WO2014124588A1 - Method for shooting with portable device and portable device - Google Patents

Abstract

Disclosed in the present application are a method for shooting with portable device and the portable device. The method comprises: receiving, by the portable device, a sensing signal sensed when the portable device approaches a sensor in a shooting mode; generating a corresponding shooting control signal according to the sensing signal; and controlling the shooting according to the shooting control signal. In this way, the portable device can be triggered for shooting without a touch screen or pressing a physical key or shaking the portable device, so that a jitter operation in the shooting process can be effectively prevented and photos with relatively high quality can be shot.

Description

 Method for photographing with portable device and portable device The present application claims to be Chinese Patent Application No. 201310051895.7, entitled "Method for Photographing with Portable Devices and Portable Device", filed on February 17, 2013, Chinese Patent Application No. 201310051895.7 Priority is hereby incorporated by reference in its entirety. Technical field

 The present invention relates to the field of communication technologies, and in particular, to a method and a portable device for taking pictures using a portable device. Background technique

 With the development of network technology, Internet communication has gradually become a trend. When many users go to social networking sites such as Weibo and Renren, they often need to upload photos, and often they can't find others to help take pictures. Therefore, you need to take pictures of yourself. For example, if a person is traveling at home or alone, they may need to take a selfie. Usually, the front camera of an electronic device is mostly used for self-portraits.

 However, the current general electronic equipment, due to limitations of hardware settings, may not have a low resolution of the front camera or the front camera, which often results in a self-timer photo quality is not good enough.自 Self-portraits with the rear camera of the electronic device often require touching the screen of the electronic device or pressing the physical buttons on the electronic device to take a photo. This will also cause the electronic device to shake when taking a picture and affect the quality of the photo. Summary of the invention

 The technical problem solved by the present application is to provide a method for taking a picture using a portable device and a portable device, which can automatically trigger a picture and take a relatively clear high quality picture.

In view of this, an embodiment of the present invention provides a method for photographing by using a portable device and a portable device, so as to trigger a photographing by an inductive signal of a proximity sensor, without touching the screen or pressing a physical button, and without shaking the portable device. It can trigger the shooting, which can effectively prevent the shaking operation during the shooting process and take a higher quality photo. The first aspect provides a method for taking a photograph by using a portable device, including: in a photographing mode, the portable device receives a sensing signal sensed by the proximity sensor; and generating a corresponding photographing control signal according to the sensing signal; The photographing control signal performs photographing control.

 With reference to the first aspect, in a first possible implementation manner, the step of generating a corresponding photographing control signal according to the sensing signal comprises: acquiring a change of the sensing signal within a predetermined time; if the sensing signal Generating a photographing control signal for photographing at a first predetermined time from an initial value to a maximum value, and changing from the maximum value to the initial value at a second predetermined time; The step of taking control of the photographing comprises: automatically taking a photograph according to the photographing control signal for taking the photographing.

 With reference to the first aspect or the first possible implementation manner of the first aspect, in a second possible implementation manner, the step of acquiring the change of the sensing signal within a predetermined time comprises: acquiring the first predetermined The time during which the sensing signal is increased from an initial value until a maximum value and the sensing signal is changed from the maximum value to the initial value in a second predetermined time; the obtaining is within a first predetermined time Before the step of increasing the initial value to a maximum value, before the step of acquiring the sensing signal from the maximum value to the initial value in the second predetermined time, the method further includes: generating an automatic photo preparation The photographing control signal of the action; the step of performing photographing control according to the photographing control signal comprises: automatically performing a photographing preparation action according to the photographing control signal for automatically performing the photographing preparation action.

 With reference to the first aspect or the second possible implementation manner of the first aspect, in a third possible implementation manner, after the step of automatically performing a photo preparation operation, acquiring the sensing signal by the second predetermined time Before the step of changing the maximum value to the initial value, the method further includes: outputting a prompt that the photographing preparation action is completed.

 With reference to the first aspect or the third possible implementation manner of the first aspect, in a fourth possible implementation manner, after the step of outputting the prompt for completing the photographing preparation action, the method further includes: receiving a voice corresponding to the photographing Command and take pictures automatically.

With reference to the first aspect or the first possible implementation manner of the first aspect, in a fifth possible implementation manner, if the sensing signal is increased from an initial value by a first predetermined time a maximum value, and changing from the maximum value to the initial value at the second predetermined time, the step of generating the photographing control signal for photographing comprises: if the sensing signal is increased by an initial value at a first predetermined time Up to a maximum value, and changing from the maximum value to the initial value at the second predetermined time, generating the photographing control signal that automatically takes a preset number of times to take a photograph in a preset time; The step of automatically taking a photo by the photographing control signal comprises: automatically taking a preset number of photographs within a preset time according to the photographing control signal automatically taking a preset number of times in a preset time.

 With reference to the first aspect, in a seventh possible implementation, before the step of receiving, by the proximity device, the sensing signal sensed by the proximity sensor in the photographing mode, the method further includes: receiving a setting instruction, according to the The setting instruction sets the photographing mode.

 With reference to the first aspect, or the seventh possible implementation manner of the first aspect, in the eighth possible implementation manner, the receiving the setting instruction, the step of setting the photographing mode according to the setting instruction comprises: receiving The setting instruction is configured to set at least one of a scene mode, a screen processing, a prompt, a continuous shooting, a camera selection, and a response mode according to the setting instruction.

 In a second aspect, a portable device is provided, including a sensing module, a conversion module, and a control module, where: the sensing module is configured to receive a sensing signal sensed by a proximity sensor in a photographing mode, and send the sensing information a conversion module; the conversion module is configured to generate a corresponding camera control signal according to the sensing signal, and send the camera control signal to the control module; the control module is configured to use the camera control signal according to the Take photo control.

 With reference to the second aspect, in a first possible implementation manner, the converting module is specifically configured to acquire a change of the sensing signal within a predetermined time, when the sensing signal is increased by an initial value at a first predetermined time When the maximum value is changed to the initial value, and the second predetermined time is changed from the maximum value to the initial value, the photographing control signal for taking a photograph is generated; the control module is specifically configured to perform a photographing control signal according to the photographing Take pictures automatically.

With reference to the second aspect or the first possible implementation manner of the second aspect, in a second possible implementation manner, the converting module is further configured to acquire, by using the initial value, the sensing signal is increased in the first predetermined time Obtaining the sensing signal for a second predetermined time after a maximum value The photographing control signal for automatically performing the photographing preparation action is generated; the control module is further configured to automatically perform the photographing preparation action according to the photographing control signal for automatically performing the photographing preparation action.

 In conjunction with the second aspect or the second possible implementation of the second aspect, in a third possible implementation manner, the device further includes a prompting module, configured to output a prompt for completing the photographing preparation action.

 In conjunction with the second aspect or the third possible implementation manner of the second aspect, in a fourth possible implementation manner, the device further includes a voice triggering module, configured to receive a voice command corresponding to the photographing and automatically take a photograph.

 With reference to the second aspect, in a fourth possible implementation manner, the device further includes a setting module, configured to receive a setting instruction, and set the photographing mode according to the setting instruction.

 The beneficial effects of the present application are as follows: In the case of the prior art, the portable device receives the sensing signal sensed by the proximity sensor in the photographing mode, and performs photographing control according to the photographing control signal generated by the sensing signal. The photographing is triggered by the proximity sensor's sensing signal, and the photographing can be triggered without touching the screen or pressing the physical button, and the portable device can be triggered without shaking the portable device, thereby effectively preventing the shaking operation during the photographing process and taking a relatively high quality photograph. DRAWINGS

 1 is a schematic block diagram of a proximity sensor in an embodiment of the present application;

 2 is a flow chart of an embodiment of a method for photographing using a portable device;

 3 is a flow chart of another embodiment of a method for photographing using a portable device of the present application;

4 is a schematic structural view of one embodiment of the portable device of the present application; FIG. 5 is a schematic structural view of one embodiment of the portable device of the present application; FIG. 6 is a schematic structural view of one embodiment of the portable device of the present application; A schematic structural view of one embodiment of a portable device. detailed description Referring to FIG. 2, an embodiment of a method for photographing by using a portable device includes:

 Step S101: In the photographing mode, the portable device receives the sensing signal sensed by the proximity sensor;

 The proximity sensor is a sensor that detects the proximity of an object. Proximity can indicate the coming, close or appearing, leaving or missing of an object. Proximity sensors are widely used in production processes and daily life. They can be used to detect and count, and can also form proximity switches with relays or other actuators to achieve automatic control of equipment and safety of operators.

 The proximity sensor in the embodiment of the present application may be any one of the existing proximity sensors. For example, but not limited to, proximity light sensors, pyroelectric sensors, capacitive sensors, inductive sensors, and the like.

 In the present embodiment, the proximity sensor uses a proximity light sensor, and its operation principle is shown in FIG. 1. The proximity light sensor 100 includes an infrared emitting device (IR) 11, an optical sensing sensor (ALS) 12, and an analog-to-digital converter (ADC) 13, The infrared emitting device 11 emits an infrared signal 101. If no object approaches the sensor, the infrared light is not received by the light sensing sensor 12, and the analog signal received by the analog to digital converter 13 is smaller, and the output digital quantity is also smaller; When an object approaches the light sensing sensor 12, the infrared signal 101 emitted by the infrared emitting device 11 is reflected back by the object, and the light sensing sensor 12 receives the reflected infrared signal 101 and outputs a signal according to the magnitude of the returned light, the analog to digital converter. 13 detects the specific digital quantity of this signal output. When an object is occluded, the analog-to-digital converter 13 outputs a large amount of digital. According to the change in the magnitude of the digital output from the analog-to-digital converter 13 (the maximum value of the digital quantity is related to the number of bits of the analog-to-digital converter 13 inside the photo-sensing sensor), it can be judged whether an object approaches or leaves.

 Normally, the portable device receives the setting command, sets the photographing mode according to the setting command, and enters the photographing mode.

 The photographing mode includes at least one of a scene, a screen processing, a prompt, a continuous shooting, a camera selection, and a response mode.

 Scenes such as night shot mode, beach mode, bar mode, etc. can be selected when taking pictures with a camera on a mobile phone.

Picture processing refers to the processing of photos after taking photos, such as black and white pictures, studio pictures. and many more.

 The prompt refers to the prompt for the photo preparation process, such as prompting to capture the image or giving the corresponding sound, vibration, etc. after successful focusing, or starting to capture the image or start focusing to give the prompt sound until the captured image is completed. Or the sound stops after the focus is successful.

 Continuous shooting means that the user can set the continuous shooting according to the needs, that is, the camera continuously performs the preset number of times according to the user's settings after one trigger.

 Camera selection means that the user can choose to take a picture with the front or rear camera of the portable device.

 The response mode means that the user can prevent the user from touching the screen or the bottom virtual button to prevent false triggering. In the camera mode, the touch button does not respond, and the screen only responds to a specific more complex touch gesture (similar to unlocking). When the screen detects this more complex touch gesture, the screen and touch buttons return to normal.

 In the photographing mode, the portable device receives the sensing signal sensed by the proximity sensor. The induced signal here is a signal indicating the proximity of the object. Taking the proximity light sensor as an example, the light-sensing sensor receives the infrared light emitted by the infrared light-emitting device inside the portable device and is reflected back, and is converted by the analog-to-digital converter to obtain an induced signal.

 Step S102: Generate a corresponding photographing control signal according to the sensing signal;

 Usually, the sensed sensing signal has a change process. For example, when the object approaches the proximity sensor, the sensed sensing signal gradually increases from an initial value to a maximum value, and the object is away from the proximity sensor. The induced signal changes from the maximum value back to the initial value. It is possible to set a change mode in which the sensing signal is gradually increased from the initial value to a maximum value in the first predetermined time, and then changed from a maximum value to an initial value in the second predetermined time, as a mode for automatically triggering the photographing, as long as The change of the sensing signal conforms to the mode, and a photographing control signal for automatically taking a photo is generated, and the photographing is automatically triggered.

 In the actual application process, it may be preset that when the sensing signal gradually increases from an initial value to a maximum value within a first predetermined time, a photographing control signal for automatically performing a photographing preparation action is generated, and the photographing preparation action is automatically performed, for example, Capture images, autofocus, and more.

Further, it is also possible to set the output phase after the automatic photo preparation operation is completed. You should take a picture to prepare for the completion of the action, such as the voice prompt for successful focus, vibration prompts, and so on. Another way of prompting may be to start focusing or capturing an image accompanied by focusing or capturing the sound of the image. When the focusing is successful or the captured image is completed, the focus is stopped or the sound of the captured image is taken as a reminder that the photo preparation operation is completed.

 When the sensing signal is gradually increased from the initial value to a maximum value within the first predetermined time, and is changed back to the initial value by a maximum value within the second predetermined time, a photographing control signal for automatically taking a photograph is generated, that is, automatically triggered. The control signal for taking pictures.

 If the user presets the photographing mode with continuous shooting, a photographing control signal that automatically takes a preset number of times to take a photograph at a preset time is generated. For example, the user presets a photographing mode of 3 consecutive shots in 15 seconds, and automatically triggers 3 consecutive photographs within 15 seconds.

 Of course, it is also possible to generate different photo control signals corresponding to the actual need to set the change of the sensing signal.

 Step S103: Perform photographing control according to the photographing control signal;

 When the change of the sensing signal conforms to the preset mode of automatically triggering the photographing, that is, the sensing signal gradually increases from the initial value to a maximum value within the first predetermined time, and is further changed from a maximum value in the second predetermined time. When the initial value is returned, a photo control signal (ie, a control signal that automatically triggers the photographing) is automatically generated, and the photographing is automatically triggered according to the photographing control signal.

 If the user has preset the continuous shooting mode, it will automatically trigger the preset number of times to take the photo within the preset time.

 After the photo is taken according to the photo control signal, the user can upload, delete, beautify, etc. the photo as needed.

 Through the foregoing description of the embodiments, it can be understood that, in the photographing mode, the portable device receives the sensing signal sensed by the proximity sensor, and performs photographing control according to the photographing control signal generated by the sensing signal. The photograph is triggered by the proximity sensor's sensing signal, and the photographing can be triggered without touching the screen or pressing the physical button, and the portable device can be triggered without shaking the portable device, thereby effectively preventing the shaking operation during the photographing process and taking a relatively high-quality photograph.

Referring to FIG. 3, another embodiment of the method for taking a photo using a portable device includes: Step S201: Receive a setting instruction, and set a photographing mode according to the setting instruction; generally, before receiving the photographing, receiving a setting instruction of the user, and setting the photographing mode according to the setting instruction.

 The photographing mode includes at least one of a scene, a screen processing, a prompt, a continuous shooting, a camera selection, and a response mode.

 Scenes such as night shot mode, beach mode, bar mode, etc. can be selected when taking pictures with a camera on a mobile phone.

 Picture processing refers to the processing of photographs after photographing, such as black and white pictures, photo studio pictures, and so on.

 The prompt refers to the prompt for the photo preparation process, such as prompting to capture the image or giving the corresponding sound, vibration, etc. after successful focusing, or starting to capture the image or start focusing to give the prompt sound until the captured image is completed. Or the sound stops after the focus is successful.

 Continuous shooting means that the user can set the continuous shooting according to the needs, that is, the camera continuously performs the preset number of times according to the user's settings after one trigger.

 Camera selection means that the user can choose to take a picture with the front or rear camera of the portable device.

 The response mode means that the user can prevent the user from touching the screen or the bottom virtual button to prevent false triggering. In the camera mode, the touch button does not respond, and the screen only responds to a specific more complex touch gesture (similar to unlocking). When the screen detects this more complex touch gesture, the screen and touch buttons return to normal.

 Step S202: In the photographing mode, the portable device receives the sensing signal sensed by the proximity sensor;

 Step S203: generating a photographing control signal for automatically performing a photographing preparation action when the sensing signal is increased from the initial value to a maximum value in the first time;

Usually, the sensed sensing signal has a change process. For example, when the object approaches the proximity sensor, the sensed sensing signal gradually increases from an initial value to a maximum value, and the object is away from the proximity sensor. The induced signal changes from the maximum value back to the initial value. The mode in which the sensing signal is gradually increased from the initial value to the maximum value in the first predetermined time may be set as a mode for automatically performing the photo preparation operation, and the image is automatically prepared as long as the change of the sensing signal conforms to the mode. The action photo control signal automatically triggers the photo preparation action.

 Of course, it is also possible to generate different photo control signals corresponding to the actual need to set the change of the sensing signal.

 Obtaining a change of the sensing signal from the initial value to a maximum value in the first predetermined time, and determining that the current state is an object such as the user's finger gradually approaching the proximity light sensor until the proximity light sensor is completely blocked, and generating an automatic photo preparation action The photo control signal automatically triggers the photo preparation action.

 Step S204: automatically performing a photo preparation operation according to the photographing control signal for automatically performing the photographing preparation action;

 When the sensing signal is increased from the initial value to a maximum value within the first predetermined time, the photographing control signal for automatically performing the photographing preparation action is automatically performed, such as capturing images, autofocus, and the like.

 Step S205: output a prompt for completing the photo preparation operation;

 After the camera preparation action is automatically performed, the corresponding prompts may be further output according to the user's preset settings, such as a voice prompt for successful focus, a vibration prompt, and the like. Another way to prompt is to start focusing or capture the image with the sound of focusing or capturing the image. When the focus is successful or the captured image is completed, stop focusing or capture the sound of the image as a reminder that the camera is ready to complete the action.

 Step S206: receiving a voice instruction corresponding to the photographing and automatically taking a photograph;

 For portable devices with voice recognition, you can set the voice trigger to take pictures as needed. After the prompt for outputting the photo preparation action is completed, the user can speak a voice command corresponding to the photograph such as 'ΌΚ', "shoot", or "egg eggplant" to trigger the automatic photographing. The portable device receives the voice command of the corresponding photograph of the user and automatically Trigger a photo.

 If the user presets the photographing mode with continuous shooting, the portable device automatically takes a preset number of times to take a photo at a preset time after receiving the voice command corresponding to the photographing.

After taking a picture according to the voice command control, if the change of the sensing signal is further received If the situation satisfies the mode of automatically triggering the photographing described in the above embodiment, the photographing may be triggered again according to the manner of the above embodiment. It is also possible to no longer respond to the sensing signal according to the user's settings. For example, if the user presets to take a photo by voice, the photo is automatically triggered according to the voice command, and then the change of the sensing signal is sensed, and the corresponding action is no longer triggered.

 After the photo is automatically completed according to the voice command, the user can upload, delete, beautify, and the like on the network.

 The two embodiments of the method for taking a photograph by using the portable device can be set by one of the two methods according to the need, and the two embodiments can be set to automatically trigger the photographing according to the need. That is, after the voice triggers the photographing, the portable device further receives the sensing signal. When the sensing signal received by the portable device meets the mode of automatically triggering the photographing according to the above embodiment, the photographing control signal generated according to the sensing signal is automatically triggered to take the photograph.

 Referring to FIG. 4 , a schematic block diagram of an embodiment of a portable device of the present application, the portable device 400 includes a sensing module 41 , a conversion module 42 , and a control module 43 . The sensing module 41 is configured to receive the proximity sensor in the photographing mode. Inductive signal, and send the sensing information to the conversion module 42;

 The proximity sensor is a sensor that detects the proximity of an object. Proximity can indicate the coming, close or appearing, leaving or missing of an object. Proximity sensors are widely used in production processes and daily life. They can be used to detect and count, and can also form proximity switches with relays or other actuators to achieve automatic control of equipment and safety of operators.

 The proximity sensor in the embodiment of the present application may be any one of the existing proximity sensors. For example, but not limited to, proximity light sensors, pyroelectric sensors, capacitive sensors, inductive sensors, and the like.

 In the photographing mode, the sensing module 41 senses the sensing signal through the proximity sensor. The induced signal here is a signal indicating the proximity of the object. Taking the proximity light sensor as an example, the light-sensing sensor receives the infrared light emitted by the infrared light-emitting device inside the portable device and is reflected back, and is converted by the analog-to-digital converter to obtain an induced signal.

The conversion module 42 is configured to generate a corresponding camera control signal according to the sensing signal, and send the camera control signal to the control module 43; Usually, the sensed sensing signal has a change process. For example, when the object approaches the proximity sensor, the sensed sensing signal gradually increases from an initial value to a maximum value, and the object is away from the proximity sensor. The induced signal changes from the maximum value back to the initial value. The mode in which the sensing signal is gradually increased from the initial value to a maximum value in the first predetermined time, and then changed from a maximum value to an initial value in the second predetermined time may be set as a mode for automatically triggering the photographing, As long as the change of the sensing signal conforms to the mode, the conversion module 42 generates a photo control signal (ie, a control signal that automatically triggers the photographing) that automatically takes a photo according to the sensing signal.

 In the actual application process, it may be preset that when the sensing signal gradually increases from an initial value to a maximum value within a first predetermined time, a photographing control signal for automatically performing a photographing preparation action is generated. As long as the sensing signal received by the conversion module 42 increases from an initial value to a maximum value within the first predetermined time, a photographing control signal for automatically performing the photographing preparation action is generated, and the photographing preparation action is automatically performed, such as capturing an image, and autofocusing. and many more.

 Of course, it is also possible to generate different photo control signals corresponding to the actual need to set the change of the sensing signal.

 The control module 43 is configured to perform photographing control according to the photographing control signal.

 The control module 43 automatically performs photographing control based on the generated photographing control signal.

 When the change of the sensing signal conforms to the preset mode of automatically triggering the photographing, that is, the sensing signal gradually increases from the initial value to a maximum value within the first predetermined time, and is further changed from a maximum value in the second predetermined time. When the initial value is returned, a photographing control signal (ie, a control signal for automatically triggering photographing) that automatically takes a photo is generated, and the control module 43 automatically triggers the photographing according to the photographing control signal.

 If the user has a photographing mode in which continuous shooting is set in advance, the control module 43 automatically triggers a preset number of times to take a photo within a preset time.

 Referring to FIG. 5, a schematic block diagram of one embodiment of a portable device of the present application, the portable device 500 includes a sensing module 41, a conversion module 42, a control module 43, a prompting module 44, and a setting module 45, wherein:

The setting module 45 is configured to receive a setting instruction, and set the photographing mode according to the setting instruction. Usually, before the photographing is taken, the setting module 45 receives the setting instruction, and sets the photographing mode according to the setting instruction.

 The photographing mode includes at least one of a scene, a screen processing, a prompt, a continuous shooting, a camera selection, and a response mode.

 Scenes such as night shot mode, beach mode, bar mode, etc. can be selected when taking pictures with a camera on a mobile phone.

 Picture processing refers to the processing of photographs after photographing, such as black and white pictures, photo studio pictures, and so on.

 The prompt refers to the prompt for the photo preparation process, such as prompting to capture the image or giving the corresponding sound, vibration, etc. after successful focusing, or starting to capture the image or start focusing to give the prompt sound until the captured image is completed. Or the sound stops after the focus is successful.

 Continuous shooting means that the user can set continuous shooting according to the needs, that is, the camera continuously shoots a preset number of times according to the user's settings after one trigger.

 Camera selection means that the user can choose to take a picture with the front or rear camera of the portable device.

 The response mode means that the user can prevent the user from touching the screen or the bottom virtual button to prevent false triggering. In the camera mode, the touch button does not respond, and the screen only responds to a specific more complex touch gesture (similar to unlocking). When the screen detects this more complex touch gesture, the screen and touch buttons return to normal.

 The sensing module 41 is configured to receive the sensing signal sensed by the proximity sensor in the photographing mode, and send the sensing information to the converting module 42.

 The conversion module 42 is configured to acquire a change condition of the sensing signal within a predetermined time, when the sensing signal is increased from the initial value to a maximum value at the first predetermined time, and is generated when the second predetermined time changes from the maximum value to the initial value. A photo control signal for taking a photo (ie, a control signal that automatically triggers a photograph:).

The conversion module 42 is further configured to: after the first predetermined time is increased from the initial value to a maximum value, before the second predetermined time sensing signal is changed from the maximum value to the initial value, generating a photo control signal for automatically performing the photo preparation operation, Automatically take photos and prepare for action, such as catching Capture images, auto focus, and more. .

 The prompting module 44 is configured to output a prompt for completing the photographing preparation action.

 After the camera preparation action is automatically performed, the prompting module 44 can further output corresponding prompts according to the user's preset settings, such as a voice prompt for successful focus, a vibration prompt, and the like. Another way to prompt is to start focusing or capture the image with the sound of focusing or capturing the image. When the focus is successful or the captured image is completed, stop the focus or capture the sound of the image as a reminder that the photo preparation action is completed.

 If the user presets the photographing mode with continuous shooting, the conversion module 42 is specifically configured to: when the sensing signal increases from the initial value to a maximum value at the first predetermined time, and changes from the maximum value to the initial value at the second predetermined time, A photographing control signal that automatically takes a preset number of photographs within a preset time period (ie, automatically triggers a control signal that takes a preset number of photographs within a preset time).

 The control module 43 is configured to automatically take a picture according to the photographing control signal for taking a picture. The control module 43 is specifically configured to automatically take a preset number of times to take a photo according to a photo control signal that is automatically taken by a preset number of times within a preset time.

 Referring to FIG. 6, a schematic block diagram of one embodiment of the portable device of the present application, the portable device 600 includes a receiving module 41, a converting module 42, a control module 43, a prompting module 44, a voice triggering module 46, and a setting module 45, wherein:

 The receiving module 41 is configured to receive the sensing signal sensed by the proximity sensor in the photographing mode, and send the sensing information to the converting module 42;

 The conversion module 42 is configured to acquire a change condition of the sensing signal within a predetermined time, and when the sensing signal increases from the initial value to a maximum value at the first predetermined time, generate a photo control signal that automatically performs a photo preparation operation (ie, automatically triggers A control signal for taking a picture preparation action); a mode for taking a picture preparation action as an automatic trigger when the sensing signal is gradually increased from an initial value to a maximum value, as long as the change of the sensing signal acquired by the conversion module 42 conforms to the mode And generating a photographing control signal for automatically performing the photographing preparation action, and transmitting the photographing control signal to the control module 43.

 Of course, it is also possible to generate different photo control signals corresponding to the actual need to set the change of the sensing signal.

The conversion module 42 acquires that the sensing signal is increased from the initial value until one during the first predetermined time. The change of the maximum value determines that the current state is an object such as the user's finger gradually approaching the proximity light sensor until the proximity light sensor is completely blocked, and a photographing control signal for automatically performing the photographing preparation action is generated.

 The control module 43 is configured to automatically perform a photo preparation operation according to a photographing control signal that automatically performs a photographing preparation operation.

 The prompting module 44 is configured to output a prompt for the completion of the photographing preparation operation after the control module 43 completes the photographing preparation operation.

 After the camera preparation action is automatically performed, the prompting module 44 can further output corresponding prompts according to the user's preset settings, such as a voice prompt for successful focus, a vibration prompt, and the like. Another way to prompt is to start focusing or capture the image with the sound of focusing or capturing the image. When the focus is successful or the captured image is completed, stop the focus or capture the sound of the image as a reminder that the photo preparation action is completed.

 The voice triggering module 46 receives the voice command corresponding to the photograph and automatically takes a photo.

 For portable devices with voice recognition, you can set the voice trigger to take pictures as needed. The user can speak the voice command corresponding to the photographing such as 'ΌΚ' and "shoot" to trigger the automatic photographing according to the prompt output by the prompting module 44. The voice triggering module 46 receives the user's voice command and automatically takes a photo.

 If the user presets the photographing mode with continuous shooting, the voice triggering module 46 automatically takes a predetermined number of times to take a photo at a predetermined time after receiving the voice command corresponding to the photographing.

 After the photo is automatically completed, the user can upload, delete, beautify, etc. the photos. The setting module 45 is used to receive the setting command and set the shooting mode according to the setting command.

 Usually, before the photographing is taken, the setting module 45 receives the setting instruction, and sets the photographing mode according to the setting instruction.

 The photographing mode includes at least one of a scene, a screen processing, a prompt, a continuous shooting, a camera selection, and a response mode.

Referring to FIG. 7, a block diagram of one embodiment of a portable device of the present application, the portable device 700 includes a processor 51, a memory 52, a proximity sensor 53, an interface 54, and a bus 55. The processor 51 is electrically connected to the memory 52 and the interface 54 via a bus 55, which may be an ISA (Industry Standard Architecture) bus, a PCI (Peripheral Component) bus, or an EISA (Extension Industry). Standard Architecture, extended industry standard architecture) bus, etc. The bus may be one or more physical lines, and when it is a plurality of physical lines, it may be divided into an address bus, a data bus, a control bus, and the like. In some other embodiments of the present application, the processor 51, the memory 52, and the interface 54 may also be directly connected through a communication line.

 Processor 51 communicates with proximity sensor 53 via interface 55.

 The processor 51 is configured to perform photographing control based on a photographing control signal generated by an inductive signal of the proximity sensor.

 The processor 51 may be a central processing unit CPU, or an Application Specific Integrated Circuit (ASIC), or one or more integrated circuits configured to implement the embodiments of the present application.

 The memory 52 is used to store relevant setting parameters for photographing and to store photos.

 The memory 52 may include a high speed RAM memory, and may also include a non-volatile memory, for example, at least one disk memory.

 The processor 51 can also be configured to receive a corresponding photo voice command to automatically trigger to take a photo. The proximity sensor 53 is configured to sense an external sensing signal, and generate a corresponding camera control signal by the sensing signal, and transmit the camera control signal to the processor 51 through the interface 54.

 The proximity sensor 53 can be any of the existing proximity sensors, such as, but not limited to, proximity sensors, capacitive sensors, inductive sensors, and the like.

 Through the foregoing description of the embodiments, it can be understood that, in the photographing mode, the portable device receives the sensing signal sensed by the proximity sensor, and performs photographing control according to the photographing control signal generated by the sensing signal. The photograph is triggered by the proximity sensor's sensing signal, and the photographing can be triggered without touching the screen or pressing the physical button, and the portable device can be triggered without shaking the portable device, thereby effectively preventing the shaking operation during the photographing process and taking a relatively high-quality photograph.

On this basis, the user can take a self-timer with a higher-pixel rear camera without using an auxiliary tool, and can set a false-triggered photographing mode as needed to avoid an ordinary touch. The mistaken shot, improve the photo effect.

 In the several embodiments provided in the present application, it should be understood that the disclosed apparatus and method may be implemented in other manners. For example, the device implementations described above are merely illustrative. For example, the division of the modules or units is only a logical function division. In actual implementation, there may be another division manner, for example, multiple units or components may be used. Combined or can be integrated into another system, or some features can be ignored, or not executed. In addition, the mutual coupling or direct coupling or communication connection shown or discussed may be an indirect coupling or communication connection through some interface, device or unit, and may be in electrical, mechanical or other form.

 The functional modules described as separate components may or may not be physically separated. The components displayed as the components may or may not be physical units, that is, may be located in one place, or may be distributed to multiple network units. . The purpose of the embodiment of the present embodiment can be achieved by selecting some or all of the units according to actual needs.

 In addition, each functional module in each embodiment of the present application may be integrated into one processing unit, or each functional module may exist physically separately, or two or more functional modules may be integrated into one unit. The above integrated unit can be implemented in the form of hardware or in the form of a software functional unit.

 The integrated unit, if implemented in the form of a software functional unit and sold or used as a standalone product, may be stored in a computer readable storage medium. Based on such understanding, the technical solution of the present application, in essence or the contribution to the prior art, or all or part of the technical solution may be embodied in the form of a software product stored in a storage medium. The instructions are included to cause a computer device (which may be a personal computer, a server, or a network device, etc.) or a processor to perform all or part of the steps of the methods described in various embodiments of the present application. The foregoing storage medium includes: a U disk, a removable hard disk, a read-only memory (ROM), a random access memory (RAM), a magnetic disk, or an optical disk, and the like, which can store program code. .

The above description is only the embodiment of the present application, and thus does not limit the scope of the patent of the present application, and the equivalent structure or equivalent process made by using the contents of the specification and the drawings of the present application is changed. The use of other technical fields, directly or indirectly, is included in the scope of patent protection of this application.

Claims

Rights request

1. A method of taking pictures using a portable device, characterized in that it includes: in the taking mode, the portable device receives an induction signal sensed by its proximity sensor;

Generate a corresponding photographing control signal according to the sensing signal;

Photographing control is performed according to the photographing control signal.

2. The method according to claim 1, characterized in that,

The sensing signal sensed by the proximity sensor increases from an initial value until a maximum value, and then decreases from the maximum value until the initial value;

The step of generating a corresponding photographing control signal according to the sensing signal includes: when the sensing signal increases from an initial value to a maximum value, generating a photographing control signal for photographing preparation, and the photographing control signal for photographing preparation is used To control the execution of the photographing preparation action; when the sensing signal decreases from the maximum value to the initial value, a photographing control signal for immediate photographing is generated, and the photographing control signal for immediate photographing is used to control the immediate execution of the photographing action;

The step of controlling photography according to the photography control signal includes:

Control the execution of the photographing preparation action according to the photographing control signal of the photographing preparation; and control the immediate execution of the photographing action according to the photographing control signal of the immediate photographing.

3. The method according to claim 2, characterized in that,

After the step of controlling the execution of the photographing preparation action according to the photographing control signal of the photographing preparation, the method further includes: outputting a prompt that the photographing preparation action is completed.

4. The method according to claim 3, characterized in that,

After the step of outputting the prompt that the photographing preparation action is completed, the method further includes: receiving a voice command corresponding to taking a photo immediately, and taking a photo immediately according to the voice command of taking a photo immediately.

5. The method according to claim 2, characterized in that,

The photographing control signal for taking pictures immediately is a photographing control signal for taking pictures immediately and continuously. The photographing control signal for taking pictures immediately and continuously is used to control the immediate execution of a preset number of photographing actions within a preset time.

6. The method according to claim 1, characterized in that,

In the photographing mode, before the step of the portable device receiving the induction signal sensed by its proximity sensor, the step further includes: receiving a setting instruction, and setting the photographing mode according to the setting instruction.

7. The method according to claim 6, characterized in that,

The step of receiving a setting instruction and setting the photographing mode according to the setting instruction includes: receiving a setting instruction, and setting at least one of scene, picture processing, prompt, continuous shooting, camera selection, and response mode according to the setting instruction. A photo mode to set.

8. A portable device, characterized by including a sensing module, a conversion module and a control module, wherein:

The induction module is used to receive the induction signal sensed by the proximity sensor in the camera mode, and send the induction information to the conversion module;

The conversion module is used to generate a corresponding photographing control signal according to the sensing signal, and send the photographing control signal to the control module;

The control module is used to control photography according to the photography control signal.

9. The device according to claim 8, characterized in that,

The sensing signal sensed by the proximity sensor increases from an initial value until a maximum value, and then decreases from the maximum value until the initial value;

Specifically, when the sensing signal increases from an initial value to a maximum value, the conversion module generates a photographing control signal for photographing preparation. The photographing control signal for photographing preparation is used to control the execution of photographing preparation actions; when the sensing signal When the maximum value decreases to the initial value, a photographing control signal for immediate photographing is generated, and the photographing control signal for immediate photographing is used to control the immediate execution of the photographing action;

The control module is specifically configured to control the execution of the photographing preparation action according to the photographing control signal of the photographing preparation; and control the immediate execution of the photographing action according to the photographing control signal of the immediate photographing.

10. The device according to claim 9, characterized in that,

The device further includes a prompt module, configured to output a prompt that the photographing preparation action is completed after performing the photographing preparation action.

11. The device according to claim 10, characterized in that,

The device also includes a voice trigger module, configured to receive a voice instruction corresponding to taking a picture immediately after inputting a prompt that the photographing preparation action is completed, and to take a picture immediately according to the voice instruction of taking a picture immediately.

12. The device according to claim 8, characterized in that,

The device also includes a setting module, configured to receive a setting instruction and set the photographing mode according to the setting instruction.