CN111225151A - Intelligent terminal, shooting control method and computer-readable storage medium - Google Patents

Abstract

The application provides an intelligent terminal, a shooting control method and a computer readable storage medium, wherein the shooting control method comprises the following steps: acquiring first information and terminal historical shooting information corresponding to the first information, generating a corresponding shooting control strategy according to the first information, and executing corresponding shooting according to the shooting control strategy. Through the mode, the intelligent judgment processing can be carried out according to the first information and the historical shooting information of the terminal, then the shooting control strategy is obtained according to the processing result, so that the intelligent shooting control is realized, the shooting control accords with the actual operation condition of a user, the misoperation and the misjudgment of the system are avoided, the user experience is improved, and the product and the function are more intelligent.

Description

Intelligent terminal, shooting control method and computer-readable storage medium

Technical Field

The application relates to the technical field of shooting control, in particular to a shooting control method, an intelligent terminal applying the shooting control method and a computer-readable storage medium.

Background

With the large-scale application of intelligent terminals such as mobile phones, shooting is a key function in the functions of the intelligent terminals, and people can shoot and record videos at friends meeting and various features.

On the other hand, when using a smart terminal such as a mobile phone, power consumption is an important performance index of the smart terminal, and screen brightness is an important factor affecting power consumption of the smart terminal.

Currently, an intelligent terminal is generally set to different modes such as working and sleeping, and then an Operating System (OS) controls a screen of the intelligent terminal to be at different brightness according to the current mode of the intelligent terminal, so as to achieve the purpose of saving power.

In order to adaptively control the screen brightness, an eye recognition shooting energy-saving system is provided, and is arranged in an OS of an intelligent terminal, when the eye recognition shooting energy-saving system in the OS of the intelligent terminal is started, the eye recognition shooting energy-saving system detects eyes and acquires detailed information of the eyes, whether the eyes watch the intelligent terminal currently is judged according to the detailed information of the eyes, when the eyes watch the intelligent terminal, higher brightness is kept, and when the eyes do not watch the intelligent terminal, the screen brightness of the intelligent terminal is darkened, so that the screen brightness of the intelligent terminal is adaptively controlled, and the electric quantity of the intelligent terminal is saved to the maximum extent.

However, it is not difficult to combine the above two cases, if a method of knowing the brightness of the control screen is used at the time of shooting, the following scenes may occur: the intelligent terminal judges whether the user needs to use the camera or not by the time length that the user stays in the shooting operation interface but does not operate, and determines whether to automatically help the user to close the camera or adjust the brightness, so that the purpose of saving power is achieved.

However, it is well known that, in the actual use process, a user stays in the shooting interface but does not operate, may be looking for a proper shooting angle, and may be waiting to capture a certain picture; at this time, the user generally does not want the system to silently automatically turn off the camera under this condition, in other words, this way may cause serious misjudgment behavior, resulting in poor user experience.

In view of various defects in the prior art, the inventors of the present application have made extensive studies to provide an intelligent terminal, a photographing control method, and a computer-readable storage medium.

Disclosure of Invention

An object of the present application is to provide an intelligent terminal, a shooting control method, and a computer-readable storage medium, which can perform intelligent judgment processing according to first information and historical shooting information of the terminal, and then obtain a shooting control policy according to a processing result, thereby implementing intelligent control of shooting, so as to make the shooting meet actual operation conditions of a user, avoid misoperation and misjudgment of a system, improve user experience, and make products and functions more intelligent.

In order to solve the above technical problem, the present application provides a shooting control method, as one embodiment, the shooting control method including:

acquiring first information and terminal historical shooting information corresponding to the first information;

generating a corresponding shooting control strategy according to the first information;

and executing corresponding shooting according to the shooting control strategy.

As one implementation manner, the terminal history shooting information is shooting process information, and the shooting process information is at least one of shooting completion duration, shooting mode selection and shooting closing information.

As an implementation manner, the acquiring the first information specifically includes: acquiring actual feedback operation of a user in an executed shooting state mode; and generating and/or updating the first information according to the actual feedback operation.

As an embodiment, the step of executing corresponding shooting according to the shooting control policy specifically includes:

the shooting correspondence executed according to the shooting control strategy comprises a power-saving mode entering mode, a power-saving mode exiting mode, a shooting quality improving mode, a shooting quality reducing mode, a beautifying mode, a special skin color adjusting mode, an AiShow love mode, a live broadcast interaction mode, a telescope mode, a portrait change mode and a background splicing mode.

As an embodiment, the step of executing corresponding shooting according to the shooting control policy specifically includes:

acquiring comprehensive information, wherein first information, external environment information, shooting program operation information, intelligent terminal operation information and/or intelligent terminal hardware information are acquired to serve as the comprehensive information;

acquiring a shooting control strategy according to the comprehensive information;

and executing corresponding shooting according to the shooting control strategy and the user self-portrait corresponding to the first information.

As an implementation manner, the step of acquiring the comprehensive information specifically includes:

the comprehensive information is directly obtained through at least one sensor, and/or the comprehensive information is indirectly obtained through reading the control information of the intelligent terminal.

As an implementation manner, the step of acquiring the comprehensive information specifically includes:

the integrated information is obtained through a distance sensor, an image sensor, a sound sensor, a gyroscope, a wired connection and/or a wireless connection.

As an embodiment, the step of generating and/or updating the first information according to the actual feedback operation further includes:

and establishing a shooting control strategy according to the generated and/or updated user self-portrait, and forming a user strategy corresponding table of one-to-one mapping between the user self-portrait and the shooting control strategy.

In order to solve the above technical problem, the present application further provides an intelligent terminal, as one embodiment, configured with a processor, where the processor is configured to execute program data to implement the shooting control method as described above.

As one of the embodiments, the intelligent terminal is configured with:

and the backlight module is used for correspondingly adjusting the color, the brightness and/or the screen on/off time according to the control of the processor when the processor executes the shooting control strategy to enter a corresponding shooting state mode.

As one of the embodiments, the intelligent terminal is configured with:

the microphone is used for acquiring voice control information;

the processor is used for executing a corresponding control instruction according to the voice control information so as to realize shooting control.

In order to solve the above technical problem, the present application also provides, as one embodiment, a computer-readable storage medium for storing program data that, when executed by a processor, implements the photographing control method as described above.

The application provides an intelligent terminal, a shooting control method and a computer readable storage medium, wherein the shooting control method comprises the following steps: acquiring first information and terminal historical shooting information corresponding to the first information, generating a corresponding shooting control strategy according to the first information, and executing corresponding shooting according to the shooting control strategy. Through the mode, the intelligent judgment processing can be carried out according to the first information and the historical shooting information of the terminal, then the shooting control strategy is obtained according to the processing result, so that the intelligent shooting control is realized, the shooting control accords with the actual operation condition of a user, the misoperation and the misjudgment of the system are avoided, the user experience is improved, and the product and the function are more intelligent.

The foregoing description is only an overview of the technical solutions of the present application, and in order to make the technical means of the present application more clearly understood, the present application may be implemented in accordance with the content of the description, and in order to make the above and other objects, features, and advantages of the present application more clearly understood, the following preferred embodiments are described in detail with reference to the accompanying drawings.

Drawings

Fig. 1 is a flowchart illustrating an embodiment of a photographing control method according to the present application.

Fig. 2 is a flowchart illustrating another embodiment of the photographing control method according to the present application.

Fig. 3 is a schematic structural diagram of an embodiment of an intelligent terminal according to the present application.

Detailed Description

To further clarify the technical measures and effects taken by the present application to achieve the intended purpose, the present application will be described in detail below with reference to the accompanying drawings and preferred embodiments.

While the present application has been described in terms of specific embodiments and examples for achieving the desired objects and objectives, it is to be understood that the invention is not limited to the disclosed embodiments, but is to be accorded the widest scope consistent with the principles and novel features as defined by the appended claims.

Referring to fig. 1, fig. 1 is a schematic flow chart illustrating an embodiment of a shooting control method according to the present application.

The shooting control method according to the present embodiment may include, but is not limited to, the following steps.

Step S101, acquiring first information and terminal history shooting information corresponding to the first information.

And step S102, generating a corresponding shooting control strategy according to the first information.

And step S103, executing corresponding shooting according to the shooting control strategy.

In this embodiment, the historical shooting information of the terminal is shooting process information, and the shooting process information is at least one of shooting completion duration, shooting mode selection, and shooting closing information.

In this embodiment, the acquiring the first information specifically includes: acquiring actual feedback operation of a user in an executed shooting state mode; and generating and/or updating the first information according to the actual feedback operation. In other words, the first information of the present embodiment may include information of the user, and may also include information related to the user, such as an actual feedback operation of the user.

It should be noted that, in the present embodiment, the step of executing corresponding shooting according to the shooting control policy may specifically include: the shooting correspondence executed according to the shooting control strategy comprises a power-saving mode entering mode, a power-saving mode exiting mode, a shooting quality improving mode, a shooting quality reducing mode, a beautifying mode, a special skin color adjusting mode, an AiShow love mode, a live broadcast interaction mode, a telescope mode, a portrait change mode and a background splicing mode.

In this embodiment, the power saving mode may refer to turning off a screen, turning down brightness, etc., the shooting quality may refer to shooting with different resolutions, the beauty style mode may refer to calling different background programs to process the appearance and shape of a user, the special skin color adjustment mode may refer to appropriately adjusting skin colors such as yellow, white, black, etc. to make them clear or consistent with the environment, the AiShow love mode may refer to an image processing and beautifying mode provided by self-timer, the live broadcast interaction mode may refer to directly connecting a third-party application program and live broadcast in real time by a camera, the telescope mode may refer to zooming in or out according to the distance of a target, the portrait change mode may refer to a mode similar to adding limbs to the target, Changing head portrait, adding ornaments, etc., the background splicing mode can refer to a photo-taking mode similar to a photo sticker.

In this embodiment, the power saving mode may be to reduce system performance, even turn off the screen, and the shooting quality may be to adjust parameters of shooting, thereby adjusting resolution, and the like.

First, it should be noted that, in the present embodiment, the step of executing corresponding shooting according to the shooting control policy may specifically include: acquiring comprehensive information, and acquiring a shooting control strategy according to the comprehensive information; and executing corresponding shooting according to the shooting control strategy and the user self-portrait corresponding to the first information.

The embodiment may acquire one or more combination information including identity, likes and dislikes, age, gender, habits, real-time emotion, appearance, yellow/black/white skin color, scene characteristics, target distance, location, people, time, starting time of a shooting program, closing time of the shooting program, shooting mode of the shooting program, real-time electric quantity, simultaneously parallel programs, real-time actions of a terminal, motion trajectory of the terminal, model of the terminal, storage capacity, and characteristics of audiences, as the comprehensive information.

For example, the step of acquiring the comprehensive information in this embodiment may specifically include: acquiring first information, external environment information, shooting program operation information, intelligent terminal operation information and/or intelligent terminal hardware information as the comprehensive information.

In a further example, the step of acquiring the first information, the external environment information, the shooting program operation information, the intelligent terminal operation information, and/or the intelligent terminal hardware information as the integrated information in the embodiment may specifically include, but is not limited to, the following acquired information.

The method comprises the steps that firstly, acquired first information comprises identity, likes and dislikes, age, gender, habits and real-time emotion;

the obtained external environment information comprises places, people and time;

the obtained shooting program running information comprises the starting time, the closing time and the shooting mode of the shooting program;

the acquired running information of the intelligent terminal comprises real-time electric quantity, a parallel program, real-time terminal action and a terminal motion track;

and fifthly, the acquired hardware information of the intelligent terminal comprises the model, the capacity and the audience characteristics of the terminal.

Specifically, the above-mentioned integrated information may be integrated as: a female student of 15 years old watches sunrise at sea with great care, just starts a shooting program by using an XX mobile phone, starts social software such as WeChat and the like, prepares to take a picture of the sunrise to be shared with a circle of friends, so that obviously, the user may find a better view angle, so that time which does not need to be operated is available midway, but generally, the user does not think that the screen needs to be turned off to save power, but the user is put into the interest of shooting and sharing.

Similarly, the above-mentioned integrated information can be integrated as follows: an outdoor sport fan in the age of 45 needs to return to a road in a barren mountain and a wild ridge urgently, a shooting program is just started by using an XX mobile phone, the mobile phone is insufficient in electricity, alarm rescue software is started, the surrounding environment is ready to be shot at any time to ask for help for police and the like, so that obviously, the user can try to find a marked place continuously, no operation time is needed midway, but the power consumption of the mobile phone is considered in general, so that the user can be ensured to communicate with the outside all the time before being rescued, and the power consumption is ensured to be saved as far as possible. Therefore, the shooting control strategy should be to turn off the screen or turn down the display brightness, etc. under the user self-portrait and the current integrated information.

Therefore, it is understood that different integrated information may result in different applied photographing control strategies.

It should be noted that, the step of acquiring the comprehensive information in this embodiment may specifically include: the comprehensive information is directly obtained through at least one sensor, and/or the comprehensive information is indirectly obtained through reading the control information of the intelligent terminal.

It is to be understood that, in the present embodiment, the above-mentioned comprehensive information may be directly obtained by the sensor, or may be provided to the intelligent terminal by another device connected to the intelligent terminal, and then the intelligent terminal transfers the comprehensive information to the unit of the shooting control process.

Specifically, the step of acquiring the comprehensive information in this embodiment may specifically include: the integrated information is obtained through a distance sensor, an image sensor, a sound sensor, a gyroscope, a wired connection and/or a wireless connection.

For example, the distance sensor may be used to determine a distance between the user and the shooting interface, the image sensor may be used to obtain external environment information through a view/shoot preview window, the sound sensor may be used to monitor the voice of the user or the environment, the gyroscope may be used to determine the action of the device, and the wired or wireless connection may be used to obtain the integrated information through a network.

It should be noted that, in this embodiment, the step of obtaining the shooting control policy according to the comprehensive information specifically includes: and acquiring a shooting control strategy from a preset user strategy corresponding table according to the comprehensive information.

In other words, the embodiment can be used for formulating the shooting control strategy under various comprehensive information in advance without carrying out real-time analysis and execution, and the conditions of misjudgment and misoperation are avoided.

In this embodiment, the step of obtaining the shooting control policy from the preset user policy correspondence table according to the comprehensive information may specifically include: judging to obtain a personalized user self-portrait according to the comprehensive information, wherein the user self-portrait is used for corresponding to different use operation habits of different users; and acquiring a shooting control strategy according to the user self-portrait.

As described above, the self-portrait can be personalized and customized for the user, and in addition, the self-portrait can be stored locally, and can also be shared to the cloud for sharing to different intelligent terminals, so that the self-portrait is suitable for the user who owns or frequently changes the intelligent terminal to use in a network manner.

It should be noted that, after the step of executing the corresponding shooting according to the shooting control strategy in this embodiment, the method may further include: acquiring actual feedback operation of a user in an executed shooting state mode; and updating the first information according to the actual feedback operation.

For example, the same user may adopt different operation modes at different times or in different moods even under the same comprehensive information, and thus, the present embodiment needs to perform intelligent adjustment and update of the control strategy.

Correspondingly, the step of generating and/or updating the first information according to the actual feedback operation in this embodiment may further include: and establishing a shooting control strategy according to the generated and/or updated user self-portrait, and forming a user strategy corresponding table of one-to-one mapping between the user self-portrait and the shooting control strategy.

For convenience of understanding, the present embodiment will be described by taking the example of adjusting the brightness, i.e., whether to enter or turn off the power saving mode.

Firstly, acquiring comprehensive information in a viewfinder where an intelligent terminal screen is positioned, and identifying whether face information exists in the comprehensive information.

It is easy to understand that, in this embodiment, the comprehensive information in the view window where the screen of the intelligent terminal is located may be obtained by starting the front camera of the intelligent terminal, that is, the information shot by the front camera of the intelligent terminal is determined as the comprehensive information in the view window where the screen of the intelligent terminal is located.

Then, the embodiment may identify whether the user is currently watching the smart terminal according to the face information.

It is easy to understand that there are various methods for identifying whether the user is watching the intelligent terminal according to the face information in the embodiment, for example, angle information of the face may be obtained, and when a front face is identified, it is determined that the face is facing the screen of the intelligent terminal, and the user is watching the intelligent terminal.

Then, when the shooting program runs, the screen brightness of the intelligent terminal can be controlled according to the recognition result.

Specifically, the embodiment of the invention can also set a shooting energy-saving system in the intelligent terminal, the shooting energy-saving system and the shooting control strategy comprehensively control the screen brightness of the intelligent terminal, and the shooting energy-saving system prevents the intelligent terminal from entering a dormant state, so that the screen of the intelligent terminal is prevented from becoming completely black, and the screen brightness of the intelligent terminal can be adjusted according to the identification result.

It should be noted that, in the embodiment, the energy saving photographing system may obtain the comprehensive information in the viewfinder where the screen of the intelligent terminal is located by starting a front camera of the intelligent terminal, and the like, identify whether face information exists in the comprehensive information, identify whether a user is currently watching the intelligent terminal according to the face information, and control the screen brightness of the intelligent terminal according to the identification result.

It is easy to understand that the shooting energy saving system in this embodiment may exist in the form of a component, and the shooting energy saving system is connected to an application module, and the application module adjusts the screen brightness of the smart terminal by calling the shooting energy saving system connected to the application module. Each application module can be respectively connected with the corresponding shooting energy-saving system, and each application module controls the screen brightness of the intelligent terminal by starting the shooting energy-saving system connected with the application module.

It should be noted that, in the embodiment, the shooting energy saving system can execute the control process of the screen brightness of the intelligent terminal according to the control parameter values set by the shooting application module connected to the shooting energy saving system, so that the embodiment of the application can set different control parameter values for the shooting energy saving system according to the service requirements of different application modules, and can further adapt to different requirements of different application modules on the screen brightness of the intelligent terminal.

When the shooting energy-saving system exists in the form of components, the shooting energy-saving system has strong universality and can be applied to different intelligent terminals and/or different application modules.

In addition, in the embodiment, the shooting energy saving system may be arranged in an operating system of the intelligent terminal, and the operating system of the intelligent terminal adjusts the screen brightness of the intelligent terminal through the shooting energy saving system.

It should be noted that, in this embodiment, when the shooting energy-saving system is set in the operating system of the intelligent terminal, the value of the control parameter adopted in the control process of the screen brightness of the shooting energy-saving system setting according to the identified application module currently running in the foreground can be obtained by identifying the application module currently running in the foreground, so that the screen brightness of the intelligent terminal can be controlled according to the requirement of the application module currently running in the foreground on the screen brightness, and the requirement of different application modules on the screen brightness can be automatically adapted.

The embodiment can be applied to various intelligent operating system environments, the shooting energy-saving system can prevent the intelligent terminal from entering a dormant state according to the operating system environment where the shooting energy-saving system is located, and then the screen brightness of the intelligent terminal is controlled according to the set control parameter value. For example, when the operating system of the intelligent terminal is an android (android) system, the shooting energy saving system can prevent the intelligent terminal from entering a sleep state by controlling the wake-up lock.

In addition, the present application may also be exemplified for a user self-portrait, taking a mobile phone as an example, and the specific implementation manner is as follows.

Firstly, a user enters a shooting program to shoot and generate a photo, and content information such as time when the user enters an application, time when the photo is shot, sensor data of a period of time before the photo is shot, a portrait position acquired by preview detection before the photo is shot, and a type of an object is recorded.

Then, the user self-portrait is periodically performed according to the data generated by each shooting, and the user common shooting behaviors and contents are judged.

When the mobile phone is used, when a user enters a camera preview interface, the physical state of the mobile phone of the user, such as static state or motion degree, is judged by utilizing data of a sensor such as a gyroscope, and the like, the physical state of the mobile phone of the user is judged, whether the user uses the mobile phone for framing adjustment or waiting is judged according to the content of detected portrait, document and the like through previewing, and whether a power saving mode is triggered is determined by combining the current preview state and the coincidence degree of the portrait of the user.

If the matching degree of the current preview state and a certain user self-portrait is high, the following power saving mode can be started: closing the camera, and displaying a power saving interface to indicate that the camera is in a power saving mode at present; the screen brightness is reduced to achieve the purpose of saving electricity; the preview resolution is reduced, and the purpose of saving electricity is achieved; and closing the shooting preview effect parameters to achieve the purpose of driving power saving.

In addition, the embodiment can also start different power saving modes according to different matching degrees between the current preview state and the user self-portrait in the power saving mode.

Similarly, if the power saving mode is turned off: when the user operates the interface again or presses the physical key, the power-saving mode is exited; the user can wake up the shooting program through voice and exit the power saving mode; the embodiment can also exit the power saving mode by detecting the sensor information, such as detecting the operation of shaking the mobile phone by the user; in the power saving mode in which the proactive is used and turned on, the power saving mode is exited, such as smiling, grin, and the like, according to a user expression detected by the proactive.

In addition, the method can automatically learn and adjust the user self-portrait entering the power saving mode according to the time difference between the user entering the power saving mode and exiting the power saving mode, the user self-portrait entering the power saving mode and the user self-portrait exiting the power saving mode, so that the power saving mode is more in line with the behavior of the user. If the user triggers to exit the power saving mode process within 1 minute after entering the power saving mode, the user will be the power saving mode image again.

In summary, the embodiment of the application generates the user self-portrait during shooting without additional start detection, and then intelligently judges whether the user is in the conscious use process of the camera by combining the user self-portrait during preview, and then decides the enabled power saving scheme.

According to the method and the device, intelligent judgment processing can be carried out according to the first information and the historical shooting information of the terminal, then the shooting control strategy is obtained according to the processing result, so that the intelligent control of shooting is realized, the shooting is made to accord with the actual operation condition of a user, misoperation and misjudgment of the system are avoided, the user experience is improved, and the product and the function are more intelligent.

Referring to fig. 2, the present application further provides a shooting control method, and in the present embodiment, the shooting control method includes, but is not limited to, the following steps.

Step S201, acquiring first information and terminal history shooting information corresponding to the first information;

step S202, generating a corresponding shooting control strategy according to the first information to form a user strategy corresponding table.

It is understood that, in the embodiment, artificial intelligence can be realized by establishing a user policy correspondence table of a user self-portrait and a shooting control policy, and control accuracy and judgment accuracy of a user are improved.

As described above, in a specific application scenario, after the step of generating the corresponding shooting control policy according to the first information in this embodiment, the method may further include: acquiring comprehensive information; judging to obtain a personalized user self-portrait according to the comprehensive information; and acquiring a shooting control strategy from the user strategy corresponding table according to the user self-portrait.

In this embodiment, after the step of obtaining the shooting control policy from the user policy correspondence table based on the user self-portrait, the method may further include: and executing corresponding shooting according to the shooting control strategy.

For example, the step of executing corresponding shooting according to the shooting control policy in this embodiment may specifically include: the shooting correspondence executed according to the shooting control strategy comprises a power-saving mode entering mode, a power-saving mode exiting mode, a shooting quality improving mode, a shooting quality reducing mode, a beautifying mode, a special skin color adjusting mode, an AiShow love mode, a live broadcast interaction mode, a telescope mode, a portrait change mode and a background splicing mode.

It is easy to understand that the step of acquiring the comprehensive information in the embodiment specifically includes: acquiring first information, external environment information, shooting program operation information, intelligent terminal operation information and/or intelligent terminal hardware information as the comprehensive information.

For example, the step of acquiring the comprehensive information in this embodiment may specifically include: acquiring one or more combined information including identity, likes and dislikes, age, gender, habits, real-time emotion, appearance, yellow/black/white skin color, scene characteristics, target distance, place, person, time, starting time of a shooting program, closing time of the shooting program, shooting mode of the shooting program, real-time electric quantity, programs which are simultaneously parallel, real-time action of a terminal, motion track of the terminal, model of the terminal, storage capacity and audience characteristics to serve as comprehensive information.

For example, in one embodiment, a 45-year-old outdoor sport enthusiast needs to return to the home in a mountain and a wild mountain, uses an XX mobile phone to start a shooting program, runs short of the electric quantity of the mobile phone, and starts alarm rescue software to shoot the surrounding environment at any time to ask for help for police and the like, so that obviously, the user may try to find a landmark place continuously, so that no operation time is needed in the middle, but the user must consider the power consumption of the mobile phone in general, so as to ensure that the user can always communicate with the outside before being rescued, that is, to ensure that the power consumption is saved as much as possible, therefore, under the user self-portrait and current comprehensive information, the shooting control strategy should be to turn off the screen or turn down the display brightness and the like.

Referring to fig. 3, to solve the above technical problem, the present application further provides an intelligent terminal, as an embodiment, the intelligent terminal is configured with a processor 21, and the processor 21 is configured to execute program data to implement the shooting control method.

First, it should be noted that the smart terminal according to this embodiment may be a mobile phone, a tablet computer, a wearable device, smart glasses, a smart robot, an aircraft, or the like.

As previously described, in one embodiment:

the processor 21 is configured to obtain comprehensive information;

the processor 21 is configured to obtain a shooting control strategy according to the comprehensive information;

the processor 21 is configured to perform corresponding shooting according to the shooting control policy.

First, it should be noted that, in the present embodiment, the processor 21 is configured to execute corresponding shooting according to the shooting control policy, and specifically may include: the processor 21 is configured to perform a shooting correspondence according to the shooting control policy, including entering a power saving mode, exiting the power saving mode, improving a shooting quality mode, reducing the shooting quality mode, beautifying a face and body style mode, adjusting a special skin color, enabling an AiShow love show mode, a live broadcast interaction mode, a telescope mode, a portrait change mode, and a background splicing mode.

In this embodiment, the power saving mode may be to reduce system performance, even turn off the screen, and the shooting quality may be to adjust parameters of shooting, thereby adjusting resolution, and the like.

It should be noted that, in this embodiment, the processor 21 is configured to obtain the comprehensive information, and specifically includes: the processor 21 is configured to obtain first information, external environment information, shooting program operation information, intelligent terminal operation information, and/or intelligent terminal hardware information as the comprehensive information.

For example, the processor 21 according to this embodiment is configured to acquire the first information, the external environment information, the shooting program operation information, the intelligent terminal operation information, and/or the intelligent terminal hardware information as the integrated information, and may specifically include, but is not limited to, the following acquired information.

The method comprises the steps that firstly, acquired first information comprises identity, likes and dislikes, age, gender, habits and real-time emotion;

the obtained external environment information comprises places, people and time;

the obtained shooting program running information comprises the starting time, the closing time and the shooting mode of the shooting program;

the acquired running information of the intelligent terminal comprises real-time electric quantity, a parallel program, real-time terminal action and a terminal motion track;

and fifthly, the acquired hardware information of the intelligent terminal comprises the model, the capacity and the audience characteristics of the terminal.

Specifically, the above-mentioned integrated information may be integrated as: a female student of 15 years old watches sunrise at sea with great care, just starts a shooting program by using an XX mobile phone, starts social software such as WeChat and the like, prepares to take a picture of the sunrise to be shared with a circle of friends, so that obviously, the user may find a better view angle, so that time which does not need to be operated is available midway, but generally, the user does not think that the screen needs to be turned off to save power, but the user is put into the interest of shooting and sharing.

Similarly, the above-mentioned integrated information can be integrated as follows: an outdoor sport fan in the age of 45 needs to return to a road in a barren mountain and a wild ridge urgently, a shooting program is just started by using an XX mobile phone, the mobile phone is insufficient in electricity, alarm rescue software is started, the surrounding environment is ready to be shot at any time to ask for help for police and the like, so that obviously, the user can try to find a marked place continuously, no operation time is needed midway, but the power consumption of the mobile phone is considered in general, so that the user can be ensured to communicate with the outside all the time before being rescued, and the power consumption is ensured to be saved as far as possible.

Therefore, it is understood that different integrated information may result in different applied photographing control strategies.

It should be noted that, the processor 21 according to this embodiment is configured to acquire the comprehensive information, and specifically may include: the processor 21 is configured to directly obtain the comprehensive information through at least one sensor, and/or indirectly obtain the comprehensive information through reading control information of the intelligent terminal.

It is to be understood that, in the present embodiment, the above-mentioned comprehensive information may be directly obtained by the sensor, or may be provided to the intelligent terminal by another device connected to the intelligent terminal, and then the intelligent terminal transfers the comprehensive information to the unit of the shooting control process.

Specifically, the processor 21 according to this embodiment is configured to obtain the comprehensive information, and specifically may include: the processor 21 is configured to obtain the general information through a distance sensor, an image sensor, a sound sensor, a gyroscope, a wired connection, and/or a wireless connection.

For example, the distance sensor may be used to determine a distance between the user and the shooting interface, the image sensor may be used to obtain external environment information through a view/shoot preview window, the sound sensor may be used to monitor the voice of the user or the environment, the gyroscope may be used to determine the action of the device, and the wired or wireless connection may be used to obtain the integrated information through a network.

It should be noted that, in this embodiment, the processor 21 is configured to obtain a shooting control policy according to the comprehensive information, and specifically includes: the processor 21 is configured to obtain a shooting control policy from a preset user policy correspondence table according to the comprehensive information.

In other words, the embodiment can be used for formulating the shooting control strategy under various comprehensive information in advance without carrying out real-time analysis and execution, and the conditions of misjudgment and misoperation are avoided.

In this embodiment, the processor 21 is configured to obtain the shooting control policy from a preset user policy corresponding table according to the comprehensive information, and specifically may include: the processor 21 is configured to determine a personalized user self-portrait according to the comprehensive information, where the user self-portrait is used for corresponding to different user operation habits; and acquiring a shooting control strategy according to the user self-portrait.

As described above, the self-portrait can be personalized and customized for the user, and in addition, the self-portrait can be stored locally, and can also be shared to the cloud for sharing to different intelligent terminals, so that the self-portrait is suitable for the user who owns or frequently changes the intelligent terminal to use in a network manner.

It should be noted that, after the processor 21 is configured to execute corresponding shooting according to the shooting control policy, the method may further include: the processor 21 is configured to obtain an actual feedback operation of the user in the executed shooting status mode; and updating the first information according to the actual feedback operation.

For example, the same user may adopt different operation modes at different times or in different moods even under the same comprehensive information, and thus, the present embodiment needs to perform intelligent adjustment and update of the control strategy.

Correspondingly, the processor 21 in this embodiment is configured to generate and/or update the first information according to the actual feedback operation, and may further include: the processor 21 is configured to establish a shooting control policy according to the generated and/or updated user self-portrait, and form a user policy mapping table in which the user self-portrait and the shooting control policy are mapped one by one.

It should be particularly noted that, before the processor 21 according to this embodiment is used to obtain the comprehensive information, the processor may further include: the processor 21 is configured to obtain first information and terminal history shooting information corresponding to the first information; generating a user self-portrait according to the terminal historical shooting information; and generating a shooting control strategy according to the user self-portrait to form a user strategy corresponding table.

For convenience of understanding, the present embodiment will be described by taking the example of adjusting the brightness, i.e., whether to enter or turn off the power saving mode.

Firstly, the processor 21 is configured to obtain integrated information in a viewfinder where an intelligent terminal screen is located, and identify whether face information exists in the integrated information.

It is easy to understand that, in this embodiment, the comprehensive information in the view window where the screen of the intelligent terminal is located may be obtained by starting the front camera of the intelligent terminal, that is, the information shot by the front camera of the intelligent terminal is determined as the comprehensive information in the view window where the screen of the intelligent terminal is located.

Then, the processor 21 is configured to identify whether the user is currently gazing at the smart terminal according to the face information.

It is easy to understand that there are various methods for identifying whether the user is watching the intelligent terminal according to the face information in the embodiment, for example, angle information of the face may be obtained, and when a front face is identified, it is determined that the face is facing the screen of the intelligent terminal, and the user is watching the intelligent terminal.

Then, when the shooting program runs, the processor 21 is used for controlling the screen brightness of the intelligent terminal according to the recognition result.

Specifically, the embodiment of the invention can also set a shooting energy-saving system in the intelligent terminal, the shooting energy-saving system and the shooting control strategy comprehensively control the screen brightness of the intelligent terminal, and the shooting energy-saving system prevents the intelligent terminal from entering a dormant state, so that the screen of the intelligent terminal is prevented from becoming completely black, and the screen brightness of the intelligent terminal can be adjusted according to the identification result.

It should be noted that, in the embodiment, the energy saving photographing system may obtain the comprehensive information in the viewfinder where the screen of the intelligent terminal is located by starting a front camera of the intelligent terminal, and the like, identify whether face information exists in the comprehensive information, identify whether a user is currently watching the intelligent terminal according to the face information, and control the screen brightness of the intelligent terminal according to the identification result.

It is easy to understand that the shooting energy saving system in this embodiment may exist in the form of a component, and the shooting energy saving system is connected to an application module, and the application module adjusts the screen brightness of the smart terminal by calling the shooting energy saving system connected to the application module. Each application module can be respectively connected with the corresponding shooting energy-saving system, and each application module controls the screen brightness of the intelligent terminal by starting the shooting energy-saving system connected with the application module.

It should be noted that, in the embodiment, the shooting energy saving system can execute the control process of the screen brightness of the intelligent terminal according to the control parameter values set by the shooting application module connected to the shooting energy saving system, so that the embodiment of the application can set different control parameter values for the shooting energy saving system according to the service requirements of different application modules, and can further adapt to different requirements of different application modules on the screen brightness of the intelligent terminal.

When the shooting energy-saving system exists in the form of components, the shooting energy-saving system has strong universality and can be applied to different intelligent terminals and/or different application modules.

In addition, in the embodiment, the shooting energy saving system may be arranged in an operating system of the intelligent terminal, and the operating system of the intelligent terminal adjusts the screen brightness of the intelligent terminal through the shooting energy saving system.

It should be noted that, in this embodiment, when the shooting energy-saving system is set in the operating system of the intelligent terminal, the value of the control parameter adopted in the control process of the screen brightness of the shooting energy-saving system setting according to the identified application module currently running in the foreground can be obtained by identifying the application module currently running in the foreground, so that the screen brightness of the intelligent terminal can be controlled according to the requirement of the application module currently running in the foreground on the screen brightness, and the requirement of different application modules on the screen brightness can be automatically adapted.

The embodiment can be applied to various intelligent operating system environments, the shooting energy-saving system can prevent the intelligent terminal from entering a dormant state according to the operating system environment where the shooting energy-saving system is located, and then the screen brightness of the intelligent terminal is controlled according to the set control parameter value. For example, when the operating system of the intelligent terminal is an android system, the shooting energy-saving system can prevent the intelligent terminal from entering a sleep state by controlling the wake-up lock.

In addition, the present application may also be exemplified for a user self-portrait, taking a mobile phone as an example, and the specific implementation manner is as follows.

Firstly, a user enters a shooting program to shoot and generate a photo, and content information such as time when the user enters an application, time when the photo is shot, sensor data of a period of time before the photo is shot, a portrait position acquired by preview detection before the photo is shot, and a type of an object is recorded.

Then, the user self-portrait is periodically performed according to the data generated by each shooting, and the user common shooting behaviors and contents are judged.

When the mobile phone is used, when a user enters a camera preview interface, the physical state of the mobile phone of the user, such as static state or motion degree, is judged by utilizing data of a sensor such as a gyroscope, and the like, the physical state of the mobile phone of the user is judged, whether the user uses the mobile phone for framing adjustment or waiting is judged according to the content of detected portrait, document and the like through previewing, and whether a power saving mode is triggered is determined by combining the current preview state and the coincidence degree of the portrait of the user.

If the matching degree of the current preview state and a certain user self-portrait is high, the following power saving mode can be started: closing the camera, and displaying a power saving interface to indicate that the camera is in a power saving mode at present; the screen brightness is reduced to achieve the purpose of saving electricity; the preview resolution is reduced, and the purpose of saving electricity is achieved; and closing the shooting preview effect parameters to achieve the purpose of driving power saving.

In addition, the embodiment can also start different power saving modes according to different matching degrees between the current preview state and the user self-portrait in the power saving mode.

Similarly, if the power saving mode is turned off: when the user operates the interface again or presses the physical key, the power-saving mode is exited; the user can wake up the shooting program through voice and exit the power saving mode; the embodiment can also exit the power saving mode by detecting the sensor information, such as detecting the operation of shaking the mobile phone by the user; in the power saving mode in which the proactive is used and turned on, the power saving mode is exited, such as smiling, grin, and the like, according to a user expression detected by the proactive.

In addition, the method can automatically learn and adjust the user self-portrait entering the power saving mode according to the time difference between the user entering the power saving mode and exiting the power saving mode, the user self-portrait entering the power saving mode and the user self-portrait exiting the power saving mode, so that the power saving mode is more in line with the behavior of the user. If the user triggers to exit the power saving mode process within 1 minute after entering the power saving mode, the user will be the power saving mode image again.

In this embodiment, the intelligent terminal may be configured with a backlight module, configured to correspondingly adjust color, brightness and/or screen on/off time according to the control of the processor 21 when the processor 21 executes the shooting control policy to enter a corresponding shooting state mode.

It should be noted that, in this embodiment, the intelligent terminal may be configured with a microphone, and is used to acquire voice control information; the processor 21 is configured to execute a corresponding control instruction according to the voice control information, so as to implement shooting control.

In summary, the embodiment of the application generates the user self-portrait during shooting without additional start detection, and then intelligently judges whether the user is in the conscious use process of the camera by combining the user self-portrait during preview, and then decides the enabled power saving scheme.

According to the method and the device, intelligent judgment processing can be carried out according to the first information and the historical shooting information of the terminal, then the shooting control strategy is obtained according to the processing result, so that the intelligent control of shooting is realized, the shooting is made to accord with the actual operation condition of a user, misoperation and misjudgment of the system are avoided, the user experience is improved, and the product and the function are more intelligent.

With continuing reference to fig. 1 and 2 and the embodiments thereof, the present application further provides a computer-readable storage medium as an embodiment thereof for storing program data, which when executed by a processor, implements a shooting control method including the embodiments shown in fig. 1 and 2 and the embodiments thereof.

It should be noted that the method embodiments described herein may be machine or computer implemented, at least in part. Some examples may include a computer-readable storage medium or machine-readable storage medium encoded with instructions that may be used to configure an electronic device to perform the methods described in the above embodiments. Implementations of these methods may include code, such as microcode, assembly language code or higher level language code, and the like. Such code may include computer readable instructions for performing various methods. The code may form part of a computer program product. The code can be tangibly stored on one or more volatile, non-transitory, or non-volatile tangible computer-readable media, e.g., during execution or at other times. Examples of such tangible computer-readable storage media may include, but are not limited to, hard disks, removable magnetic disks, removable optical disks (e.g., compact disks and digital video disks), magnetic cassettes, memory cards or sticks, Random Access Memories (RAMs), Read Only Memories (ROMs), and the like.

Although the present application has been described with reference to a preferred embodiment, it should be understood that various changes, substitutions and alterations can be made herein without departing from the spirit and scope of the application, and all changes, substitutions and alterations that fall within the spirit and scope of the application are to be understood as being included within the following description of the preferred embodiment.

Claims (10)

1. A photographing control method, characterized by comprising the steps of:

acquiring first information and terminal historical shooting information corresponding to the first information;

generating a corresponding shooting control strategy according to the first information;

and executing corresponding shooting according to the shooting control strategy.

2. The photographing control method according to claim 1, wherein the terminal history photographing information is photographing process information, and the photographing process information is at least one of a photographing completion time length, a photographing mode selection, and photographing off information.

3. The shooting control method according to claim 1, wherein the acquiring of the first information specifically includes:

acquiring actual feedback operation of a user in an executed shooting state mode;

and generating and/or updating the first information according to the actual feedback operation.

4. The shooting control method according to claim 2, wherein the step of executing the corresponding shooting according to the shooting control strategy specifically includes:

the shooting correspondence executed according to the shooting control strategy comprises a power-saving mode entering mode, a power-saving mode exiting mode, a shooting quality improving mode, a shooting quality reducing mode, a beautifying mode, a special skin color adjusting mode, an AiShow love mode, a live broadcast interaction mode, a telescope mode, a portrait change mode and a background splicing mode.

5. The shooting control method according to any one of claims 1 to 4, wherein the step of performing corresponding shooting according to the shooting control strategy specifically includes:

acquiring comprehensive information, wherein the first information, external environment information, shooting program running information, intelligent terminal running information and/or intelligent terminal hardware information are acquired as the comprehensive information;

acquiring a shooting control strategy according to the comprehensive information;

and executing corresponding shooting according to the shooting control strategy and the user self-portrait corresponding to the first information.

6. The shooting control method according to claim 5, wherein the step of acquiring the integrated information specifically includes:

the comprehensive information is directly obtained through at least one sensor, and/or the comprehensive information is indirectly obtained through reading the control information of the intelligent terminal.

7. The shooting control method according to claim 6, wherein the step of generating and/or updating the first information according to the actual feedback operation further includes:

and establishing a shooting control strategy according to the generated and/or updated user self-portrait, and forming a user strategy corresponding table of one-to-one mapping between the user self-portrait and the shooting control strategy.

8. An intelligent terminal characterized in that it is provided with a processor for executing program data to realize the photographing control method according to any one of claims 1 to 7.

9. The intelligent terminal of claim 8, wherein the intelligent terminal is configured with:

and the backlight module is used for correspondingly adjusting the color, the brightness and/or the screen on/off time according to the control of the processor when the processor executes the shooting control strategy to enter a corresponding shooting state mode.

10. A computer-readable storage medium for storing program data which, when executed by a processor, implements a shooting control method including any one of claims 1 to 7.

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