KR101206522B1 - System and method for energy management using context awareness - Google Patents

Abstract

Disclosed are an energy management system and method using context awareness. The energy management system includes an internal environment information collecting unit for collecting internal environment information including at least indoor temperature information, set temperature information, and illuminance information; An external environment information collecting unit for collecting external environment information including at least external weather information and time information; An energy history data storage unit for storing history data for at least internal environment information, external environment information, and energy saving information determined using the same; A personal information storage unit for storing personal information related to energy such as a user's age, health condition, taste, and habits; A configuration information inference unit for inferring configuration information for energy saving using energy history data, internal environment information, external environment information, and personal information; An energy saving determination unit for determining a current energy saving control amount by using internal environment information, external environment information, and inferred setting information; And an energy saving control unit for controlling energy saving by using the determined energy saving control amount.
According to the present invention, energy consumption can be minimized by using external environment changes such as weather and time zone, personal information such as taste, health status, habit, age, and internal environment information such as room temperature, illuminance and motion information.

Description

System and method for energy management using context awareness

The present invention relates to energy management, and more particularly, to an energy management system and method using a situation that can reduce the energy consumption of a house or building.

Of the total energy use, the building uses about 40% of the total by air-conditioning and lighting. In order to save energy, users can directly intervene in the form of a smart grid to use and control energy consumption. However, since it is a form of controlling the amount of power used by the user through bidirectional communication, the fluctuation may vary depending on individual tendencies and interests, and the energy saving effect may be insignificant. This requires a technology that minimizes the amount of power while minimizing individual intervention.

The problem to be solved by the present invention is to take into consideration the external environment including the temperature, humidity, time zone, internal environment information such as room temperature, illuminance, and personal environment such as user's taste, health condition, habit, age, movement, etc. Provides energy saving system and method using situational awareness to minimize energy usage and save energy of entire building by artificially providing individuals with optimal temperature or lighting environment using past history information. will be.

Energy saving system using a situational awareness according to the present invention for achieving the above technical problem, the internal temperature information including at least the indoor temperature information detected by the temperature sensor, the set temperature information and the illumination information set by the user to collect the internal Environmental information collecting unit; An external environment information collecting unit for collecting external environment information including at least external weather information and time information; An energy history data storage unit for storing history data on at least the internal environment information, the external environment information, and energy saving information determined using the same; A personal information storage unit for storing personal information related to energy such as a user's age, health condition, taste, and habits; Inferring setting information for energy saving using data stored in the energy history data storage unit, internal environment information collected by the internal environment information collection unit, external environment information and personal information collected by the external environment information collection unit, and the like. Setting information inference unit; An energy saving determination unit configured to determine a current energy saving control amount by using the internal environment information collected by the internal environment information collection unit, the external environment information collected by the external environment information collection unit, and the inferred setting information; And an energy saving control unit for controlling energy saving using the determined energy saving control amount.

The internal environment information collecting unit collects human thermal image information about the temperature change of the human body using a thermal image sensor, and the setting information inference unit infers the temperature control amount according to the body temperature using the human thermal image information. . The internal environment information collecting unit collects motion detection information for detecting the movement of an object in the room, and if the energy saving determination unit does not detect the motion for a predetermined time, it is preferable to determine to turn off the lighting of the room. The energy saving determination unit determines the inference temperature when the set temperature, the present temperature or the appropriate temperature is higher than the inference temperature by inputting an appropriate temperature linked to a current temperature, an inference temperature, a set temperature, and an external temperature. If it is higher than the set temperature, it is desirable to determine the set temperature. The energy saving determination unit lowers the inferred set temperature if the current set temperature is greater than the inferred set temperature, and if the reset set temperature is reset by the user within a predetermined time, the inferred set temperature is lower than the reset temperature of the user. It is preferable to set higher than the inferred set temperature.

Energy saving method using the situational awareness according to the present invention for achieving the above technical problem, (a) at least the internal environment information including the room temperature information detected by the temperature sensor, the set temperature information and illuminance information set by the user; Collecting external environment information including at least external weather information and time information; (b) historical data for each of the internal environmental information, external environmental information, and energy saving information determined using the internal environmental information, the collected internal environmental information and the collected external environmental information, the user's age, health status, taste, Inferring setting information for energy saving using personal information such as habits; (c) determining an energy saving control amount using the collected internal environment information, the collected external environment information, and the inferred setting information; And (d) controlling the energy savings using the determined energy saving control amount.

The internal environment information further includes at least one of human thermal image information about a temperature change of a human body and motion detection information for detecting movement of an object in a room by using a thermal image sensor, and the step (b) includes: When the thermal image information is collected, the temperature control amount is determined according to the body temperature, and the step (c) may further include determining to turn off the lighting of the room when the motion detection information is collected and motion is not detected for a predetermined time. Do. The step (c) is to determine the inference temperature if the set temperature, the current temperature or the appropriate temperature is higher than the inference temperature by inputting the appropriate temperature linked to the current temperature, the inference temperature, the set temperature, the external temperature. If is higher than the set temperature, it is preferable to determine the set temperature. In the step (c), if the current set temperature is higher than the inferred set temperature, the step is lowered to the inferred set temperature, and if there is a reset of the elevated set temperature of the user within a predetermined time, the inferred set temperature is not lower than the reset temperature of the user. It is preferable to set only higher than the inferred set temperature.

According to the energy saving system and method using the situational awareness according to the present invention, it is possible to use personal information such as changes in the external environment and taste according to weather and time zones, health status, habits, age, and internal environment information such as room temperature, illuminance and motion information. By artificially providing the optimal temperature or lighting environment to individuals, it is possible to minimize the amount of energy used, which can lead to energy savings in homes, offices and buildings.

1 is a block diagram illustrating a configuration of an embodiment of an energy saving system using a situational awareness according to the present invention.
Figure 2 shows an embodiment in which the energy saving system according to the present invention is used in connection with the building / home.
3 is a flowchart illustrating an embodiment of an energy saving method using situational awareness according to the present invention.
4 is a flowchart illustrating an example of a process of determining a control temperature in the energy saving determination unit.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. The embodiments described in the present specification and the configurations shown in the drawings are merely preferred embodiments of the present invention and are not intended to represent all of the technical ideas of the present invention and therefore various equivalents And variations are possible.

1 is a block diagram showing a configuration of an embodiment of an energy saving system using a situational awareness according to the present invention, the system includes an internal environmental information collecting unit 110, an external environmental information collecting unit 120, an individual The information storage unit 160, the energy history data storage unit 170, the setting information inference unit 130, the energy saving determination unit 140 and the energy saving control unit 150 is made.

The internal environment information collection unit 110 collects information on the internal environment, such as buildings, offices, general houses, etc. to save energy. Therefore, at least the temperature sensor detects the indoor temperature information, or collects indoor setting temperature information set by the user or indoor illuminance information such as sunlight, fluorescent lamps, and incandescent lamps. In addition, the internal environmental information collecting unit 110 collects human thermal image information about the temperature change of the human body using a human thermal image sensor, and whether there is a person in the room through a surveillance camera or a sensor capable of capturing motion. Motion detection information for detecting the movement of the object represented may be collected.

The external environment information collection unit 120 collects information on the external environment, such as buildings, offices, houses to save energy. Therefore, the external environment information collecting unit 120 may collect external weather information including external temperature, humidity, wind strength, and the like, and collect time information for knowing whether it is dawn, morning, day, or evening.

The personal information storage unit 160 stores personal information in order to perform energy saving for each individual in consideration of personal propensity, habit, and experience. Therefore, the personal information storage unit 160 may store the user's age information because the appropriate room temperature may vary depending on whether the healthy person and the elderly are healthy, and also the heating temperature may vary depending on the health condition such as cold body health, It also stores energy-related personal information, such as personal preferences and habits about lighting and room temperature.

The energy history data storage unit 170 stores historical data about the internal environment information and the external environment information, as well as energy inference information determined and determined using the internal environment information, external environment information, and personal information. History data is stored. The historical data is used as basic data or learning data when inferring setting information for energy saving.

The setting information inference unit 130 collects data stored in the energy history data storage unit 170, internal environment information collected by the internal environment information collecting unit 110, and external environment information collecting unit 120. Using the personal information stored in the external environment information and personal information storage unit 160 infers the setting information for energy saving. In addition, the setting information inference unit 130 may calculate the body temperature using the human thermal image information collected by the internal environment information collecting unit 110 to infer the indoor temperature control amount.

The energy saving determination unit 140 is the setting inferred from the internal environment information collected by the internal environment information collecting unit 110, the external environment information and setting information inference unit 130 collected by the external environment information collecting unit 120. The information is used to determine the current energy saving control amount. In addition, the energy saving determination unit 140 may determine that there is no person in the room and determine to turn off the interior light when the motion is not detected for a predetermined time in the internal environment information collecting unit 110. That is, although the energy saving determination unit 140 refers to a value set by the individual, the energy saving determination unit 140 determines the temperature to be controlled based on the appropriate temperature, the present temperature, and the inference temperature associated with the external temperature. In this way, the user's interventions are constantly monitored and thereby the temperature reset and energy savings.

In addition, the energy saving determination unit 140 receives a proper temperature linked to a current temperature, an inferencing temperature, a set temperature by the user, and an external temperature, and if the set temperature, the present temperature, or the proper temperature is higher than the inferencing temperature, If the inference temperature is higher than the set temperature, it is desirable to determine the set temperature. In addition, the energy saving determination unit 140 lowers the inferred set temperature if the current set temperature is greater than the inferred set temperature, and if the reset set temperature of the user is reset within a predetermined time, the deduced set temperature of the user. It is desirable to set lower than the reset temperature but higher than the inferred set temperature.

The energy saving control unit 150 controls the energy saving using the determined energy saving control amount.

Figure 2 shows an embodiment in which the energy saving system according to the present invention is used in connection with the building / home. IHD (In-Home Display) displays real-time two-way communication with user control panel and displays energy related information such as power consumption, current rate, estimated rate, and progressive agent information in building or at home, and can be operated by user. . The temperature sensor transmits the temperature information to the energy saving system, and the motion detection sensor detects the motion information and sends it to the energy saving system to calculate outing information and vacancy information. Through the heat sensor, body temperature is calculated and used as health information. In addition, the heating / cooling / lighting control module collects temperature information, outing / vacancy information, and health information from the home or office, and receives time information such as weather information such as temperature / humidity, dawn, morning, day, and evening from the outside. Perform optimal energy saving control, and provide a guide to your home or office. The air-conditioning / lighting control module can perform the optimal energy saving control more effectively by building the experience information and habit information as a database. As a result, the energy saving system according to the present invention collects external environmental information such as weather and time information, collects internal environmental information from buildings / homes, and makes the user feel uncomfortable based on historical data and personal information data. Perform or guide optimal energy saving control.

For example, if you limit the energy consumption of an individual's living space to 30 KW, and you are currently using 18 KW after 15 days, if you continue to use it, it is likely to use up to 35 KW.

Therefore, in order to solve this problem, the energy saving system according to the present invention can effectively save energy. For example, if the current indoor temperature is 25 degrees, the external weather is 4 degrees, and historical historical data indicates that no attempt was made to raise the temperature at 18 degrees before, the current room temperature is 25 degrees. However, lower the set temperature to 18 degrees and guide the user. That is, the energy saving system and method according to the present invention makes it possible to perform energy saving with reference to past habit information. If the light is on even though there is no human motion in the small room, turn off the lights.

If there is no attempt to increase the temperature even when operating at the set value, the controller determines that the user can make a comfortable state even with this value, and stores the set value and utilizes it as historical data.

By detecting the change in body temperature by the thermal image sensor, it can be confirmed that there is no abnormality in the human body. You can lower the temperature further. In other words, if the user does not attempt to reset the temperature rise, it is determined that the temperature is okay even at this temperature. When the user resets the temperature rise, the user may set a higher value and use it as history data next time.

3 is a flowchart illustrating an embodiment of an energy saving method using situation awareness according to the present invention, and an energy saving system and method using situation awareness according to the invention will be described with reference to FIGS. 1 to 3. do.

The internal environment information collecting unit 110 collects internal environment information including at least indoor temperature information detected by a temperature sensor, set temperature information set by the user, and indoor illuminance information, and also collects external environment information collection unit 120. Collects external environmental information including at least external weather information and time information (step S310). The internal environmental information is a human thermal image information about a temperature change of a human body and a movement of an object in a room using a thermal image sensor. It may include motion detection information for detecting the. The human thermal image information is used for temperature information of a person, and motion detection information is used to control lighting or the like by determining whether or not a person is in the room.

Then, the setting information inference unit 130 reads the history data for the internal environment information stored in the energy history data storage unit 170, the history data of the external environment information, and the energy saving information determined using the internal environment information, and the internal environment. The internal environment information collected by the information collecting unit 110 and the external environment information collected by the external environment information collecting unit 120, and the age, health status, tastes, and habits of the user individual stored in the personal information storage unit 160. Infer the setting information for energy saving using personal information, etc. (step S330).

Energy saving determination unit 140 is the internal environment information collected by the internal environment information collection unit 110, the external environment information collected by the external environment information collection unit 120 and the setting information inferred by the setting information inference unit 130 Determine the amount of energy saving control using (S350).

Energy saving is controlled using the determined energy saving control amount (step S370).

The setting information inference unit 130 calculates a body temperature when the human thermal image information is collected, infers a temperature control amount according to the body temperature, and the energy saving determination unit 150 moves the motion for a predetermined time when the motion detection information is collected. It is desirable to check whether it is detected and determine to turn off the lighting of the room if no motion is detected.

In addition, the energy saving determination unit 140 receives the appropriate temperature linked to the current temperature, the inference temperature, the set temperature, and the external temperature as shown in Table 1, and controls the inference temperature to be higher if the personal setting temperature is higher than the inference temperature. (case1), if the inference temperature is higher than the personalized temperature is controlled to be a personalized temperature (case2). In addition, if the present temperature is higher than the inference temperature, the control is controlled to be the inference temperature (case3), and if the appropriate temperature linked with the external temperature is higher than the inference temperature, the control is controlled to be the inference temperature (case4).

case External temperature interlock
Proper temperature Current temperature Reasoning temperature Set temperature One Control temperature Temperature 2 Temperature Control temperature 3 Temperature Control temperature 4 Temperature Control temperature

In addition, in step S350, if the current set temperature is greater than the inferred set temperature, the lowered to the inferred set temperature, and if there is a reset of the elevated set temperature of the user within a predetermined time, the inferred set temperature is lower than the reset temperature of the user. It is preferable to set higher than the inferred set temperature, and FIG. 4 shows an example thereof in a flowchart.

Referring to FIG. 4, the temperature value A set by the current user is read (step S410), and an existing inferred set value B is obtained (step S420). The inferred set temperature (B) is compared (step S430). If the current set temperature (A) is greater than the inference temperature (B), the control is performed to lower the temperature so as to be controlled by the inference temperature (B). Because the inference temperature is lower than the temperature set by the user, the indoor temperature may feel cold and the user may try to increase the temperature. Therefore, by checking whether there is a temperature rise reset by the user (step S450), if there is a user's temperature rise reset, the indoor temperature is controlled to be slightly higher than the inferred temperature (step S460). If the state is set to 22 degrees (step S410) and the indoor temperature inferred based on the historical data and personal information is 18 degrees (step S420), the energy saving determination unit 140 compares the set temperature and the inference temperature (S430). Step), the indoor temperature is determined to 18 degrees, and the room temperature is adjusted to 18 degrees instead of the 22 degrees set by the user. (S440) In this case, if the user does not feel uncomfortable even at the indoor temperature of 18 degrees, the indoor temperature is 18 degrees. It is controlled, but if the user feels cold, the set temperature can be reset so that it is slightly higher than the set 22 degrees. The reset value is stored as history data so that it can be used later in setting temperature inference. Therefore, if it is checked and the temperature rise is reset by the user, the temperature is controlled by increasing the temperature slightly from 18 degrees to 20 degrees (step S460). Energy can be saved by being controlled at 20 degrees instead of 22 degrees.

On the other hand, if the current set temperature (A) is not greater than the inferred temperature (B) is changed to the existing inferred temperature to the current set temperature to be used as the base data when the next inference temperature is calculated (step S470).

The present invention can be embodied as code that can be read by a computer (including all devices having an information processing function) in a computer-readable recording medium. A computer-readable recording medium includes all kinds of recording apparatuses in which data that can be read by a computer system is stored. Examples of computer-readable recording devices include ROM, RAM, CD-ROM, magnetic tape, floppy disk, optical data storage, and the like.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

110: internal environmental information collection unit 120: external environmental information collection unit
130: setting information inference unit 140: energy saving determination unit
150: energy saving control unit 160: personal information storage unit
170: energy history data storage unit

Claims (8)

An internal environment information collecting unit configured to collect internal environment information including at least room temperature information detected by the temperature sensor, set temperature information set by the user, and illuminance information;
An external environment information collecting unit for collecting external environment information including at least external weather information and time information;
An energy history data storage unit for storing history data on at least the internal environment information, the external environment information, and energy saving information determined using the same;
A personal information storage unit for storing personal information related to energy such as a user's age, health condition, taste, and habits;
By comparing the indoor temperature setting information currently set by the user and the past indoor temperature setting information stored in the energy history information storage unit, the low indoor temperature setting information is obtained as a reference value of inference, and the energy saving is reflected by reflecting the personal information. Setting information inference unit for inferring room temperature setting information for the control unit;
Compared with the internal environmental information collected by the internal environmental information collecting unit, the external environmental information collected by the external environmental information collecting unit, and the inferred indoor temperature setting information, the current value becomes a reference value of a control for controlling energy saving. An energy saving determination unit determining an energy saving control amount; And
And an energy saving control unit for controlling energy saving by using the determined energy saving control amount. The method of claim 1, wherein the internal environmental information collecting unit
Collect at least the thermal image information about the temperature change of the human body and the motion detection information for detecting the movement of the object in the room using at least a thermal image sensor,
The setting information inference unit
When the human thermal image information is collected, the indoor temperature determined according to the human body temperature change is inferred as a control amount of the indoor temperature,
The energy saving determination unit
If the motion is not detected for a predetermined time through the motion detection information, energy saving system using the situation whether it is determined to turn off the lighting of the room. The method of claim 1, wherein the energy saving determination unit
If the set temperature, the current room temperature or the appropriate temperature is higher than the inference temperature by inputting the appropriate temperature, the current indoor temperature, the inference temperature, the set temperature set by the user according to the external temperature; Determining an energy saving control amount based on the inference temperature, and determining the energy saving control amount based on the set temperature when the inference temperature is higher than the set temperature. The method of claim 1, wherein the energy saving determination unit
If the current set temperature is greater than the inferred set temperature, the temperature is lowered to the inferred set temperature, and if there is a reset of the user's elevated set temperature within a predetermined time, the inferred set temperature is lower than the user's reset temperature, but the inferred set temperature. Energy saving system using situational awareness, characterized in that it is set higher than. (a) the internal environmental information collection unit collects internal environmental information including at least room temperature information detected by the temperature sensor, set temperature information and illuminance information set by the user, and the external environmental information collection unit at least external weather information and time; Collecting external environment information including information;
(b) The setting information inference unit compares the room temperature information currently set by the user with the past indoor temperature setting information stored in the energy history information storage unit to obtain information having a low setting temperature as a reference value of inference, and thus age of the user. Inferring indoor temperature setting information for energy saving by reflecting personal information such as health status, taste, and habits;
(c) determining, by an energy saving determining unit, an energy saving control amount that is a control reference value for energy saving by comparing the collected internal environment information, the collected external environment information, and the inferred setting information; And
(d) the energy saving control method of the energy savings, characterized in that it comprises the step of controlling the energy savings using the determined energy saving control amount. The method of claim 5, wherein the internal environment information is
Further comprising at least one of the human thermal image information and the motion detection information for detecting the movement of the object in the room using a thermal image sensor,
Step (b) is
When the human thermal image information is collected, the setting information inference unit infers the indoor temperature determined according to the human body temperature change as a control amount of the indoor temperature,
Step (c) is
If the motion detection information is collected and the motion is not detected for a predetermined time, the energy saving determination unit further comprises determining to turn off the lighting in the room. The method of claim 5, wherein step (c)
The set temperature, the current indoor temperature or the appropriate temperature is determined by inputting an appropriate temperature, a current indoor temperature, an inference temperature, and a set temperature set by a user, according to the energy saving determination unit. The energy saving control amount is determined based on the inference temperature when the temperature is higher than the temperature, and the energy saving control amount is determined based on the set temperature when the inference temperature is higher than the set temperature. The method of claim 5, wherein step (c)
If the energy saving determination unit lowers to the inferred set temperature if the current set temperature is greater than the inferred set temperature, and if there is a reset of the elevated set temperature of the user within a predetermined time, the energy saving determiner determines the inferred set temperature of the user. The energy saving method using situation recognition, characterized in that it is set lower than the reset temperature but higher than the inferred set temperature.

Images