CN114338910A - System for automatically controlling according to environment variable - Google Patents

Abstract

The invention discloses a system for automatic control according to environment variables, which comprises a hardware part and a software component. The software components are embedded into the system of the hardware part itself. The hardware component comprises an electronic product body, a multimedia component arranged on the electronic product body, and a first inductor and a second inductor which are arranged on the electronic product body. The software component comprises a starting-up template, and a manual module for manually regulating and controlling sound or image change and an automatic module for automatically regulating and controlling sound or image change, which are respectively connected with the starting-up template. The invention has the advantages of convenient and fast use and improved use experience.

Description

System for automatically controlling according to environment variable

Technical Field

The invention relates to the field of electronic product application software, in particular to a system for automatic control according to environmental variables.

Background

At present, in electronic products on the market, sound playback devices such as earphones, mobile phones and speakers, communication devices, and image playback devices such as televisions and projectors lack perception of external volume changes, and due to the adjustment function, the environment of a user in a use scene changes, and the parameters of the devices are manually adjusted, so that a relatively ideal use effect can be obtained. Therefore, it is necessary to adjust the listening volume according to the environment each time the headphone is used. For example, in a crowded and noisy environment, when a mobile phone is at a low volume, incoming calls or messages may miss calls and other prompt tones; and for another example, when the light of the television changes indoors, the display effect is not ideal, and the like. Therefore, the sound and the image of the electronic product have the defects of no automatic adjustment and inconvenient use along with the change of the use environment.

Disclosure of Invention

In view of the above problems, an object of the present invention is to provide a system for automatic control according to an environmental variable, which is convenient and fast to use and improves the use experience.

In order to achieve the above object, the present invention provides a system for automatic control according to environment variables, which comprises a hardware part and a software part; the software components are embedded into the system of the hardware part. The hardware component comprises an electronic product body, a multimedia component arranged on the electronic product body, and a first inductor and a second inductor which are arranged on the electronic product body. The software component comprises a starting-up template, and a manual module for manually regulating and controlling sound or image change and an automatic module for automatically regulating and controlling sound or image change, which are respectively connected with the starting-up template. The manual module is manually completed according to the self setting of the user. The automatic module comprises a detection module and an execution module, wherein the detection module captures the volume or the brightness and the color of the surrounding environment through a first sensor and a second sensor, and the execution module is connected with the detection module. The detection module adjusts the values of the variable values captured by the first sensor and the second sensor and the values given by the system, and then the execution module performs increasing or decreasing operation on the multimedia components. The first sensor and the second sensor are installed in different directions (different angles of different planes or arc surfaces, which is a graphic device, and when a user is given a viewing direction, the viewing direction is the front side.

In some embodiments, the multimedia component is a headset or a cell phone or a speaker or a television or a projector.

In some embodiments, the execution modules include a brightness adjusting module, a dimming module and a no-operation module respectively connected with the detection module, and a first execution module arranged on the brightness adjusting module and used for performing color adjustment or tuning and a second execution module arranged on the dimming module and used for performing color adjustment or tuning. The brightness adjusting module is used for enabling the variable value to meet the standard of improving the brightness after being compared with the value given by the system. A no-operation module means that no operation is required without exceeding a given range. Dimming module means that the variable value meets the criterion of decreasing brightness after being compared with the value given by the system.

In some embodiments, the first execution module is to determine whether the color adjustment requirement is met. If yes, the brightness is increased and the color is adjusted. If not, only the brightness is increased. The second execution module is to determine whether the difference reaches the toning threshold. If yes, adjusting brightness/color brightness. If not, only the brightness is reduced.

In some embodiments, the first execution module dynamically controls whether the DRC is turned on when the multimedia component is a headset. If so, the dynamic control DRC is decreased to decrease the aural volume. If not, the volume is reduced. The second execution module is used for judging whether the difference value reaches the DRC threshold value or not when the multimedia component is an earphone. If so, the DRC is turned on to the maximum and the gain is increased. If not, increasing DRC to adjust volume.

In some embodiments, the electronic product body is a mobile phone, a tablet computer or a television;

another object of the present invention is to provide a system application process automatically controlled according to environmental variables, wherein the specific steps are as follows:

(1) starting up the electronic product body;

(2) the user confirms the function on/off; if not, skipping the automatic process, following the self-setting of the user, adopting a manual mode, and then shutting down/closing the function after finishing the process, and ending the program;

if so, automatically detecting the brightness and color of the environment and the current setting of the system, namely capturing the volume or the brightness and the color of the surrounding environment through a first sensor and a second sensor;

(3) judging whether the variable meets the adjustment requirement or not; there may be three options to meet the criteria for increased brightness, not exceed a given range, and to meet the criteria for decreased brightness, respectively;

(4) if the captured variable is judged to meet the standard of improving the brightness, judging whether the requirement of adjusting the color is met, if so, improving the brightness and adjusting the color; if not, only improving the brightness; after the completion, the shutdown/shutdown function ends the program;

(5) if the captured variable is judged to accord with the standard of reducing the brightness, judging whether the difference value reaches a color matching threshold value, if so, adjusting the brightness/color brightness; if not, only reducing the brightness; after the completion, the shutdown/shutdown function ends the program;

(4) and (3) after the execution is finished, returning to the step (3) for rerunning, wherein the set cycle detection time is set. Thus, when the variable captured by both sensors is greater than the adjustment value given by the system, an increase or decrease operation is performed. When the two sensors are in different values, the system judges according to a preset value and makes necessary parameter adjustment (volume, brightness, color temperature and the like;

in some embodiments, (5) if the toning threshold is reached, an adjustment scheme is given; time and location information is set on the adjustment brightness/color brightness.

Another object of the present invention is to provide a system application process automatically controlled according to environmental variables, wherein the specific steps are as follows:

(1) starting up the electronic product body;

(2) the user confirms the function on/off; if not, skipping the automatic process, following the self-setting of the user, adopting a manual mode, and then shutting down/closing the function after finishing the process, and ending the program;

if so, automatically detecting the brightness and color of the environment and the current setting of the system, namely capturing the volume or the brightness and the color of the surrounding environment through a first sensor and a second sensor;

(3) judging whether the variable meets the adjustment requirement or not; there may be three options for meeting the criteria for lowering the volume, not exceeding a given range, and meeting the criteria for raising the volume, respectively;

(4) adjusting the earphone, if the captured variable is judged to meet the standard of reducing the volume, judging whether the dynamic control DRC is opened, if so, reducing the dynamic control DRC to reduce the auditory volume; if not, reducing the volume; after the completion, the shutdown/shutdown function ends the program;

(5) adjusting the earphone, if the captured variable is judged to meet the standard of increasing the volume, judging whether the value reaches a threshold of the dynamic control DRC, if so, turning on the dynamic control DRC to the maximum and increasing the gain; if not, increasing DRC to adjust the volume; after the completion, the shutdown/shutdown function ends the program; (4) and (3) after the execution is finished, returning to the step (3) for rerunning, wherein the set cycle detection time is set. Therefore, when the device is an earphone, the adjustment mode is to use DRC (dynamic control) and VLC (volume control) for composite adjustment so as to give consideration to user experience, hearing protection and sound quality.

The invention has the advantages of convenient and fast use and improved use experience. The electronic product body can automatically control the output effect of the device according to the environmental variables, so that the use convenience of a user is improved, and the optimal use experience is obtained, namely, the user can obtain better sound definition in a noisy environment by using the earphone controlled by the method, and meanwhile, the hearing protection effect is considered; in a quiet environment, the best listening result can be obtained. By using the graphic equipment controlled by the method, a user can have better and consistent watching experience, visual fatigue and visual impairment caused by brightness, color and color temperature differences are reduced, and the biological rhythm of rest of the user can be protected. The mobile phone controlled by the method can reduce the information omission caused by the outgoing in the noisy environment, and simultaneously avoid the influence of the overlarge sound of the ring or the alarm clock on people around, thereby realizing convenient and convenient use and improving the effect of use experience.

Drawings

FIG. 1 is a block schematic diagram of a first application of the present invention;

fig. 2 is a block schematic diagram of a second application process of the present invention.

Detailed Description

The invention is described in further detail below with reference to the accompanying drawings.

A system for automatic control based on environmental variables, comprising a hardware part and a software component; the software components are embedded into the system of the hardware part. The hardware component comprises an electronic product body, a multimedia component arranged on the electronic product body, and a first inductor and a second inductor which are arranged on the electronic product body. The software component comprises a starting-up template, and a manual module for manually regulating and controlling sound or image change and an automatic module for automatically regulating and controlling sound or image change, which are respectively connected with the starting-up template. The manual module is manually completed according to the self setting of the user. The automatic module comprises a detection module and an execution module, wherein the detection module captures the volume or the brightness and the color of the surrounding environment through a first sensor and a second sensor, and the execution module is connected with the detection module. The detection module adjusts the values of the variable values captured by the first sensor and the second sensor and the values given by the system, and then the execution module performs increasing or decreasing operation on the multimedia components. The first sensor and the second sensor are installed in different directions (different included angles of different planes or arc surfaces are graphic devices, when the watching direction of a given user is a front side, the multimedia component is an earphone, a mobile phone, a loudspeaker, a television or a projector, the execution module comprises a brightness adjusting module, a dimming module and a no-operation module which are respectively connected with the detection module, a first execution module which is arranged on the brightness adjusting module and used for executing color adjustment or tuning, and a second execution module which is arranged on the dimming module and used for executing color adjustment or tuning, the brightness adjusting module refers to the condition that a variable value meets the standard of brightness improvement after being compared with a value given by a system, the no-operation module does not need to operate when the variable value does not exceed the given range, the dimming module refers to the condition that the variable value meets the standard of brightness reduction after being compared with the value given by the system, the first execution module refers to the condition that whether the requirement of color adjustment is met or not, the brightness is increased and the color is adjusted. If not, only the brightness is increased. The second execution module is to determine whether the difference reaches the toning threshold. If yes, adjusting brightness/color brightness. If not, only the brightness is reduced. The first execution module dynamically controls whether the DRC is started or not when the multimedia component is an earphone. If so, the dynamic control DRC is decreased to decrease the aural volume. If not, the volume is reduced. The second execution module is used for judging whether the difference value reaches the DRC threshold value or not when the multimedia component is an earphone. If so, the DRC is turned on to the maximum and the gain is increased. If not, increasing DRC to adjust volume. The electronic product body is a mobile phone, a tablet personal computer or a television;

as shown in fig. 1, a system application process automatically controlled according to environmental variables includes the following steps:

(1) starting up the electronic product body;

(2) the user confirms the function on/off; if not, skipping the automatic process, following the self-setting of the user, adopting a manual mode, and then shutting down/closing the function after finishing the process, and ending the program;

if so, automatically detecting the brightness and color of the environment and the current setting of the system, namely capturing the volume or the brightness and the color of the surrounding environment through a first sensor and a second sensor;

(3) judging whether the variable meets the adjustment requirement or not; there may be three options to meet the criteria for increased brightness, not exceed a given range, and to meet the criteria for decreased brightness, respectively;

(4) if the captured variable is judged to meet the standard of improving the brightness, judging whether the requirement of adjusting the color is met, if so, improving the brightness and adjusting the color; if not, only improving the brightness; after the completion, the shutdown/shutdown function ends the program;

(5) if the captured variable is judged to accord with the standard of reducing the brightness, judging whether the difference value reaches a color matching threshold value, if so, adjusting the brightness/color brightness; if not, only reducing the brightness; after the completion, the shutdown/shutdown function ends the program;

(4) and (3) after the execution is finished, returning to the step (3) for rerunning, wherein the set cycle detection time is set. Thus, when the variable captured by both sensors is greater than the adjustment value given by the system, an increase or decrease operation is performed. When the two sensors are in different values, the system judges according to the preset value and makes necessary parameter adjustment (volume, brightness, color temperature, etc.) (5) if reaching the color-mixing threshold value, the adjustment scheme is given, and time and position information is set on the adjustment brightness/color brightness.

As shown in fig. 2, a system application process automatically controlled according to environmental variables includes the following steps:

(1) starting up the electronic product body;

(2) the user confirms the function on/off; if not, skipping the automatic process, following the self-setting of the user, adopting a manual mode, and then shutting down/closing the function after finishing the process, and ending the program;

if so, automatically detecting the brightness and color of the environment and the current setting of the system, namely capturing the volume or the brightness and the color of the surrounding environment through a first sensor and a second sensor;

(3) judging whether the variable meets the adjustment requirement or not; there may be three options for meeting the criteria for lowering the volume, not exceeding a given range, and meeting the criteria for raising the volume, respectively;

(4) adjusting the earphone, if the captured variable is judged to meet the standard of reducing the volume, judging whether the dynamic control DRC is opened, if so, reducing the dynamic control DRC to reduce the auditory volume; if not, reducing the volume; after the completion, the shutdown/shutdown function ends the program;

(5) adjusting the earphone, if the captured variable is judged to meet the standard of increasing the volume, judging whether the value reaches a threshold of the dynamic control DRC, if so, turning on the dynamic control DRC to the maximum and increasing the gain; if not, increasing DRC to adjust the volume; after the completion, the shutdown/shutdown function ends the program; (4) and (3) after the execution is finished, returning to the step (3) for rerunning, wherein the set cycle detection time is set. Therefore, when the device is an earphone, the adjustment mode is to use DRC (dynamic control) and VLC (volume control) for composite adjustment so as to give consideration to user experience, hearing protection and sound quality.

When the method is applied, the electronic product body can automatically control the output effect of the device according to the environmental variables, so that the use convenience of a user is improved, and the optimal use experience is obtained, namely, the user can obtain better sound definition in a noisy environment by using the earphone controlled by the method, and meanwhile, the hearing protection effect is considered; in a quiet environment, the best listening result can be obtained. By using the graphic equipment controlled by the method, a user can have better and consistent watching experience, visual fatigue and visual impairment caused by brightness, color and color temperature differences are reduced, and the biological rhythm of rest of the user can be protected. The mobile phone controlled by the method can reduce the information omission caused by the outgoing in the noisy environment, and simultaneously avoid the influence of the overlarge sound of the ring or the alarm clock on people around, thereby realizing convenient and convenient use and improving the effect of use experience.

What has been described above are merely some embodiments of the present invention. It will be apparent to those skilled in the art that various changes and modifications can be made without departing from the inventive concept herein, and it is intended to cover all such modifications and variations as fall within the scope of the invention.

Claims (9)

1. A system for automatic control based on environmental variables, comprising a hardware portion and a software component; the software component is embedded into a system of the hardware part;

the hardware component comprises an electronic product body, a multimedia component arranged on the electronic product body, a first inductor and a second inductor which are arranged on the electronic product body;

the software component comprises a starting-up template, and a manual module for manually regulating and controlling sound or image change and an automatic module for automatically regulating and controlling sound or image change, which are respectively connected with the starting-up template;

the manual module is manually completed along with the self setting of the user;

the automatic module comprises a detection module for capturing the volume or brightness and color of the surrounding environment through a first sensor and a second sensor, and an execution module connected with the detection module;

the detection module adjusts the values of the variable values captured by the first sensor and the second sensor and the values given by the system, and then the execution module performs increasing or decreasing operation on the multimedia components.

2. The system according to claim 1, wherein the multimedia component is a headset, a mobile phone, a speaker, a television or a projector.

3. The system according to claim 2, wherein the execution modules comprise a brightness adjusting module, a dimming module and a no-operation module respectively connected to the detection module, and a first execution module for performing color adjustment or tuning provided on the brightness adjusting module and a second execution module for performing color adjustment or tuning provided on the dimming module;

the brightness adjusting module is used for comparing the variable value with the value given by the system and then conforming to the standard of improving the brightness; the no-operation module is not beyond the given range and does not need to be operated; the dimming module is used for comparing the variable value with the value given by the system and then meeting the standard of reducing the brightness.

4. The system according to claim 3, wherein the first execution module is used to determine whether the color adjustment is required; if yes, increasing the brightness and adjusting the color; if not, only improving the brightness;

the second execution module is used for judging whether the difference value reaches a toning threshold value or not; if yes, adjusting brightness/color brightness; if not, only the brightness is reduced.

5. The system according to claim 3, wherein the first execution module dynamically controls whether DRC is turned on when the multimedia component is a headset; if so, decreasing the dynamic control DRC to decrease the aural volume; if not, reducing the volume;

the second execution module is used for judging whether the difference value reaches a DRC threshold value or not when the multimedia component is an earphone; if so, opening the DRC to the maximum and increasing the gain; if not, increasing DRC to adjust volume.

6. The system according to claim 1, wherein the electronic product body is a mobile phone, a tablet computer or a television.

7. A system application process automatically controlled according to environment variables comprises the following specific steps:

(1) starting up the electronic product body;

(2) the user confirms the function on/off; if not, skipping the automatic process, following the self-setting of the user, adopting a manual mode, and then shutting down/closing the function after finishing the process, and ending the program;

if so, automatically detecting the brightness and color of the environment and the current setting of the system, namely capturing the volume or the brightness and the color of the surrounding environment through a first sensor and a second sensor;

(3) judging whether the variable meets the adjustment requirement or not; there may be three options to meet the criteria for increased brightness, not exceed a given range, and to meet the criteria for decreased brightness, respectively;

(4) if the captured variable is judged to meet the standard of improving the brightness, judging whether the requirement of adjusting the color is met, if so, improving the brightness and adjusting the color; if not, only improving the brightness; after the completion, the shutdown/shutdown function ends the program;

(5) if the captured variable is judged to accord with the standard of reducing the brightness, judging whether the difference value reaches a color matching threshold value, if so, adjusting the brightness/color brightness; if not, only reducing the brightness; after the completion, the shutdown/shutdown function ends the program;

and (4) after the execution is finished, returning to the step (3) for rerunning according to the set cycle detection time.

8. An automatic control system according to environmental variables as recited in claim 7 wherein (5) if a toning threshold is reached, an adjustment scheme is given; time and position information is set on the adjustment brightness/color brightness.

9. A system application process automatically controlled according to environment variables comprises the following specific steps:

(1) starting up the electronic product body;

(2) the user confirms the function on/off; if not, skipping the automatic process, following the self-setting of the user, adopting a manual mode, and then shutting down/closing the function after finishing the process, and ending the program;

if so, automatically detecting the brightness and color of the environment and the current setting of the system, namely capturing the volume or the brightness and the color of the surrounding environment through a first sensor and a second sensor;

(3) judging whether the variable meets the adjustment requirement or not; there may be three options for meeting the criteria for lowering the volume, not exceeding a given range, and meeting the criteria for raising the volume, respectively;

(4) adjusting the earphone, if the captured variable is judged to meet the standard of reducing the volume, judging whether the dynamic control DRC is opened, if so, reducing the dynamic control DRC to reduce the auditory volume; if not, reducing the volume; after the completion, the shutdown/shutdown function ends the program;

(5) adjusting the earphone, if the captured variable is judged to meet the standard of increasing the volume, judging whether the value reaches a threshold of the dynamic control DRC, if so, turning on the dynamic control DRC to the maximum and increasing the gain; if not, increasing DRC to adjust the volume; after the completion, the shutdown/shutdown function ends the program;

and (4) after the execution is finished, returning to the step (3) for rerunning according to the set cycle detection time.

Images