notified.

In step 433, the detection apparatus of FIG. 1 receives a new operation type (for example, a fan second-stage operation and the like) for the existing apparatus from the user, and in step 435 to step 441, Maps the detected voltage / current pattern of the existing device, and completes the new pattern traing for the existing device.

On the other hand, if it is determined in step 429 of FIG. 4 that the same voltage / current pattern previously stored exists, the detection apparatus of FIG. 1 notifies the user of an event informing the existing operation type of the existing apparatus in step 443. In step 445, the user confirms the amount of power used by the detection device of FIG. 1 for the existing device. Here, the used power amount may be compared with a threshold preset by the user, and when the used power amount exceeds the predetermined threshold, it is possible to notify that the power consumption is excessive.

Although the example of FIG. 4 is performed in the case where the detection target electric device is on-driven in the above embodiment, a plurality of electric devices electrically connected to the detection device of FIG. 1 may be sequentially or periodically or non-periodically And the detection result and the amount of power consumption can be notified for each electric device. Of course, it is possible to perform the same calculation as that of the known method in order to calculate the electric power consumption for all electric devices.

Although not shown in FIG. 4, after the pattern traing is completed in steps 421 and 441, the amount of power used by the detecting device of FIG. 1 is displayed or notified as in step 445 of FIG. 4, Can be confirmed.

5 is a flowchart showing a method of detecting a power control related operation pattern and notifying an event according to Embodiment 2 of the present invention. In Embodiment 2, the EMI pattern and the voltage / current pattern constituting the operation pattern are detected in parallel And event notification according to the combination of the detected EMI pattern and the voltage / current pattern is separately performed.

In step 501 of FIG. 5, the user sets initial information for detection of an operation pattern of the detection apparatus and event notification. The initial information may be the above-described user information or the like. If the detection target apparatus is turned on in step 503, the detection apparatus of FIG. 1 detects the EMI pattern and the voltage / current pattern from the detection target apparatus in steps 505 and 507, (Recorded) pattern to determine whether there is an identical operation pattern for at least one of the detected EMI pattern and the voltage / current pattern.

If it is determined in step 511 that the previously stored operation pattern does not exist or the same operation pattern does not exist, the controller 50 temporarily stores the detected operation pattern (EMI pattern and voltage / current pattern) in steps 505 and 507 in step 515 , And notifies the user of an event informing the user of the new operation type for the new device in step 517. [

In step 519, the detection device of FIG. 1 receives a device name and an operation type (for example, a first-stage fan operation) for a new event from a user, receives the operation event of the new event from the user in steps 521 to 525, Maps and stores the detected motion pattern in step 507, and completes the new pattern traing for the new device.

On the other hand, if it is determined that the same operation pattern previously stored in step 511 of FIG. 5 exists, if the EMI pattern and the voltage / current pattern in the operation pattern are all the same (CASE1) in step 513, (CASE2), and the case where the EMI pattern is different and the voltage / current pattern is the same (CASE3).

First, CASE1 is a case where the EMI pattern and the voltage / current pattern are all the same. In step 529, the detection apparatus of FIG. 1 notifies the user of an event informing the existing operation type of the existing apparatus. In step 531, The amount of used electric power collected by the detecting device of Fig. 1 is confirmed.

The detection apparatus of FIG. 1 notifies the user of the new event of the existing apparatus in step 533, and the new operation type of the existing apparatus is notified from the user in step 535. In step 535, In step 537 to step 541, the detected voltage / current pattern in step 507 is mapped and stored in correspondence with the new operation type of the existing device, and the new pattern traing for the existing device is completed.

In CASE 3, the EMI pattern is different and the voltage / current pattern is the same, and the detection apparatus of FIG. 1 notifies the user of the event informing the user of the new operation type for the new apparatus in step 543, similarly to the operation after step 515. In step 545, the detection apparatus of FIG. 1 receives the device name and the operation type for the new event from the user, and in step 547 to step 551, detects the EMI pattern of the steps 505 and 507 Maps and stores the voltage / current pattern, and completes the new pattern traing for the new device.

In the second embodiment shown in FIG. 5, the amount of electric power used by the electric device is compared with a threshold set by the user in advance, and when the amount of electric power used exceeds the predetermined threshold, it is notified that the amount of electric power used is excessive. The detection operation can be repeatedly performed periodically or periodically or non-periodically on a plurality of electrical devices electrically connected to the detection device of FIG.

Claims (20)

An apparatus for detecting an operation pattern of an electric device,
A voltage measuring unit for measuring an operating voltage of the electric device;
A current measuring unit for measuring an operating current of the electric device;
A pattern detector for detecting a voltage / current pattern corresponding to the operation voltage and the operation current;
An EMI measurement unit for measuring EMI from electromagnetic noise of the electric device to detect an EMI pattern;
A control unit for comparing the operation pattern including the voltage / current pattern and the EMI pattern with an existing operation pattern to identify and notify the type of the generated event; And
And a pattern storage unit for storing the detected operation pattern by mapping an operation type of the electric device and the electric device when the detected operation pattern is different or new from the existing operation pattern,
The type of the event may include detection of a new device, detection of a device different from the existing operation type, or detection of an operation pattern of the electric device in which the operation type is the same as the existing operation type Device.
The method according to claim 1,
Wherein the controller determines the type of the generated event according to whether the existing operation pattern is the same as the operation pattern when the operation pattern is detected.
The method according to claim 1,
Wherein the control unit detects the voltage / current pattern and the EMI pattern in parallel, and makes the type of the generated event parallel to each of the voltage / current pattern and the EMI pattern.
The method according to claim 1,
Wherein the controller detects the EMI pattern first to determine whether the electric device is a new device and detects the voltage / current pattern to determine whether the electric device is the operation type of the second type of operation, Device.
The method according to claim 1,
The control unit determines that the electric device is a new device when the EMI pattern identical to the detected EMI pattern does not exist in the existing operation pattern, and controls to map the detected operation pattern to the name of the new device and store A device for detecting an operation pattern of an electric device.
The method according to claim 1,
Wherein the controller is configured to determine whether the EMI pattern existing in the existing operation pattern and the same voltage / current pattern as the detected voltage / current pattern do not exist in the existing operation pattern, And controls the operation pattern to be mapped to the new operation type of the existing apparatus and stored.
The method according to claim 1,
Wherein the control unit compares the electric power consumption of the electric device with a predetermined threshold value and controls the electric device to notify when the electric power usage amount is equal to or greater than the threshold value.
The method according to claim 1,
Wherein the control unit controls to detect the operation pattern using a window set according to at least one of time and frequency.
The method according to claim 1,
And a communication module for notifying the occurrence of the event through an external communication network.
The method according to claim 1,
And an input unit for inputting a name and an operation type according to the detection of the operation pattern of the electric device.
A method for detecting an operation pattern of an electric device,
Measuring an operation voltage and an operation current of the electric device;
Detecting an EMI pattern from a voltage / current pattern according to the operation voltage and the operation current and an electromagnetic noise of the electric device;
Comparing the detected operation pattern including the voltage / current pattern and the EMI pattern with an existing operation pattern to determine the type of the generated event;
Notifying the identified event; And
And storing the detected operation pattern by mapping an operation type of the electric device and the electric device when the detected operation pattern is different or new from the existing operation pattern,
The type of the event may include detection of a new device, detection of a device different from the existing operation type, or detection of an operation pattern of the electric device in which the operation type is the same as the existing operation type Way.
12. The method of claim 11,
And determining the type of the generated event according to whether the existing operation pattern is the same as the detected operation pattern.
12. The method of claim 11,
Detecting the voltage / current pattern and the EMI pattern in parallel,
And discriminating the kind of the generated event in parallel according to each of the voltage / current pattern and the EMI pattern.
12. The method of claim 11,
Detecting the EMI pattern first and discriminating the electric device as a new device when an EMI pattern identical to the detected EMI pattern does not exist in the existing operation pattern.
15. The method of claim 14,
And mapping the detected operation pattern to a name of the new device and storing the mapped operation pattern.
12. The method of claim 11,
If an EMI pattern identical to the detected EMI pattern exists in the existing operation pattern and a voltage / current pattern identical to the detected voltage / current pattern does not exist in the existing operation pattern, And mapping the detected operation pattern to the new operation type of the existing apparatus and storing the mapped operation pattern.
12. The method of claim 11,
Comparing the power usage of the electric device with a predetermined threshold value and notifying when the electric power usage amount is equal to or greater than the threshold value.
12. The method of claim 11,
Wherein the detecting step further comprises detecting the operation pattern using a window set according to at least one of time and frequency.
12. The method of claim 11,
And notifying the occurrence of the event through an external communication network.
12. The method of claim 11,
Wherein the storing step further includes inputting a name and a name of an operation type according to the detection of the operation pattern of the electric device.

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