CN106034205B - Electronic equipment and information processing method - Google Patents

Abstract

The invention discloses electronic equipment and an information processing method, wherein the electronic equipment comprises an image collector and a processor, the processor is used for acquiring the current first running state of the electronic equipment and generating a first switching instruction for indicating the image collector to switch from a first collection mode to a second collection mode when the first running state meets a preset condition; and the image collector is used for switching the collection mode to a second collection mode when receiving the first switching instruction and collecting images in the second collection mode. The resolution ratio of the image acquired by the image acquirer in the first acquisition mode is different from that of the image acquired in the second acquisition mode, so that the limitation of the image resolution ratio caused by image acquisition by the image acquirer with a single resolution ratio is avoided, and the problem that the power consumption of the image acquirer is higher because the electronic equipment only operates the single acquisition mode is also avoided.

Description

Electronic equipment and information processing method

Technical Field

The present disclosure relates to the field of electronic technologies, and in particular, to an electronic device and an information processing method.

Background

With the development of electronic technology, various portable terminal devices, such as mobile phones, tablet computers, and the like, are increasing.

The image acquisition unit in the current electronic equipment only has single resolution to acquire images, so that the resolution of the acquired images is limited, and if the image acquisition unit with single resolution is used for real-time face acquisition and recognition, the power consumption of the image acquisition unit is higher.

Disclosure of Invention

The embodiment of the invention provides electronic equipment and an information processing method, which are used for solving the problems that in the prior art, only a single resolution ratio is used for acquiring an image, so that the resolution ratio of the acquired image is limited, and the power consumption is high.

The specific technical scheme is as follows:

an electronic device, comprising: a processor and an image collector, wherein,

the processor is configured to acquire a current first operating state of the electronic device, determine whether the first operating state meets a predetermined condition, and generate a first switching instruction indicating that the image collector is switched from a first acquisition mode to a second acquisition mode when the first operating state meets the predetermined condition, where a resolution of an image acquired by the image collector in the first acquisition mode is different from a resolution of an image acquired by the image collector in the second acquisition mode;

the image collector is connected with the processor and used for switching the collection mode to the second collection mode when receiving the first switching instruction and collecting images in the second collection mode.

Optionally, the image collector is further configured to collect an image in the first collection mode;

the processor is further configured to control the electronics to be in a first operating state according to the acquisition result in the first acquisition mode.

Optionally, the processor is further configured to generate a second switching instruction for instructing the image collector to switch from the second acquisition mode to the first acquisition mode when it is detected that the electronic device is in a second operation state different from the first operation state, and send the second switching instruction to the image collector.

Optionally, the method further includes:

and the sensor is connected with the processor and used for detecting the brightness value of the environment where the electronic equipment is located, generating a trigger instruction when the brightness value is greater than a second preset threshold value, and sending the trigger instruction to the processor so that the processor generates the first switching instruction.

Optionally, the image collector includes a first interface and a second interface, the image collector transmits the collected image through the first interface in the first collection mode, and the image collector transmits the collected image through the second interface in the second collection mode.

Optionally, the first interface and the second interface on the image collector are connected to the processor in the electronic device.

Optionally, the first interface of the image acquirer is connected to a main processor of the electronic device, and the second interface of the image acquirer is connected to a coprocessor of the electronic device, which is different from the main processor.

An information processing method applied to an electronic device, the method comprising:

acquiring a current first running state of the electronic equipment;

determining whether the first operating state satisfies a predetermined condition;

when the first running state meets a preset condition, generating a first switching instruction for instructing an image collector in the electronic equipment to switch from a first collection mode to a second collection mode, wherein the first switching instruction is used for instructing the image collector to switch to the second collection mode, and the resolution of an image collected by the image collector in the first collection mode is different from the resolution of an image collected in the second collection mode.

Optionally, before acquiring the first operating state of the electronic device, the method further includes:

instructing the image collector to collect images in a first collection mode;

and controlling the electronic equipment to be in a first running state according to the acquisition result in the first acquisition mode.

Optionally, after generating a first switch instruction instructing an image collector in the electronic device to switch from a first collection mode to a second collection mode, the method further includes:

when the electronic equipment is detected to be in a second running state different from the first running state, generating a second switching instruction for indicating the image collector to switch from the second collection mode to the first collection mode, and sending the second switching instruction to the image collector.

Optionally, the first interface and the second interface of the image acquirer are connected with the processor, or the first interface of the image acquirer is connected with a main processor in the electronic device, and the second interface is connected with a coprocessor in the electronic device.

The embodiment of the invention provides electronic equipment, which comprises an image collector and a processor, wherein the processor is used for acquiring a current first running state of the electronic equipment and generating a first switching instruction for instructing the image collector to switch from a first acquisition mode to a second acquisition mode when the first running state meets a preset condition; and the image collector is used for switching the collection mode to a second collection mode when receiving the first switching instruction and collecting images in the second collection mode. The resolution ratio of the image acquired by the image acquirer in the first acquisition mode is different from that of the image acquired in the second acquisition mode, so that the limitation of the image resolution ratio caused by image acquisition by the image acquirer with a single resolution ratio is avoided, and the problem that the power consumption of the image acquirer is higher because the electronic equipment only operates the single acquisition mode is also avoided. The power consumption of the image collector in the first collection mode is lower than that in the second collection mode, the image definition collected in the first collection mode is lower than that collected in the second collection mode, namely, the power consumption of the image collector can be reduced in the first collection mode, and images with higher definition can be collected in the second collection mode, so that the problem of power consumption of the image collection unit can be effectively solved, the use convenience of the image collection unit is improved, and the use experience of a user is improved.

The embodiment of the invention provides an information processing method, which comprises the following steps: the method comprises the steps of obtaining a current first running state of the electronic equipment, judging whether the first running state meets a preset condition or not, and generating a first switching instruction for indicating an image collector in the electronic equipment to be switched from a first collection mode to a second collection mode when the first running state meets the preset condition. That is, when the image collector operates in the first collection mode with low resolution, the power consumption of the image collector in the electronic equipment can be reduced; when the image collector in the electronic equipment collects the image with higher definition, the electronic equipment controls the image collector to be switched to the second collection mode to collect the high-definition image, so that the use efficiency of the image collector is improved, and the use experience of a user is further improved.

Drawings

Fig. 1 is a schematic structural diagram of an electronic device according to an embodiment of the present invention;

FIG. 2 is a schematic diagram illustrating a connection between two interfaces of an image collector and a processor according to an embodiment of the present invention;

FIG. 3 is a schematic diagram illustrating two interfaces of an image collector respectively connected to two processors according to an embodiment of the present disclosure;

fig. 4 is a flowchart of a handover method according to an embodiment of the present invention.

Detailed Description

The embodiment of the invention provides electronic equipment and an information processing method, wherein the electronic equipment comprises an image collector and a processor, the processor is used for acquiring the current first running state of the electronic equipment and generating a first switching instruction for indicating the image collector to switch from a first collection mode to a second collection mode when the first running state meets a preset condition; and the image collector is used for switching the collection mode to a second collection mode when receiving the first switching instruction and collecting images in the second collection mode. The resolution ratio of the image acquired by the image acquirer in the first acquisition mode is different from that of the image acquired in the second acquisition mode, so that the limitation of the image resolution ratio caused by image acquisition by the image acquirer with a single resolution ratio is avoided, and the problem that the power consumption of the image acquirer is higher because the electronic equipment only operates the single acquisition mode is also avoided.

The technical solution of the present invention is explained in detail by the accompanying drawings and the specific embodiments.

Fig. 1 is a schematic structural diagram of an electronic device in an embodiment of the present invention, where the electronic device includes:

the processor 101 is configured to obtain a current first operating state of the electronic device, determine whether the first operating state meets a predetermined condition, and generate a first switching instruction for instructing the image acquirer to switch from the first acquisition mode to the second acquisition mode when the first operating state meets the predetermined condition;

and the image collector 102 is connected with the processor 101, and is configured to switch the collection mode to a second collection mode when receiving the first switching instruction, and collect an image in the second collection mode.

Here the resolution of the image acquired by the image acquirer 102 in the first acquisition mode is different from the resolution of the image acquired in the second acquisition mode.

Specifically, in the embodiment of the present invention, the image collector in the electronic device may switch the collection mode according to different scenes, and the specific implementation manner has the following situations:

the first condition is as follows:

the predetermined condition in the electronic device is a sleep operation state, that is, the electronic device is in a black screen state. If the acquired current first operation state of the electronic equipment is the dormant operation state, the first operation state of the electronic equipment meets the preset condition. The electronics will generate an instruction to image collector 102 to switch from the first acquisition mode to the second acquisition mode. In this case, the resolution of the image acquired by image acquirer 102 in the first acquisition mode is greater than the resolution of the image acquired by image acquirer 102 in the second acquisition mode.

After the processor 101 generates the first switching instruction, the processor 101 sends the first switching instruction to the image collector 102, so that the image collector 102 switches its own collection mode to the second collection mode according to the first switching instruction.

Briefly, when the electronic device is in a sleep mode, i.e., in a black screen state, the processor 101 in the electronic device generates a first switching instruction to instruct the image collector 102 to switch to a second collection mode for collecting a low-resolution image. Because the electronic device is in the black screen state, the electronic device needs to light the screen when detecting that a human face appears, and does not need to accurately identify the acquired image, the processor 101 controls the image acquirer 102 to switch to the second acquisition mode, so that the power consumption of the image acquirer can be reduced, and various image acquisition modes are provided. Of course, by switching the acquisition mode of the image acquirer 102, the loss caused by long-time operation of the image acquirer 102 in the high resolution mode can be avoided.

Case two:

the predetermined condition in the electronic device is a normal operation state, that is, the electronic device is in a normal operation state, and the display screen of the electronic device is in a lighted state at this time. If the acquired first current operation state of the electronic equipment is the normal operation state, the first operation state of the electronic equipment meets the preset condition. The electronics will generate an instruction to image collector 102 to switch from the first acquisition mode to the second acquisition mode. In this case, the resolution of the image acquired by image acquirer 102 in the first acquisition mode is less than the resolution of the image acquired by image acquirer 102 in the second acquisition mode.

After the processor 101 generates the first switching instruction, the processor 101 sends the first switching instruction to the image collector 102, so that the image collector 102 switches its own collection mode to the second collection mode according to the first switching instruction.

Briefly, when the electronic device is in an operating mode in which the display screen is illuminated, the processor 101 in the electronic device generates a first switching instruction to instruct the image collector 102 to switch to a second collection mode for collecting high-resolution images. Because the electronic device needs to detect that human face feature recognition is performed and an image with high resolution is required to perform accurate recognition when the display screen of the electronic device is in a lighted state, the processor 101 controls the image collector 102 to switch to the second collection mode, so that the resolution of the image collected by the image collector can be ensured, and a plurality of image collection modes are provided.

The two situations described above illustrate that the electronic device can switch the acquisition mode of the image acquirer 102 according to different operation states or different scenes. In addition to the above two specific use cases, in a situation where the electronic device is not used, for example, the electronic device is in a sleep state or an offline state, the electronic device will instruct the image collector 102 to operate in the low resolution image collecting mode, and if the electronic device is in an operation situation where the display screen is turned on, the electronic device will instruct the image collector 102 to operate in the high resolution image collecting mode. Under the condition, the resolution of the image acquired by the image acquirer 102 when the electronic equipment is used can be ensured, and the image acquirer 102 can operate in a low-resolution image acquisition mode when the electronic equipment is not used, so that the overall power consumption of the electronic equipment is reduced, and the service life of the electronic equipment is prolonged.

Further, in the following description, the first acquisition mode of the image acquirer 102 is a low resolution acquisition mode, and the second acquisition mode is a high resolution acquisition mode.

When the electronic device is in the first operating state, the image collector 102 is to collect an image in the first collection mode, and then the processor 101 is further configured to control the electronic device to be in the first operating state according to a collection result in the first collection mode.

Specifically, the electronic device will instruct the image collector 102 to use the first acquisition mode, i.e. to use the low resolution acquisition mode, in a sleep mode or a blank screen condition. This acquisition mode can acquire an approximate outline of the image. Certainly, when the object is relatively close to the image collector 102, the image collector 102 operating in the first collection mode can also collect relatively clear images, the electronic device determines that the definition of the collected images is within a definition range, if so, the electronic device controls the electronic device to operate in a first operation state, and the first operation state is an operation state in which the display screen of the electronic device is lightened, namely the electronic device lightens the screen.

According to the method, after the electronic device enters the operation state that the display screen is lighted, the electronic device switches the image collector 102 from the first collection mode with low resolution to the second collection mode with high resolution to work, so that the image collector 102 on the electronic device can collect images with high resolution in the operation state that the display screen is lighted.

Further, in this embodiment of the present invention, the processor 101 is further configured to generate a second switching instruction instructing the image acquirer 102 to switch from the second acquisition mode to the first acquisition mode when it is detected that the electronic device is in a second operation state different from the first operation state, and send the second switching instruction to the image acquirer 102.

Specifically, the first operation state is an operation state in which the electronic device is turned on, and the second operation state is a sleep operation state. That is to say, when the electronic device is in an operating state in which the display screen is lit, the electronic device detects whether the electronic device enters a sleep operating state in real time, and if the electronic device detects that the electronic device itself enters the sleep operating state, the electronic device switches the generation instruction of the image acquirer 102 from the second acquisition mode with the high resolution to the first acquisition mode with the low resolution, so that when the electronic device is in the sleep operating state, the electronic device switches the image acquirer 102 of the electronic device itself to the first acquisition mode with the low power consumption, so that the image acquirer 102 can be normally used under the condition of the low power consumption, and the power consumption of the whole electronic device is reduced.

Further, in the embodiment of the present invention, the electronic device may further include:

and the sensor is connected with the processor 101 and is used for detecting the brightness value of the environment where the electronic equipment is located, generating a trigger instruction when the brightness value is greater than a second preset threshold value, and sending the trigger instruction to the processor 101 so that the processor 101 generates a first switching instruction.

Specifically, the sensor may detect whether a brightness value in the current environment is sufficient, if the brightness value in the current environment of the electronic device is sufficient, that is, the brightness value is greater than a second preset threshold, the electronic device may switch the image acquirer 102 to the first acquisition mode with the low resolution, and if the brightness value in the current environment of the electronic device is insufficient, that is, the brightness value is less than the second preset threshold, the electronic device may switch the image acquirer 102 to the second acquisition mode with the high resolution, so that in different light environments, the image acquirer 102 on the electronic device may acquire sufficiently clear images, and the image acquirer 102 on the electronic device may be applicable to different environments to acquire images.

Of course, besides determining the capturing mode of the image capturing device 102 by detecting the brightness value through the light sensor, the determining the capturing mode of the image capturing device 102 may also be performed through other sensors, for example, determining the capturing mode of the image capturing device 102 through an acceleration sensor, that is: when the acceleration value is detected to be large, the image collector 102 is switched to a first collection mode with low resolution; when a small acceleration value is detected, the image collector 102 switches to a second collection mode with a high resolution. Other realizable manners are not described in the embodiments of the present invention one by one.

Further, in the embodiment of the present invention, the image collector 102 on the electronic device includes a first interface and a second interface (as shown in fig. 2), and in fig. 2, the first interface and the second interface of the image collector 102 are both connected to the processor 101. The first interface is used to transmit the low resolution image, that is, the image acquired by the image acquirer 102 in the first acquisition mode is transmitted to the processor 101 through the first interface, and then transmitted to another location by the processor 101. Of course, the second interface is used to transmit the image of the high resolution point, that is, the image captured by the image capture device 102 in the second capture mode is transmitted to the processor 101 through the second interface. For example, the first Interface may be a Serial Peripheral Interface (SPI), and the second Interface may be a Mobile Industry Processor Interface (MIPI).

The first interface and the second interface can respectively transmit the images with high resolution and low resolution through different interfaces, thereby ensuring the transmission efficiency of different images and saving the resources of different interfaces.

Further, in the embodiment of the present invention, the first interface and the second interface of the image collector 102 may be connected according to the processor 101. The first interface may be connected to a main processor in the electronic device, the second interface may be connected to a coprocessor in the electronic device, and the specific connection relationship is as shown in fig. 3, then the image acquired by the image acquirer 102 in the first acquisition mode is transmitted to the main processor through the first interface, and the image acquired by the image acquirer 102 in the second acquisition mode is transmitted to the coprocessor through the second interface. Therefore, the images with different resolutions are transmitted to different processors through different interfaces, and the processing speed and the processing efficiency of the images with different resolutions are ensured.

In addition, in the embodiment of the present invention, the coprocessor is connected to the second interface of the image collector 102 and the coprocessor, so that the coprocessor can control the image collector 102 to continuously collect images with low resolution, process and judge the collected images, and the main processor remains in a sleep state. If the coprocessor judges that the acquired image meets the preset condition, the coprocessor can correspondingly control the equipment, and further, the main processor in the dormant state can be awakened. Then, the main processor switches the image collector 102 to a second collection mode, that is, the image collector 102 is instructed to collect high-definition images, so that the image collector 102 sends the high-definition images to the main processor through the first interface, and the main processor performs corresponding processing on the high-definition images. Through cooperation between the coprocessor and the main processor, not only can the processing mode of the images acquired by the image acquisition device 102 in different acquisition modes be realized, but also the images can be more effectively processed.

In response to an electronic device provided in an embodiment of the present invention, an embodiment of the present invention further provides an information processing method, and as shown in fig. 4, a flowchart of an information processing method in an embodiment of the present invention is shown, where the method includes:

s401, acquiring a current first running state of the electronic equipment;

s402, judging whether the first running state meets a preset condition or not;

and S403, when the first running state meets a preset condition, generating a first switching instruction for instructing an image collector in the electronic equipment to switch from a first collection mode to a second collection mode.

In the embodiment of the invention, the electronic device comprises a processor and an image collector connected with the processor, and after the image collector collects the image, the collected image can be sent to the processor for corresponding processing.

In the embodiment of the present invention, the image collector of the electronic device may operate two different collection modes, that is: the image acquisition device comprises a first acquisition mode and a second acquisition mode, wherein the resolution of an image acquired by the image acquisition device in the first acquisition mode is smaller than that of the image acquired in the second acquisition mode. However, the power consumption of the image collector for collecting the image in the first collection mode is less than the power consumption for collecting the image in the second collection mode.

When the current first running state of the electronic equipment is acquired, the electronic equipment judges whether the first running state meets a preset condition, and when the preset condition is met, the electronic equipment generates a first switching instruction for indicating an image collector in the electronic equipment to be switched from a first collection mode to a second collection mode.

That is to say, in the embodiment of the present invention, if the electronic device is in a sleep state or in a screen-locked state, the image collector on the electronic device is also in the sleep state, and in the sleep state, the image collecting unit in the electronic device operates in the first collecting mode, so that power consumption of the image collecting unit can be reduced. If the electronic device is in the operation state that the display screen is lighted, the image collector on the electronic device is correspondingly switched to the normal state, namely, the second collection mode, and in the second collection mode, the resolution of the image collected by the image collector is larger than that of the image collected in the first collection mode. Therefore, the electronic equipment is ensured to use different acquisition modes to acquire images by the image acquisition device on the electronic equipment in different running states, so that the image acquisition mode of the image acquisition device is more diversified, the resources of the image acquisition device can be reasonably distributed, and the power consumption of the whole electronic equipment is reduced.

Optionally, in the embodiment of the present invention, after the first switch instruction instructing the image capturing device in the electronic device to switch from the first capturing mode to the second capturing mode is generated, if the electronic device is switched to the second operating state, that is, the sleep state, the electronic equipment instructs the image collector to collect images in a first collection mode, then the electronic equipment acquires the collection result of the image collector in the first collection mode, if the definition of the images collected by the image collector in the first collection mode reaches a preset threshold value, the electronic device switches to a first operating state, where the first operating state is an operating state in which a display of the electronic device is illuminated, the electronic device lights up the screen, and the image collector is switched to operate in the second collection mode, so that the image collector can collect images with high resolution.

Of course, in the embodiment of the present invention, when the electronic device detects that the electronic device is in a second operation state different from the first operation state, the electronic device generates a second switching instruction for instructing the image collector to switch from the second acquisition mode to the first acquisition mode, and sends the second switching instruction to the image collector.

Specifically, when the electronic device is switched from a state in which the display screen is lit to a sleep state, that is, when the electronic device is in a black screen state, the electronic device generates a second switching instruction, where the second switching instruction is used as an instruction to switch the image capturing device from the second capturing mode with a high resolution to the first capturing mode with a low resolution, so that the electronic device is in the sleep state, and the image capturing device operates in the first capturing mode with a low power consumption, thereby reducing the power consumption of the whole electronic device.

Optionally, in the embodiment of the present invention, if the brightness value acquired by the optical sensor in the electronic device is less than or equal to the preset brightness, the electronic device switches the image acquirer from a first operation state of current operation to a second operation state of current operation.

And if the acquired light brightness value is larger than the preset light illumination, the electronic equipment maintains the current running state of the image collector.

Specifically, in the embodiment of the present invention, the electronic device includes an optical sensor, the optical sensor is capable of detecting a brightness value in a current environment in real time, if the brightness value is smaller than a preset brightness value, it indicates that the current environment is dark, and if the image collector operates in the first collection mode to collect an image, the image collector needs to operate in the second collection mode capable of collecting a high-definition image to collect the image, so that the electronic device switches the indication image collector to the second collection mode. Of course, if the brightness value of the current environment is more ideal, the electronic device maintains the current capture mode of the image capture device.

Further, in the embodiment of the present invention, when the image capturing device is switched from the first capturing mode in which the image capturing device is currently operating to the second capturing mode, the electronic device switches the interface for transmitting the image from the first interface in the first capturing mode to the second interface in the second capturing mode (specifically, as shown in fig. 2), where the first interface is used to transmit the image with the first definition, the second interface is used to transmit the image with the second definition, and the first definition is smaller than the second definition.

Specifically, in the embodiment of the present invention, since the resolution of the image acquired by the image acquirer in the first acquisition mode is different from the resolution of the image acquired in the second acquisition mode, that is, the sharpness of the image acquired in the first acquisition mode is smaller than that of the image acquired in the second acquisition mode. Therefore, in the embodiment of the present invention, the high definition image acquired by the image acquirer in the second acquisition mode is transmitted through a mobile industry Processor Interface (MIPI for short); the image acquired by the image acquisition device in the first acquisition mode is transmitted through a Serial Peripheral Interface (SPI for short).

The images collected by the image collector are transmitted through different interfaces, so that the images collected by the image collector can be completely transmitted to corresponding processing equipment, and the quality of the images is further ensured.

In the embodiment of the invention, when the image collector of the electronic equipment operates the first collection mode, parameter information is obtained, whether the parameter information meets the preset condition or not is judged, if the parameter information meets the preset condition, the image collector is switched from the first collection mode which is currently operated to the second collection mode, wherein, the power consumption of the image collector in the first collection mode is lower than that in the second collection mode, the definition of the image collected in the first collection mode is lower than that in the second collection mode, that is, the power consumption of the image collector in the first collection mode can be reduced, the image collector in the second collection mode can collect images with higher definition, so that the problem of power consumption of the image collector can be effectively solved, the use convenience of the image collector is improved, and the use experience of a user is improved.

While the preferred embodiments of the present application have been described, additional variations and modifications in those embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. Therefore, it is intended that the appended claims be interpreted as including preferred embodiments and all alterations and modifications as fall within the scope of the application.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present application without departing from the spirit and scope of the application. Thus, if such modifications and variations of the present application fall within the scope of the claims of the present application and their equivalents, the present application is intended to include such modifications and variations as well.

Claims (9)

1. An electronic device, comprising: a processor and an image collector, wherein,

the processor is configured to acquire a current first operating state of the electronic device, determine whether the first operating state meets a predetermined condition, and generate a first switching instruction indicating that the image collector is switched from a first acquisition mode to a second acquisition mode when the first operating state meets the predetermined condition, where a resolution of an image acquired by the image collector in the first acquisition mode is smaller than a resolution of an image acquired in the second acquisition mode, and the predetermined condition is that the electronic device is in a normal operating state and a display screen of the electronic device is in a lit state;

the image collector is connected with the processor and used for switching the collection mode to the second collection mode when receiving the first switching instruction and collecting images in the second collection mode,

the image collector is also used for collecting images in the first collection mode when the electronic equipment is in a sleep mode or a black screen state;

the processor is further configured to control the electronic device to be in a first operating state according to the acquisition result in the first acquisition mode, and specifically includes: judging whether the definition of the acquired image is within a definition range, if so, controlling the electronic equipment to be in a first running state, wherein the first running state is a state that a display screen of the electronic equipment is lightened.

2. The electronic device of claim 1, wherein the processor is further configured to generate a second switching instruction instructing the image collector to switch from the second collection mode to the first collection mode when detecting that the electronic device is in a second operation state different from the first operation state, and send the second switching instruction to the image collector.

3. The electronic device of claim 1, further comprising:

and the sensor is connected with the processor and used for detecting the brightness value of the environment where the electronic equipment is located, generating a trigger instruction when the brightness value is greater than a second preset threshold value, and sending the trigger instruction to the processor so that the processor generates the first switching instruction.

4. The electronic device of any of claims 1-3, wherein the image collector comprises a first interface through which the collected image is transmitted in the first collection mode and a second interface through which the collected image is transmitted in the second collection mode.

5. The electronic device of claim 4, wherein the first interface and the second interface on the image collector are connected with the processor in the electronic device.

6. The electronic device of claim 4, wherein the first interface on the image collector is connected with a main processor in the electronic device, and the second interface on the image collector is connected with a co-processor in the electronic device that is different from the main processor.

7. An information processing method applied to an electronic device, the method comprising:

acquiring a current first running state of the electronic equipment;

determining whether the first operating state satisfies a predetermined condition;

when the first running state meets a preset condition, generating a first switching instruction for indicating an image collector in the electronic equipment to be switched from a first collection mode to a second collection mode, wherein the first switching instruction is used for indicating the image collector to be switched to the second collection mode, the resolution of an image collected by the image collector in the first collection mode is smaller than that of the image collected in the second collection mode, and the preset condition is that the electronic equipment is in a normal running state and a display screen of the electronic equipment is in a lighting state;

before acquiring the first operating state of the electronic device, the method further includes:

when the electronic equipment is in a sleep mode or a black screen state, indicating the image collector to collect images in a first collection mode;

controlling the electronic device to be in a first operation state according to the acquisition result in the first acquisition mode, specifically comprising: judging whether the definition of the acquired image is within a definition range, if so, controlling the electronic equipment to be in a first running state, wherein the first running state is a state that a display screen of the electronic equipment is lightened.

8. The method of claim 7, wherein after generating a first switch instruction that instructs an image collector in the electronic device to switch from a first acquisition mode to a second acquisition mode, the method further comprises:

when the electronic equipment is detected to be in a second running state different from the first running state, generating a second switching instruction for indicating the image collector to switch from the second collection mode to the first collection mode, and sending the second switching instruction to the image collector.

9. The method of any of claims 7-8, wherein the first interface and the second interface of the image collector are connected to the processor, or wherein the first interface of the image collector is connected to a main processor in the electronic device and the second interface is connected to a co-processor in the electronic device.

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