KR101902387B1 - System and method for controlling standby power using pattern analysis on consumption of power - Google Patents

Abstract

The present invention relates to a system and a method for controlling standby power using a power usage pattern analysis controlling standby power according to a change in a power usage environment. To this end, the system comprises: a data storage unit for storing data for power consumption of a power usage load; a pattern analysis unit for analyzing a power usage pattern for the power consumption; a pattern extraction unit for extracting a standby power pattern of the power usage pattern; and a standby power blocking reference value automatic setting unit for automatically setting a standby power blocking reference value of the power usage load based on the standby power pattern.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a standby power control system,

The present invention relates to a standby power control system and a control method using power use pattern analysis. More specifically, the present invention automatically sets a standby power cutoff reference value through power usage pattern analysis, To a standby power control system and a control method using the power usage pattern analysis.

Generally, in the case of home appliances such as TVs, computers, microwave ovens, and audio appliances, since the plug is continuously plugged into the outlet, the plug is often left in the outlet even when it is not used for a long time.

In this state, the electronic apparatus consumes a predetermined amount of standby power in spite of the unused state, thereby causing unnecessary power consumption.

As a method for preventing the standby power consumption as described above, there is a method of disconnecting the power supply from the electronic device by removing the plug, but it is very troublesome to plug and unplug the electronic device every time.

Accordingly, a socket is provided with a switch that cuts off the power supply to the socket, so that a socket is provided to allow power to be supplied or cut off from the socket to which the plug is connected. In addition, If it is determined that the power is standby power, a stand-by power cut-off technique for cutting off power supply to the electronic device is being developed.

For example, the standby power cutoff system measures the voltage or current of an electronic device connected to a commercial power supply, calculates the load power from the measured voltage, and determines whether the calculated load power belongs to the load power during operation or not do.

As a result of the determination, if it is determined to belong to the load power in the air, the output power of the outlet is cut off so that the standby power applied to the electronic device is cut off.

However, the conventional standby power cut-off system has a disadvantage that the user must manually set the standby power cut-off set value as a criterion for discriminating whether the currently used power load is the standby power or the used power for each electronic apparatus .

SUMMARY OF THE INVENTION The present invention provides a standby power control system and a control method using power usage pattern analysis that can automatically set a standby power cutoff reference value through power usage pattern analysis.

Another aspect of the present invention is to provide a standby power control system and a control method using a power usage pattern analysis capable of controlling standby power according to a change in a power usage environment.

According to an aspect of the present invention, there is provided a data processing apparatus including: a data storage unit for storing data on power consumption of a power usage load; A pattern analyzer for analyzing a power usage pattern for the power usage; A pattern extracting unit for extracting a standby power pattern among the power use patterns; And a standby power cutoff reference value automatic setting unit for automatically setting a standby power cutoff reference value of the power use load based on the standby power pattern.

The standby power control system includes a first power usage scenario setting unit that sets a first power usage scenario based on the power usage pattern, a power usage environment recognition module that detects a variation amount of the power usage environment related to the power usage load, A second power usage scenario setting unit configured to set a second power usage scenario based on the first power usage scenario and the power usage change amount; And the like.

According to another aspect of the present invention, there is provided a method of controlling power consumption, comprising the steps of: Storing the measured power usage; Analyzing a power usage pattern for the power usage; Extracting a standby power pattern among the power usage patterns; And a step of automatically setting a standby power cutoff reference value for the power usage load based on the standby power pattern.

Wherein the standby power control method comprises: setting a first power usage scenario for the power usage load based on the power usage pattern; Controlling standby power for the power usage load according to the first power usage scenario; Determining whether a power usage environment associated with the power usage load has changed; Estimating a power usage change amount with respect to the power usage load when the power usage environment is changed; Setting a second power usage scenario for the power usage load based on the power usage and the power usage variation; The method may further include controlling standby power for the power usage load according to the second power usage scenario.

The standby power control system and the control method using the power usage pattern analysis according to the present invention have the following effects.

First, there is an advantage that it is possible to solve the inconvenience that the user must set the standby power cutoff reference value for the corresponding power using device each time by automatically setting the standby power cutoff reference value through analysis of the power usage pattern.

Second, by setting the power usage scenario based on the power usage change pattern and the power usage pattern due to the change of the power usage environment, there is an advantage that the standby power can be efficiently controlled by predicting the power demand according to the power usage environment change.

1 is a diagram illustrating an embodiment of a standby power control system according to the present invention.
FIG. 2 is a block diagram illustrating a detailed configuration of a power usage control device, a power usage environment recognition module, and a power amount sensor included in the standby power control system of FIG. 1;
3 is a flowchart illustrating a method of controlling standby power according to the standby power control system of FIG.

Embodiments of a standby power control system and a control method using the power usage pattern analysis according to the present invention will be described with reference to the accompanying drawings.

1 and 2, the standby power control system includes a power quantity sensor 20 for measuring a power consumption of the power use load 10, a power consumption sensor 20 for detecting a variation in the power usage environment associated with the power usage load 10, A power usage environment recognition module 100 and a power usage control device 200 for controlling standby power for the power usage load 10. [

The power use load 10 receives power from the external power source 1 through the power line 2.

The power amount sensor 20 transmits information including power consumed in the power use load 10 to the power use control device 200. [

The power usage environment recognition module 100 may store information on an environment where the power usage load 10 is installed, such as temperature, humidity, illumination, number of people, installation space, time information, And the like to the power use control apparatus 200.

The power usage control device 200 controls the power usage load 10 based on information transmitted from the power amount sensor 20 and the power usage environment recognition module 100.

Specifically, the power usage control apparatus 200 includes a data storage unit 210, a pattern analysis unit 220, a pattern extraction unit 230, a standby power cutoff reference value automatic setting unit 240, a power use variation amount predicting unit 250, a power usage scenario setting unit 260, and a power usage load control unit 270.

The data storage unit 210 stores data on power consumption sampled at a predetermined unit time interval by the power amount sensor 20. [

The pattern analyzer 220 analyzes the power usage pattern of the power consumption. The pattern analyzer 220 calculates the power usage pattern according to a predetermined criterion and analyzes the power usage pattern.

The pattern extracting unit 230 analyzes a specific pattern of power usage in the power usage pattern. For example, the power usage pattern can be expressed and expressed as a power consumption amount for each power use load 10 per unit time interval. Here, the period of the power use pattern can be set to one minute, one hour, one day, one week, one month, one year, or season.

In addition, the pattern extracting unit 230 extracts a standby power pattern for the power usage load 10 among the power usage patterns.

The standby power cutoff reference value automatic setting unit 240 automatically sets a standby power cutoff reference value for the power use load based on the standby power pattern.

The power use change amount predicting unit 250 predicts a power use change amount to be used in advance based on the change amount of the power use environment recognized by the power use environment recognition module 100. [

The power usage scenario setting unit 260 may include a first power usage scenario setting unit that sets a first power usage scenario based on the power usage pattern and a second power usage scenario setting unit that sets a second power usage scenario based on the first power usage scenario and the power use change amount. And a second power usage scenario setting unit for setting a power usage scenario.

The power usage load controller 270 controls the power usage loads 10 according to the first power usage scenario or the second power usage scenario.

The power use environment recognition module 100 includes a temperature sensor 120 for measuring a temperature at a place where the power usage load 10 is installed, a humidity sensor 130 for measuring humidity, a light intensity sensor A space information recognizing unit 160 for recognizing the space in which the power use load 10 is installed, a time information generating unit for generating a time when the power use load 10 is being used, A time information recognizing unit 170 for recognizing information on the power usage load 10 and a device information recognizing unit 180 for the used equipment according to the type of the power use load 10.

The temperature data measured by the temperature sensor 120 provides the probability that the cooling / heating unit will be used during the power use load, and the power use variation amount prediction unit 250 determines whether the cooling / heating unit is likely to be used based on the temperature data And predicts a change in power use when the cooling / heating unit is used.

The power usage change amount predicting unit 250 transmits the power use change amount to the power usage scenario setting unit 260. [ The power usage scenario setting unit 260 sets a second power usage scenario based on the first power usage scenario and the power use variation, whether used in the base.

Similarly, the humidity data measured by the humidity sensor 130, the illuminance data measured by the illuminance sensor 140, the number of persons measured by the motion sensor 150, the output from the spatial information recognizer 160 (E.g., the number of windows in the space), the time information output from the time information recognizing unit 170, the time information output from the time information recognizing unit 170, The device information (for example, the type of the device, the rated voltage, etc.) output from the device information recognition unit 180 also affects the power usage scenario.

2 and 3, a standby power control method according to the standby power control system according to the present invention will be described.

First, the power amount sensor 20 measures a power consumption amount with respect to a power use load (S110).

Next, the measured power usage is transferred to the data storage unit 210 and stored.

Next, the pattern analyzer 220 analyzes the power usage pattern for the power consumption (S120).

Next, the pattern extracting unit 230 extracts a standby power pattern among the power use patterns (S130).

Next, the standby power cutoff reference value automatic setting unit 240 automatically sets the standby power cutoff reference value for the power usage load based on the standby power pattern (S140).

As a result, by setting the standby power cutoff reference value automatically through the analysis of the power usage pattern, it is possible to solve the inconvenience that the user has to set the standby power cutoff reference value for the corresponding power consuming device every time.

Next, the first power usage scenario setting unit sets a first power usage scenario for the power usage load based on the power usage pattern (S150).

Next, the power usage load controller 270 controls the standby power for the power usage load according to the first power usage scenario (S160).

Next, the power usage change amount predicting unit 250 determines whether the power usage environment related to the power usage load has changed (S210). At this time, the power use change amount predicting unit 250 receives the power use environment change amount from the power use environment recognition module 100.

At the same time, the power use change amount predicting unit 250 predicts a power use change amount with respect to the power usage load when the power use environment is changed (S220).

If the power usage environment has not changed, the standby power is controlled according to the first power usage scenario.

Next, the second power usage scenario setting unit sets a second power usage scenario for the power usage load based on the power usage amount and the power use variation according to the first power usage scenario (S230).

Next, the power usage load controller 270 controls standby power for the power usage load according to the second power usage scenario (S240).

As a result, by repeatedly performing the above-described process and setting the power usage scenario based on the power usage change amount and the power usage pattern due to the change in the power usage environment, the standby power can be efficiently predicted It becomes possible to control.

As described above, the present invention is not limited to the above-described specific preferred embodiments, and various changes and modifications may be made by those skilled in the art without departing from the scope of the present invention as claimed in the claims. And such variations are within the scope of the present invention.

10: Power use load 20: Power consumption sensor
100: power consumption environment recognition module 120: temperature sensor
130: humidity sensor 140: illuminance sensor
150: motion detection sensor 160: spatial information recognition unit
170: Time information recognition unit 180: Device information recognition unit
200: power use control device 210: data storage unit
220: pattern analyzing unit 230: pattern extracting unit
240: Standby power cutoff reference value automatic setting unit
250: Power usage change amount predicting unit 260: Power usage scenario setting unit
270: power use load controller

Claims (4)

A data storage unit for storing data on power consumption of the power usage load;
A pattern analyzer for analyzing a power usage pattern for the power usage;
A pattern extracting unit for extracting a standby power pattern among the power use patterns;
A standby power cutoff reference value automatic setting unit for automatically setting a standby power cutoff reference value of the power use load based on the standby power pattern;
A first power usage scenario setting unit for setting a first power usage scenario based on the power usage pattern;
A power usage environment recognition module for sensing a variation amount of a power usage environment related to the power usage load;
A power usage change amount predicting unit for predicting a power use change amount to be used in advance based on the power use environment change amount;
A second power usage scenario setting unit setting a second power usage scenario based on the first power usage scenario and the power use change amount; And,
And controls the power usage load according to the first power usage scenario if the power usage environment has not changed, and controls the standby power for the power usage load according to the second power usage scenario when the power usage environment has changed And a power use load control unit
Wherein the power usage environment recognition module includes a space information recognition unit for recognizing information on a space in which the power usage load is installed, a time information recognition unit for recognizing information on a time when the power usage load is used, And a device information recognizing unit for the used device,
Wherein the space information output from the space information recognizing unit includes the space of the space, the position of the space from the ground, and the number of windows existing in the space, , Including rated voltage,
Wherein the first power usage scenario and the second power usage scenario are repeatedly performed based on the power usage pattern and the power usage change amount. delete A standby power control method for controlling a standby power control system according to claim 1,
Measuring the power usage for the power usage load;
Storing the measured power usage;
Analyzing the power usage pattern for the power usage;
Extracting the standby power pattern from the power usage pattern;
Automatically setting the standby power cutoff reference value for the power usage load based on the standby power pattern;
Setting the first power usage scenario for the power usage load based on the power usage pattern;
Controlling standby power for the power usage load according to the first power usage scenario;
Determining whether the power usage environment associated with the power usage load has changed;
Estimating the power usage change amount with respect to the power usage load when the power usage environment is changed;
Setting the second power usage scenario for the power usage load based on the power usage and the power usage variation; And,
And controlling standby power for the power usage load according to the second power usage scenario. delete

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