CN116132781A - Micro-distance light supplementing method, micro-distance light supplementing device, computer equipment and storage medium - Google Patents

Abstract

The invention belongs to the technical field of light supplementing devices, and discloses a micro-distance light supplementing method, a micro-distance light supplementing device, computer equipment and a storage medium, wherein the method comprises the steps of acquiring light supplementing trigger information in real time, and judging whether the light supplementing trigger information meets compensation conditions or not; when the light filling triggering information meets the compensation condition, acquiring environment information and the self characteristics of the shot object; combining the environment information and the self-characteristics of the shot object to obtain a target compensation value; and performing light supplementing operation based on the target compensation value. The invention obtains the corresponding target compensation value by combining the environment information and the self characteristics of the shot object, and controls the compensation mechanism by the target compensation value, so that the compensation mechanism supplements light according to the compensation parameters required by the environment, and a clearer or more vivid photo can be shot by the micro-distance during shooting.

Description

Micro-distance light supplementing method, micro-distance light supplementing device, computer equipment and storage medium

Technical Field

The present disclosure relates to the field of light supplementing devices, and in particular, to a micro-distance light supplementing method, a micro-distance light supplementing device, a computer device, and a storage medium.

Background

Along with the continuous improvement of the mental culture demands of people, more and more people are willing to use images to record the beautiful time in life. In addition, as the functions of mobile terminals such as mobile phones become more and more powerful, not only can mobile devices such as mobile phones be used for capturing images, but also mobile phones can be used for capturing images at a very small distance.

In the process of shooting in a micro-distance mode, because the micro-distance camera of the mobile terminal is very close to a shooting object, external light is easily blocked by the mobile terminal and a photographer, so that insufficient light is caused in the shooting process, and the shot photo is poor in effect and bright in color. Therefore, how to supplement appropriate light and color of a shooting object in the macro shooting process, so as to obtain better shooting effect, is a problem to be solved urgently.

Disclosure of Invention

The main objective of the application is to provide a micro-distance light supplementing method, a micro-distance light supplementing device, computer equipment and a storage medium, and aims to solve the problem that a shooting effect is poor due to the fact that micro-distance shooting cannot conduct proper light supplementing.

In order to achieve the above object, the present application proposes a micro-distance light supplementing method, which includes:

acquiring light filling triggering information in real time, and judging whether the light filling triggering information meets compensation conditions or not;

when the light filling triggering information meets the compensation condition, acquiring environment information and the self characteristics of the shot object;

combining the environment information and the self-characteristics of the shot object to obtain a target compensation value;

and performing light supplementing operation based on the target compensation value.

Further, the acquiring the light filling triggering information in real time, and judging whether the light filling triggering information meets the compensation condition includes:

acquiring the linear distance between a distance sensor arranged on the mobile phone and the shot object;

judging whether the linear distance is within a preset range or not;

when the linear distance is within the preset range, judging whether the mobile phone is in a static state or not by using an acceleration sensor arranged on the mobile phone;

and if the mobile phone is in a static state, the light supplementing trigger information meets the compensation condition.

Further, when the light filling triggering information meets the compensation condition, the step of acquiring the environment information and the self-feature of the photographed object includes:

when the light filling triggering information meets the compensation condition, acquiring brightness and/or reflection characteristics of a shooting environment detected by an ambient light sensor arranged on the mobile phone;

and the light supplementing lamp supplements illumination light to the shot object, and the color characteristics and/or the color temperature characteristics of the shot object are detected by acquiring the color sensor arranged on the mobile phone.

Further, the acquiring the target compensation value by combining the environmental information and the self-feature of the subject includes:

acquiring brightness of a shooting environment and/or color characteristics of a shot object and/or reflection characteristics of the shot object and/or color temperature characteristics of the shot object;

judging whether the brightness of the shooting environment is larger than a preset first threshold value or not;

if the shooting environment brightness is lower than a preset first threshold value, increasing parameters of first compensation data to first target compensation parameters;

judging whether the color characteristics of the shot object are within a preset color difference range or not;

if the color characteristics of the shot object are not in the preset color difference range, adjusting the color parameters of the second compensation data to enable the color parameters of the second compensation data to correspond to the colors in the color difference range;

judging whether the parameter of the reflection characteristic of the shot object is in the range of the preset reflection light radiation intensity or not;

if the parameter of the reflection characteristic of the shot object is not in the preset range of the reflection light radiation intensity, adjusting the parameter of the first compensation data to enable the parameter of the reflection characteristic to correspond to the reflection light radiation intensity range;

judging whether the color temperature characteristics of the shot object are in a preset color temperature range or not;

and if the color temperature characteristic of the shot object is not in the preset color temperature range, adjusting the color temperature parameter of the second compensation data to enable the color temperature parameter of the second compensation data to correspond to the color temperature of the color temperature range.

Further, before the step of determining whether the color of the object is within the preset color difference range, the method includes:

judging whether the color of the shot object is a plurality of colors;

and if the color of the shot object is a plurality of colors, adjusting the color temperature parameter of the second compensation data by using a preset color temperature.

Further, the light supplementing operation includes a white light mode for adjusting light sources of a plurality of color temperatures and a color light mode for adjusting a plurality of color light sources according to three primary colors.

Further, the mobile phone is provided with a remote control mode, and the remote control mode is used for controlling the macro photography to carry out remote photographing.

The embodiment of the application also provides a micro-distance light supplementing device, which comprises:

the detection module is used for acquiring the light filling triggering information in real time and judging whether the light filling triggering information meets the compensation condition or not;

the first acquisition module is used for acquiring environment information and the self characteristics of the shot object when the light filling trigger information meets the compensation condition;

the second acquisition module is used for combining the environment information and the self characteristics of the shot object to acquire a target compensation value;

and the light supplementing module is used for carrying out light supplementing operation based on the target compensation value.

The present application also provides a computer device comprising a memory storing a computer program and a processor implementing the steps of any of the methods described above when the computer program is executed by the processor.

The present application also provides a computer readable storage medium having stored thereon a computer program which, when executed by a processor, implements the steps of the method of any of the above.

According to the micro-distance light supplementing method, the micro-distance light supplementing device, the computer equipment and the storage medium, the terminal acquires the light supplementing trigger information in real time, and because the object shot by the micro-distance camera is at a position with a relatively close distance, whether the environment information sent by the detection mechanism accords with the shooting condition of the micro-distance camera is needed to be acquired in real time, when the environment information meets the working condition of the compensation mechanism, the object shot by the micro-distance camera accords with the shooting condition, the environment information and the self characteristics of the shot object are acquired, so that the corresponding target compensation value is obtained by combining the environment information and the self characteristics of the shot object, and the compensation mechanism is controlled by the target compensation value, so that the compensation mechanism supplements light according to the compensation parameter required by the environment, and a clearer or more vivid color picture can be shot by the micro-distance.

Drawings

FIG. 1 is a schematic flow chart of a micro-distance light supplementing method according to an embodiment of the present application;

FIG. 2 is a schematic block diagram of a micro-distance light supplementing device according to an embodiment of the present application;

fig. 3 is a block diagram schematically illustrating a structure of a computer device according to an embodiment of the present application.

The realization, functional characteristics and advantages of the present application will be further described with reference to the embodiments, referring to the attached drawings.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application will be further described in detail with reference to the accompanying drawings and examples. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the present application.

Referring to fig. 1, an embodiment of the present application provides a micro-distance light supplementing method, which is applied to micro-distance photography of a mobile phone, where the mobile phone is provided with a detection mechanism and a compensation mechanism, and the detection mechanism is used for detecting environmental information; the compensation mechanism is used for receiving environment information in real time and determining a target compensation value based on the environment information, and the method comprises the following steps:

s1, acquiring light filling triggering information in real time, and judging whether the light filling triggering information meets compensation conditions or not.

In the step S1, the hardware detection mechanism and the compensation mechanism are disposed on the macro camera mobile phone, and the detection mechanism is used for detecting the environmental information, wherein the environmental information is that the environmental object shot by the macro camera uses the brightness or the color temperature of the environmental object; the environment information and the target compensation value sent by the terminal can be received by the compensation mechanism, and corresponding compensation operation is performed. The terminal acquires the light filling triggering information in real time, the light filling triggering information can be understood as that the object shot by the micro-distance camera is at a position with a relatively short distance, whether the environment information sent by the detection mechanism accords with the condition shot by the micro-distance camera is required to be acquired in real time, and whether the environment information meets the condition that the compensation mechanism starts working is judged according to the condition, so that the consumption of energy sources can be reduced, and the compensation mechanism starts working when the environment information accords with the condition.

And S2, when the light filling triggering information meets the compensation condition, acquiring environment information and the self characteristics of the shot object.

In the step S2, when the environmental information satisfies the compensation condition, it indicates that the object photographed by the macro camera meets the photographing condition, the environmental information and the self-characteristics of the photographed object (subject) are obtained, and the self-characteristics and the environmental information of the photographed object are identified, so as to facilitate the corresponding compensation by combining the self-characteristics and the external influence factors, for example: the environment information is the brightness of the shooting environment, and the self characteristics of the shooting object comprise factors such as chromatic aberration or color.

S3, combining the environment information and the self characteristics of the shot object to obtain a target compensation value.

In the step S3, the terminal obtains the target compensation value by combining the environmental information and the self-characteristics of the object to control the compensation mechanism, so that the compensation mechanism performs light compensation according to the compensation parameters required by the environment, and a clearer or more vivid photo can be taken during the shooting of the macro; the target compensation value is a value that needs to be compensated by the shooting environment, for example: and if the ambient brightness of the detection mechanism on the spot is lower, the brightness parameter of the target compensation value needs to be controlled to be increased, so that the ambient brightness is compensated, and the definition of the micro-photo is improved.

S4, performing light supplementing operation based on the target compensation value.

In the step S4, the terminal performs the light supplementing operation by combining the environmental information and the target compensation value obtained by the self-feature of the subject. After light supplementing, the shooting object can be clearer and more vivid in color, so that the macro camera can shoot in a macro mode.

As described above, the terminal acquires the light-compensating trigger information in real time, because the object photographed by the macro camera is a position close to the distance, whether the environmental information sent by the detection mechanism accords with the condition photographed by the macro camera is required to be acquired in real time, when the environmental information meets the working condition of the compensation mechanism, the condition that the object photographed by the macro camera accords with the photographing condition is indicated, the environmental information and the self characteristics of the photographed object are acquired, so that the corresponding target compensation value is obtained by combining the environmental information and the self characteristics of the photographed object, and then the compensation mechanism is controlled by the target compensation value, so that the compensation mechanism performs light compensation according to the compensation parameters required by the environment, and a photo with clearer or more vivid color can be photographed by the macro camera.

In one embodiment, the detection mechanism at least comprises a distance sensor and an acceleration sensor, wherein the distance sensor is used for detecting the linear distance between the mobile phone and the shooting object; the acceleration sensor is used for detecting the moving acceleration of the mobile phone;

the real-time acquisition of the light filling triggering information, judging whether the light filling triggering information meets the compensation condition, includes:

s21, acquiring the linear distance between the distance sensor arranged on the mobile phone and the shot object.

In the step S21, the detecting mechanism is a distance sensor of the mobile phone, and the distance sensor detects a linear distance between the mobile phone and the shooting object, and determines whether the shooting condition of the macro is satisfied according to the linear distance; judging the moving acceleration through an acceleration sensor, and judging the moving state of the mobile phone according to the moving acceleration; the terminal detects the linear distance from the mobile phone to the shooting object by acquiring the distance sensor, and judges whether the shooting condition is met or not according to the linear distance.

S22, judging whether the linear distance is within a preset range.

In the step S22, whether the macro of the mobile phone meets the shooting condition can be determined by determining whether the linear distance between the mobile phone and the shooting object detected by the distance sensor is greater than the preset distance, and focusing on the shooting object cannot be achieved when the macro camera shoots the object beyond the range, so that the shooting is unclear.

S23, when the linear distance is within the preset range, judging whether the mobile phone is in a static state or not by using an acceleration sensor arranged on the mobile phone.

In step S23, when the distance sensor detects that the linear distance from the mobile phone to the shooting object is not greater than the preset distance, the terminal starts to acquire the moving speed of the mobile phone detected by the speed sensor, and can determine that the mobile phone is in a moving or stationary state by acquiring the moving speed, when the mobile phone is in a moving state, the macro camera cannot focus on the shooting object, and when the shot photo is blurred, whether the mobile phone is in a moving state needs to be determined.

And S25, if the moving speed is in a static state, the light supplementing trigger information meets a compensation condition.

In step S25, when the speed sensor detects that the mobile speed of the mobile phone is in the stationary state, the mobile phone is in the stationary state or in the near stationary state, and the normal focusing of the macro camera is not affected in the near stationary state, so as to satisfy the compensation condition.

In an embodiment, when the light filling triggering information meets a compensation condition, the step of acquiring the environmental information and the self-feature of the subject includes:

when the light filling triggering information meets the compensation condition, acquiring brightness and/or reflection characteristics of a shooting environment detected by an ambient light sensor arranged on the mobile phone;

and the light supplementing lamp supplements illumination light to the shot object, and the color characteristics and/or the color temperature characteristics of the shot object are detected by acquiring the color sensor arranged on the mobile phone.

As described above, when the light filling triggering information is detected to meet the compensation condition, it indicates that the compensation mechanism can perform the light filling operation, the brightness of the shooting environment is detected by acquiring the ambient light sensor, and the color characteristic and/or the color temperature characteristic of the shooting object are detected by acquiring the color sensor set by the mobile phone.

It should be noted that the ambient light sensor may detect brightness and light conditions of the photographing environment, and the color sensor may detect color and/or color temperature of the photographing object. The terminal can acquire the brightness of the shooting environment detected by the ambient light sensor; the terminal can acquire the color and/or the color temperature of the shooting object detected by the color sensor; the terminal can acquire the brightness of the shooting environment detected by the ambient light sensor and the color and/or the color temperature of the shooting object detected by the color sensor, and determine the target compensation value according to the acquired brightness of the shooting environment and/or the color temperature of the shooting object, for example, when the light is insufficient, the brightness parameter of the target compensation value is adjusted to be higher, and when the color of the shooting object is not bright enough, the parameter of the color and/or the color temperature of the shooting object corresponding to the target compensation value is correspondingly adjusted to be proper color and/or color temperature, so that the shot photo is clearer and the color is more bright.

In an embodiment, the acquiring the target compensation value by combining the environmental information and the self-feature of the subject includes:

acquiring brightness of a shooting environment and/or color characteristics of a shot object and/or reflection characteristics of the shot object and/or color temperature characteristics of the shot object;

judging whether the brightness of the shooting environment is larger than a preset first threshold value or not;

if the shooting environment brightness is lower than a preset first threshold value, increasing parameters of first compensation data to first target compensation parameters;

judging whether the color characteristics of the shot object are within a preset color difference range or not;

if the color characteristics of the shot object are not in the preset color difference range, adjusting the color parameters of the second compensation data to enable the color parameters of the second compensation data to correspond to the colors in the color difference range;

judging whether the parameter of the reflection characteristic of the shot object is in the range of the preset reflection light radiation intensity or not;

if the parameter of the reflection characteristic of the shot object is not in the preset range of the reflection light radiation intensity, adjusting the parameter of the first compensation data to enable the parameter of the reflection characteristic to correspond to the reflection light radiation intensity range;

judging whether the color temperature characteristics of the shot object are in a preset color temperature range or not;

and if the color temperature characteristic of the shot object is not in the preset color temperature range, adjusting the color temperature parameter of the second compensation data to enable the color temperature parameter of the second compensation data to correspond to the color temperature of the color temperature range.

As described above, the target compensation value includes first compensation data for compensating for brightness of an environment and second compensation data for compensating for color and/or color temperature of a photographing object, by judging whether brightness of the photographing environment is greater than a preset brightness, when brightness of the photographing environment is detected to be not greater than the preset brightness, parameters of the first compensation data need to be adjusted to be first target compensation parameters so that the parameters of the first compensation data are increased, thereby realizing compensation for the brightness, and the parameters of the first compensation data can be increased by a fixed value each time to reach the first target compensation parameters to re-judge a relationship between the brightness of the photographing environment and the preset brightness; and judging whether the color of the shooting object is within a preset range of the color difference, and if the color difference of the color of the shooting object is not within the preset range of the color difference, adjusting the color parameter and/or the color temperature parameter of the second compensation data to enable the color parameter and/or the color temperature parameter of the second compensation data to be the color suitable for the preset parameter. By judging whether the reflection characteristic of the shooting object is within the set range of the radiation intensity of the reflected light, if the parameter of the reflection characteristic of the shooting object is not within the preset range of the radiation intensity of the reflected light, the brightness of the ambient light is too low, so that the radiation intensity of the reflected light is too weak, and the parameter of the first compensation data is required to be adjusted to supplement the illumination intensity, so that the reflection characteristic is adjusted. For example: in the second compensation data, the emerald/light green light supplement parameters are used when light green vegetables are identified and the dark green light supplement parameters are used when dark green leaves are identified.

In another embodiment, if the warm red color of the photographic subject is detected, the color temperature range is 900K-2000K, and when the color detection sensor detects that the color temperature is not within the range, the color temperature parameter of the second compensation data needs to be adjusted to be within the range of 900K-2000K or be as close to the range as possible (when the color temperature parameter is lower than the minimum limit color temperature parameter of the light filling device itself), so that the compensation mechanism performs light filling on the photographic subject according to the second compensation data.

In an embodiment, before the step of determining whether the color of the shooting object is within a preset color difference range, the method includes:

judging whether the color of the shooting object is a plurality of colors or not;

and if the color of the shooting object is a plurality of colors, adjusting the color temperature parameter of the second compensation data by using a preset color temperature.

As described above, when the color of the photographing object is detected as a plurality of colors, since the photographing object is a plurality of colors, the second compensation data cannot be adjusted by adjusting the color difference, it is necessary to adjust the second compensation data by using a preset color temperature parameter, for example, when the color of the photographing object is detected as a plurality of colors, the second compensation data is adjusted by a parameter of about 4000k of the preset color temperature parameter, and the photographing object of a plurality of colors is made to be light-supplemented by setting one rated light supplement parameter.

In an embodiment, the light supplementing operation includes a white light mode for adjusting light sources of a plurality of color temperatures and a color light mode for adjusting a plurality of color light sources according to three primary colors.

Referring to fig. 2, in an embodiment of the present application, a micro-distance light supplementing device is further provided, including:

the detection module 1 is used for acquiring the light filling triggering information in real time and judging whether the light filling triggering information meets the compensation condition or not;

the first acquisition module 2 is used for acquiring environment information and the self characteristics of the shot object when the light filling trigger information meets the compensation condition;

the second obtaining module 3 is used for obtaining a target compensation value by combining the environmental information and the self characteristics of the shot object;

and the light supplementing module 4 is used for carrying out light supplementing operation based on the target compensation value.

As described above, it may be understood that each component of the micro-distance light supplementing device provided in the present application may implement a function of any one of the micro-distance light supplementing methods described above, and specific structures are not described again.

Referring to fig. 3, a computer device is further provided in the embodiment of the present application, where the computer device may be a server, and the internal structure of the computer device may be as shown in fig. 3. The computer device includes a processor, a memory, a network interface, and a database connected by a system bus. Wherein the computer is configured to provide computing and control capabilities. The memory of the computer device includes a non-volatile storage medium and an internal memory. The non-volatile storage medium stores an operating system, computer programs, and a database. The memory provides an environment for the operation of the operating system and computer programs in the non-volatile storage media. The database of the computer device is data such as light filling data. The network interface of the computer device is used for communicating with an external terminal through a network connection. The computer program, when executed by a processor, implements a macro light supplementing method, apparatus, computer device and storage medium.

The processor executes the micro-distance light supplementing method, which comprises the following steps: acquiring light filling triggering information in real time, and judging whether the light filling triggering information meets compensation conditions or not; when the light filling triggering information meets the compensation condition, acquiring environment information and the self characteristics of the shot object; combining the environment information and the self-characteristics of the shot object to obtain a target compensation value; and performing light supplementing operation based on the target compensation value.

An embodiment of the present application further provides a computer readable storage medium having a computer program stored thereon, which when executed by a processor, implements a macro light supplementing method, including: acquiring light filling triggering information in real time, and judging whether the light filling triggering information meets compensation conditions or not; when the light filling triggering information meets the compensation condition, acquiring environment information and the self characteristics of the shot object; combining the environment information and the self-characteristics of the shot object to obtain a target compensation value; and performing light supplementing operation based on the target compensation value.

According to the micro light supplementing method, the micro light supplementing device, the computer equipment and the storage medium, the terminal acquires the light supplementing trigger information in real time, and because the object shot by the micro camera is a position with a relatively close distance, whether the environment information sent by the detection mechanism accords with the shooting condition of the micro camera is required to be acquired in real time, when the environment information meets the working condition of the compensation mechanism, the object shot by the micro camera accords with the shooting condition, the environment information and the self characteristics of the shot object are acquired, so that the corresponding target compensation value is obtained by combining the environment information and the self characteristics of the shot object, and then the compensation mechanism is controlled by the target compensation value, so that the compensation mechanism supplements light according to the compensation parameters required by the environment, and a clearer or more vivid color picture can be shot by the micro camera.

Those skilled in the art will appreciate that implementing all or part of the above described methods may be accomplished by way of a computer program stored on a non-transitory computer readable storage medium, which when executed, may comprise the steps of the embodiments of the methods described above. Any reference to memory, storage, database, or other medium provided herein and used in embodiments may include non-volatile and/or volatile memory. The nonvolatile memory can include Read Only Memory (ROM), programmable ROM (PROM), electrically Programmable ROM (EPROM), electrically Erasable Programmable ROM (EEPROM), or flash memory. Volatile memory can include Random Access Memory (RAM) or external cache memory. By way of illustration and not limitation, RAM is available in a variety of forms such as Static RAM (SRAM), dynamic RAM (DRAM), synchronous DRAM (SDRAM), dual speed data rate SDRAM (SSRSDRAM), enhanced SDRAM (ESDRAM), synchronous Link DRAM (SLDRAM), memory bus direct RAM (RDRAM), direct memory bus dynamic RAM (DRDRAM), and memory bus dynamic RAM (RDRAM), among others.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, apparatus, article, or method that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, apparatus, article, or method. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, apparatus, article or method that comprises the element.

The foregoing description is only of the preferred embodiments of the present application, and is not intended to limit the scope of the claims, and all equivalent structures or equivalent processes using the descriptions and drawings of the present application, or direct or indirect application in other related technical fields are included in the scope of the claims of the present application.

Claims (10)

1. The micro-distance light supplementing method is applied to micro-distance photography of a mobile phone and is characterized by comprising the following steps of:

acquiring light filling triggering information in real time, and judging whether the light filling triggering information meets compensation conditions or not;

when the light filling triggering information meets the compensation condition, acquiring environment information and the self characteristics of the shot object;

combining the environment information and the self-characteristics of the shot object to obtain a target compensation value;

and performing light supplementing operation based on the target compensation value.

2. The micro-distance light filling method according to claim 1, wherein the acquiring the light filling trigger information in real time, and determining whether the light filling trigger information meets a compensation condition, comprises:

acquiring the linear distance between a distance sensor arranged on the mobile phone and the shot object;

judging whether the linear distance is within a preset range or not;

when the linear distance is within the preset range, judging whether the mobile phone is in a static state or not by using an acceleration sensor arranged on the mobile phone;

and if the mobile phone is in a static state, the light supplementing trigger information meets the compensation condition.

3. The macro light filling method according to claim 1, wherein the step of acquiring the environmental information and the self-feature of the subject when the light filling trigger information satisfies a compensation condition includes:

when the light filling triggering information meets the compensation condition, acquiring brightness and/or reflection characteristics of a shooting environment detected by an ambient light sensor arranged on the mobile phone;

and the light supplementing lamp supplements illumination light to the shot object, and the color characteristics and/or the color temperature characteristics of the shot object are detected by acquiring the color sensor arranged on the mobile phone.

4. The micro-distance light supplementing method according to claim 1, wherein the acquiring the target compensation value by combining the environmental information and the self-feature of the subject includes:

acquiring brightness of a shooting environment and/or color characteristics of a shot object and/or reflection characteristics of the shot object and/or color temperature characteristics of the shot object;

judging whether the brightness of the shooting environment is larger than a preset first threshold value or not;

if the shooting environment brightness is lower than a preset first threshold value, increasing parameters of first compensation data to first target compensation parameters;

judging whether the color characteristics of the shot object are within a preset color difference range or not;

if the color characteristics of the shot object are not in the preset color difference range, adjusting the color parameters of the second compensation data to enable the color parameters of the second compensation data to correspond to the colors in the color difference range;

judging whether the parameter of the reflection characteristic of the shot object is in the range of the preset reflection light radiation intensity or not;

if the parameter of the reflection characteristic of the shot object is not in the preset range of the reflection light radiation intensity, adjusting the parameter of the first compensation data to enable the parameter of the reflection characteristic to correspond to the reflection light radiation intensity range;

judging whether the color temperature characteristics of the shot object are in a preset color temperature range or not;

and if the color temperature characteristic of the shot object is not in the preset color temperature range, adjusting the color temperature parameter of the second compensation data to enable the color temperature parameter of the second compensation data to correspond to the color temperature of the color temperature range.

5. The micro light supplementing method according to claim 4, wherein the step of judging whether the color of the object is within a preset color difference range comprises:

judging whether the color of the shot object is a plurality of colors;

and if the color of the shot object is a plurality of colors, adjusting the color temperature parameter of the second compensation data by using a preset color temperature.

6. The micro-scale light filling method according to claim 1, wherein the light filling operation includes a white light mode for adjusting light sources of a plurality of color temperatures and a color light mode for adjusting a plurality of color light sources according to three primary colors.

7. The micro-distance light supplementing method according to claim 1, wherein the mobile phone is provided with a remote control mode, and the remote control mode is used for controlling micro-distance photography to conduct remote photographing.

8. The utility model provides a micro-distance light filling device which characterized in that includes:

the detection module is used for acquiring the light filling triggering information in real time and judging whether the light filling triggering information meets the compensation condition or not;

the first acquisition module is used for acquiring environment information and the self characteristics of the shot object when the light filling trigger information meets the compensation condition;

the second acquisition module is used for combining the environment information and the self characteristics of the shot object to acquire a target compensation value;

and the light supplementing module is used for carrying out light supplementing operation based on the target compensation value.

9. A computer device comprising a memory and a processor, the memory storing a computer program, characterized in that the processor implements the steps of the method of any of claims 1 to 7 when the computer program is executed.

10. A computer readable storage medium, on which a computer program is stored, characterized in that the computer program, when being executed by a processor, implements the steps of the method of any of claims 1 to 7.

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