CN111263498A - Automobile atmosphere lamp control system, method and device and storage medium - Google Patents

Abstract

The invention discloses an automobile atmosphere lamp control system, which is characterized in that a microcontroller unit is installed in an automobile and electrically connected with an atmosphere lamp in the automobile; the microcontroller receives the voice signal sent by the external mobile equipment, the corresponding control instruction is obtained according to the voice signal identification, and then the control of the atmosphere lamp in the automobile is realized according to the corresponding control instruction, so that the problem that potential safety hazards exist when a driver and the like need to press a remote control terminal key and the like through hands or objects to control the atmosphere lamp in the automobile in the prior art is solved. The invention also discloses a control method and a control device for the automobile atmosphere lamp and a storage medium.

Description

Automobile atmosphere lamp control system, method and device and storage medium

Technical Field

The invention relates to the field of automotive electronics, in particular to an automotive atmosphere lamp control system, method and device and a storage medium.

Background

At present, the existing control for the atmosphere lamp in the automobile generally controls the display state of the atmosphere lamp in the automobile by sending a corresponding control instruction to the controller. For example, a user clicks a remote control device or other mobile devices to send a data instruction to a control device in an automobile, so that the control device generates a corresponding instruction according to the data instruction, and further control of an atmosphere lamp in the automobile is achieved. When a driver wants to control the atmosphere lamp during driving, there is a safety hazard to the driver's safe driving due to the need for the user to click on the device to send the instruction.

Disclosure of Invention

In order to overcome the defects of the prior art, one of the purposes of the present invention is to provide an automotive ambience lamp control system, which can solve the problem of potential safety hazard caused by the fact that a user clicks a remote control or other devices to control an ambience lamp in an automobile to affect driving in the prior art.

The second purpose of the present invention is to provide a method for controlling an automotive ambience lamp, which can solve the problem of potential safety hazard in the prior art that driving is affected by a user clicking a remote control or other devices to control the ambience lamp in an automobile.

The invention further aims to provide an automobile atmosphere lamp control device, which can solve the problem that in the prior art, a user needs to click a remote control or other equipment to control an atmosphere lamp in an automobile to influence driving, so that potential safety hazards exist.

The invention also provides a storage medium, which can solve the problem that in the prior art, a user needs to click a remote control or other equipment to control an atmosphere lamp in an automobile to influence driving, so that potential safety hazards exist.

One of the purposes of the invention is realized by adopting the following technical scheme:

an automotive ambiance lamp control system, the control system comprising a mobile device and a microcontroller unit; wherein the mobile device is wirelessly connected with a microcontroller unit; the microcontroller unit is arranged in the automobile and electrically connected with each atmosphere lamp in the automobile; the mobile equipment is used for acquiring a voice signal and sending the voice signal to the microcontroller unit, so that the microcontroller unit identifies a current control instruction according to the voice signal; the microcontroller unit is used for coding the identified current control instruction according to a preset coding rule, generating a corresponding action instruction according to the coded control instruction, and further sending the corresponding action instruction to the corresponding atmosphere lamp so as to control the working state of the corresponding atmosphere lamp.

Further, the microcontroller unit converts the voice signal into a Chinese character string, and then obtains a current control instruction according to an instruction identification table and the Chinese character string in a system;

or the mobile equipment is used for converting the voice signal into a Chinese character string and then sending the Chinese character string to the microcontroller unit, so that the microcontroller unit obtains a current control instruction according to an instruction identification table and the Chinese character string in the system;

the instruction identification table comprises a corresponding relation between a control instruction and a keyword.

Further, the control system comprises a camera; the camera is fixedly arranged in the automobile, is electrically connected with the microcontroller unit and is used for acquiring human body gestures or the moving direction of an object; the camera is used for collecting video signals and sending the video signals to the microcontroller unit, so that the microcontroller unit can identify and obtain a control instruction according to the video signals.

Further, the microcontroller is used for carrying out image recognition processing on the video signal and identifying a current control instruction according to a result of the image recognition processing and an instruction recognition table in the system; the instruction identification table comprises control instructions and the moving direction of human body gestures or objects.

The second purpose of the invention is realized by adopting the following technical scheme:

an automotive ambiance lamp control method, the control method comprising:

a voice acquisition step: acquiring a voice signal sent by external voice equipment;

an instruction identification step: identifying a current control instruction according to the voice signal;

the control steps are as follows: and coding the identified current control instruction according to a preset coding rule, generating a corresponding action instruction according to the coded control instruction, and sending the corresponding action instruction to the corresponding atmosphere lamp so as to control the working state of the corresponding atmosphere lamp.

Further, the instruction identifying step further comprises: converting the voice signal into a Chinese character string, and identifying according to a voice identification table and the Chinese character string in the system to obtain a current control instruction;

or, the voice acquiring step further comprises: acquiring a Chinese character string converted by external equipment according to a received voice signal; correspondingly, the instruction identification step comprises identifying a control instruction according to the Chinese character string.

Further, the control method includes: a video acquisition step: acquiring a video signal, identifying a current control instruction according to the video signal, and executing a control step; the video signal is obtained by a camera device arranged in the automobile, and the camera device is fixedly arranged in the automobile and collects the video signal of human body gestures or the moving direction of an object in a certain area.

Further, the video acquiring step includes: and carrying out image recognition processing on the video signal, and obtaining a current control instruction according to the result of the image recognition processing and an instruction recognition table in the system.

The third purpose of the invention is realized by adopting the following technical scheme:

an automobile atmosphere lamp control device comprises a memory and a processor, wherein an automobile atmosphere lamp control program which can run on the processor is stored in the memory, the automobile atmosphere lamp control program is a computer program, and the steps of the automobile atmosphere lamp control method adopted by the second object of the invention are realized when the processor executes the automobile atmosphere lamp control program.

The fourth purpose of the invention is realized by adopting the following technical scheme:

a storage medium being a computer readable storage medium having stored thereon a vehicle ambience lamp control program being a computer program, the vehicle ambience lamp control program, when executed by a processor, implementing the steps of a method of controlling a vehicle ambience lamp as employed in the second aspect of the invention.

Compared with the prior art, the invention has the beneficial effects that:

the mobile equipment is adopted to obtain the voice signal of the user, the control of the atmosphere lamp in the automobile is realized through the microcontroller unit arranged in the automobile, the control of the atmosphere lamp in the automobile is realized under the condition that a driver and the like do not need to rely on a central control system of the automobile, meanwhile, the driver and the like do not need to adopt fingers or other object motor mobile phone screens or remote controller keys and other equipment to control the atmosphere lamp, the sight attention of the driver and the like can be effectively prevented from being dispersed too much, and the driving safety when the atmosphere lamp is controlled is improved.

Drawings

FIG. 1 is a block diagram of an automotive ambiance lamp control system according to the present invention;

FIG. 2 is a flow chart of an automotive atmosphere lamp control method provided by the present invention;

fig. 3 is a block diagram of an automotive atmosphere lamp control device provided by the invention.

In the figure: 11. a memory; 12. a processor; 13. a communication bus; 14. a network interface.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and the detailed description, and it should be noted that any combination of the embodiments or technical features described below can be used to form a new embodiment without conflict.

Example one

The invention provides an atmosphere lamp control system in an automobile, which realizes the control of an atmosphere lamp in the automobile through modes of voice or gestures and the like, namely, firstly, a received voice signal or a video signal collected by a camera is sent to a microcontroller unit through mobile equipment, then the voice signal or the video signal is converted into a corresponding control instruction through the microcontroller, and the control of the atmosphere lamp in the automobile is realized according to the corresponding control instruction.

The invention realizes the control of the atmosphere lamp in the automobile through voice or gestures, solves the problems of safety risk and the like caused by the fact that a user needs to click a certain key or operate mobile equipment and the like to realize the control of the atmosphere lamp in the automobile in the prior art, and greatly facilitates the operation of the user.

As shown in fig. 1, the present invention provides a preferred embodiment, an automotive ambiance light control system, comprising a mobile device and a microcontroller unit. The mobile device can be various mobile devices with recording functions, such as a mobile phone, a tablet, a remote controller and the like.

The microcontroller unit is installed in the automobile and is electrically connected with the atmosphere lamp in the automobile. Preferably, the microcontroller units in this embodiment are connected by a local interconnect network bus. Wherein the mobile device is wirelessly connected with the microcontroller unit. The wireless connection can be a WIFI connection, a Bluetooth connection, an infrared connection or other wireless connection modes.

The user can conveniently adopt equipment such as a mobile phone, a tablet, a remote control terminal with a voice function and the like to acquire voice signals and send the voice signals to the microcontroller unit, so that the microcontroller unit acquires control instructions according to the voice signals to realize control over the atmosphere lamp in the automobile. During use, for example by installing a corresponding software APP on the mobile device. The software AAP receives voice signals of users by calling recording equipment such as a microphone on the mobile equipment and sends the voice signals to the microcontroller unit.

Further, the software APP also converts the received speech signal into a chinese string, which is then forwarded to the microcontroller unit. Preferably, the software APP can convert the speech signal into a chinese string using a specific algorithm or by means of a speech recognition software development kit of the mobile device.

In the actual use process, the user can install in mobile devices such as self's cell-phone and develop corresponding software APP by the developer, calls the phonographic recorder through software APP and gathers speech signal, then sends for microcontroller unit after converting it into the chinese character string again, realizes the control of the atmosphere lamp in the car. In addition, the devices such as mobile phones and the like generally used by users belong to smart machines, and corresponding voice recognition software and the like are usually installed on the smart machines, so that received voice signals can be converted into Chinese character strings through the devices such as the mobile phones and the like and then forwarded to the microcontroller unit for further processing.

Further, when the voice signal is converted into the chinese character string, the conversion may be implemented by the microcontroller unit, which may be specifically designed according to actual requirements. Such as by installing a microphone in the car or by the mobile device acquiring the voice signal and then sending the voice signal directly to the microcontroller unit. The microcontroller unit converts the voice signal into a Chinese character string and then carries out the next processing. When the processing of the voice signals is realized through the micro control unit, the mobile device only needs to collect the corresponding voice signals, so that the mobile device is more convenient for users, and the users only need to realize the functions of collecting and sending the voice signals. For example, a user can be wirelessly connected with the micro control unit through a handheld mobile phone, then the voice signal recording function is started, and the collected voice signal is sent to the micro control unit, so that voice control can be realized, and great convenience is brought to the user.

Further, when receiving the Chinese character string sent by the mobile equipment or converting the voice signal into the Chinese character string, the microcontroller judges whether the Chinese character string contains a corresponding control instruction or not.

Generally, the character string is recognized by a preset keyword. For example, when the Chinese character string includes a name of a common color or a mode name supported in the system, that is, includes a color or color change keyword, etc., it is determined that the voice signal includes a corresponding control instruction, and a corresponding control instruction is generated. For example, when the string green is included, the current control command is considered to change the color of the atmosphere lamp to green. Specifically, a corresponding instruction identification table is arranged in the system, wherein the instruction identification table stores the corresponding relation between the control instruction and the key word. Thus, when the Chinese character string has corresponding key words, the corresponding control instructions can be obtained according to the corresponding key words and the instruction identification table.

In addition, in order to ensure false triggering, the method is realized by setting a wakeup word. For example, when the user speaks a preset wake-up word such as "mood light," the mobile device will begin to call the microphone to pick up the sound.

Preferably, the microcontroller unit encodes the identified control instruction according to a preset encoding rule in the system. Meanwhile, key information of the corresponding atmosphere lamp to be controlled, such as RGB values or mode numbers, is also acquired from the control command during encoding, which may specifically include: RGB values of corresponding colors, brightness, whether to represent a pattern, a pattern type, and the like.

Assuming that the instruction "blue" is taken as an example, the instruction needs to be encoded and expressed in terms of byte codes "a", 0, 255, 50, '/r'. As shown in FIG. 2, the first bit is the start delimiter; the second bit is an instruction category, wherein 0 represents a monochrome instruction and the other numbers represent the remaining modes; the third bit represents the value of the red component in the color, and the range is 0-255; the fourth bit represents the value of the green component in the color, and the range is 0-255; the fourth bit represents the value of the green component in the color, ranging from 0 to 255; the fifth bit represents the value of the blue component in the color, ranging from 0 to 255; the sixth bit represents brightness in the range of 0-100, where 0 represents turning off the ambient light; the last bit is a termination delimiter which indicates the end of the encoding of the control instruction.

And the microcontroller unit generates a corresponding action instruction according to the coded control instruction, and then controls the work of the corresponding atmosphere lamp in a bus mode. Since the control command may be a single conversion command or a mode control command, the generated operation command may be a single operation command or a series of operation commands.

Such as: and when the control command is a single color conversion command, sending a control signal to the corresponding atmosphere lamp through a Local Interconnect Network (LIN) bus so that the corresponding atmosphere lamp displays the corresponding color. When the control command is a certain mode conversion command, the microcontroller matches the action specified by the mode stored in the system, and then sends a control signal to the corresponding atmosphere lamp through LIN bus circulation, so that the corresponding atmosphere lamp carries out color change of a certain row.

When the microcontroller unit controls the atmosphere lamp, the corresponding action instruction is sent to the corresponding atmosphere lamp through the local interconnection network bus, and the control of the working state of the atmosphere lamp is realized.

Further, the control system further includes an image pickup apparatus. The camera is connected with the microcontroller unit, and corresponding video signal is gathered and is sent to the microcontroller unit for the microcontroller unit obtains control command according to video signal discernment, realizes the control to the interior atmosphere lamp of car. In addition, the camera and the microcontroller unit can be in wireless connection or in wired connection.

Preferably, the camera device is a camera mounted in an automobile. The camera is used for sending the acquired video signals to the microcontroller unit, so that the microcontroller unit recognizes corresponding control instructions according to the video signals, and the control of the atmosphere lamp in the automobile is realized through the control instructions. The video signal includes human gestures or the moving direction of an object.

Preferably, the camera in the invention collects a video in a certain area, and generally selects a relatively fixed area as a background. And recognizing the current control instruction according to the human body gesture or the moving direction of the object in the video signal. The corresponding relation between the human body gesture or the moving direction of the object and the control instruction is stored in an instruction identification table in advance, then when the human body gesture or the moving direction of the object is identified, the microcontroller unit carries out image processing on the video signal, and then the control instruction is obtained according to the instruction identification table and the video signal identification, so that the control of the atmosphere lamp in the automobile is realized.

Specifically, when the hand of the user stays for a certain distance in the center of the shooting range of the camera, the user starts to recognize once, and when the hand moves out of the shooting range of the camera in four directions, namely, up, down, left and right, the user can respectively represent different instructions. Such as: and setting that the switching of the preset colors is respectively indicated when the human hand moves left and right, and the switching of the preset modes is respectively indicated when the human hand moves up and down.

Preferably, the present invention is not limited to the movement of human hand, but may be the movement of object. For example, the same can be achieved when a user holds an object and swings the object to move within the shooting range of the camera.

Similarly, the microcontroller unit recognizes and obtains a control instruction according to the video signal sent by the camera, and also needs to encode the control instruction, and then generates a corresponding action instruction according to the encoded control instruction, and sends the corresponding action instruction to the corresponding atmosphere lamp, so as to realize the control of the atmosphere lamp.

According to the invention, a driver and the like only need to control the atmosphere lamp in the automobile through voice, gestures and the like, the control of the atmosphere lamp in the automobile is realized without a central control system of the automobile, and the control of the atmosphere lamp is realized without the need of clicking a mobile phone screen, a remote controller key and other equipment by fingers or other objects, so that the sight attention of the driver and the like can be effectively ensured not to be dispersed too much, and the driving safety when the atmosphere lamp is controlled is improved. Meanwhile, the invention adopts two modes of voice control or gesture control, does not need an outgoing call screen or a remote controller and the like, and has simpler and more convenient operation.

Example two

Based on the first embodiment, the invention further provides another embodiment, and as shown in fig. 2, the first embodiment provides an automotive atmosphere lamp control method, which specifically includes the following steps:

and step S1, acquiring the voice signal sent by the external voice equipment through the micro controller unit. The microcontroller unit is wirelessly connected with an external voice signal to acquire the voice signal; without being limited by the limited wiring.

And step S2, recognizing the current control instruction according to the voice signal through the micro controller unit. And the microcontroller unit obtains the current control instruction through the recognition processing of the voice signal.

And step S3, coding the identified current control command through the microcontroller unit according to a preset coding rule.

And step S4, generating a corresponding action instruction according to the coded control instruction through the micro controller unit, and sending the corresponding action instruction to the corresponding atmosphere lamp so as to control the working state of the corresponding atmosphere lamp.

Further, the step S2 further includes:

and converting the acquired voice signal into a Chinese character string through a microcontroller unit, and identifying according to a voice identification table and the Chinese character string in the system to obtain a current control instruction.

Further, the step S2 further includes:

acquiring a Chinese character string converted by external equipment according to a received voice signal through a microcontroller unit;

correspondingly, the step S3 includes: and identifying the current control instruction according to the Chinese character string and the instruction identification table through a microcontroller unit.

Further, the control method includes:

step S5, acquiring the video signal and identifying a control instruction according to the video signal, and then executing step S4.

The video signal is obtained by a camera device installed in the automobile, and the camera device is fixedly installed in the automobile and collects the video signal of human body gestures or the moving direction of an object in a certain area.

Further, the step S5 includes:

and carrying out image recognition processing on the video signal, and obtaining a current control instruction according to the result of the image recognition processing and an instruction recognition table in the system.

EXAMPLE III

The invention provides a control device of an automobile atmosphere lamp. As shown in fig. 3, an internal structure of an automotive ambience lamp control device according to an embodiment of the present invention is schematically illustrated.

In the present embodiment, the vehicle atmosphere lamp control device may be a PC (Personal Computer), or may be a terminal device such as a smartphone, a tablet Computer, or a mobile Computer. This car atmosphere lamp controlling means includes at least: a processor 12, a communication bus 13, a network interface 14, and a memory 11.

The memory 11 includes at least one type of readable storage medium, which includes a flash memory, a hard disk, a multimedia card, a card type memory (e.g., SD or DX memory, etc.), a magnetic memory, a magnetic disk, an optical disk, and the like. Memory 11 may in some embodiments be an internal storage unit of a vehicle ambience light control device, such as a hard disk of the vehicle ambience light control device. Memory 11 may also be an external storage device of the vehicle mood light control device in other embodiments, such as a plug-in hard drive provided on the vehicle mood light control device, a Smart Media Card (SMC), a Secure Digital (SD) Card, a Flash memory Card (Flash Card), and the like. Further, memory 11 may also include both an internal storage unit of the vehicle mood light control device and an external storage device. Memory 11 may be used to store not only application software installed in a vehicle mood light control device and various types of data, such as codes for a vehicle mood light control program, but also to temporarily store data that has been or will be output.

Processor 12, which in some embodiments may be a Central Processing Unit (CPU), controller, microcontroller, microprocessor or other data Processing chip, operates program code stored in memory 11 or processes data, such as executing a car mood light control program.

The communication bus 13 is used to realize connection communication between these components.

Network interface 14 may optionally include a standard wired interface, a wireless interface (e.g., a WI-FI interface), typically used to establish a communication link between the automotive mood light control device and other electronic devices.

Optionally, the automotive ambience light control device may further comprise a user interface, which may comprise a Display (Display), an input unit such as a Keyboard (Keyboard), and the optional user interface may further comprise a standard wired interface, a wireless interface. Alternatively, in some embodiments, the display may be an LED display, a liquid crystal display, a touch-sensitive liquid crystal display, an OLED (Organic Light-Emitting Diode) touch device, or the like. The display, which may also be referred to as a display screen or display unit, is suitable for displaying information processed in the automotive mood light control device and for displaying a visual user interface.

While fig. 3 shows only an automotive ambience lamp control device with components 11-14 and an automotive ambience lamp control program, it will be appreciated by a person skilled in the art that the structure shown in fig. 3 does not constitute a limitation of automotive ambience lamp control devices and may comprise fewer or more components than shown in the figures, or a combination of certain components, or a different arrangement of components.

In the embodiment of the automotive ambience lamp control device shown in fig. 3, an automotive ambience lamp control program is stored in the memory 11; processor 12, when executing the vehicle ambience light control program stored in memory 11, implements the following steps:

and step S1, acquiring the voice signal sent by the external voice equipment through the micro controller unit. The microcontroller unit is wirelessly connected with an external voice signal to acquire the voice signal; without being limited by the limited wiring.

And step S2, recognizing the current control instruction according to the voice signal through the micro controller unit. And the microcontroller unit obtains the current control instruction through the recognition processing of the voice signal.

And step S3, coding the identified current control command through the microcontroller unit according to a preset coding rule.

And step S4, generating a corresponding action instruction according to the coded control instruction through the micro controller unit, and sending the corresponding action instruction to the corresponding atmosphere lamp so as to control the working state of the corresponding atmosphere lamp.

Further, the step S2 further includes:

and converting the acquired voice signal into a Chinese character string through a microcontroller unit, and identifying according to a voice identification table and the Chinese character string in the system to obtain a current control instruction.

Further, the step S2 further includes:

acquiring a Chinese character string converted by external equipment according to a received voice signal through a microcontroller unit;

correspondingly, the step S3 includes: and identifying the current control instruction according to the Chinese character string and the instruction identification table through a microcontroller unit.

Further, processor 12, when executing the car ambience light control program stored in memory 11, implements the steps of:

step S5, acquiring the video signal and identifying a control instruction according to the video signal, and then executing step S4.

Further, the step S5 includes:

and carrying out image recognition processing on the video signal, and obtaining a current control instruction according to the result of the image recognition processing and an instruction recognition table in the system.

Example four

The present invention also provides a storage medium, which is a computer-readable storage medium having an automotive ambience lamp control program stored thereon, the automotive ambience lamp control program being a computer program, which when executed by a processor implements the steps of:

and step S1, acquiring the voice signal sent by the external voice equipment through the micro controller unit. The microcontroller unit is wirelessly connected with an external voice signal to acquire the voice signal; without being limited by the limited wiring.

And step S2, recognizing the current control instruction according to the voice signal through the micro controller unit. And the microcontroller unit obtains the current control instruction through the recognition processing of the voice signal.

And step S3, coding the identified current control command through the microcontroller unit according to a preset coding rule.

And step S4, generating a corresponding action instruction according to the coded control instruction through the micro controller unit, and sending the corresponding action instruction to the corresponding atmosphere lamp so as to control the working state of the corresponding atmosphere lamp.

Further, the step S2 further includes:

and converting the acquired voice signal into a Chinese character string through a microcontroller unit, and identifying according to a voice identification table and the Chinese character string in the system to obtain a current control instruction.

Further, the step S2 further includes:

acquiring a Chinese character string converted by external equipment according to a received voice signal through a microcontroller unit;

correspondingly, the step S3 includes: and identifying the current control instruction according to the Chinese character string and the instruction identification table through a microcontroller unit.

Further, the automotive ambience lamp control program when executed by the processor implements the steps of:

step S5, acquiring the video signal and identifying a control instruction according to the video signal, and then executing step S4.

Further, the step S5 includes:

and carrying out image recognition processing on the video signal, and obtaining a current control instruction according to the result of the image recognition processing and an instruction recognition table in the system.

The above embodiments are only preferred embodiments of the present invention, and the protection scope of the present invention is not limited thereby, and any insubstantial changes and substitutions made by those skilled in the art based on the present invention are within the protection scope of the present invention.

Claims (10)

1. An automotive ambiance lamp control system, characterized in that the control system comprises a mobile device and a microcontroller unit; wherein the mobile device is wirelessly connected with a microcontroller unit; the microcontroller unit is arranged in the automobile and electrically connected with each atmosphere lamp in the automobile; the mobile equipment is used for acquiring a voice signal and sending the voice signal to the microcontroller unit, so that the microcontroller unit identifies a current control instruction according to the voice signal; the microcontroller unit is used for coding the identified current control instruction according to a preset coding rule, generating a corresponding action instruction according to the coded control instruction, and further sending the corresponding action instruction to the corresponding atmosphere lamp so as to control the working state of the corresponding atmosphere lamp.

2. The automotive ambiance lamp control system of claim 1, wherein the microcontroller unit converts the voice signal into a chinese character string and then derives a current control command from a command recognition table and the chinese character string in the system;

or the mobile equipment is used for converting the voice signal into a Chinese character string and then sending the Chinese character string to the microcontroller unit, so that the microcontroller unit obtains a current control instruction according to an instruction identification table and the Chinese character string in the system;

the instruction identification table comprises a corresponding relation between a control instruction and a keyword.

3. An automotive ambiance lamp control system as claimed in claim 1, wherein said control system comprises a camera; the camera is fixedly arranged in the automobile, is electrically connected with the microcontroller unit and is used for acquiring human body gestures or the moving direction of an object; the camera is used for collecting video signals and sending the video signals to the microcontroller unit, so that the microcontroller unit can identify and obtain a control instruction according to the video signals.

4. The vehicle atmosphere lamp control system according to claim 3, wherein the microcontroller is configured to perform image recognition processing on the video signal, and recognize a current control command according to a result of the image recognition processing and a command recognition table in the system; the instruction identification table comprises control instructions and the moving direction of human body gestures or objects.

5. An automotive ambiance lamp control method, characterized in that the control method comprises:

a voice acquisition step: acquiring a voice signal sent by external voice equipment;

an instruction identification step: identifying a current control instruction according to the voice signal;

the control steps are as follows: and coding the identified current control instruction according to a preset coding rule, generating a corresponding action instruction according to the coded control instruction, and sending the corresponding action instruction to the corresponding atmosphere lamp so as to control the working state of the corresponding atmosphere lamp.

6. The automotive ambiance lamp control method of claim 5, wherein the instruction recognition step further comprises: converting the voice signal into a Chinese character string, and identifying according to a voice identification table and the Chinese character string in the system to obtain a current control instruction;

or, the voice acquiring step further comprises: acquiring a Chinese character string converted by external equipment according to a received voice signal; correspondingly, the instruction identification step comprises identifying a control instruction according to the Chinese character string.

7. An automotive ambiance lamp control method according to claim 5, wherein said control method comprises: a video acquisition step: acquiring a video signal, identifying a current control instruction according to the video signal, and executing a control step; the video signal is obtained by a camera device arranged in the automobile, and the camera device is fixedly arranged in the automobile and collects the video signal of human body gestures or the moving direction of an object in a certain area.

8. The automotive ambiance lamp control method of claim 7, wherein the video capturing step comprises: and carrying out image recognition processing on the video signal, and obtaining a current control instruction according to the result of the image recognition processing and an instruction recognition table in the system.

9. An automotive ambience lamp control device comprising a memory and a processor, the memory having stored thereon an automotive ambience lamp control program operable on the processor, the automotive ambience lamp control program being a computer program characterized in that: the steps of implementing an automotive ambience lamp control method according to any one of claims 5-8 when the processor executes the automotive ambience lamp control program.

10. A storage medium, the storage medium being a computer-readable storage medium having an automotive ambiance light control program stored thereon, the automotive ambiance light control program being a computer program, characterized in that: the steps of the automotive ambience lamp control method according to any one of claims 5-8 are realized when the automotive ambience lamp control program is executed by a processor.

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