CN112954870A - Intelligent cabin integrated control system and control method - Google Patents

Abstract

The invention discloses an intelligent cabin integrated control system and a control method, which comprise an atmosphere lamp, a control unit, a signal detection unit and a user interaction unit, wherein the control unit is used for receiving an external or internal signal, analyzing the external or internal signal into a control instruction for controlling the atmosphere lamp and controlling the brightness, color and light-emitting state of the atmosphere lamp; the external signals comprise sound signals, vehicle speed signals, environment detection signals and user gesture induction signals; the internal signal comprises a user-defined control signal; the user interaction unit is used for switching the control mode of the control unit to the atmosphere lamp, and the control unit receives corresponding signals to control the atmosphere lamp in different control modes. The system integrates various control modes, can realize the control of the state of the atmosphere lamp under different control modes according to the selection of a user, is convenient to switch and control among the control modes, and can meet the diversified performance requirements of the user.

Description

Intelligent cabin integrated control system and control method

Technical Field

The invention relates to the technical field of intelligent control, in particular to an intelligent cabin integrated control system and a control method.

Background

With the development of social economy and science and technology, vehicles are gradually changed from a single vehicle to a living 'third space', particularly, the interactivity and entertainment of a smart cabin of the vehicle are more and more concerned by consumers, and the consumers increasingly pursue the experience feeling in the cabin in the driving process. At present, more and more information and functions in the vehicle are provided, and aiming at a general cabin environment, the interaction mode of a physical knob/key can not gradually meet the expansion of contents, so that the problems of low scene feedback effect, lack of visual sense stimulation and interface hierarchy, low operation efficiency, poor user experience and the like are often caused.

At present, technologies related to intelligent control of an internal environment of an automobile cabin, such as a vehicle and a vehicle-mounted ambience lamp control system (CN110843665A) thereof, relate to a music rhythm ambience lamp control module, and control the number, color and brightness of ambience lamps through sound characteristics of music. For example, in an automobile atmosphere lamp device and an automobile (CN210822027U), the atmosphere lamp is turned on and off by detecting gesture actions, and the color is switched in the on state. Although the control system or the device can realize intelligent control on a certain function, the realized function is single, the interaction inductance of user experience is poor, and the diversified and intelligent requirements of users cannot be met.

Disclosure of Invention

Aiming at the technical problems in the prior art, the invention provides a multifunctional integration solution for an automobile cabin, solves the diversified performance requirements of users on intelligent control of the automobile cabin, and provides an intelligent cabin integrated control system and a control method.

In order to solve the technical problems, the technical scheme adopted by the invention is as follows:

an intelligent cockpit integrated control system comprising:

the brightness, the color and the light-emitting state of the atmosphere lamp can be automatically adjusted according to an input control instruction;

the control unit is used for receiving an external or internal signal, analyzing the external or internal signal into a control instruction for controlling the atmosphere lamp, and controlling the brightness, the color and the light-emitting state of the atmosphere lamp; the external signals comprise sound signals, vehicle speed signals, environment detection signals and user gesture induction signals; the internal signal comprises a user-defined control signal;

the signal detection unit comprises an environment detection module for detecting environment parameters in the vehicle and an action detection module for sensing gestures of a user;

and the user interaction unit is used for switching the control mode of the control unit to the atmosphere lamp, and the control unit receives the corresponding signal to control the atmosphere lamp in different control modes.

In the above technical solution, further, the audio signal acquisition module of the control unit acquires a sound pressure signal of music in the cabin, performs FFT on the sound pressure signal to obtain a frequency spectrum signal, and converts the frequency spectrum signal into a control instruction for the atmosphere lamp.

In the above technical scheme, further, the control unit acquires a vehicle speed signal through CAN communication, and converts the vehicle speed signal into a control instruction for the atmosphere lamp.

In the above technical solution, further, the control unit reads the control program stored in the storage unit, and converts the control program into a control instruction for the atmosphere lamp.

In the above technical solution, further, the control unit receives a detection signal of the environment detection sensor, and converts the detection signal into a control instruction for the atmosphere lamp.

In the above technical solution, further, the atmosphere lamp further includes a welcome atmosphere lamp;

the signal detection unit comprises a door touch switch used for detecting a user door opening signal, and the control unit controls the welcome atmosphere lamp to be turned on when detecting the user door opening signal.

In the above technical scheme, further, the motion detection module senses a user gesture, and when the motion detection module detects that the user gesture approaches, the control unit controls the turning on and off of the atmosphere lamp and the welcome atmosphere lamp.

Among the above-mentioned technical scheme, furtherly still includes the voice broadcast unit, detects the user after the signal of opening the door when the control unit, and control voice broadcast unit broadcasts voice message.

The invention also relates to an intelligent cabin integrated control method, which automatically controls the working state of the atmosphere lamp in the cabin according to the control mode selected by the user;

the control modes comprise a music rhythm control mode, a vehicle speed rhythm control mode, a static respiration control mode and an air quality control mode;

under a music rhythm control mode, acquiring a sound pressure signal of music played in a cabin, carrying out FFT (fast Fourier transform) processing on the sound pressure signal to obtain a frequency spectrum signal, converting the frequency spectrum signal into a control instruction for an atmosphere lamp, and adjusting the brightness and the color of the atmosphere lamp;

under a vehicle speed rhythm control mode, a vehicle speed signal is acquired and converted into a control instruction of the atmosphere lamp, the color of the atmosphere lamp is adjusted, and different vehicle speed ranges correspond to different colors of the atmosphere lamp;

under a static respiration control mode, the brightness and the color of the atmosphere lamp are adjusted through a preset control program, so that the brightness and the color of the atmosphere lamp are changed regularly or randomly;

in the air quality control mode, an air quality signal in the cabin is obtained and converted into a control instruction for the atmosphere lamp, the color of the atmosphere lamp is adjusted, and different air quality grades correspond to different colors of the atmosphere lamp;

preferably, the atmosphere lamp is controlled to be turned on or off by acquiring gesture information of a user.

In the technical scheme, further, when the cabin door is detected to be opened, the welcome atmosphere lamp in the cabin is controlled to be automatically opened; and broadcasts voice information including current time and cabin internal environment parameters.

The invention has the following beneficial effects:

1) the system integrates various control modes, can control the state of the atmosphere lamp in different control modes such as music rhythm, vehicle speed rhythm, static respiration and air quality control modes according to the selection of a user, is convenient to switch and control among the control modes, and can meet the diversified performance requirements of the user.

2) The system controls the state of the atmosphere lamp through a vehicle speed rhythm control mode and an air quality control mode, and represents the current vehicle speed information and the air quality information in the cabin by different atmosphere lamp colors, so that the current state information of the cabin is displayed more visually, the dependence of a user on an instrument panel and a central control screen is reduced, and the user experience and the driving safety are improved.

3) The system carries out on-off control to the atmosphere lamp through the user gesture, can improve the security of driving, increases the science and technology of passenger cabin and feels.

Drawings

Fig. 1 is a functional logic diagram of an embodiment of the intelligent cabin integrated control system of the present invention.

Fig. 2 is a control logic diagram of different control modes of atmosphere lamps in the embodiment of the intelligent cabin integrated control system of the invention.

Fig. 3 is a control logic diagram of the atmosphere lamp in the air quality control mode in the embodiment of the intelligent cabin integrated control system of the invention.

Fig. 4 is a logic diagram of welcome function control in an embodiment of the intelligent cabin integrated control system of the present invention.

FIG. 5 is a circuit diagram of an atmosphere lamp control circuit in an embodiment of the intelligent cabin integrated control system of the present invention.

Fig. 6 is a circuit diagram of a PM2.5 sensor signal acquisition circuit in an embodiment of the intelligent cabin integrated control system of the present invention.

Fig. 7 is a circuit diagram of a distance sensor in an embodiment of the intelligent integrated cabin control system according to the invention.

FIG. 8 is a circuit diagram of an audio signal acquisition circuit in an embodiment of the intelligent cockpit integrated control system of the present invention.

Fig. 9 is a circuit diagram of a voice broadcast module in an embodiment of the intelligent cabin integrated control system of the present invention.

FIG. 10 is a circuit diagram of a power module in an embodiment of the intelligent cabin integrated control system of the present invention.

Detailed Description

The invention is further described with reference to the following figures and specific embodiments.

The intelligent cabin integrated control system mainly comprises a multi-mode control function, a welcome function, an air monitoring function, a purification function and the like of an atmosphere lamp in a cabin, the functional modules are integrated in the system and used as an independent control system to be connected with an original running vehicle controller of a vehicle for communication, and therefore the intelligent control function in the cabin can be conveniently expanded.

As shown in fig. 1, the intelligent cabin integrated control system in the present embodiment includes:

the system comprises an atmosphere lamp, a controller and a controller, wherein the brightness, the color and the light-emitting state (such as the number of the lamps in the lamp strip to be lightened, the arrangement rule of the lamps to be lightened and turned off and the like) of the atmosphere lamp can be automatically adjusted according to an input control instruction; as an execution unit in the system, an atmosphere lamp is arranged in the cabin, the atmosphere lamp comprises a multi-mode atmosphere lamp and an air monitoring atmosphere lamp, the atmosphere lamp is connected to the control unit, and the light-emitting state of the atmosphere lamp is controlled through the control unit. In this embodiment, the atmosphere lamp adopts the lamp area that flows that has five colours, and the lamp area sets up respectively on passenger cabin left door board, right door board and instrument board right side, and flowing lamp area control circuit is as shown in fig. 5.

The control unit is used for receiving an external or internal signal, analyzing the external or internal signal into a control instruction for controlling the atmosphere lamp, and controlling the brightness, the color and the light-emitting state of the atmosphere lamp; the external signals comprise sound signals, vehicle speed signals, environment detection signals and user gesture induction signals; the internal signal comprises a user-defined control signal.

The control unit (SSU controller) comprises a main control module and a peripheral circuit connected with the main control module, wherein the peripheral circuit comprises an audio signal acquisition circuit, an interface circuit, a CAN bus circuit, a key circuit, an atmosphere lamp control circuit, a storage module, a clock circuit and a power module, the audio signal acquisition circuit is used for acquiring audio signals in the cabin, and the CAN bus circuit is used for connection and communication between the control unit and a driving controller of the cabin; in the embodiment, a control unit independent of a vehicle driving controller (ECU/VCU) is arranged as a control center of the system, various required functions can be independently realized by configuring rich peripheral circuits, the control unit can be conveniently connected with the vehicle driving controller to realize communication, data transmission and interaction between the vehicle driving controller and the vehicle driving controller are realized, the realization of respective functions is not influenced, the respective system and the integral control response speed are improved to a great extent, the reliability and the stability of the system are improved, and the use experience of a user is greatly improved. The system is used as an independent function execution system, and the control unit and the driving controller have good compatibility, so that the function of the whole vehicle cabin is more conveniently expanded. The main control module of the SSU controller adopts an STM32F429ZGT6 control chip, has high response speed and rich interfaces, and can meet the control requirements of the system and the performance requirements of multifunctional integration compatibility. The SSU controller is internally integrated with an audio signal acquisition module, can realize the acquisition and analysis of signals, and converts the acquired signals into control signals capable of controlling the working state of the atmosphere lamp after analysis.

The control unit is connected with a driving controller (ECU/VCU) through CAN communication to acquire a vehicle speed signal of a vehicle, transmit the acquired vehicle speed signal to the control unit and convert the vehicle speed signal into a control instruction of the atmosphere lamp.

The signal detection unit comprises an environment detection module for detecting environment parameters in the vehicle and an action detection module for sensing gestures of a user.

The environment detection sensor can adopt a PM2.5 sensor and the like for detecting the air quality condition in the cabin, and a PM2.5 sensor signal acquisition circuit is shown in FIG. 6.

The motion detection module can adopt a SHARP GP2Y0A51SK0F type distance sensor which is an infrared distance measurement sensor, can accurately sense the motion of the gesture of the user, and realizes the on-off control of the atmosphere lamp by detecting the distance of the gesture of the user; the distance sensor control circuit is shown in fig. 7.

The signal detection unit also comprises a vehicle speed sensor which is arranged on the whole vehicle and used for detecting vehicle speed signals, and the control unit acquires the vehicle speed signals through CAN communication.

And the user interaction unit is used for switching the control mode of the control unit to the atmosphere lamp, and the control unit receives the corresponding signal to control the atmosphere lamp in different control modes.

The user interaction unit adopts a plurality of touch keys arranged on the instrument panel, and a user can select different control modes through the touch keys to realize the state control of the atmosphere lamp in different control modes.

As shown in fig. 2 and 3, the control unit controls the state of the atmosphere lamp by acquiring corresponding signals in different control modes, and the specific implementation manner adopted is as follows:

in a music rhythm control mode, an audio signal acquisition module of a control unit acquires sound pressure signals of music in a cabin, FFT (fast Fourier transform) processing is carried out on the sound pressure signals to obtain frequency spectrum signals, the frequency spectrum signals are converted into control instructions of the multi-mode atmosphere lamp, and the brightness and the color of the multi-mode atmosphere lamp are automatically adjusted; the circuit diagram of the audio signal acquisition module in the control unit is shown in fig. 8.

Under the vehicle speed rhythm control mode, the control unit obtains the vehicle speed signal through CAN communication, converts the vehicle speed signal operation into the control command to multi-mode atmosphere lamp, carries out automatically regulated to the color of multi-mode atmosphere lamp, realizes that present vehicle speed state is represented through the color of multi-mode atmosphere lamp.

In the static breathing control mode, the control unit reads the control program stored in the storage unit, converts the control program into a control instruction for the multi-mode atmosphere lamp, and automatically adjusts the brightness and the color of the multi-mode atmosphere lamp.

In the air quality control mode, the control unit receives a detection signal of the environment detection sensor and converts the detection signal into a control instruction for the air monitoring atmosphere lamp.

Like fig. 4, wisdom passenger cabin integrated control system is still including the usher functional module, and the usher functional module is including usher atmosphere lamp, the door knob switch and the voice broadcast unit that is used for detecting the user signal of opening the door in this embodiment, and when the control unit detected the user signal of opening the door, the control usher atmosphere lamp was opened. Meanwhile, as shown in fig. 9, the voice broadcast module of the control circuit broadcasts voice information including welcome words, current time, temperature and humidity in the cabin and other environmental state parameter information through the voice broadcast module while lighting the multi-mode atmosphere lamp.

The gesture of the user is sensed through the motion detection module, and the meeting atmosphere lamp is controlled to be turned on or off through the gesture of the user.

In the system, a power supply module is used for providing required power supply voltage for each functional component in the system, for example, fig. 10 is a power supply module circuit diagram which provides working voltages of 12V, 5V and 3V for the system; the power supply mode of each functional component in the system comprises the following steps: normal power, logic power on and logic power off; if a temperature and humidity sensor, a door catch switch, a welcome atmosphere lamp and the like in the system are in normal electricity, the power supply state is realized after the cabin is unlocked; at the moment, the PM2.5 sensor, the distance sensor, the multi-mode atmosphere lamp and the air monitoring atmosphere lamp are in a dormant state, are awakened when the logic power-ON (IG ON) is carried out, and are turned OFF when the logic power-OFF (IG OFF) is carried out.

In this embodiment, based on the control method of the intelligent cabin integrated control system, according to a control mode selected by a user, the working state of the atmosphere lamp in the cabin is automatically controlled in different control modes;

the control modes in the control method comprise a music rhythm control mode, a vehicle speed rhythm control mode, a static respiration control mode and an air quality control mode, and the control under various different control modes can be realized;

under a music rhythm control mode, acquiring a sound pressure signal of music played in a cabin, carrying out FFT (fast Fourier transform algorithm) processing on the sound pressure signal to obtain a frequency spectrum signal, converting the frequency spectrum signal into a control instruction for an atmosphere lamp, and adjusting the brightness and the color of the atmosphere lamp to enable the color and the brightness of the atmosphere lamp to be automatically adjusted along with the change of the music so as to respond to the rhythm of the music;

under a vehicle speed rhythm control mode, a vehicle speed signal is obtained and converted into a control instruction of an atmosphere lamp, the color of the atmosphere lamp is adjusted, different vehicle speed ranges correspond to different atmosphere lamp colors, and when the vehicle speed is changed from 0 km/h-120 km/h, the color of the atmosphere lamp is gradually changed from green to pink;

under a static respiration control mode, the brightness and the color of the atmosphere lamp are adjusted through a preset control program, so that the brightness and the color of the atmosphere lamp are changed regularly or randomly; if the change rule and the gradual change period of the atmosphere lamp are set, the gradual change of the atmosphere lamp in a certain rule is realized;

in an air quality control mode, acquiring an air quality signal in a cabin through a PM2.5 sensor, converting the air quality signal into a control instruction of the atmosphere lamp, and adjusting the color of the atmosphere lamp, wherein different air quality grades correspond to different atmosphere lamp colors; if it is defined that the air quality grade is excellent, it is indicated as green-light rhythm, the grade is good, it is indicated as blue-light rhythm, the grade is light pollution, it is orange-light rhythm, the grade is medium pollution, and it is pink-light rhythm.

The specific control implementation process of the intelligent cabin integrated control method of the embodiment is as follows:

when a user opens a vehicle door, a door catch switch, a welcome atmosphere lamp and a voice broadcasting unit are powered on, the door catch switch transmits a detected signal to an SSU controller, and the welcome atmosphere lamp is controlled to be lightened, and is displayed as white and normally on; and 2 seconds after the welcome atmosphere lamp is lightened, welcome words, current time information, temperature and humidity information in the cabin and the like are broadcasted in a voice mode.

When the vehicle is started, the touch key is electrified and awakened, the touch key comprises a plurality of functional keys, the functional keys comprise functional keys corresponding to a music rhythm control mode, a vehicle speed rhythm control mode, a static respiration control mode and a control quality control mode, and different control modes are selected and switched through the functional keys.

A user selects a control mode of the atmosphere lamp through a corresponding touch key to realize automatic control of the atmosphere lamp in different control modes, different light atmospheres are presented in the cabin, and information such as vehicle speed, environmental parameters in the cabin and the like is presented in different colors.

Meanwhile, after the vehicle is started, the distance sensor is powered on, and a user brings a hand close to the distance sensor, so that the turning on or off of an atmosphere lamp, a welcome atmosphere and the like can be realized.

The present specification and figures are to be regarded as illustrative rather than restrictive, and it is intended that all such alterations and modifications that fall within the true spirit and scope of the invention, and that all such modifications and variations are included within the scope of the invention as determined by the appended claims without the use of inventive faculty.

Claims (10)

1. An intelligent cabin integrated control system, comprising:

the brightness, the color and the light-emitting state of the atmosphere lamp can be automatically adjusted according to an input control instruction;

the control unit is used for receiving an external or internal signal, analyzing the external or internal signal into a control instruction for controlling the atmosphere lamp, and controlling the brightness, the color and the light-emitting state of the atmosphere lamp; the external signals comprise sound signals, vehicle speed signals, environment detection signals and user gesture induction signals; the internal signal comprises a user-defined control signal;

the signal detection unit comprises an environment detection module for detecting environment parameters in the vehicle and an action detection module for sensing gestures of a user;

and the user interaction unit is used for switching the control mode of the control unit to the atmosphere lamp, and the control unit receives the corresponding signal to control the atmosphere lamp in different control modes.

2. The intelligent cabin integrated control system according to claim 1, wherein an audio signal acquisition module of the control unit acquires a sound pressure signal of music in the cabin, performs FFT processing on the sound pressure signal to obtain a spectrum signal, and converts the spectrum signal into a control command for an atmosphere lamp.

3. The intelligent cabin integrated control system according to claim 1, wherein the control unit obtains a vehicle speed signal through CAN communication and converts the vehicle speed signal into a control command for an atmosphere lamp.

4. The intelligent cabin integrated control system according to claim 1, wherein the control unit reads a control program stored in the storage unit and converts the control program into control commands for the atmosphere lamps.

5. The intelligent cabin integrated control system according to claim 1, wherein the control unit receives a detection signal from an environment detection sensor and converts the detection signal into a control command for an atmosphere lamp.

6. The intelligent cabin integrated control system according to claim 1, wherein the atmosphere lamp further comprises a welcome atmosphere lamp;

the signal detection unit comprises a door touch switch used for detecting a user door opening signal, and the control unit controls the welcome atmosphere lamp to be turned on when detecting the user door opening signal.

7. The intelligent cabin integrated control system according to claim 1 or 6, wherein the motion detection module senses a user gesture, and the control unit controls the turning on and off of the atmosphere lamp when the motion detection module detects that the user gesture approaches.

8. The intelligent cabin integrated control system according to claim 6, further comprising a voice broadcasting unit, wherein when the control unit detects a user door opening signal, the voice broadcasting unit is controlled to broadcast voice information.

9. An intelligent cabin integrated control method is characterized in that the working state of an atmosphere lamp in a cabin is automatically controlled according to a control mode selected by a user;

the control modes comprise a music rhythm control mode, a vehicle speed rhythm control mode, a static respiration control mode and an air quality control mode;

under a music rhythm control mode, acquiring a sound pressure signal of music played in a cabin, carrying out FFT (fast Fourier transform) processing on the sound pressure signal to obtain a frequency spectrum signal, converting the frequency spectrum signal into a control instruction for an atmosphere lamp, and adjusting the brightness and the color of the atmosphere lamp;

under a vehicle speed rhythm control mode, a vehicle speed signal is acquired and converted into a control instruction of the atmosphere lamp, the color of the atmosphere lamp is adjusted, and different vehicle speed ranges correspond to different colors of the atmosphere lamp;

under a static respiration control mode, the brightness and the color of the atmosphere lamp are adjusted through a preset control program, so that the brightness and the color of the atmosphere lamp are changed regularly or randomly;

in the air quality control mode, an air quality signal in the cabin is obtained and converted into a control instruction for the atmosphere lamp, the color of the atmosphere lamp is adjusted, and different air quality grades correspond to different colors of the atmosphere lamp;

preferably, the atmosphere lamp is controlled to be turned on or off by acquiring gesture information of a user.

10. The intelligent cabin integrated control method according to claim 9, wherein when the opening of the cabin door is detected, the welcome atmosphere lamp in the cabin is controlled to be automatically turned on; and broadcasts voice information including current time and cabin internal environment parameters.

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