KR101394345B1 - Method for energy management according to priority in a public space, apparatus for the same - Google Patents

Abstract

The present invention relates to a method of controlling building energy, wherein when there are a plurality of users in a common space, the priorities of users are calculated and energy control in buildings is performed based on the user having the highest priority, It is possible to efficiently control energy in a building even if it exists in a space.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method of controlling energy according to priorities in a common space,

The present invention relates to a building energy control method, and more particularly, to a method and apparatus for controlling energy in a building based on a user having the highest priority when a plurality of users exist in a common space To an energy control method according to priorities in a common space, and to an energy control apparatus therefor.

As the size of the economy of the nation grows, various types of buildings are emerging, and the scale is becoming larger and more complex. In addition, as the desire to secure a comfortable living environment increases, the energy consumption required for heating and cooling of the building and the operation of the facility is rapidly increasing.

The energy used in these buildings accounts for a large part of the total energy consumption of the whole country, but the energy efficiency of Korea is relatively low, so it is essential to reduce the energy and develop the technology for the high efficiency of the equipment.

To this end, technologies such as building automation (Building Automation) and building energy management system (Building Energy Management System) have emerged, which are aimed at controlling all possible situations in buildings by implementing IT technology and performing more efficient energy management. .

However, energy management techniques to date have been problematic in that energy control is performed on an individual building basis, and energy control is performed mainly on a simple facility manager, making it difficult to optimize energy control for a specific user.

Also, there are generally various types of users in a building. For example, there are various types of users, such as those who are strong in the cold, those who are strong in the heat, or those who are active and inactive. However, the current building energy control technology does not consider cases where various types of users exist, There is a problem that effective energy control is difficult when a large number of users exist in a specific space.

The present invention has been made in order to solve the above-mentioned problems of the prior art, and it is an object of the present invention to provide a method and apparatus for controlling energy in a building based on priorities of a plurality of users, An energy control method, and an energy control device therefor.

Another object of the present invention is to provide a method of controlling energy according to priorities in a common space that grasps a current state of a user and performs optimized energy control according to a current state when a large number of users exist in a common space, And to provide an energy control device.

According to an aspect of the present invention, there is provided a method of controlling energy according to priority in a common space, comprising: sensing at least one user in a common space; Collecting user information from the at least one user; Calculating a priority based on the collected user information when a plurality of pieces of user information are collected as a result of the collection; And checking the user preference information corresponding to the user information having the highest priority and then performing energy control in the building based on the user preference information.

Preferably, the user information may include at least one of user identification information and user status information.

Preferably, when the user information includes user identification information, the user information may be collected through one of a user card and a portable terminal carried by the user.

Advantageously, if the user information comprises user state information, the user state information may be collected from at least one sensor.

Advantageously, the step of estimating the priority comprises: checking user personal information corresponding to the user identification information; Calculating a priority based on any one of the user personal information; And confirming the user identification information having the highest priority, and the step of performing the energy control in the building may include performing energy control in the building based on the user preference information corresponding to the user identification information .

Preferably, the calculating the priority includes: determining a user emotion state based on the user state information; Estimating a priority of the user emotion state; And confirming the user emotion state having the highest priority, and the step of performing the energy control in the building may include performing energy control in the building based on the user preference information corresponding to the user emotion state .

At this time, preferably, the user personal information may include any one of age, gender, rank, and inclination information.

Preferably, the user state information includes any one of voice information including one of a voice size of a user, a rhythm factor of a voice, and a voice volume, a facial expression, and a size of a body motion External information, pulse rate, respiration rate, body temperature, blood pressure, brain wave, and the like.

Preferably, the step of performing the energy control in the building performs energy control in the building on the basis of the user information having the highest priority, wherein the energy control is performed based on the age, sex, The energy control can be performed in consideration of the average information of any one of them.

Preferably, the step of performing the energy control in the building performs energy control in the building based on the user information having the highest priority, and energy control is performed considering the total number of users located in the common space can do.

In addition, preferably, the step of performing the energy control in the building may perform illumination and air conditioning control based on user information having the highest priority.

Preferably, the energy control method according to priorities in the common space of the present invention may further comprise storing user preference information corresponding to the user personal information.

According to an aspect of the present invention, there is provided an energy control apparatus including an information collecting unit for sensing at least one user located in a common space and collecting user information from the at least one user; And when the user information is collected through the information collection unit, the priority is calculated based on the user information, and the energy control in the building is performed based on the user preference information corresponding to the user information having the highest priority And a control unit.

Preferably, the user information may include at least one of user identification information and user status information.

Preferably, the information collecting unit includes: a communication module for collecting user information including user identification information from a user card or a portable terminal; And a sensor module including at least one sensor for sensing a user located in the common space or measuring user status information.

Preferably, the energy control apparatus of the present invention further comprises a storage unit for storing user preference information corresponding to the user information.

Preferably, when one user information is collected through the information collecting unit, the controller checks the user preference information corresponding to the user information, and performs energy control in the building based on the user preference information It is possible.

According to the present invention, after the user preference information corresponding to the user information is confirmed, energy control in the building is performed based on the user preference information, so that an optimized indoor environment can be created for the user.

According to the present invention, when there are a plurality of users in the common space, the priorities of a plurality of users are calculated, and energy control is performed based on a user having the highest priority so that even when various users exist in a specific space It is possible to efficiently control energy in a building.

According to the present invention, an indoor environment optimized for the user's emotions can be created by grasping the user's current emotional state and performing energy control in the building based on the emotional state of the user.

1 is a schematic block diagram illustrating an operation of an energy control apparatus according to an embodiment of the present invention.
Fig. 2 shows a main configuration of the energy control apparatus shown in Fig. 1. Fig.
3 is a schematic flow chart of an energy control method according to an embodiment of the present invention.
4 is a flowchart illustrating a method of controlling energy according to priorities in a common space according to an embodiment of the present invention.
5 is a flowchart illustrating a method of controlling energy according to priority in a common space according to another embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, the detailed description of known functions and configurations incorporated herein will be omitted when it may unnecessarily obscure the subject matter of the present invention. This is to omit the unnecessary description so as to convey the key of the present invention more clearly without fading. The same reference numerals are used for portions having similar functions and functions throughout the drawings.

Hereinafter, the energy control device of the present invention will be described.

Prior to the description, the energy control apparatus of the present invention monitors a plurality of facilities such as air conditioning and lighting in a building in real time, finds a use place of unnecessary energy, and performs various controls such that waste is minimized. Energy Management System).

In order to increase the efficiency of energy use in buildings, the energy control device performs a number of facilities management, maintenance, maintenance of the internal environment of the building, and various controls. Hereinafter, the energy control device according to the embodiment of the present invention includes user information First of all, we will focus on the method of customized energy control so that the indoor environment optimized for the user is created.

1 is a schematic block diagram illustrating an operation of an energy control apparatus according to an embodiment of the present invention.

Referring to FIG. 1, an energy control apparatus 10 according to an embodiment of the present invention collects user information from at least one user when at least one user is detected in a common space, Perform various energy controls in the building.

In this case, when a large number of user information is collected, the priority is calculated based on the collected user information, and the energy control in the building is performed so that an indoor environment optimized for the user based on the user information having the highest priority is created, For example, the lighting equipment 20, the air conditioning equipment 30, and the like.

Here, the lighting equipment 20 is a device for controlling a plurality of lighting lamps existing in a building, and plays a role of controlling illumination and illumination of each individual or group. The lighting equipment 20 of the present invention preferably includes a dimming function that increases the illuminance when the currently measured illuminance value is low and decreases the illuminance when the currently measured illuminance value is high as compared with the user preference information Do.

The air conditioner 30 performs various controls for controlling the state of the air supplied to the building. For example, the air conditioner 30 may be provided with ventilation recirculated in the room and fresh outdoor air, Performs various controls to control the state of air in the building such as cooling, dehumidifying, removing impurities in the air, or generating spray or steam of water for humidification, if necessary. The air conditioning equipment (30) of the present invention increases humidity, temperature and the like when the currently measured humidity and temperature are low as compared with the user preference information, and when the humidity, temperature, It is preferable to include a function of reducing the number

As described above, the energy control device 10 of the present invention performs energy control for various indoor environments such as cooling / heating, ventilation, lighting, and the like in the present building so that an indoor environment optimized for a specific user is created.

In an embodiment of the present invention, the energy control device 10 controls the lighting equipment 20, the air conditioning equipment 30, and the like in the building. However, the present invention is not limited to this, The lighting equipment 20 in the building, the air conditioning equipment 30, and the like.

In this case, when the energy control device 10 is located at a remote place, the energy control device 10 can receive the building identification information in addition to the user information, and the energy control in a plurality of buildings can be controlled by the energy control device 10 ). ≪ / RTI >

Hereinafter, the main configuration of the energy control device 10 according to the embodiment of the present invention will be described.

Fig. 2 shows a main configuration of the energy control apparatus shown in Fig. 1. Fig.

1 and 2, the energy control apparatus 10 of the present invention includes an information collecting unit 11, a control unit 12, and a storage unit 13.

The information collecting unit 11 senses at least one user located in the common space and collects user information from at least one user.

Here, the common space is a space in which a plurality of users are located. In general, various types of spaces may exist in the building. For example, there is a space used by individuals such as a private room, a toilet, etc., while there may be a space used by a large number of people such as a living room and a meeting room.

Such a space used by a large number of users, such as a living room, a lobby, a guide room, a conference room, a hall, etc., can be a common space of the present invention, and a specific compartment unit such as an office or an apartment A wider space such as a generation of the present invention can be a common space of the present invention.

In addition, even if the space is mainly used by an individual such as a room, the space is determined to be a common space when there are two or more users present in the space. That is, the common space of the present invention means a space where at least two users are located.

The information collecting unit 11 senses the existence of a user in the common space, and if it is detected that at least one user exists, the information collecting unit 11 collects and confirms the user information from the user.

To this end, the information collecting unit 11 of the present invention may include a sensor module 11b, which will be described later, including at least one infrared sensor for sensing the presence or motion of a person.

The user information can be collected in various ways.

First, the case where the user information according to an embodiment of the present invention includes user identification information will be described as an example.

Generally, a user residing in a building possesses a variety of cards including a variety of cards such as employee ID cards, student ID cards, and credit cards.

For example, after RFID (Radio Frequency Identification) and NFC (Near Field Communication) tags are attached to the user card, the user identification information is stored in the user card. Information can be configured to be recognized, and user identification information can be collected.

In addition, a user identification card of a portable terminal possessed by a plurality of users may be used. In other words, in recent years, the user information is loaded in the portable terminal to insert a user identification card used for user authentication or the like. An example of such identification card is a Universal Subscriber Identity Module (USIM) card.

Similarly, a separate tag or the like may be attached to the above-mentioned user identification card so that the user identification information can be recognized.

Here, when the user information including the user identification information is collected from the user located in the common space through the user identification card of the user card or the portable terminal, if the user is located in the common space, Card, and portable terminal, and generates user information.

In addition, a separate program capable of transmitting and receiving information with the energy control device 10 in the portable terminal may be mounted, and information can be transmitted and received through control of the program. At this time, the user confirms the program installed in the mobile terminal, generates user information including user identification information through user input, and transmits the generated user information to the energy control device 10. Even if the user does not input any additional information, When the user information request information is received from the energy control device 10, the user identification information is generated and transmitted to the energy control device 10, To the control device 10.

For this, the information collecting unit 11 of the present invention may include a communication module 11a for supporting transmission and reception of the information. The communication module 11a may be a wireless LAN (WLAN) It is preferable to use short range wireless communication such as Bluetooth, Ultra Wide Band (UWB), Zigbee, millimeter wave (mmWave), infrared communication and the like, .

However, the embodiment of the present invention is not limited to the above-described wireless communication, and any communication means capable of collecting user information from a user card or a portable terminal is applicable to the communication module 11a of the present invention.

In addition, the information collecting unit 11 of the present invention may detect a user through various sensors provided in the building in addition to the user card and the portable terminal.

Hereinafter, the case where the user information according to another embodiment of the present invention includes the user or the surrounding state information will be described as an example.

The user information of the present invention may include user state information which is state information of a user or a neighbor.

For example, various sensors for measuring the user's state information may be directly or indirectly mounted on the user's body, various sensors may be provided in a certain area within a common space within a building such as a home or an office, It is possible to sense body change or to sense user's voice information and operation information.

Here, the user state information that can be measured may include external information including any one of voice information including one of a voice size of a user, a prosodic factor of a voice, and a voice volume, a facial expression, Information such as heart rate, heart rate, respiration rate, body temperature, blood pressure, brain wave, and the like.

This user state information is used to determine the user emotion state through the control unit 12, which will be described later.

To this end, the information collecting unit 11 may include a sensor module 11b including a plurality of sensors for sensing the user located in the common space or measuring the user or the surrounding state information.

As described above, when the user information including either the user identification information or the user status information is collected through the information collection unit 11, the information collection unit 11 transmits the collected user information to the control unit 12 .

The control unit 12 performs overall control of the energy control apparatus 10 of the present invention and may be, for example, a central processing unit (CPU). In particular, when the user information is collected through the government collector 11, the control unit 12 of the present invention performs energy control in the building so as to create an optimized indoor environment for the user based on the collected information.

For example, when the user information including the user identification information is collected through the information collection unit 11, the control unit 12 determines whether the user preference information previously stored in the storage unit 13 corresponding to the user identification information exists . Thereafter, if pre-stored user preference information corresponding to the user identification information exists, the in-building energy control is performed according to the user preference information.

Here, the user preference information may be illumination information, cooling / heating environment information, and the like preferred by the user. In other words, depending on the user characteristics, there may exist a person sensitive to cold, a person with a good heat, etc. depending on the user characteristics. User preference information is generated in advance so as to create an indoor environment suitable for the user according to the user characteristics, And when the user preference information corresponding to the user identification information is retrieved, the in-building energy control is performed according to the user preference information.

In this case, when a plurality of pieces of user information are collected through the information collecting unit 11, the controller 12 calculates a priority based on the user information, and then, based on the highest priority user information, Control may be performed.

First, a case where user information including user identification information is collected through the information collection unit 11 will be described as an example.

When the user information including the user identification information is collected through the information collection unit 11, the control unit 12 confirms the pre-stored user preference information corresponding to the user identification information.

The following Table 1 is taken as an example.

User identification information age gender rank tendency User preference information ID1 45 south Director Inactive Illuminance 300 lx, temperature 23 ° C ID2 29 south Temple Active Illuminance 200 lx, temperature 18 캜 ID3 33 female substitute Active Illuminance 250 lx, temperature 22 캜 ID4 37 female Exaggeration Inactive Illuminance 270 lx, temperature 23 캜 ID5 34 female substitute Inactive Illuminance 260 lx, temperature 24 캜

The control unit 12 confirms the user's personal information (for example, age, sex, position, etc.) and user preference information corresponding to the user identification information as shown in Table 1.

At this time, the priority is calculated in the order of the manager-supervisor-representative-employee based on any one of the user's personal information, for example, the rank information.

After confirming the user preference information (illuminance 300 lx, temperature 23 ° C, inactive) corresponding to the user (user identification information ID 1) corresponding to the manager with the highest priority, the user is made to optimize the indoor environment for the user The information about the current building environment is measured.

In other words, after collecting the indoor environment information including the current illumination information, the temperature, and the humidity through the various sensors provided in the illumination facility 20 and the air conditioning facility 30, And is compared with user preference information.

For example, when the measured current illuminance information is 200lx, the illuminance information preferred by the user ID1 is 300lx, so that the lighting equipment 20 in the common space is controlled according to the illuminance information preferred by the user ID1. When the measured current temperature information is 18 deg. C, the room temperature preferred by the user ID1 is 23 deg. C, so the air conditioning equipment 30 is controlled so that the room temperature becomes 23 deg.

If the user of ID1 having the highest priority moves to the lobby in the other common space, for example, the conference room, the ID1 user corresponding to ID4, which is the next priority among the users located in the conference room in which the user is located And the energy level of the lobby space is adjusted based on all the user information in the lobby where the user ID1 is moved.

These priorities can be set from various perspectives. For example, the priority can be calculated based on age and sex, or the priority can be calculated using two or more condition information.

If the priority is calculated based on any one of the information, for example, if the priority is calculated based on the rank information as described above, the average value of the remaining factors can be taken into account in the energy control.

The above-mentioned Table 1 will be described as a continuing example.

In the previous example, the priorities were calculated in the order of the manager-manager-agent-employee based on the rank information of the user's personal information.

At this time, after checking the other user's personal information except for the rank information used for the priority calculation, for example, the user having the female gender exists in the common space, the average user preference information of three persons is calculated, It can be reflected in the energy control considering the average user preference information of three persons.

In other words, in the user preference information (illuminance 300 lx, temperature 23 ° C.) corresponding to the user having the highest priority (user identification information ID 1), the average user preference information of the user 260lx, temperature 23 [deg.] C) of the user preference information (illuminance 280lx, temperature 23 [deg.] C).

In the case where it is detected through the sensor module 11b of the information collecting unit 11 that six users exist in the common space but the received user information is information about five users, It will not. For example, since an unregistered outside guest may visit the common space, in this case, the priorities of the users in the common space are calculated and energy control is performed based on the priority, It is possible to perform the energy control in consideration of the number of cells.

For example, if one president and 50 attendees are present in the conference room attended by the president, lighting in the common space (conference room) based on the user who is the president of the highest priority (rank basis) Control of air conditioning and the like is performed. If the total number of users is 50, a suitable preset illuminance and temperature information in the case where 50 persons are present in the conference room are checked. Then, the checked information and user preference information corresponding to the user having the highest priority And then control can be performed on the basis of the calculated value.

To this end, the control unit 12 of the present invention preferably stores, in advance, suitable recommendation environment information according to the number of users in the common space in the storage unit 13, which will be described later.

As described above, since the user information is collected through the employee ID and the user identification card of the portable terminal generally convened by the user, and the energy control is performed on the basis of the collected user information, There is an advantage that various controls are performed so that the indoor environment optimized for the user is created after the user is easily recognized.

In the embodiment of the present invention, when the user information including the user identification information is received, the user's personal information corresponding to the user identification information is checked and then the priority is calculated. However, the information collection unit 11 The user personal information and the user preference information described above may all be included in the collected user information.

In an embodiment of the present invention, energy control is performed based on user information including user identification information. However, after collecting user information including a user or surrounding state information, To perform energy control.

Hereinafter, the case where the user information includes the user or the surrounding state information will be described as an example.

As described above, the user information including the user status information can be collected through the sensor module 11b including the plurality of sensors of the information collection unit 11. [

More specifically, a plurality of sensors may be installed on a wall of a home or an office, or may be directly or indirectly mounted on a user to detect any one of the status change of the user, for example, the voice size of the user, , External information including any one of voice information, facial expression, and size of body motion, and internal information such as pulse rate, respiration rate, body temperature, blood pressure, and brain waves.

Then, the information collecting unit 11 transmits user information including user state information to the controller 12, and the controller 12 determines the emotion state of the user based on the collected user state information. At this time, the priority can be calculated based on the emotion state corresponding to the sensed user state information of the user located in the common space, and the indoor environment can be controlled.

For example, in the angry state, the voice information is generally high, the pronunciation speed may be fast, the voice information in the case of being boring may be low, and the pronunciation speed may be slow. In an angry state, the pulse rate, blood pressure, respiration rate, and body temperature may be higher than normal, and pulse rate and body temperature may be decreased in case of being boring.

After checking the corresponding user emotion state based on the measured user state information, the priority is calculated according to the user emotion state.

Here, the priority can be calculated on the basis of the emotional state shared by many users. That is, when it is determined that there are a plurality of users who are sleepy or dull, control is performed such as humidifying or lowering the room temperature so that a user in a dull state can be in a lively state.

It is possible to increase the room temperature so that the user feeling in an angry state can sink when there is a user with an angry state with a high priority even if there are many users in a sleepy or tedious state after calculating the priority according to the emotional state, Can be controlled smoothly.

In addition, when the voice information is sensed and a baby crying sound or a coughing sound is detected, the energy control can be performed so that the indoor environment most suitable for the baby to live or the indoor environment most suitable for the patient to live is formed.

In this manner, an indoor space optimized for the user can be created by collecting user information and controlling a plurality of facilities in the building so as to create an indoor environment optimized based on the user information.

In addition, when there are a plurality of users in the common space, the priorities of the plurality of users are calculated, and energy control in the building is performed based on the user having the highest priority, There is an effect that energy control can be performed efficiently.

To this end, the control unit 12 of the present invention includes a priority calculation module 12a for calculating a priority from various viewpoints when a plurality of user information collected through the information collection unit 11 exists, and a user And an equipment control module 12b for controlling the lighting equipment 20, the air conditioning equipment 30, and the like based on the user preference information after confirming the preference information.

In addition, the energy control apparatus 10 of the present invention may store the user's personal information corresponding to the user identification information, the user's preference information corresponding to the user's state information, and the user's preference information corresponding to the user's emotion state, 13).

The storage unit 13 may be a flash memory, a hard disk, a memory of a multimedia card micro type such as SD or XD memory, a RAM, (ROM), and the like.

As described above, the main components of the energy control device 10 have been described with reference to FIG. However, not all of the components shown in FIG. 2 are essential components, and the energy control device 10 may be implemented by more components than the illustrated components.

Hereinafter, an energy control method according to an embodiment of the present invention will be described.

3 is a schematic flow chart of an energy control method according to an embodiment of the present invention.

Referring to FIGS. 1 and 3, a user in a specific space is first sensed through the information collecting unit 11 of the energy control apparatus 10 (S101). If it is detected that the user in the space is located, the user information is collected (S103).

Here, the user information may be user information including user identification information or user information including user status information.

At this time, in the case of the user information including the user identification information, the user information including the user identification information is collected from the user card owned by the user or the user identification card in the portable terminal, User information may also be collected.

On the other hand, when the user information includes user state information, the user state information may be measured and collected through a plurality of sensors provided in the building or the user.

Thereafter, when the user information is collected, the user preference information corresponding to the user information is checked (S105). If the current building state is different from the user preference information, And controls the various lighting equipment 20 and the air conditioning equipment 30 to perform energy control in the building (S107).

If there are a plurality of pieces of user information collected in step S103, the priority of the user information may be calculated, and energy in the building may be controlled so as to be suitable for the user with the highest priority.

Hereinafter, an energy control method in the case of collecting user information including user identification information will be described with reference to FIG.

4 is a flowchart illustrating a method of controlling energy according to priorities in a common space according to an embodiment of the present invention.

Referring to FIG. 1 and FIG. 4, when it is detected that a user is located in a specific space, especially a common space, as described with reference to FIG. 3, user information is collected from the user (S203). Here, the common space may be a common space of the present invention if two or more users are located.

In addition, the user information includes the user identification information as described above. In this case, the user information can be collected from any one of the user card and the portable terminal possessed by the user. If a plurality of pieces of user information are collected in the common space (S205), the energy control device 10 responds to the user identification information After confirming the user's personal information (S207), the priority is calculated based on the user's personal information (S209).

For example, when the user's personal information includes age, gender, rank, and activity information, priority is calculated based on specific information of the user's personal information, for example, rank, and the user identification information having the highest priority is checked ). After confirming the user preference information corresponding to the user identification information having the highest priority (S213), energy control is performed based on the user (S215).

Hereinafter, an energy control method in the case where user information including user state information is collected will be described.

This will be described below with reference to FIG.

5 is a flowchart illustrating a method of controlling energy according to priority in a common space according to another embodiment of the present invention.

Referring to FIGS. 1 and 5, if it is detected that the user is located in the common space (S301), the user state information of the user or the surrounding environment is collected (S303).

Herein, the user state information may include information on the state of the user, such as voice information such as a voice size of a user, a rhythm factor of a voice, a volume of a voice, external information such as facial expression, a size of a body motion, a pulse rate, And internal information such as brain waves.

When the user state information is collected (S303), the user's emotional state is determined (S305). In other words, in the case of a person having a high voice, a large fluctuation of the rhythm, a large amount of conversation, or a large body motion, the current emotional state may be angry. Further, the user may be in a sleepy or dull state when the voice is low, the variation of the rhythm is small, the amount of conversation is not present, or the body is not moving.

In addition, an angry user may have increased pulse rate, blood pressure, body temperature, respiratory rate, etc. in a normal state, and the pulse rate and body temperature may be lower than usual in the case of a user who is drowsy or drowsy.

After confirming the emotion state corresponding to the user state information, the priority order is calculated according to the emotion state (S307). For example, when the user in an angry state and the user in a sleepy or tedious state are present in a common space, when the number of users corresponding to a specific emotion state is larger in consideration of the number of users corresponding to each emotion state, And three users are in a sleepy or tedious state, the priority can be calculated based on three persons.

Alternatively, the priority may be calculated in preference to a user in a specific emotion (e.g., an angry state).

When the priority is calculated (S307), the user emotion state having the highest priority is confirmed (S309), and the user preference information corresponding to the user emotion state is confirmed (S311). To this end, it is preferable that the energy control apparatus 10 of the present invention stores preference user preference information for each user emotion state in advance. Thereafter, in accordance with the confirmed user preference information, the lighting control unit 20 controls the plurality of lighting equipment 20 and the air conditioning equipment 30 to perform energy control at step S313.

As described above, the energy control method according to the priority in the common space according to the embodiment of the present invention has been described.

The energy control method according to an embodiment of the present invention can be implemented as a computer-readable code on a computer-readable recording medium. The computer readable recording medium may include program instructions, data files, data structures, and the like, alone or in combination, and includes all kinds of recording apparatuses in which data that can be read by a computer system is stored. Examples of the computer-readable recording medium include an optical recording medium such as a magnetic medium such as a hard disk, a floppy disk and a magnetic tape, a compact disk read only memory (CD-ROM), and a digital video disk (ROM), random access memory (RAM), flash memory, and the like, such as a magneto-optical medium such as a magneto-optical medium and a floppy disk, And hardware devices that are specifically configured to perform the functions described herein.

In addition, the computer-readable recording medium may be distributed over network-connected computer systems so that computer readable codes can be stored and executed in a distributed manner. In addition, functional programs, codes, and code segments for implementing the present invention can be easily inferred by programmers of the technical field to which the present invention belongs.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It will be appreciated by those skilled in the art that numerous changes and modifications can be made to the invention. And all such modifications and changes as fall within the scope of the present invention are therefore to be regarded as being within the scope of the present invention.

According to the present invention, after the user preference information corresponding to the user information is checked and the energy in the building is controlled based on the user preference information, an optimized indoor environment can be created for the user, and a large number of users In this case, energy control is performed on the basis of a user with the highest priority after estimating the priorities of a plurality of users, thereby enabling effective energy control in a building even when various users are present in a specific space.

In addition, it has the effect that it can contribute to the national electric power industry development by reducing the energy consumption and ultimately reducing the energy import by efficiently operating the energy resources consumed in the building.

10: energy control device 11: information collecting part 12:
13: communication unit 20: lighting equipment 30: air conditioning equipment

Claims (17)

Storing user preference information classified by user and user emotion state;
Sensing two or more users in the common space;
Collecting user information including user identification information, user personal information, and user status information for the two or more users, respectively;
Calculating a priority for the two or more users based on at least one of the user personal information, the user status information, and the user emotion status derived from the user status information; And
Performing in-building energy control based on the user preference information after confirming the user preference information corresponding to a user having the highest priority;
Wherein the energy control method comprises: delete The method according to claim 1,
Wherein the user identification information comprises:
A user card owned by the user, and a portable terminal. The method according to claim 1,
Wherein the user state information comprises:
Wherein the at least one sensor is measured through at least one sensor. delete The method according to claim 1,
Wherein the user preference information comprises:
Wherein the user preference information is user preference information classified by user and user emotion state. The method according to claim 1,
Wherein the user personal information includes information of any one of age, sex, position, and propensity information. The method according to claim 1,
The user state information
External information including any one of voice information including any one of voice size of a user, a rhythm factor of a voice, and a conversation volume, a facial expression, and a size of a body motion, a pulse rate, a respiratory rate, And an internal information such as a brain wave, etc. The energy control method according to the priorities in the common space. The method according to claim 1,
The step of performing the energy control in the building
Wherein the energy control is performed on the basis of a user having the highest priority based on average information of any one of age, sex, position, and orientation information of other users located in the common space. Energy control method according to priority in space. The method according to claim 1,
The step of performing the energy control in the building
Wherein energy control is performed in consideration of the highest priority user information based on the number of total users located in the common space, . The method according to claim 1,
The step of performing the energy control in the building
And performing illumination and air conditioning control based on user information having the highest priority. delete A storage unit for storing user preference information corresponding to each user and user emotion state;
An information collecting unit for collecting user information including user identification information, user personal information, and user status information for each of the two or more users, the information collecting unit detecting two or more users located in the common space; And
And a user emotion state derived from the user personal information, the user state information, and the user state information, and calculates user preference information corresponding to the highest priority user, And controlling energy in the building based on the determined user preference information;
Wherein the energy control device comprises: delete 14. The method of claim 13,
The information collecting unit
A communication module for collecting user information including user identification information from a user card or a portable terminal; And
A sensor module including at least one sensor for sensing a user located in the common space or measuring user state information;
Wherein the energy control device comprises: delete delete

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