CN206490858U - The control of terminal and LED shows system - Google Patents

Abstract

The utility model provides a kind of terminal and the control of LED shows system, wherein, the terminal includes：First controller and display module, the first controller are connected with display module, and the first controller is connected with camera, LED respectively；LED control instruction is sent to LED by the first controller, LED is carried out tune lamp operation corresponding with LED control instruction, and receives the view data for adjusting lamp operation of camera transmission, and the view data for adjusting lamp operation is transferred into display module；Display module shows the view data for adjusting lamp operation to user, the tune lamp information characterized in LED control instruction.And then terminal can get the view data of LED Dimming operation in real time, and terminal shows the view data of LED Dimming operation to user so that whether user can really be performed for the remote operation of LED.

Description

Terminal and control display system of LED lamp

Technical Field

The utility model relates to a LED lamp technical field especially relates to a control display system of terminal and LED lamp.

Background

Light Emitting Diodes (LEDs) have been widely used in various fields such as public lighting in cities, office and home lighting because of their advantages of energy saving, environmental protection, Light control, solidification, long life, etc.

In the prior art, the terminal can be adopted to intelligently control the LED lamp, a button, a long strip, an arc or other options can be arranged on a user operation interface of the terminal, a user can operate the user operation interface of the terminal, and then the LED lamp is remotely controlled to emit light.

However, in the prior art, when a user uses a user operation interface of a terminal to remotely control the light of the LED lamp, the user cannot know whether the remote operation of the LED lamp is actually performed.

SUMMERY OF THE UTILITY MODEL

The utility model provides a control display system at terminal and LED lamp for on solving the user operation interface at user's adoption terminal in the prior art, when long-range carrying out the control of light to the LED lamp, the user can not know the problem whether by real execution to the remote operation of LED lamp.

An aspect of the present invention is to provide a terminal, including:

the LED display device comprises a first controller and a display module, wherein the first controller is connected with the display module and is respectively connected with a camera and an LED lamp;

the first controller is used for acquiring an LED lamp control instruction, sending the LED lamp control instruction to an LED lamp, enabling the LED lamp to perform lamp adjusting operation corresponding to the LED lamp control instruction, receiving image data of the lamp adjusting operation sent by the camera, and transmitting the image data of the lamp adjusting operation to the display module, wherein the image data of the lamp adjusting operation is acquired by the camera in the process of performing the lamp adjusting operation corresponding to the LED lamp control instruction by the LED lamp;

and the display module is used for displaying the image data of the light adjusting operation and the light adjusting information represented in the LED lamp control instruction to a user.

Another aspect of the utility model is to provide a control display system of LED lamp, include:

the LED lamp is positioned in the monitoring range of the camera;

the LED lamp is used for receiving an LED lamp control instruction sent by the terminal and carrying out lamp adjusting operation corresponding to the LED lamp control instruction;

the camera is used for collecting image data of the lamp adjusting operation in the process of carrying out the lamp adjusting operation corresponding to the LED lamp control instruction on the LED lamp, and sending the image data of the lamp adjusting operation to the terminal, so that the terminal can simultaneously display the image data of the lamp adjusting operation and the lamp adjusting information represented in the LED lamp control instruction to a user.

The technical effects of the utility model are that: providing a terminal consisting of a first controller and a display module, wherein the first controller is connected with the display module and is respectively connected with a camera and an LED lamp; the first controller acquires an LED lamp control instruction, sends the LED lamp control instruction to the LED lamp, so that the LED lamp performs lamp adjusting operation corresponding to the LED lamp control instruction, receives image data of the lamp adjusting operation sent by the camera, and transmits the image data of the lamp adjusting operation to the display module, wherein the image data of the lamp adjusting operation is acquired by the camera in the process of performing the lamp adjusting operation corresponding to the LED lamp control instruction by the LED lamp; the display module displays image data of the light adjusting operation and light adjusting information represented in the LED lamp control instruction to a user. Therefore, when the terminal remotely adjusts the light of the LED lamp, the camera is arranged in the space where the LED lamp is located, the camera can acquire the image data of the light adjusting operation corresponding to the LED lamp control instruction in real time, then the camera can send the image data of the light adjusting operation to the terminal, the terminal can acquire the image data of the light adjusting operation of the LED lamp in real time, and the terminal displays the image data of the light adjusting operation of the LED lamp to a user, so that the user can really execute the remote operation of the LED lamp.

Drawings

Fig. 1 is a schematic structural diagram of a terminal according to a first embodiment of the present invention;

fig. 2 is a schematic display diagram of a terminal according to a first embodiment of the present invention;

fig. 3 is a schematic structural diagram of a terminal according to a second embodiment of the present invention;

fig. 4 is a schematic structural diagram of a control display system of an LED lamp according to a third embodiment of the present invention;

fig. 5 is a schematic structural diagram of a control display system of an LED lamp according to a fourth embodiment of the present invention;

fig. 6 is a flowchart of a control display method for an LED lamp according to a fifth embodiment of the present invention;

fig. 7 is a flowchart of a control display method for an LED lamp according to a seventh embodiment of the present invention.

Reference numerals:

1-terminal	2-pick-up head	3-LED lamp
			4-first controller	5-display module	6-first communication interface
7-user interface	8-operation controller	9-memory
			10-display screen module	11-PCB circuit board	12-inductor
13-microphone	14-second controller	15-image data collector
			16-second communication interface	17-sensor

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Fig. 1 is a schematic structural diagram of a terminal according to an embodiment of the present invention, as shown in fig. 1, the terminal 1 of this embodiment includes:

the LED display device comprises a first controller 4 and a display module 5, wherein the first controller 4 is connected with the display module 5, and the first controller 4 is respectively connected with the camera 2 and the LED lamp 3;

the first controller 4 is used for acquiring an LED lamp control instruction, sending the LED lamp control instruction to the LED lamp 3, enabling the LED lamp 3 to perform lamp adjusting operation corresponding to the LED lamp control instruction, receiving image data of the lamp adjusting operation sent by the camera 2, and transmitting the image data of the lamp adjusting operation to the display module 5, wherein the image data of the lamp adjusting operation is acquired by the camera 2 in the process that the LED lamp 3 performs the lamp adjusting operation corresponding to the LED lamp control instruction;

and the display module 5 is used for displaying the image data of the light adjusting operation and the light adjusting information represented in the LED lamp control instruction to a user.

In the embodiment, specifically, a terminal 1 is provided, which is composed of a first controller 4 and a display module 5, and the first controller 4 is connected with the display module 5; and the first controller 4 is connected with the camera 2 and the LED lamp 3, the first controller 4 can be connected with the camera 2 and the LED lamp 3 by wires, or the first controller 4 can be connected with the camera 2 and the LED lamp 3 by WIreless, wherein the WIreless connection mode can be WIreless-broadband (wifi) connection, bluetooth connection, or the like.

The camera 2 can be arranged in the space where the LED lamp 3 is located, so that the LED lamp 3 is located in the monitoring range of the camera 2; the arrangement positions and the number of the LED lamps 3 and the arrangement positions and the number of the cameras 2 are set according to actual requirements, and are not particularly limited. The LED lamp 3 and the camera 2 can be integrated into the same device, and the LED lamp 3 and the camera 2 are connected; or, the LED lamp 3 and the camera 2 are two independent products, and only the LED lamp 3 and the camera 2 need to be connected.

After the user inputs an LED lamp control instruction to the terminal 1 or the terminal 1 invokes a prestored LED lamp control instruction, the first controller 4 of the terminal 1 may obtain the LED lamp control instruction. Then the first controller 4 can send the LED lamp control instruction to the LED lamp 3 connected with the first controller 4 in a wireless sending mode; then, the LED lamp 3 may perform a lamp adjustment operation corresponding to the LED lamp control instruction, turn on or off the LED lamp 3, or adjust the brightness of the LED lamp 3, or adjust the color of the LED lamp 3, and so on. Because the camera 2 is always turned on, the camera 2 collects image data in the monitoring range of the camera 2, and the LED lamp 3 is positioned in the monitoring range of the camera 2, therefore, in the process of carrying out the lamp adjusting operation corresponding to the control instruction of the LED lamp by the LED lamp 3, the camera 2 can collect the image data of the lamp adjusting operation, and then the camera 2 sends the collected image data of the lamp adjusting operation to the terminal 1 connected with the camera 2 in a wireless sending mode. At this time, the first controller 4 of the terminal 1 may receive image data of the lighting operation.

Then, since the first controller 4 is connected to the display module 5, the first controller 4 outputs the received image data of the dimming operation to the display module 5. Then, the display module 5 displays the received image data of the light adjustment operation, and a user can check the image data of the light adjustment operation; in addition, the display module 5 can also display the light adjusting information represented in the control instruction of the LED light. At this moment, the page displayed by the display module 5 comprises an image display area and a light modulation information display area, the display module 5 can display the image data of the light modulation operation in the image display area, and the light modulation information is displayed in the light modulation information display area, so that the display module 5 can respectively display the image display area and the light modulation information display area, and can simultaneously display the image display area and the light modulation information display area.

For example, the display module 5 of the terminal 1 displays a light adjustment information display area, and options for adjusting and controlling the LED lamp 3, such as a light on option, a light off option, a brightness adjustment option, a color adjustment option, and the like, are displayed in the light adjustment information display area; the user can select the dimming information display area, and the user can select the dimming option to indicate that the brightness of the LED lamp 3 is reduced, so that the first controller 4 can receive an LED lamp control instruction for indicating that the brightness of the LED lamp 3 is reduced, and then the first controller 4 sends the LED lamp control instruction to the LED lamp 3 in a wifi sending mode; the brightness of the LED lamp 3 can be reduced by the LED lamp 3 according to the LED lamp control instruction, in the process that the brightness of the LED lamp 3 is reduced by the LED lamp 3, since the camera 2 monitors the LED lamp 3 in real time, the camera 2 can acquire image data of the LED lamp 3 for reducing the brightness of the LED lamp 3, and then the camera 2 can transmit the acquired image data of the LED lamp 3 for reducing the brightness of the LED lamp 3 to the terminal 1 in real time; after the first controller 4 of the terminal 1 receives the image data of the LED lamp 3 reducing the brightness of the LED lamp 3, the first controller 4 will transmit the image data to the display module 5, and the display module 5 will display the image data of the LED lamp 3 reducing the brightness of the LED lamp 3 to the user. When the display module 5 displays the image data, the display module 5 displays the image data of the LED lamp 3 with the brightness reduced by the LED lamp 3 in the image display area, and displays the image display area in an enlarged manner, so that the image display area occupies the whole screen of the terminal 1, and a user can clearly check whether the remote operation of the user on the LED lamp 3 is executed; or, display module assembly 5 is when showing this image data, fig. 2 does the utility model provides a display schematic diagram at terminal, as shown in fig. 2, display module assembly 5 reduces the image data display of the luminance of LED lamp 3 with LED lamp to the image display region in, and show simultaneously and transfer the lamp information display region, at this moment, because transfer the lamp information display region in have the option of user selection, and then the user can be more definite oneself of confirming transfers the lamp instruction corresponding with current image data, whether by real execution to the remote operation with LED lamp 3.

In the embodiment, by providing the terminal 1 composed of the first controller 4 and the display module 5, the first controller 4 is connected with the display module 5, and the first controller 4 is respectively connected with the camera 2 and the LED lamp 3; the first controller 4 acquires an LED lamp control instruction, sends the LED lamp control instruction to the LED lamp 3, so that the LED lamp 3 performs lamp adjusting operation corresponding to the LED lamp control instruction, receives image data of the lamp adjusting operation sent by the camera 2, and transmits the image data of the lamp adjusting operation to the display module 5, wherein the image data of the lamp adjusting operation is acquired by the camera 2 in the process of performing the lamp adjusting operation corresponding to the LED lamp control instruction by the LED lamp 3; the display module 5 displays the image data of the light adjusting operation and the light adjusting information represented in the LED lamp control instruction to the user. Therefore, when the terminal 1 remotely adjusts the light of the LED lamp 3, the camera 2 is arranged in the space where the LED lamp 3 is located, the camera 2 can collect the image data of the light adjusting operation of the LED lamp 3 corresponding to the LED lamp control instruction in real time, then the camera 2 can send the image data of the light adjusting operation to the terminal 1, and then the terminal 1 can obtain the image data of the light adjusting operation of the LED lamp 3 in real time, and the terminal 1 displays the image data of the light adjusting operation of the LED lamp 3 to a user, so that the user can determine whether the remote operation of the LED lamp 3 is really executed.

Fig. 3 is a schematic structural diagram of a terminal according to an embodiment of the present invention, and on the basis of the first embodiment, as shown in fig. 3, the terminal 1 of this embodiment further includes: a first communication interface 6;

the first controller 4 is connected with the first communication interface 6, and the first communication interface 6 is respectively connected with the camera 2 and the LED lamp 3.

The terminal 1 of the present embodiment further includes: a user interface 7;

the user interface 7 is connected with the first controller 4;

the user interface 7 is used for receiving an LED lamp control instruction input by a user and transmitting the LED lamp control instruction to the first controller 4;

the first controller 4 is specifically configured to send the LED lamp control instruction to the LED lamp 3 at the time point indicated by the LED lamp control instruction;

the LED lamp control instruction comprises at least one of the following: a light-on and light-off instruction of the LED lamp 3, a brightness adjusting instruction of the LED lamp 3 and a color adjusting instruction of the LED lamp 3; the LED lamp 3 light-on and light-off instruction representation is used for turning on or turning off the light at a first preset time point, the LED lamp 3 brightness adjustment instruction representation is used for adjusting the light brightness at a second preset time point, and the LED lamp 3 color adjustment instruction representation is used for adjusting the light color at a third preset time point.

A first controller 4 comprising:

an operation controller 8 and a memory 9, the memory 9 being connected to the operation controller 8;

and the operation controller 8 is used for calling the LED lamp control instruction prestored in the memory 9 so as to send the LED lamp control instruction to the LED lamp 3 at the time point indicated by the LED lamp control instruction.

The user interface 7 comprises any of the following: an operator, an interface input module and a keyboard.

Display module assembly 5 includes: the display screen module 10 and the PCB 11;

the PCB circuit board 11 is connected with the display screen module 10;

the display screen module 10 is configured to simultaneously display a first display interface where image data of the light adjustment operation is located and a second display interface where light adjustment information represented in the LED light control instruction is located.

The terminal 1, further includes: an inductor 12;

the inductor 12 is connected with the first controller 4;

the sensor 12 is used for acquiring the action state of the user and sending the action state to the first controller 4;

the first controller 4 is further configured to determine an LED lamp control instruction corresponding to the action state according to a preset first instruction table, where the preset first instruction table includes a correspondence between different action states and different LED lamp control instructions.

The terminal 1, further includes: a microphone 13;

the microphone 13 is connected with the first controller 4;

the microphone 13 is used for collecting voice information of a user and sending the voice information to the first controller 4;

the first controller 4 is further configured to determine an LED lamp control instruction corresponding to the voice information according to a preset second instruction list, where the preset second instruction list includes a correspondence between different voice information and different LED lamp control instructions.

In this embodiment, specifically, a first communication interface 6 is provided in the terminal 1, and the first communication interface 6 may adopt a wireless communication protocol or a wired communication protocol in the prior art. The first controller 4 is connected to the first communication interface 6, and the first communication interface 6 is connected to the camera 2 and the LED lamp 3, respectively. When the first controller 4 of the terminal 1 performs wired communication with the camera 2 and the LED lamp 3, the first communication interface 6 is a wired communication interface, and adopts a wired communication Protocol of the prior art, such as a transmission Control Protocol/Internet Protocol (TCP/IP for short); when the first controller 4 of the terminal 1 performs Wireless communication with the camera 2 and the LED lamp 3, the first communication interface 6 is a Wireless communication interface, and adopts a Wireless communication Protocol of the prior art, for example, a Wireless Application Protocol (WAP).

The display module 5 is composed of a display module 10 and a Printed Circuit Board (PCB) 11, and the PCB 11 is connected to the display module 10.

The first controller 4 of the terminal 1 obtains the LED lamp control instruction in the following ways:

a first way for the first controller 4 to obtain the LED lamp control instruction is as follows. A user interface 7 is arranged on the terminal 1, and the user interface 7 may be an operator, an interface input module, or a keyboard. The user interface 7 is connected to the first controller 4. Thus, when a user inputs an LED lamp control instruction to the user interface 7, the user interface 7 may receive the LED lamp control instruction input by the user, and then the user interface 7 may transmit the LED lamp control instruction to the first controller 4 of the terminal 1. The LED lamp control instruction may be a LED lamp 3 on/off instruction, a LED lamp 3 brightness adjustment instruction, a LED lamp 3 color adjustment instruction, and so on, where the LED lamp 3 on/off instruction represents that the lamp is turned on or off at a first preset time point, the LED lamp 3 brightness adjustment instruction represents that the lamp brightness adjustment is performed at a second preset time point, and the LED lamp 3 color adjustment instruction represents that the lamp color adjustment is performed at a third preset time point. Accordingly, the first controller 4 of the terminal 1 transmits the LED lamp control instruction to the LED lamp 3 through the first communication interface 6 at the time point indicated by the LED lamp control instruction. Then, in the process of performing the light adjustment operation corresponding to the LED lamp control instruction on the LED lamp 3, the camera 2 may collect image data of the light adjustment operation, and the camera 2 sends the collected image data of the light adjustment operation to the first controller 4 of the terminal 1. Then, the first controller 4 of the terminal 1 outputs the image data of the light adjustment operation to the display screen module 10 of the display module 5, and the display screen module 10 simultaneously displays a first display interface where the image data of the light adjustment operation is located and a second display interface where the light adjustment information represented in the LED light control instruction is located.

For example, the user inputs on the user interface 7 that the brightness of the LED lamp 3 is increased at 8:00, so that an LED lamp control instruction indicating that the brightness of the LED lamp 3 is increased at 8:00 is generated on the user interface 7; then the user interface 7 sends the LED lamp control instruction to the first controller 4; after the first controller 4 receives the LED lamp control instruction, the first controller 4 sends the LED lamp control instruction indicating that the brightness of the LED lamp 3 is improved to the LED lamp 3 at 8:00, and the LED lamp 3 can improve the brightness of the LED lamp 3. Alternatively, the user inputs an LED lamp control instruction indicating turning off the lamp on the user interface 7; then the user interface 7 sends the LED lamp control instruction for indicating the lamp turning off to the first controller 4; after the first controller 4 receives the LED lamp control instruction for indicating the turning off of the lamp, the first controller 4 immediately sends the LED lamp control instruction for indicating the turning off of the lamp to the LED lamp 3, and the LED lamp 3 can immediately perform the operation of turning off the lamp.

A second way for the first controller 4 to obtain the LED lamp control instruction is as follows. The operation controller 8 and the memory 9 may be provided in the first controller 4, and the memory 9 may be connected to the operation controller 8. Different LED lamp control instructions can be stored in the memory 9 in advance; the operation controller 8 will call the LED lamp control instruction stored in the memory 9, and the operation controller 8 will send the LED lamp control instruction that is called to the LED lamp 3 at the time point indicated by the LED lamp control instruction. The LED lamp control instruction may also be an instruction to turn on or off the LED lamp 3, an instruction to adjust the brightness of the LED lamp 3, an instruction to adjust the color of the LED lamp 3, or the like. Then, in the process of performing the light adjustment operation corresponding to the LED lamp control instruction on the LED lamp 3, the camera 2 may collect image data of the light adjustment operation, and the camera 2 sends the collected image data of the light adjustment operation to the first controller 4 of the terminal 1. Then, the first controller 4 of the terminal 1 outputs the image data of the light adjustment operation to the display screen module 10 of the display module 5, and the display screen module 10 simultaneously displays a first display interface where the image data of the light adjustment operation is located and a second display interface where the light adjustment information represented in the LED light control instruction is located.

For example, the user interface 7 may be connected to the memory 9, the user inputs an LED lamp control instruction indicating that the LED lamp 3 is turned off at 20:00 of 1 month and 3 days into the memory 9 in advance, and the memory 9 stores the LED lamp control instruction indicating that the LED lamp 3 is turned off at 20:00 of 1 month and 3 days; then, the first controller 4 will call the LED lamp control instruction instructing to turn off the LED lamp 3 at 20:00 of 1 month and 3 days, and when the first controller 4 determines that the current time is 20:00 of 1 month and 3 days that the LED lamp control instruction indicates, the first controller 4 will send the LED lamp control instruction instructing to turn off the LED lamp 3 to the LED lamp 3, so that the LED lamp 3 can immediately perform the lamp turn-off operation.

A third way in which the first controller 4 acquires the LED lamp control instruction is as follows. An inductor 12 is disposed on the terminal 1, and the inductor 12 is connected to the first controller 4. The user may initiate an action, at which time the sensor 12 may collect the action state of the user, and then the sensor 12 transmits the action state to the first controller 4. A first instruction table is stored in the first controller 4, and the first instruction table includes the corresponding relationship between different operation states and different LED lamp control instructions, so that the first controller 4 can determine the LED lamp control instruction corresponding to the current operation state. Further, the first controller 4 transmits an LED lamp control command corresponding to the current operating state to the LED lamp 3 through the first communication interface 6.

For example, when the user lifts the right hand, the sensor 12 of the terminal 1 may detect the motion of lifting the hand of the user, and then the sensor 12 sends the motion state information of the lifting the hand to the first controller 4; the first controller 4 may determine that the LED lamp control instruction corresponding to the information of the motion state of the raising hand is to turn on the lamp.

A fourth way for the first controller 4 to obtain the LED lamp control instruction is as follows. A microphone 13 is provided in the terminal 1, and the microphone 13 is connected to the first controller 4. The user may speak a voice so that the microphone 13 collects voice information of the user, and then the microphone 13 transmits the voice information to the first controller 4. A second instruction list has been stored in the first controller 4, and the second instruction list includes the corresponding relationship between different voice messages and different LED lamp control instructions, so that the first controller 4 can determine the LED lamp control instruction corresponding to the current voice message. Further, the first controller 4 transmits an LED lamp control instruction corresponding to the current voice information to the LED lamp 3 through the first communication interface 6.

For example, the user sends a voice "please turn on the light", the microphone 13 of the terminal 1 may collect the voice "please turn on the light", and send the voice information to the first controller 4; the first controller 4 may determine that the LED lamp control instruction corresponding to the voice message is to turn on the lamp.

In the embodiment, by providing the terminal 1 composed of the first controller 4 and the display module 5, the first controller 4 is connected with the display module 5, and the first controller 4 is respectively connected with the camera 2 and the LED lamp 3; the first controller 4 acquires an LED lamp control instruction, sends the LED lamp control instruction to the LED lamp 3, so that the LED lamp 3 performs lamp adjusting operation corresponding to the LED lamp control instruction, receives image data of the lamp adjusting operation sent by the camera 2, and transmits the image data of the lamp adjusting operation to the display module 5, wherein the image data of the lamp adjusting operation is acquired by the camera 2 in the process of performing the lamp adjusting operation corresponding to the LED lamp control instruction by the LED lamp 3; the display screen module 10 of the display module 5 displays a first display interface where image data of the light adjusting operation is located and a second display interface where light adjusting information represented in the LED light control instruction is located. And a user interface 7, an operation controller 8, an inductor 12, a microphone 13, etc. are provided on the terminal 1 for acquiring LED lamp control instructions. Therefore, when the terminal 1 remotely adjusts the light of the LED lamp 3, the camera 2 is arranged in the space where the LED lamp 3 is located, the camera 2 can collect the image data of the light adjusting operation of the LED lamp 3 corresponding to the LED lamp control instruction in real time, then the camera 2 can send the image data of the light adjusting operation to the terminal 1, and then the terminal 1 can obtain the image data of the light adjusting operation of the LED lamp 3 in real time, and the terminal 1 displays the image data of the light adjusting operation of the LED lamp 3 to a user, so that the user can determine whether the remote operation of the LED lamp 3 is really executed.

Fig. 4 is a schematic structural diagram of a control display system of an LED lamp 3 according to a third embodiment of the present invention, as shown in fig. 4, the system of this embodiment includes:

the LED lamp 3 is positioned in the monitoring range of the camera 2;

the LED lamp 3 is used for receiving an LED lamp control instruction sent by the terminal 1 and carrying out lamp adjusting operation corresponding to the LED lamp control instruction;

and the camera 2 is used for acquiring image data of the lamp adjusting operation in the process of carrying out the lamp adjusting operation corresponding to the LED lamp control instruction on the LED lamp 3, and sending the image data of the lamp adjusting operation to the terminal 1, so that the terminal 1 can simultaneously display the image data of the lamp adjusting operation and the lamp adjusting information represented in the LED lamp control instruction to a user.

In the present embodiment, specifically, a control display system of the LED lamp 3 constituted by the LED lamp 3 and the camera 2 is provided. The camera 2 can be arranged in the space where the LED lamp 3 is located, so that the LED lamp 3 is located in the monitoring range of the camera 2; the arrangement positions and the number of the LED lamps 3 and the arrangement positions and the number of the cameras 2 are set according to actual requirements, and are not particularly limited. The LED lamp 3 and the camera 2 can be integrated into the same device, and the LED lamp 3 and the camera 2 are connected; or, the LED lamp 3 and the camera 2 are two independent products, and only the LED lamp 3 and the camera 2 need to be connected.

After a user inputs an LED lamp control instruction to the terminal 1 or the terminal 1 invokes a prestored LED lamp control instruction, the terminal 1 may obtain the LED lamp control instruction. Then the terminal 1 can send the LED lamp control instruction to the LED lamp 3 connected with the terminal 1 in a wireless sending mode; then, the LED lamp 3 may perform a lamp adjustment operation corresponding to the LED lamp control instruction, turn on or off the LED lamp 3, or adjust the brightness of the LED lamp 3, or adjust the color of the LED lamp 3, and so on. Because the camera 2 is always turned on, the camera 2 collects image data in the monitoring range of the camera 2, and the LED lamp 3 is positioned in the monitoring range of the camera 2, therefore, in the process of carrying out the lamp adjusting operation corresponding to the control instruction of the LED lamp by the LED lamp 3, the camera 2 can collect the image data of the lamp adjusting operation, and then the camera 2 sends the collected image data of the lamp adjusting operation to the terminal 1 connected with the camera 2 in a wireless sending mode. At this time, the terminal 1 may receive image data of the lighting operation.

Then, the terminal 1 displays the received image data of the light adjustment operation, and the user can check the image data of the light adjustment operation; and, the terminal 1 may also display the dimming information represented in the LED lamp control instruction. At this time, the page displayed by the terminal 1 includes an image display area and a light adjustment information display area, the terminal 1 can display the image data of the light adjustment operation in the image display area, and display the light adjustment information in the light adjustment information display area, so that the terminal 1 can display the image display area and the light adjustment information display area respectively, and can display the image display area and the light adjustment information display area simultaneously.

In the embodiment, by providing a control display system of the LED lamp 3 composed of the LED lamp 3 and the camera 2, the LED lamp 3 is located in the monitoring range of the camera 2; the LED lamp 3 receives an LED lamp control instruction sent by the terminal 1 and carries out lamp adjusting operation corresponding to the LED lamp control instruction; the camera 2 collects image data of the lamp adjusting operation in the process that the LED lamp 3 performs the lamp adjusting operation corresponding to the LED lamp control instruction, and sends the image data of the lamp adjusting operation to the terminal 1, so that the terminal 1 can simultaneously display the image data of the lamp adjusting operation and the lamp adjusting information represented in the LED lamp control instruction to a user. Therefore, when the terminal 1 remotely adjusts the light of the LED lamp 3, the camera 2 is arranged in the space where the LED lamp 3 is located, the camera 2 can collect the image data of the light adjusting operation of the LED lamp 3 corresponding to the LED lamp control instruction in real time, then the camera 2 can send the image data of the light adjusting operation to the terminal 1, and then the terminal 1 can obtain the image data of the light adjusting operation of the LED lamp 3 in real time, and the terminal 1 displays the image data of the light adjusting operation of the LED lamp 3 to a user, so that the user can determine whether the remote operation of the LED lamp 3 is really executed.

Fig. 5 is a schematic structural diagram of a control display system of an LED lamp 3 according to a fourth embodiment of the present invention, and on the basis of the third embodiment, as shown in fig. 5, the system provided in this embodiment includes the terminal 1 provided in the foregoing embodiment.

The camera 2 includes: the terminal comprises a second controller 14 and an image data collector 15, wherein the second controller 14 is connected with the image data collector 15, and the second controller 14 is connected with the terminal 1;

the image data collector 15 is used for collecting image data of the lamp adjusting operation in the process of carrying out the lamp adjusting operation corresponding to the LED lamp control instruction on the LED lamp 3 and transmitting the image data of the lamp adjusting operation to the second controller 14;

and the second controller 14 is configured to send the image data of the light adjustment operation to the terminal 1, so that the terminal 1 displays the image data of the light adjustment operation and the light adjustment information represented in the LED light control instruction to a user.

Camera 2 still includes: a second communication interface 16;

the second controller 14 is connected with the second communication interface 16, and the second communication interface 16 is connected with the terminal 1;

the second controller 14 is specifically configured to send the acquired image data of the light adjustment operation to the terminal 1 through the second communication interface 16 after every preset time interval, or specifically configured to receive an image acquisition instruction sent by the terminal 1 and send the acquired image data of the light adjustment operation to the terminal 1 through the second communication interface 16 according to the image acquisition instruction.

Camera 2 still includes: a sensor 17;

the sensor 17 is connected with the second controller 14;

the sensor 17 is used for sensing the light change of the LED lamp 3, generating a light sensing signal and transmitting the light sensing signal to the second controller 14;

the second controller 14 is specifically configured to receive the light sensing signal, and send the collected image data of the light adjustment operation to the terminal 1 according to the light sensing signal.

The LED lamp has a camera 2 integrated therein.

In this embodiment, specifically, the control display system of the LED lamp 3, which is composed of the LED lamp 3 and the camera 2, may further include the terminal 1 provided in the first embodiment and the second embodiment. Moreover, in the implementation, the camera 2 can be integrated in the LED lamp, so that the camera 2 and the LED lamp are integrated in the same product, and the terminal 1 can be remotely connected with the camera 2 and the LED lamp respectively.

The structure and principle of the terminal 1 provided in this embodiment are the same as those of the terminal 1 provided in the first embodiment and the second embodiment, and are not described again.

After a user inputs an LED lamp control instruction to the terminal 1 or the terminal 1 invokes a prestored LED lamp control instruction, the terminal 1 may obtain the LED lamp control instruction. Then the terminal 1 can send the LED lamp control instruction to the LED lamp 3 connected with the terminal 1 in a wireless sending mode; then, the LED lamp 3 may perform a lamp adjustment operation corresponding to the LED lamp control instruction, turn on or off the LED lamp 3, or adjust the brightness of the LED lamp 3, or adjust the color of the LED lamp 3, and so on. Because the camera 2 is always turned on, the camera 2 collects image data in the monitoring range of the camera 2, and the LED lamp 3 is positioned in the monitoring range of the camera 2, therefore, in the process of carrying out the lamp adjusting operation corresponding to the control instruction of the LED lamp by the LED lamp 3, the camera 2 can collect the image data of the lamp adjusting operation, and then the camera 2 sends the collected image data of the lamp adjusting operation to the terminal 1 connected with the camera 2. At this time, the terminal 1 may receive the image data of the light adjustment operation, and then the terminal 1 simultaneously displays a first display interface where the image data of the light adjustment operation is located and a second display interface where the light adjustment information represented in the LED light control instruction is located.

The following modes are available for the camera 2 to send the collected image data of the light adjustment operation to the terminal 1.

The first mode in which the camera 2 transmits the collected image data of the lighting operation to the terminal 1 is as follows. The camera 2 comprises a second controller 14 and an image data collector 15, the second controller 14 is connected with the image data collector 15, and the second controller 14 is connected with the terminal 1. The image data collector 15 collects image data of the lamp adjusting operation in real time in the process that the LED lamp 3 carries out the lamp adjusting operation corresponding to the LED lamp control instruction, and then transmits the image data of the lamp adjusting operation to the second controller 14; therefore, at this time, the second controller 14 may immediately send the image data of the light adjustment operation to the terminal 1, and then, the terminal 1 simultaneously displays the first display interface where the image data of the light adjustment operation is located and the second display interface where the light adjustment information represented in the LED light control instruction is located.

The second mode in which the camera 2 transmits the collected image data of the lighting operation to the terminal 1 is as follows. A second communication interface 16 is provided on the camera 2, and the second controller 14 is connected to the second communication interface 16. At this time, the second communication interface 16 may adopt a wireless communication protocol or a wired communication protocol of the prior art to connect the second communication interface 16 with the terminal 1; when the camera 2 and the terminal 1 perform wired communication, the second communication interface 16 is a wired communication interface, and a wired communication protocol in the prior art, such as a TCP/IP protocol, is adopted; when the camera 2 performs wireless communication with the terminal 1, the second communication interface 16 is a wireless communication interface, and adopts a wireless communication protocol in the prior art, such as a WAP protocol. At this time, the second controller 14 may transmit the collected image data of the light adjustment operation to the terminal 1 through the second communication interface 16 after every preset time interval; alternatively, the second controller 14 transmits the collected image data of the light adjustment operation to the terminal 1 through the second communication interface 16 according to the image acquisition instruction after receiving the image acquisition instruction transmitted from the terminal 1.

For example, the second controller 14 may send the collected image data of the dimming operation to the terminal 1 through the second communication interface 16 after every 1 hour.

A third way for the camera 2 to transmit the collected image data of the lighting operation to the terminal 1 is as follows. A sensor 17 is arranged on the camera 2, and the sensor 17 is connected to the second controller 14. When the LED lamp 3 performs the lamp adjusting operation according to the LED lamp control instruction, the sensor 17 can sense the light change of the LED lamp 3 and then generate a light sensing signal, and the sensor 17 transmits the light sensing signal to the second controller 14; then, the second controller 14, after receiving the light induction signal, may send the collected image data of the light adjustment operation to the terminal 1 according to the light induction signal.

For example, the sensor 17 senses that the light of the LED lamp 3 is bright, and then generates a light sensing signal, and transmits the light sensing signal to the second controller 14; the second controller 14 will then be able to send the captured image data of the dimming operation to the terminal 1.

In the embodiment, by providing the control display system of the LED lamp 3, which is composed of the LED lamp 3, the camera 2 and the terminal 1, the LED lamp 3 is located in the monitoring range of the camera 2; the LED lamp 3 receives an LED lamp control instruction sent by the terminal 1 and carries out lamp adjusting operation corresponding to the LED lamp control instruction; the camera 2 collects image data of the lamp adjusting operation in the process that the LED lamp 3 performs the lamp adjusting operation corresponding to the LED lamp control instruction, and sends the image data of the lamp adjusting operation to the terminal 1, so that the terminal 1 can simultaneously display the image data of the lamp adjusting operation and the lamp adjusting information represented in the LED lamp control instruction to a user. Also, the camera 2 may be integrated in an LED lamp, and a second controller 14, a second communication interface 16, a sensor 17, etc. are provided in the camera 2 to transmit image data of lamp operation to the terminal 1 in various ways. Therefore, when the terminal 1 remotely adjusts the light of the LED lamp 3, the camera 2 is arranged in the space where the LED lamp 3 is located, the camera 2 can collect the image data of the light adjusting operation of the LED lamp 3 corresponding to the LED lamp control instruction in real time, then the camera 2 can send the image data of the light adjusting operation to the terminal 1, and then the terminal 1 can obtain the image data of the light adjusting operation of the LED lamp 3 in real time, and the terminal 1 displays the image data of the light adjusting operation of the LED lamp 3 to a user, so that the user can determine whether the remote operation of the LED lamp 3 is really executed.

Fig. 6 is a flowchart of a control display method of an LED lamp according to a fifth embodiment of the present invention, as shown in fig. 6, the method provided in this embodiment includes:

and 101, the terminal acquires an LED lamp control instruction and sends the LED lamp control instruction to the LED lamp so that the LED lamp performs lamp adjusting operation corresponding to the LED lamp control instruction.

In this embodiment, specifically, a terminal, a camera and an LED lamp are provided, and the terminal is connected with the camera and the LED lamp respectively. The camera can be arranged in the space where the LED lamp is located, so that the LED lamp is located in the monitoring range of the camera; the arrangement positions and the number of the LED lamps and the arrangement positions and the number of the cameras are set according to actual requirements, and are not particularly limited. The LED lamp and the camera can be integrated into the same device, and the LED lamp and the camera are connected; or, the LED lamp and the camera are two independent products, and the LED lamp and the camera only need to be connected.

After a user inputs an LED lamp control instruction to the terminal or the terminal calls a pre-stored LED lamp control instruction, the terminal can acquire the LED lamp control instruction. Then the terminal can send the LED lamp control instruction to the LED lamp connected with the terminal in a wireless sending mode; then, the LED lamp can perform a lamp adjusting operation corresponding to the LED lamp control instruction, and turn on or off the LED lamp, or adjust the brightness of the LED lamp, or adjust the color of the LED lamp, and so on.

And step 102, the terminal receives image data of the lamp adjusting operation sent by the camera, wherein the image data of the lamp adjusting operation is acquired by the camera in the process of carrying out the lamp adjusting operation corresponding to the LED lamp control instruction on the LED lamp.

In this embodiment, specifically, because the camera can be opened all the time, the camera can gather the image data in the scope that the camera was monitored, and the LED lamp is located the monitoring range of camera to, the in-process that the LED lamp carries out the accent lamp operation that corresponds with LED lamp control instruction, the image data of this accent lamp operation can be gathered to the camera. Then, the camera transmits the collected image data of the light adjusting operation to the terminal connected with the camera in a wireless transmission mode. At this time, the terminal may receive image data for the lighting operation.

And 103, displaying the image data of the light adjusting operation and the light adjusting information represented in the LED lamp control instruction to a user by the terminal.

In this embodiment, specifically, then, the terminal displays the received image data of the light adjustment operation, and the user can view the image data of the light adjustment operation; and the terminal can also display the dimming information represented in the LED lamp control command. At this time, the page displayed by the terminal includes an image display area and a light modulation information display area, the terminal can display the image data of the light modulation operation in the image display area and display the light modulation information in the light modulation information display area, so that the terminal can respectively display the image display area and the light modulation information display area and can simultaneously display the image display area and the light modulation information display area.

The method provided by the embodiment refers to the terminal and the control display system of the LED lamp provided by the above embodiment.

In the embodiment, the LED lamp control instruction is obtained through the terminal and is sent to the LED lamp, so that the LED lamp performs the lamp adjusting operation corresponding to the LED lamp control instruction; the terminal receives image data of the lamp adjusting operation sent by the camera, wherein the image data of the lamp adjusting operation is acquired by the camera in the process of carrying out the lamp adjusting operation corresponding to the LED lamp control instruction on the LED lamp; and the terminal displays the image data of the light adjusting operation and the light adjusting information represented in the LED lamp control instruction to a user. Therefore, when the terminal remotely adjusts the light of the LED lamp, the camera is arranged in the space where the LED lamp is located, the camera can acquire the image data of the light adjusting operation corresponding to the LED lamp control instruction in real time, then the camera can send the image data of the light adjusting operation to the terminal, the terminal can acquire the image data of the light adjusting operation of the LED lamp in real time, and the terminal displays the image data of the light adjusting operation of the LED lamp to a user, so that the user can really execute the remote operation of the LED lamp.

Fig. 7 is a flowchart of a control display method for an LED lamp according to a seventh embodiment of the present invention, and on the basis of the sixth embodiment, as shown in fig. 7, the method provided in this embodiment, step 101, includes the following several implementation manners:

the first implementation mode comprises the following steps:

the terminal receives an LED lamp control instruction input by a user, or calls a prestored LED lamp control instruction;

the terminal sends the LED lamp control instruction to the LED lamp at the time point indicated by the LED lamp control instruction;

the LED lamp control instruction comprises at least one of the following: the method comprises the following steps of (1) switching on and switching off an LED lamp, adjusting the brightness of the LED lamp and adjusting the color of the LED lamp; the LED lamp turning-on and turning-off instruction representation is used for turning on or turning off the lamp at a first preset time point, the LED lamp brightness adjusting instruction representation is used for adjusting the lamp brightness at a second preset time point, and the LED lamp color adjusting instruction representation is used for adjusting the lamp color at a third preset time point.

The second implementation mode comprises the following steps:

the terminal acquires the action state of a user;

the terminal determines an LED lamp control instruction corresponding to the action state according to a preset first instruction list, wherein the preset first instruction list comprises corresponding relations between different action states and different LED lamp control instructions; and sending the LED lamp control instruction to the LED lamp.

The third implementation mode comprises the following steps:

the terminal collects voice information of a user;

the terminal determines an LED lamp control instruction corresponding to the voice information according to a preset second instruction list, wherein the preset second instruction list comprises corresponding relations between different voice information and different LED lamp control instructions; and sending the LED lamp control instruction to the LED lamp.

Step 102 includes several implementations:

the first implementation mode comprises the following steps:

after every preset time interval, the camera sends the collected image data of the light adjusting operation to the terminal;

or,

the terminal sends an image acquisition instruction to the camera, and the camera receives the image acquisition instruction sent by the terminal and then sends acquired image data of the light adjusting operation to the terminal according to the image acquisition instruction.

The second implementation mode comprises the following steps:

the camera senses the light change of the LED lamp to generate a light sensing signal;

the camera sends the collected image data of the light adjusting operation to the terminal according to the light induction signal.

Step 103 specifically comprises:

and the terminal simultaneously displays a first display interface where the image data of the light adjusting operation is located and a second display interface where the light adjusting information represented in the LED lamp control instruction is located.

After step 103, further comprising:

step 201, a terminal receives an LED lamp adjustment instruction input by a user, wherein the LED lamp adjustment instruction is input by the user after the user checks image data of a lamp adjustment operation, and the LED lamp adjustment instruction is sent to an LED lamp; and the LED lamp performs lamp adjusting operation corresponding to the LED lamp adjusting instruction according to the LED lamp adjusting instruction.

In this implementation, in particular, the method provided in this embodiment refers to the terminal and the control display system of the LED lamp provided in the foregoing embodiment. And will not be described in detail herein.

In the embodiment, the LED lamp control instruction is obtained through the terminal and is sent to the LED lamp, so that the LED lamp performs the lamp adjusting operation corresponding to the LED lamp control instruction; the terminal receives image data of the lamp adjusting operation sent by the camera, wherein the image data of the lamp adjusting operation is acquired by the camera in the process of carrying out the lamp adjusting operation corresponding to the LED lamp control instruction on the LED lamp; the terminal displays image data of the light adjusting operation and light adjusting information represented in the LED light control instruction to a user; the terminal receives an LED lamp adjusting instruction input by a user, wherein the LED lamp adjusting instruction is input by the user after the user checks image data of a lamp adjusting operation, and the LED lamp adjusting instruction is sent to the LED lamp; and the LED lamp performs lamp adjusting operation corresponding to the LED lamp adjusting instruction according to the LED lamp adjusting instruction. Therefore, when the terminal remotely adjusts the light of the LED lamp, the camera is arranged in the space where the LED lamp is located, the camera can acquire the image data of the light adjusting operation corresponding to the LED lamp control instruction in real time, then the camera can send the image data of the light adjusting operation to the terminal, the terminal can acquire the image data of the light adjusting operation of the LED lamp in real time, and the terminal displays the image data of the light adjusting operation of the LED lamp to a user, so that the user can really execute the remote operation of the LED lamp.

Those of ordinary skill in the art will understand that: all or a portion of the steps of implementing the above-described method embodiments may be performed by hardware associated with program instructions. The program may be stored in a computer-readable storage medium. When executed, the program performs steps comprising the method embodiments described above; and the aforementioned storage medium includes: various media that can store program codes, such as ROM, RAM, magnetic or optical disks.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention in its corresponding aspects.

Claims (14)

1. A terminal, comprising:

the LED display device comprises a first controller and a display module, wherein the first controller is connected with the display module and is respectively connected with a camera and an LED lamp;

the first controller is used for acquiring an LED lamp control instruction, sending the LED lamp control instruction to an LED lamp, enabling the LED lamp to perform lamp adjusting operation corresponding to the LED lamp control instruction, receiving image data of the lamp adjusting operation sent by the camera, and transmitting the image data of the lamp adjusting operation to the display module, wherein the image data of the lamp adjusting operation is acquired by the camera in the process of performing the lamp adjusting operation corresponding to the LED lamp control instruction by the LED lamp;

and the display module is used for displaying the image data of the light adjusting operation and the light adjusting information represented in the LED lamp control instruction to a user.

2. The terminal of claim 1, further comprising: a first communication interface;

the first controller is connected with the first communication interface, and the first communication interface is respectively connected with the camera and the LED lamp.

3. The terminal of claim 1, further comprising: a user interface;

the user interface is connected with the first controller;

the user interface is used for receiving an LED lamp control instruction input by a user and transmitting the LED lamp control instruction to the first controller;

the first controller is specifically configured to send the LED lamp control instruction to the LED lamp at a time point indicated by the LED lamp control instruction;

wherein the LED lamp control instruction comprises at least one of the following: the method comprises the following steps of (1) switching on and switching off an LED lamp, adjusting the brightness of the LED lamp and adjusting the color of the LED lamp; the LED lamp turning-on and turning-off instruction representation is used for turning on or turning off the lamp at a first preset time point, the LED lamp brightness adjusting instruction representation is used for adjusting the lamp brightness at a second preset time point, and the LED lamp color adjusting instruction representation is used for adjusting the lamp color at a third preset time point.

4. The terminal of claim 3, wherein the first controller comprises:

the operation controller and the memory are connected with the operation controller;

the operation controller is used for calling the LED lamp control instruction prestored in the memory so as to send the LED lamp control instruction to the LED lamp at the time point indicated by the LED lamp control instruction.

5. A terminal according to claim 3, wherein the user interface comprises any of:

an operator, an interface input module and a keyboard.

6. The terminal of claim 1, wherein the display module comprises: the display screen module and the PCB are arranged on the PCB;

the PCB circuit board is connected with the display screen module;

the display screen module is used for simultaneously displaying a first display interface where image data of the light adjusting operation is located and a second display interface where the light adjusting information represented in the LED lamp control instruction is located.

7. The terminal according to any of claims 1-6, further comprising: an inductor;

the inductor is connected with the first controller;

the sensor is used for acquiring the action state of a user and sending the action state to the first controller;

the first controller is further configured to determine an LED lamp control instruction corresponding to the action state according to a preset first instruction table, where the preset first instruction table includes a correspondence between different action states and different LED lamp control instructions.

8. The terminal according to any of claims 1-6, further comprising: a microphone;

the microphone is connected with the first controller;

the microphone is used for acquiring voice information of a user and sending the voice information to the first controller;

the first controller is further configured to determine an LED lamp control instruction corresponding to the voice information according to a preset second instruction list, where the preset second instruction list includes a correspondence between different voice information and different LED lamp control instructions.

9. A control display system of an LED lamp is characterized by comprising:

the LED lamp is positioned in the monitoring range of the camera;

the LED lamp is used for receiving an LED lamp control instruction sent by the terminal and carrying out lamp adjusting operation corresponding to the LED lamp control instruction;

the camera is used for collecting image data of the lamp adjusting operation in the process of carrying out the lamp adjusting operation corresponding to the LED lamp control instruction on the LED lamp, and sending the image data of the lamp adjusting operation to the terminal, so that the terminal can simultaneously display the image data of the lamp adjusting operation and the lamp adjusting information represented in the LED lamp control instruction to a user.

10. The system of claim 9, wherein the camera comprises: the system comprises a second controller and an image data collector, wherein the second controller is connected with the image data collector and is connected with a terminal;

the image data collector is used for collecting image data of the lamp adjusting operation in the process of carrying out the lamp adjusting operation corresponding to the LED lamp control instruction on the LED lamp and transmitting the image data of the lamp adjusting operation to the second controller;

and the second controller is used for sending the image data of the light adjusting operation to the terminal so as to enable the terminal to display the image data of the light adjusting operation and the light adjusting information represented in the LED lamp control instruction to a user.

11. The system of claim 10, wherein the camera further comprises: a second communication interface;

the second controller is connected with the second communication interface, and the second communication interface is connected with the terminal;

the second controller is specifically configured to send the acquired image data of the light adjustment operation to the terminal through the second communication interface after every preset time interval, or specifically configured to receive an image acquisition instruction sent by the terminal and send the acquired image data of the light adjustment operation to the terminal through the second communication interface according to the image acquisition instruction.

12. The system of claim 10, wherein the camera further comprises: a sensor;

the sensor is connected with the second controller;

the sensor is used for sensing the light change of the LED lamp, generating a light sensing signal and transmitting the light sensing signal to the second controller;

and the second controller is specifically used for receiving the light induction signal and sending the collected image data of the light adjusting operation to the terminal according to the light induction signal.

13. The system of any of claims 9-12, wherein the camera is integrated into the LED light.

14. The system according to any of claims 9-12, further comprising a terminal according to any of claims 1-8.