KR20160133666A - Apparatus for controlling lighting based on mode of light sensor and method - Google Patents

Abstract

The present invention relates to an apparatus and a method for controlling lighting based on an operation mode of a light sensor. According to an embodiment of the present invention, the apparatus for controlling lighting based on an operation mode of the light sensor includes: a receiver which receives state information collected from recognition sensors corresponding to lighting, respectively, and illumination collected from illumination sensors corresponding to respective lighting; and a control unit which controls the state information, the illumination, the operation mode of the recognition sensors, and the illumination of the lighting based on the operation mode of the illumination sensors. The present invention can efficiently control the lighting in various environments and various conditions by using the illumination sensor.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an illumination control apparatus and a lighting control apparatus,

The present invention relates to a method of controlling illumination based on an operating mode of an illumination sensor, and more particularly to a method of controlling illumination in the illumination itself or in a lighting control server or a lighting switch Gt; to < / RTI >

When a person approaches to the vicinity of the illumination, a technique of automatically turning on or off the illumination using a cognitive sensor recognizing it is becoming common. In recent years, a technique has been developed in which a recognition sensor is attached to a cognitive sensor to receive a cognitive sensor value from a lighting control server or an illumination switch, thereby controlling the illumination according to the value of the cognitive state, and controlling illumination using the illumination value in the current environment . However, the techniques refer to a technique of transmitting a perceived state or an illuminance value to a light control server or a light switch and controlling the illumination using the perceived state or illuminance value, and it is not directed to a technique of directly controlling illumination without a light control server or a light switch. In recent years, the number of lights has been gradually increasing, and as the number of lights increases, the number of lights to be controlled also increases.

Korean Patent Laid-Open Publication No. 2013-0035852 discloses a technique for efficiently managing energy by detecting presence of a person using a room sensor and operating or controlling the lighting equipment and the cooling / heating equipment, -0146214 discloses a technique for reducing energy consumption by automatically controlling lighting and lighting of a toilet lamp based on the user's internal position.

However, Korean Laid-Open Patent Publication No. 2013-0035852 and Korean Laid-Open Patent Application No. 2012-0146214 are silent about the technology that can control itself without the control server according to the state information of the sensor and the operation mode.

Accordingly, in view of the recent trend of installing and managing various numbers of lights in various places, there is a need for a technique for automatically and effectively controlling various numbers of lights.

It is an object of the present invention to more efficiently control illumination using a cognition sensor and an illuminance sensor corresponding to illumination.

It is another object of the present invention to efficiently control illumination under various conditions and various conditions using a cognitive sensor and an illuminance sensor.

It is also an object of the present invention to reduce the workload of the lighting control server by allowing the lighting to perform direct lighting control without the involvement of a lighting control sensor.

According to an aspect of the present invention, there is provided an illumination control apparatus based on an illumination sensor, the illumination control method comprising: receiving status information collected from recognition sensors corresponding to respective illuminations and illuminance collected from illuminance sensors corresponding to the respective illuminations; ; And a control unit for controlling the illuminance of the illuminations based on the state information, the illuminance, the operation mode of the perception sensors, and the operation mode of the illuminance sensors.

In this case, the illumination control apparatus may further include a transmitter for transmitting the illuminance and the status information to the illumination control server.

At this time, when the operation mode of the illuminance sensor is in the active mode, the control unit can control the illuminance of the illuminations based on the illuminance of the illuminations and the status information without being under the control of the illumination control server have.

In this case, when the operation mode of the illuminance sensor is the manual mode, the controller may control the illuminance of the illuminations based on the value transmitted from the illumination server.

According to another aspect of the present invention, there is provided a method of controlling a lighting using an illumination sensor, the method including receiving status information collected from recognition sensors corresponding to each of the illuminations and illuminance collected from illuminance sensors corresponding to the respective illuminations, step; And controlling the illuminance of the illuminations based on the state information, the illuminance, the operating mode of the cognitive sensors, and the operating mode of the illuminance sensors.

In this case, the illumination control method may further include transmitting the illumination and the state information to the illumination control server.

Wherein controlling the illumination of the illuminations comprises: when the operating mode of the illuminance sensor is in the active mode, the illuminations are not under the control of the illumination control server, It is possible to control the illuminance of the light source.

At this time, when the operation mode of the illuminance sensor is the manual mode, the illuminance of the illuminations may be controlled based on the value transmitted from the illumination server.

The present invention can more efficiently control illumination using a cognition sensor and an illuminance sensor corresponding to illumination.

In addition, the present invention can efficiently control illumination in various environments and various conditions using a cognitive sensor and an illuminance sensor.

Further, the present invention can dramatically reduce the workload of the lighting control server by performing direct lighting control of the lighting without the intervention of the lighting control sensor.

Further, the present invention can remarkably reduce the workload of the illumination control server by transmitting the state of illumination to the illumination control server only when the state of the illumination changes.

1 is a block diagram of a lighting control apparatus according to a sensor mode according to an embodiment of the present invention.
2 is a diagram illustrating a lighting control apparatus according to a sensor mode according to an embodiment of the present invention.
3 is a diagram illustrating a sensor mode in a lighting control apparatus according to a sensor mode according to an embodiment of the present invention.
4 to 5 are diagrams illustrating lighting control according to a cognitive sensor in a lighting control apparatus according to a sensor mode according to an embodiment of the present invention.
6 to 7 are diagrams illustrating illumination control according to the illuminance sensor in the illumination control apparatus according to the sensor mode according to the embodiment of the present invention.
8 is a flowchart illustrating a method of controlling illumination according to a sensor mode according to an embodiment of the present invention.
9 is a flowchart illustrating a method of controlling illumination according to a sensor mode according to another embodiment of the present invention.

The present invention will now be described in detail with reference to the accompanying drawings. Hereinafter, a repeated description, a known function that may obscure the gist of the present invention, and a detailed description of the configuration will be omitted. Embodiments of the present invention are provided to more fully describe the present invention to those skilled in the art. Accordingly, the shapes and sizes of the elements in the drawings and the like can be exaggerated for clarity.

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

1 is a block diagram of a lighting control apparatus according to a sensor mode according to an embodiment of the present invention.

Referring to FIG. 1, a lighting control apparatus according to a sensor mode according to an embodiment of the present invention includes a receiving unit 101 and a control unit 102.

The receiving unit 101 receives illuminance from the illuminance sensors corresponding to each of the illuminations, status information from the cognitive sensors corresponding to each of the illuminations.

At this time, the status information may indicate whether or not an object exists near the illuminations. For example, when a person approaches the vicinity of the illumination, the recognition sensor may provide information to the reception unit 101 that the person has approached it.

In this case, illuminance means the intensity of light emitted by the illuminations.

The control unit 102 controls the illuminance of the illuminations based on the status information received by the receiver 101, the illuminance, and the operation mode of the cognitive sensor and the illuminance sensor.

At this time, the operation mode of the cognitive sensor can be divided into three modes: an active enable mode, a passive enable mode, and a disable mode.

In this case, the active mode means a mode in which the illumination can be controlled by only the state information transmitted by the cognitive sensor.

In this case, the manual mode means a mode in which the lighting can be controlled based on the information transmitted from the recognition server and the information transmitted from the lighting control server.

In this case, the inactive mode means a mode in which the perceptual sensor does not operate.

At this time, the operation mode of the illuminance sensor can be divided into three modes: active enable mode, passive enable mode, and disable mode.

In this case, the active mode means a mode in which the illumination can be controlled by only the state information transmitted by the illumination sensor.

In this case, the manual mode means a mode in which the illumination can be controlled based on the state information transmitted by the illumination sensor and the information transmitted from the illumination control server.

In this case, the inactive mode means a mode in which the illuminance sensor does not operate.

A method of controlling illumination according to the operation mode of the illumination sensor and the recognition sensor will be described later with reference to FIG. 3 to FIG.

2 is a diagram illustrating a lighting control apparatus according to a sensor mode according to an embodiment of the present invention.

Referring to FIG. 2, the lighting control apparatus is composed of a lighting control server 200, lights 201, 202, 203, and 204.

The illumination control server 200 may store the illuminance of the illuminations, and the status information collected by the recognition sensor.

At this time, the illumination control server 200 controls the illuminations based on illuminance and status information.

At this time, the lighting control server 200 can individually control the lights. It can also be controlled as a group.

At this time, the lighting control server 200 may be replaced with a lighting switch depending on the characteristics of the installed space.

At this time, each of the lights 201, 202, 203, 204 may have a cognitive sensor or an illuminance sensor.

At this time, each of the lights 201, 202, 203, 204 may have both a perceptual sensor and an illuminance sensor, and there may be sensorsless lights.

3 is a diagram illustrating a sensor mode in a lighting control apparatus according to a sensor mode according to an embodiment of the present invention.

3, the operation modes of the perception sensor 300 include an active mode 301, a passive mode 302, and an inactive mode 303, respectively. The operation modes of the ambient light sensor 310 are respectively an active mode A passive mode 311, a passive mode 312, and an inactive mode 313.

At this time, illumination control can be performed according to the operation mode of the perception sensor 300 and the illuminance sensor 310. For example, when the illuminance sensor 310 is in the active mode and the recognition sensor is in the manual mode, the active mode of the illuminance sensor and the manual mode of the recognition sensor operate together.

For example, when the illuminance sensor 310 is in the active mode and the recognition sensor 300 is in the active mode, the illuminance sensor 310 operates in the active mode and the recognition sensor 300 operates in the manual mode. This is because, when the illuminance sensor 310 operates in the active mode, the brightness of illumination is controlled in accordance with the illuminance collected by the illuminance sensor 310. That is, the recognition sensor 300 transmits status information (existence of a person) to the illumination control server, and the illumination control server determines the illumination power according to the presence of a person, and the illumination sensor 310 Respectively.

4 is a diagram illustrating illumination control when the recognition sensor is in the active mode in the illumination control apparatus according to the sensor mode according to the embodiment of the present invention.

At this time, the lights are a half-timeout 402 indicating a state that a human being is recognized according to the value of the perception sensor 401 or a half-time of a predetermined timeout value after recognizing the person 401, And may act differently according to the no-man (step 403), which means that the time-out value has passed the time limit.

If the person recognition event is generated by the recognition sensor 409 in the absence of person 403, the timeout value may be initialized and the state information may be changed to the person recognition 401 state.

At this time, the illumination may transmit the illuminance and status information of the illumination to the illumination control server after the illumination is turned on at a predetermined illumination value.

When the illumination dimming command and the power ON / OFF command are received from the illumination control server in the no-manned state 403, the state information can be maintained in the no-manned state 403.

When the person recognition event is generated by the recognition sensor in the person recognition state 401 in step 412, the lighting state can be maintained as it is in the person recognition state 401, and the timeout value can be reinitialized.

At this time, even when the illumination dimming command and the power ON command are received from the illumination control server in the state 401 of the person, the state information can be maintained as the human being (401) state, and then the command can be executed.

At this time, if the power OFF command is received from the lighting control server in the state 401 of the person, the power is turned off and the state of recognition can be changed to the state of no-man 403. It is also possible to transmit the state of illumination and the state of perception to the lighting control server.

At this time, when half of the timeout value has passed (404) in the human recognition (401) state, the illuminance of illumination can be reduced and the recognition state can be changed to the Half timeout 402 state. It is also possible to transmit the state of illumination and the state of perception to the lighting control server.

At this time, if half of the timeout value has passed (406) in the Half timeout 402 state, the recognition state can be converted to the no-man state 403 and the illumination can be turned off. It is also possible to transmit the state of illumination and the state of perception to the lighting control server.

At this time, when the state information indicating that there is a person is received from the recognition sensor in the state of the Half timeout 402 (405), the recognition state is converted into the human recognition (401) state and the illumination is converted into the predetermined illumination. It is also possible to transmit the state of illumination and the state of perception to the lighting control server.

5 is a diagram illustrating illumination control when the recognition sensor is in the manual mode in the illumination control apparatus according to the sensor mode according to the embodiment of the present invention.

At this time, the lights are a Half timeout 502 indicating a state where the person is recognized as a person (501) according to the value of the recognition sensor, and a half of the predetermined timeout value has elapsed, And may operate differently according to the absence of the person 503, which means that the timeout value has passed the time limit.

If the person recognition event is generated by the recognition sensor in the absence of person (503) (509), the timeout value may be initialized and the state information may be changed to the person recognition (501) state.

At this time, the illuminance and state information of the illumination can be transmitted to the illumination control server.

When the illumination dimming command and the power ON / OFF command are received from the illumination control server in the absence of person 503, the state information can be maintained as the no-human 503 state.

If the person recognition event is generated by the recognition sensor (512) in the human recognition (501) state, the illumination can be maintained as it is in the human recognition (501) state and the timeout value can be reinitialized.

At this time, even when the illumination dimming command and the power ON command are received from the illumination control server in the human being (501) state, the state information can be maintained as the human being (501) state and then the command can be executed.

At this time, if the power OFF command is received from the lighting control server in the state 501, the power is turned off and the state of recognition can be changed to the state of no-man 503. It is also possible to transmit the state of illumination and the state of perception to the lighting control server.

At this time, if half of the timeout value has passed (504) in the human recognition (501) state, the recognition state can be changed to the Half timeout (502) state. It is also possible to transmit the state of illumination and the state of perception to the lighting control server.

At this time, if half of the timeout value has passed (506) in the Half timeout 502 state, the recognition state can be converted to the no-human state 503 and the illumination can be turned off. It is also possible to transmit the state of illumination and the state of perception to the lighting control server.

At this time, if the state information indicating that there is a person is received (505) from the recognition sensor in the Half timeout 502 state, the recognition state is converted into the human recognition (501) state. It is also possible to transmit the state of illumination and the state of perception to the lighting control server.

6 is a diagram illustrating illumination control when the illuminance sensor is in the automatic mode in the illumination control apparatus according to the sensor mode according to the embodiment of the present invention.

Referring to FIG. 6, the illuminance value is periodically received from the illuminance sensor (S601).

In addition, the received illuminance value is compared with a preset target illuminance value, and if a difference occurs, it is determined whether the difference is within a preset threshold range (S602).

If it is within the preset threshold range, the process is terminated. If it is not within the predetermined threshold range, the dimming level of the illumination is adjusted to match the preset target illuminance value (S603) And transmits the changed status information (S604).

When the illuminance value request is received from the illumination control server (S611), the illuminance value is measured using the illuminance sensor (S612), and the illuminance value is transmitted to the illumination control server (S613).

7 is a diagram illustrating illumination control when the illuminance sensor is in the manual mode in the illumination control apparatus according to the sensor mode according to the embodiment of the present invention.

Referring to FIG. 7, the illuminance value request is first received from the lighting control server (S701), the illuminance value is measured using the illuminance sensor (S702), and the illuminance value is transmitted to the illumination control server (S703).

6 and FIG. 7, FIG. 6 shows the control of the illumination when the illumination sensor is in the active mode, and FIG. 7 shows the control of the illumination when the illumination sensor is in the passive mode. That is, when the illuminance sensor is in the active mode, the illuminance can control the illuminance on the target illuminance value itself without the help of the illumination control server, which is shown in steps S601, S602, S603, and S604.

8 is a flowchart illustrating a method of controlling illumination according to a sensor mode according to an embodiment of the present invention.

Referring to FIG. 8, status information and illuminance are received (S801).

At this time, the status information may be collected from the cognitive sensors corresponding to each of the lights.

At this time, the status information may indicate whether or not an object exists near the illuminations. For example, when a person approaches the vicinity of the illumination, the recognition sensor may provide information to the reception unit 101 that the person has approached it.

At this time, the illuminance can be collected from the illuminance sensors corresponding to each of the illuminations.

In addition, the illuminance of the illuminations is controlled based on the operation mode, the status information, and the illuminance of the sensors (S802).

At this time, the operation mode of the cognitive sensor can be divided into three modes: an active enable mode, a passive enable mode, and a disable mode.

In this case, the active mode means a mode in which the illumination can be controlled by only the state information transmitted by the cognitive sensor.

In this case, the manual mode means a mode in which the lighting can be controlled based on the information transmitted from the recognition server and the information transmitted from the lighting control server.

In this case, the inactive mode means a mode in which the perceptual sensor does not operate.

At this time, the operation mode of the illuminance sensor can be divided into three modes: active enable mode, passive enable mode, and disable mode.

In this case, the active mode means a mode in which the illumination can be controlled by only the state information transmitted by the illumination sensor.

In this case, the manual mode means a mode in which the illumination can be controlled based on the state information transmitted by the illumination sensor and the information transmitted from the illumination control server.

In this case, the inactive mode means a mode in which the illuminance sensor does not operate.

A method of controlling illumination according to the operation mode of the illumination sensor and the recognition sensor has been described with reference to FIGS.

9 is a flowchart illustrating a method of controlling illumination according to a sensor mode according to another embodiment of the present invention.

Referring to FIG. 9, first, state information of the recognition sensor is received from the illumination (S901).

At this time, the status information may indicate whether or not an object exists near the illuminations. For example, if a person approaches near a light, the cognitive sensor can provide information that a person is approaching.

Further, the operation mode of the light intensity sensor is determined (S902).

At this time, when the operation mode of the illuminance sensor is the active mode, illumination information is requested to the illumination and the current illumination value is grasped (S903).

 At this time, the illuminance value may be the illuminance value measured by the illumination sensor corresponding to the illumination.

At this time, it is judged whether the determined current illumination value is appropriate (S904). If not, the operation control mode of the illumination sensor is changed to the manual mode, and then the illumination control server controls the illuminance of the illumination (S905) After obtaining the state value (S915), the state value of the illumination is reflected (S916).

If the operation mode of the illuminance sensor is the inactive mode (S913), the state information measured by the recognition sensor is determined. If the operation mode is the recognition state or the Half timeout state, the illuminance value of the illumination is adjusted to a preset value (S914 ).

At this time, after adjusting the illuminance value of the illumination, the state value of the illumination is requested and acquired (S915), and the state value of the illumination is reflected (S916).

If the operation mode of the illuminance sensor is the manual mode, the operation mode of the recognition sensor is determined (S906).

If the operation mode of the cognitive sensor is the active mode, the state information measured by the cognitive sensor is determined (S907). If the cognitive sensor is in the perceived state or the Half timeout state, (S908), and reflects the state value of the illumination (S916).

In this case, when the operation mode of the recognition sensor is in the inactive mode, the illuminance measured by the illuminance sensor is compared with a predetermined target illuminance value to control the illuminance of the illuminance (S911) S915), and reflects the state value of the illumination again (S917).

In this case, when the operation mode of the recognition sensor is the manual mode, the state information of the recognition sensor is determined (S910). If the state information of the recognition sensor is the recognition state or the Half timeout state, The illuminance of the illumination is controlled by comparing the predetermined target illuminance value (S912), and the illuminated state value is reflected (S916).

As described above, the illumination control apparatus and method according to the operation mode of the illumination sensor according to the present invention are not limited to the configuration and method of the embodiments described above, but various modifications may be made to the embodiments All or some of the embodiments may be selectively combined.

Claims (1)

A receiver for receiving status information collected from recognition sensors corresponding to each of the illuminations and illuminance collected from the illuminance sensors corresponding to each of the illuminations; And
A controller for controlling the illuminance of the illuminations based on the state information, the illuminance, the operation mode of the perception sensors, and the operation mode of the illuminance sensors
And an illumination control unit for illuminating the illumination control unit.

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