CN111432532A - Visual light control system and method - Google Patents

Abstract

The embodiment of the invention discloses a visual light control system, which comprises: the visual lighting controller, the lighting apparatus and the camera device; the visual light controller is respectively in wired communication connection with the lighting device and the camera device; the camera device is used for acquiring on-site lighting effect video data and sending the lighting effect video data to the visual lighting controller; the visual light controller is used for analyzing the received light effect video data and sending a control instruction to the lighting apparatus according to the analysis result; and the lighting fixture is used for responding to the control instruction of the visual light controller to adjust the light of the lighting fixture. This visual light control system has improved light control's real-time and stability, has extensive suitability, can realize that on-the-spot light effect is visible in real time to can long-range accurate control light, promote light control effect. In addition, a visual light control method is also provided.

Description

Visual light control system and method

Technical Field

The invention relates to the technical field of intelligent sensing control, in particular to a visual lamplight control system and method.

Background

Along with the rapid development of science and technology, light is in the illumination, however, the light controller at present can only control light on and off, the intensity, can't know the on-the-spot illuminating effect, therefore it is difficult to realize intelligent control according to the on-the-spot illuminating effect, there is the limitation of controlling light blindly, on one hand, light control is to link to each other through the wire between switch and the lamps and lanterns controlled, directly carry out the control of light through break-make commercial power, the wiring cost is high, for example 0-10V dimmer, the signal attenuation is serious after the line length is controlled through the wired, only can use locally. On the other hand, although the wireless light controller acts on a long distance, the wireless light controller cannot know the lighting effect of the light on site, and the real-time performance and the stability of the light control are affected, so that the light effect is difficult to meet the scene on site, and therefore, a light control system capable of controlling the light efficiently is urgently needed.

Disclosure of Invention

In view of the above, it is necessary to provide a visual light control system and a method for intelligently controlling a light lamp, which can improve the real-time performance and stability of light control.

In a first aspect, the present invention provides a visual lighting control system, comprising: the visual lighting controller, the lighting apparatus and the camera device; the visual light controller is in wired communication connection with the lighting appliance and the camera device respectively;

the camera device is used for acquiring on-site lighting effect video data and sending the lighting effect video data to the visual lighting controller;

the visual light controller is used for analyzing the received light effect video data and sending a control instruction to the lighting apparatus according to an analysis result;

and the lighting fixture is used for responding to the control instruction of the visual light controller to adjust the light of the lighting fixture.

In one embodiment, the camera device comprises a camera equipment and a tripod head rocker component, and the camera device and the lighting apparatus are integrated into a whole and integrated on a tripod head;

the holder rocker component is used for adjusting the real-time acquisition angle of the camera equipment in a rotating manner and

the light emitting angle of the lighting fixture is adjusted;

and the camera equipment is used for acquiring the field light effect video data in real time according to the real-time acquisition angle of the holder rocker component.

In one embodiment, the real-time acquisition angle of the camera shooting equipment is adjusted to be 0-180 degrees in the horizontal direction and 0-180 degrees in the vertical direction by the holder rocker component, and the light-emitting angle of the lighting device is adjusted to be 0-180 degrees in the horizontal direction and 0-180 degrees in the vertical direction.

In one embodiment, the visual light controller further comprises: and the video display module is used for displaying the change condition of the field lamplight in real time.

In one embodiment, the wired communication connection is an RS485 communication connection.

In one embodiment, further comprising: power module and power detection module, power module is used for supplying power for visual light controller, lighting apparatus and camera device, power detection module is used for connecting power module with visual light controller is used for detecting power module's residual capacity to export the electric quantity testing result extremely visual light controller.

In one embodiment, the visual light controller further comprises a light pattern control unit for determining a corresponding light pattern to control the lighting fixture according to the scene light change.

In one embodiment, the visual light controller further comprises a video decoding unit, configured to decode the light effect video data, and send the decoding result to the video display module.

In a second aspect, the present invention further provides a visual light control method, where the method includes:

acquiring field light effect video data in real time;

analyzing the on-site lighting effect video data to obtain an analysis result;

and controlling the on-site lighting effect video data according to the analysis result so that the lighting fixture emits light according to the adjusted on-site lighting effect video data.

In one embodiment, the live light effect video data is live light effect video data captured from a plurality of different angles.

The visual light control system and the method comprise the following steps: the visual lighting controller, the lighting apparatus and the camera device; the visual light controller is in wired communication connection with the lighting appliance and the camera device respectively; the camera device is used for acquiring on-site lighting effect video data and sending the lighting effect video data to the visual lighting controller; the visual light controller is used for analyzing the received light effect video data and sending a control instruction to the lighting apparatus according to an analysis result; the lighting apparatus is used for responding to the light of lighting apparatus is adjusted to visual light controller's control command, and this visual light control system has improved light control's real-time and stability, has extensive suitability, can realize that on-the-spot light effect is real-time visible to can long-range accurate control light, promote light control effect.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Wherein:

FIG. 1 is a block diagram of a visual lighting control system according to an embodiment;

FIG. 2 is a block diagram of a visual lighting control system according to another embodiment;

fig. 3 is a flow chart of a visual light control method in an embodiment.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1, in one embodiment, there is provided a visual light control system comprising: a visual light controller 10, a lighting fixture 20, and an image pickup device 30.

The visual light controller 10 is a controller with a visual function for controlling a field light effect, and specifically, the visual light controller 10 may include a single chip for processing a video signal (such as a CVBS signal), a video signal decoding unit, a light control main board, a display screen with a display function, and a communication module for transmitting data and instructions. Understandably, through setting up visual light controller, can realize showing light effect in real time to visual light controller 10 adjusts on-the-spot light according to the light effect that shows on the visual controller, has broken away from the limitation to remote light control and has strengthened the interactivity to light effect control.

The lighting fixture 20 is for executing the control instructions of the visual light controller 10 to adjust the light effects to meet the scene of the scene.

The camera device 30 is used for acquiring video signal data or image signal data of a field lighting effect in real time, so that the signal data is decoded and displayed by the visual lighting controller 10, thereby realizing remote control of lighting and improving lighting control efficiency.

The visual light controller 10 is connected with the lighting apparatus 20 and the camera device 30 in a wired communication manner.

The visual light controller 10 and the lighting fixture 20 are connected by wired communication, where the wired communication is a mode of transmitting information by using tangible media such as metal wires and optical fibers, and the optical or electrical signals may represent sounds, characters, images, and the like, such as signals corresponding to light effect signal data in this embodiment. Transmitting light effect signal data and control instructions, and adjusting the lighting target, lighting range, light intensity and the like of the light fixture. The visual light controller 10 and the camera device 30 are connected through wired communication, so that a light effect video or image information is displayed on the visual light controller 10, and a control instruction can be transmitted, wherein the wired communication includes but is not limited to at least one of an I2C bus (Inter-Integrated Circuit) communication connection, an RS485 communication connection, and an RS232 communication connection. The mode through wired communication connection has improved visual light controller and lighting apparatus and visual light controller and camera device data and instruction transmission's stability and real-time to need not to set up wireless module, saved the cost, realized remote control's effect simultaneously, make visual light control system can satisfy the scene that requires higher to the light control real-time, have extensive suitability. Preferably, in this embodiment, an RS485 communication connection is selected as a wired communication connection mode, and since the RS485 interface supports connection of a plurality of transceivers on the bus, the convenience of communication can be improved on the premise of ensuring the stability and real-time performance of light control.

The camera device 30 is configured to collect on-site lighting effect video data and send the lighting effect video data to the visual lighting controller 10.

Specifically, the camera device 30 captures video information or image information of the field lighting effect in real time, collects video data of the field lighting effect, and sends the video data of the lighting effect to the visual lighting controller 10 in a wired communication manner.

The visual light controller 10 is configured to analyze the received light effect video data, and send a control instruction to the lighting fixture 20 according to an analysis result.

Specifically, the visual light controller 10 analyzes the light brightness, the light range and the scene in real time from the light effect video data returned by the camera device to obtain an analysis result, where the analysis result is the adjustment control parameter corresponding to the target light brightness and the target light range that satisfy the scene in the scene. The control instruction comprises adjustment control parameters corresponding to the target lamp brightness and the target lamp light range.

And the lighting fixture 20 is used for adjusting the light of the lighting fixture in response to the control instruction of the visual light controller.

Specifically, the lighting fixture may be composed of a plurality of L ED lamps, the lighting fixture 20 is configured to respond to the control command of the visual light controller 10, and adjust the adjustment control parameters corresponding to the target light brightness and the target light range in the lighting fixture according to the adjustment control parameters corresponding to the target light brightness and the target light range included in the control command, so that the light of the lighting fixture 20 satisfies the scene of the.

The visual light control system comprises a visual light controller, a lighting device and a camera device; the visual light controller is in wired communication connection with the lighting appliance and the camera device respectively; the camera device is used for acquiring on-site lighting effect video data and sending the lighting effect video data to the visual lighting controller; the visual light controller is used for analyzing the received light effect video data and sending a control instruction to the lighting apparatus according to an analysis result; the lighting apparatus is used for responding to the light of the lighting apparatus is adjusted by the control instruction of the visual light controller, the visual light control system improves the stability and the real-time performance of the visual light controller and the lighting apparatus as well as the data and instruction transmission of the visual light controller and the camera device, and does not need to be provided with a wireless module, the cost is saved, and meanwhile, the effect of remote control is realized, so that the visual light control system can meet the scene with higher requirements on the real-time performance of light control, the wide applicability is realized, the real-time visibility of the field light effect can be realized, the light can be remotely and accurately controlled, and the light control effect is improved.

As shown in fig. 2, in one embodiment, the camera device includes a camera apparatus 31 and a pan/tilt/rocker member 32, and the camera device is integrated with the lighting apparatus and integrated on the pan/tilt; the holder rocker part 32 is used for adjusting the real-time acquisition angle of the camera equipment in a rotating manner and adjusting the light-emitting angle of the lighting apparatus;

and the camera device 31 is used for acquiring the field lighting effect video data in real time according to the real-time acquisition angle of the holder rocker component.

In this embodiment, the image capturing apparatus includes an image capturing device 31 and a pan/tilt/rocker member 32, and the pan/tilt/rocker member 32 is used to adjust the angle of the image capturing device 31 for capturing the on-site lighting effect, so as to ensure the richness and integrity of the on-site lighting effect video data, and facilitate subsequent high-efficiency control based on the on-site lighting effect video data. The camera device and the lighting device are combined into a whole, so that the size of the system can be reduced, and the operation and the use of a user are facilitated. The camera device and the lighting apparatus are integrated into a whole and integrated on the holder, and the positions of the camera device and the lighting apparatus can be adjusted simultaneously through the rotation of the holder, so that the camera device can change the shooting position along with the change of the position of the lighting apparatus, and the situation that the video data of the scene light effect acquired by the camera device is richer and more accurate is ensured. The holder rocker component 31 is used for adjusting the real-time acquisition angle of the camera equipment in a rotating mode and adjusting the light-emitting angle of the lighting apparatus, and the camera equipment 32 is used for acquiring the field light effect video data in real time according to the real-time acquisition angle of the holder rocker component. In this embodiment, the angle of the shooting field light effect of the camera device 31 is adjusted through the pan-tilt rocker component, so that the richness and integrity of the field light effect video data are ensured, and the subsequent high-efficiency control is performed based on the field light effect video data.

In one embodiment, the real-time acquisition angle of the camera shooting equipment is adjusted to be 0-180 degrees in the horizontal direction and 0-180 degrees in the vertical direction by the holder rocker component, and the light-emitting angle of the lighting device is adjusted to be 0-180 degrees in the horizontal direction and 0-180 degrees in the vertical direction.

Specifically, the real-time acquisition angle of the camera equipment is 0-180 degrees in the horizontal direction and 0-180 degrees in the vertical direction, the camera equipment can rotate in four directions, namely the vertical direction and the left direction, the right direction, and the light-emitting angle of the lighting device is 0-180 degrees in the horizontal direction and 0-180 degrees in the vertical direction, so that the light-emitting range of the lighting device can be radiated to all directions, and the light-emitting angle and the light-emitting range of the lighting device can be flexibly controlled while the accuracy of the field lighting effect video data is ensured.

In one embodiment, the visual light controller further comprises: and the video display module is used for displaying the change condition of the field lamplight in real time.

The video display module can comprise a liquid crystal display and a signal decoding circuit for decoding the video data of the field lamplight effect, and the signal of the field lamplight effect data is decoded and then displayed on the liquid crystal display of the video display module in real time, so that the change condition of the field lamplight can be displayed in real time, and the accuracy of follow-up control is ensured.

In one embodiment, the wired communication connection is an RS485 communication connection.

The RS485 communication adopts a differential signal negative logic control mode, and has the characteristics of simplicity and convenience in implementation, the conversion interface of the RS485 is cheap and various, the wiring plug of the conversion interface of the RS485 in the embodiment is GX16-10 public, the power supply of the conversion interface of the RS485 is direct current of 10-15V, the RS485 communication connection mode can ensure the stability and instantaneity of on-site light effect video data transmission, and the scene of light control with higher real-time requirement (such as public security fire fighting) can meet the requirements on light control stability and instantaneity. The visual light controller sends a control instruction to the lighting fixture in an RS485 communication connection mode so that the lighting fixture executes the corresponding control instruction. The camera device can reversely transmit the field light effect video data to the visual light controller in an RS485 communication connection mode, namely, the camera device sends a decoding signal CVBS (color, video, blanking and synchronous signal) corresponding to the light effect video data to the visual light controller, so that communication transmission and light control of data and commands are realized, and the real-time performance and the stability of light control are improved.

In one embodiment, further comprising: power module and power detection module, power module is used for supplying power for visual light controller, lighting apparatus and camera device, power detection module is used for connecting power module with visual light controller is used for detecting power module's residual capacity to export the electric quantity testing result extremely visual light controller.

Wherein, power module is used for supplying power for visual light controller, lighting apparatus and camera device, power detection module be used for connecting power module with visual light controller for detect power module's residual capacity, and export electric quantity testing result to visual light controller, convenience of customers looks over visual light controller's electric quantity, reinforcing and user's interactivity.

In one embodiment, the visual light controller further comprises a light pattern control unit for determining a corresponding light pattern to control the lighting fixture according to the scene light change.

The lighting mode control unit determines the corresponding lighting mode to control the lighting appliance according to the scene lighting change situation, so that convenience of controlling the lighting appliance is improved, and user operation experience is improved.

In one embodiment, the visual light controller further comprises a video decoding unit, configured to decode the light effect video data, and send the decoding result to the video display module.

The visual light controller also comprises a video decoding unit, wherein the video decoding unit can comprise a video signal decoding unit used for decoding the light effect video data and sending the decoding result to the video display module.

It should be noted that, through testing, the visual light control system is suitable for industries such as public security fire fighting, oil field drilling, railways and the like.

As shown in fig. 3, in an embodiment, a visual light control method is provided, which is applied to a visual light controller, and the visual light control method may be applied to both a terminal and a server, and specifically includes the following steps:

and step 102, acquiring the on-site lighting effect video data in real time.

Specifically, the field lighting effect data can be acquired in real time through the camera device, and the field lighting effect corresponding to the field lighting effect data is acquired in real time through the display of the video display module, so that the lighting effect can be remotely checked, and the limitation of local checking is eliminated.

And 104, analyzing the on-site lighting effect video data to obtain an analysis result.

Specifically, the server analyzes the field lighting effect video data, and determines a field scene, lighting brightness, a lighting target, a lighting range and the like as an analysis result, so as to perform further processing based on the analysis result.

And 106, controlling the field lighting effect video data according to the analysis result so that the lighting fixture emits light according to the adjusted field lighting effect video data.

Specifically, the server calculates the control parameters of the lighting apparatus according to the analysis result, so that the lighting apparatus emits light according to the calculated control parameters of the lighting apparatus, the accuracy of light control is ensured, and the light control efficiency is improved.

The visual light control method is applied to the visual light controller, the field light effect video data are obtained in real time and analyzed to obtain an analysis result, the field light effect video data are controlled according to the analysis result, so that the lighting device emits light according to the adjusted field light effect video data, the accuracy of light control is ensured, and the light control efficiency is improved.

In one embodiment, the live light effect video data is live light effect video data captured from a plurality of different angles.

Specifically, the scene light effect video data is the scene light effect video data that obtains for shooing under a plurality of different angles, promptly through the real-time scene light effect video data that obtains of shooing under a plurality of different angles of the angle acquisition of cloud platform rotation regulation shooting device.

It should be noted that, the visual light control system and the visual light control method described above belong to a general inventive concept, and the contents in the embodiments of the visual light control system and the visual light control method may be mutually applicable.

The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present application. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. A visual light control system, comprising: the visual lighting controller, the lighting apparatus and the camera device; the visual light controller is in wired communication connection with the lighting appliance and the camera device respectively;

the camera device is used for acquiring on-site lighting effect video data and sending the lighting effect video data to the visual lighting controller;

the visual light controller is used for analyzing the received light effect video data and sending a control instruction to the lighting apparatus according to an analysis result;

and the lighting fixture is used for responding to the control instruction of the visual light controller to adjust the light of the lighting fixture.

2. The visual light control system of claim 1, wherein the camera device comprises a camera device and a pan-tilt rocker component, and the camera device is integrated with the lighting fixture and integrated on the pan-tilt;

the holder rocker component is used for adjusting the real-time acquisition angle of the camera equipment in a rotating manner and

the light emitting angle of the lighting fixture is adjusted;

and the camera equipment is used for acquiring the field light effect video data in real time according to the real-time acquisition angle of the holder rocker component.

3. The visual lamplight control system according to claim 2, wherein the real-time acquisition angle of the camera device is adjusted to be 0-180 ° in the horizontal direction and 0-180 ° in the vertical direction by the holder rocker component, and the light-emitting angle of the lighting device is adjusted to be 0-180 ° in the horizontal direction and 0-180 ° in the vertical direction.

4. A visual light control system as claimed in claim 1 wherein the visual light controller further comprises: and the video display module is used for displaying the change condition of the field lamplight in real time.

5. A visual light control system according to claim 1, wherein the wired communication link is an RS485 communication link.

6. The visual light control system of claim 1, further comprising: power module and power detection module, power module is used for supplying power for visual light controller, lighting apparatus and camera device, power detection module is used for connecting power module with visual light controller is used for detecting power module's residual capacity to export the electric quantity testing result extremely visual light controller.

7. A visual light control system according to claim 4 wherein the visual light controller further comprises a light pattern control unit for determining a corresponding light pattern to control the lighting fixture based on the scene light change.

8. A visual light control system according to claim 4 wherein the visual light controller further comprises a video decoding unit for decoding the light effect video data and sending the decoded result to the video display module.

9. A visual light control method is applied to a visual light controller and is characterized by comprising the following steps:

acquiring field light effect video data in real time;

analyzing the on-site lighting effect video data to obtain an analysis result;

and controlling the on-site lighting effect video data according to the analysis result so that the lighting fixture emits light according to the adjusted on-site lighting effect video data.

10. A visual light control method according to claim 9, wherein the live light effect video data is live light effect video data captured from a plurality of different angles.

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