KR20110135749A - Apparatus and method for automatically controlling brightness in a led screen - Google Patents

Abstract

PURPOSE: An apparatus and method for automatically controlling brightness in a led screen are provided to optimally operate an LED screen by controlling the brightness of the LED screen with the brightness corresponding to the comparison result of reference illumination data with detected illumination data. CONSTITUTION: Illuminanace sensors(110a,110b) sense the neighboring illuminance of a LED screen and transmits Illuminance data. A controller(120) recognizes current illuminance by comparing the illuminance data with the reference illumination data. The controller controls the brightness of the LED screen according to the current illuminance. A local site PC(130) is connected to the controller and stores the reference illumination data in a memory part in a region in which the LED screen is installed. A remote site PC(140) operates the LED screen using the local site PC in a remote site.

Description

Apparatus and method for automatically controlling brightness in a LED screen}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an apparatus and method for automatically controlling the brightness of a light-emitting diode (LED) screen, and more particularly, to the brightness of an LED screen capable of automatically controlling the brightness of the LED screen according to the change in illuminance around the LED screen. An automatic control apparatus and method.

 LED screen (display) products are usually produced by connecting several LED screen unit modules to one set and displaying images and texts according to control commands from a remote control unit (for example, a computer system). Regardless of the brightness, the brightness is initially set.

In such an LED screen, in order to control the brightness of the LED screen installed in each site (site) in the prior art, a user arbitrarily adjusts the brightness, or the scheduling (scheduling) by using a method of changing the brightness at the time. Therefore, even if dark weather changes occur locally (or during the day), it is difficult to recognize them, and there is a problem that it is difficult to properly adjust the brightness because there is no objective and accurate reference for brightness adjustment. In addition, the LED screen is too bright in the night time, causing complaints, such as complaints are caused.

The present invention has been made in view of the above-described matters, and an object thereof is to provide a device and method for automatically controlling brightness of an LED screen that can automatically control the brightness of the LED screen according to a change in illuminance around the LED screen. .

In order to achieve the above object, the automatic brightness control device of the LED screen according to the present invention,

A plurality of illuminance sensors for detecting illuminance around the LED screen to transmit corresponding illuminance data;

The LED screen and the plurality of illuminance sensors are electrically connected to each other, and compare the illuminance data transmitted from the plurality of illuminance sensors with the reference illuminance data to determine the current illuminance, and the LED screen according to the determined current illuminance. A control unit for adjusting the brightness of the;

A local site PC electrically connected to the control unit and storing reference illumination data of an area where the LED screen is installed in an internal memory; And

It is characterized in that it comprises a remote PC for transmitting and receiving data through the network with the local site PC, and operating the LED screen remotely via the local site PC.

Here, as the illuminance sensor, an illuminance sensor in which an analog-to-digital converter (ADC) is incorporated is used.

In addition, a microcontroller may be used as the controller.

In addition, the reference illuminance data stored in the internal memory of the local site PC may include illumination data for each season and time zone of the region where the LED screen is installed.

In addition, the automatic brightness control method of the LED screen according to the present invention in order to achieve the above object,

A method of automatically controlling the brightness of an LED screen by using an automatic brightness controller of the LED screen including a plurality of illumination sensors, a control unit, a local site PC, and a remote PC.

a) detecting illuminance around an LED screen installed at a local site by the plurality of illuminance sensors;

b) determining by the controller whether the illuminance data sensed by the plurality of illuminance sensors is valid;

c) if the illuminance data detected by the illuminance sensor is valid, reading preset illuminance data for each time zone corresponding to a current time from the local site PC by the controller;

d) comparing the read-out illuminance data for each time zone with illuminance data detected by the illuminance sensor by the controller; And

e) if the error between the two illuminance data is within a preset error range, expressing the brightness of the LED screen at a predetermined time zone brightness corresponding to the time zone illuminance data. .

Here, preferably, before performing step a), the method may further include determining, by the controller, whether the brightness adjustment of the LED screen is an automatic mode or a manual mode.

The method may further include setting, by the controller, a configuration of the plurality of illuminance sensors if the brightness adjustment of the LED screen is automatic mode in the determination.

Further, in step b), whether the illuminance data detected by the plurality of illuminance sensors is valid is determined as valid if the detected illuminance data is within a preset illuminance value, and the detected illuminance data is previously determined. If it is out of the range of the set illuminance value, it is determined to be invalid.

In addition, if the comparison result of the step d), the error between the two roughness data is out of the preset error range, the step b) to d) is executed again, and as a result of the recomparison, the error between the two roughness data is within the preset error range The method may further include displaying brightness of the LED screen at a predetermined time zone brightness corresponding to the time zone illumination data.

In addition, if the error between the two illuminance data is out of the preset error range, the brightness of the LED screen is automatically changed based on the illuminance data detected by the illuminance sensor, and the changed brightness of the LED screen is changed. It further comprises the step of expressing the brightness.

According to the present invention, the LED screen by detecting the illuminance around the LED screen by the illuminance sensor, and expresses the brightness of the LED screen at a corresponding brightness according to the comparison result of the detected illuminance data and the preset reference illuminance data. There is an advantage that can be operated at the optimum brightness.

1 is a view schematically showing the overall system configuration of the automatic brightness control device of the LED screen according to the present invention.
Figure 2a and 2b is a flow chart showing the execution process of the automatic brightness control method of the LED screen according to the present invention.

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

1 is a view schematically showing the overall system configuration of the automatic brightness control device of the LED screen according to the present invention.

Referring to FIG. 1, the apparatus for automatically controlling brightness of an LED screen according to the present invention includes a plurality of illuminance sensors 110a and 110b, a controller 120, a local site PC 130, and a remote PC 140. .

The plurality of illuminance sensors 110a and 110b are installed in close proximity to the LED screen 100 installed at the local site, and detect the illuminance around the LED screen 100 to transmit corresponding illuminance data. Such illuminance sensors 110a and 110b may be used as general illuminance sensors, but preferably, an illuminance sensor in which an analog-to-digital converter (ADC) is built in is used. In addition, in the present embodiment, it has been described that two illumination sensors 110a and 110b are installed. However, this shows one example, and it is obvious that a larger number of illumination sensors may be installed.

The controller 120 is electrically connected to the LED screen 100 and the plurality of illuminance sensors 110a and 110b, respectively, and the illuminance data and the reference illuminance transmitted from the plurality of illuminance sensors 110a and 110b. Compare the data (stored in the internal memory of the local site PC 130 described later) to determine the current illuminance, and adjust the brightness of the LED screen 100 according to the identified current illuminance. As the controller 120, a microcontroller may be used.

The local site PC 130 is electrically connected to the controller 120 and stores reference illumination data of an area where the LED screen 100 is installed in an internal memory. Here, the reference illuminance data stored in the internal memory of the local site PC 130 may include seasonal and time-based illuminance data of the region where the LED screen 100 is installed. The seasonal and time-based illuminance data is collected (obtained) by the inventor or designer of the present system (brightness automatic control device) and stored in advance in the internal memory of the local site PC 130.

The remote PC 140 transmits and receives data with the local site PC 130 through a network (for example, a TCP / IP network), and the LED screen 100 via the local site PC 130. Operate remotely.

Then, an automatic brightness control method of the LED screen based on the automatic brightness control device of the LED screen according to the present invention having the above configuration will be described.

2A and 2B are flowcharts illustrating an execution process of an automatic brightness control method of an LED screen according to the present invention.

2A and 2B, a method of automatically controlling brightness of an LED screen according to the present invention includes a plurality of illuminance sensors 110a and 110b, a control unit 120, a local site PC 130, and a remote PC 140. A method of automatically controlling the brightness of the LED screen using the above-described automatic brightness control of the LED screen, including, first around the LED screen 100 installed at the local site by the plurality of illuminance sensors (110a) (110b) Is detected (step S203).

Thereafter, the control unit 120 determines whether the illuminance data detected by the plurality of illuminance sensors 110a and 110b is valid (step S204). Here, whether the illuminance data detected by the plurality of illuminance sensors 110a and 110b is valid is determined to be valid when the detected illuminance data is within a preset illuminance value, and the detected illuminance data is determined. If it is out of the range of the preset illuminance value, it is determined to be invalid.

As a result of the determination of step S204, if the illuminance data detected by the illuminance sensors 110a and 110b is not valid, the data is discarded and the newly detected and input illuminance data is continuously checked.

If the illuminance data sensed by the illuminance sensors 110a and 110b is valid, the control unit 120 sends the data from the local site PC 130 (more precisely, from the internal memory of the local site PC 130). The predetermined time-zone illuminance data corresponding to the current time is read (step S205).

Then, the read-out time-based illuminance data and the illuminance data sensed by the illuminance sensors 110a and 110b are compared by the controller 120 (step S206).

Then, it is determined whether the error between the two illuminance data according to the comparison is within a preset error range (step S207).

As a result of the determination, if the error between the two illuminance data is within the preset error range, the brightness of the LED screen 100 is expressed at the preset time-specific brightness corresponding to the time-based illuminance data (step S208).

In the series of processes as described above, preferably, before performing step S203, the control unit 120 determines whether the brightness adjustment of the LED screen 100 is in an automatic mode or a manual mode (S201). It may further include.

If the brightness adjustment of the LED screen 100 is automatic in the determination of step S201, setting the configuration of the plurality of illuminance sensors 110a and 110b by the controller 120 (S202). ) May be further included. Of course, if the brightness adjustment of the LED screen 100 in the determination of step S201 is not the automatic mode (that is, manual mode), the user can arbitrarily set the brightness of the LED screen 100 to operate the LED screen 100 do.

On the other hand, when the determination result of step S207 indicates that the error between the two illuminance data is out of the preset error range, the steps S203 to S206 are executed again, that is, the steps S209 to S212 of FIG. 2B are executed, and the two illuminance data according to the comparison are performed. It is discriminated whether or not the error is within a preset error range (step S213).

As a result of the determination in step S213, if the error between the two illuminance data is within a preset error range, the brightness of the LED screen 100 is displayed at a predetermined time zone brightness corresponding to the time zone illuminance data (step S214).

As a result of the determination in step S213, when the error between the two illuminance data is outside the preset error range, the brightness of the LED screen 100 is automatically adjusted based on the illuminance data detected by the illuminance sensors 110a and 110b. The brightness of the LED screen 100 is expressed by the changed brightness (step S215). For example, when the error deviates from the preset error range by less than 10%, the brightness of the LED screen 100 is automatically changed to a predetermined time zone brightness corresponding to the detected illuminance data. If the error deviates from the preset error range by more than 10%, the LED is converted into a brightness value of a predetermined time zone brightness corresponding to the detected illumination data and an average value of preset time zone brightness corresponding to the time zone illumination data. Change the brightness of the screen 100 automatically. In this way, the optimum brightness can be expressed.

As described above, the apparatus and method for automatically controlling the brightness of the LED screen according to the present invention detects the illuminance around the LED screen by an illuminance sensor and according to a result of comparing the detected illuminance data with a preset reference illuminance data. By displaying the brightness of the LED screen at the corresponding brightness, there is an advantage that the LED screen can be operated at the optimum brightness.

As mentioned above, although the present invention has been described in detail with reference to the preferred embodiment, the present invention is not limited thereto, and it will be apparent to those skilled in the art that various changes and applications can be made without departing from the technical spirit of the present invention. Accordingly, the true scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of the same should be construed as being included in the scope of the present invention.

100: LED screen 110a, 110b: Ambient light sensor
120: control unit 130: local site PC
140: remote PC

Claims (10)

A plurality of illuminance sensors for detecting illuminance around the LED screen to transmit corresponding illuminance data;
The LED screen and the plurality of illuminance sensors are electrically connected to each other, and compare the illuminance data transmitted from the plurality of illuminance sensors with the reference illuminance data to determine the current illuminance, and the LED screen according to the determined current illuminance. A control unit for adjusting the brightness of the;
A local site PC electrically connected to the control unit and storing reference illumination data of an area where the LED screen is installed in an internal memory; And
Automatically controlling the brightness of the LED screen including a remote PC for transmitting and receiving data through the network with the local site PC, and operating the LED screen from the remote site via the local site PC. The method of claim 1,
The illumination sensor is an automatic brightness control device of the LED screen is an illumination sensor with an analog-to-digital converter (ADC). The method of claim 1,
The control unit is a micro-controller automatic brightness control of the LED screen. The method of claim 1,
And the reference illuminance data stored in the internal memory of the local site PC includes seasonal and time-based illuminance data of the region where the LED screen is installed. A method of automatically controlling the brightness of an LED screen by using an automatic brightness controller of the LED screen including a plurality of illumination sensors, a control unit, a local site PC, and a remote PC.
a) detecting illuminance around an LED screen installed at a local site by the plurality of illuminance sensors;
b) determining by the controller whether the illuminance data sensed by the plurality of illuminance sensors is valid;
c) if the illuminance data detected by the illuminance sensor is valid, reading preset illuminance data for each time zone corresponding to a current time from the local site PC by the controller;
d) comparing the read-out illuminance data for each time zone with illuminance data detected by the illuminance sensor by the controller; And
e) automatically controlling the brightness of the LED screen, including displaying the brightness of the LED screen at a preset time zone brightness corresponding to the time zone illumination data if the error between the two illumination data is within a preset error range. Way. The method of claim 5,
And determining by the controller whether the brightness adjustment of the LED screen is an automatic mode or a manual mode before executing step a). The method of claim 6,
And if the brightness adjustment of the LED screen is automatic mode in the determination, setting the configuration of the plurality of illuminance sensors by the control unit. The method of claim 5,
In step b), whether the illuminance data detected by the plurality of illuminance sensors is valid is determined to be valid when the detected illuminance data is within a preset illuminance value, and the detected illuminance data is preset illuminance. Automatic control of the brightness of the LED screen to determine that it is invalid when out of the range of values. The method of claim 5,
As a result of the comparison of step d), if the error between the two roughness data is out of the preset error range, the steps b) to d) are executed again, and as a result of the recomparison, if the error between the two roughness data is within the preset error range, And displaying brightness of the LED screen at a predetermined time zone-specific brightness corresponding to the time-zone illuminance data. 10. The method of claim 9,
As a result of the recomparison, if the error between the two illuminance data is out of a preset error range, the brightness of the LED screen is automatically changed based on the illuminance data detected by the illuminance sensor, and the brightness of the LED screen is changed to the changed brightness. Automatically controlling the brightness of the LED screen further comprising the step of displaying.

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