Intelligent terminal shooting method and intelligent terminal
Technical Field
The invention belongs to the technical field of intelligent control, and particularly relates to an intelligent terminal shooting method and an intelligent terminal.
Background
In the prior art, when an intelligent terminal shoots, the angle of the terminal is often adjusted upwards or downwards according to a captured scene, most cameras of the current intelligent terminal cannot adjust the angle of a lens, and a user can only adjust the terminal per se, but when the terminal is adjusted, on one hand, the angle of view of a person is not matched with a terminal screen and the terminal screen is not matched with a shot object, on the other hand, the shot object presents an elevation angle or a depression angle on the screen, the reduction degree of the shot and stored object is not true, and the shot object has angle distortion; meanwhile, when a view is needed, the terminal and a person may shift or tilt to form a height difference, so that the user is inconvenienced when the user does not observe the screen well due to the fact that the eyes of the person do not observe the screen during shooting.
In the prior art, there is also a device for adjusting a camera by tracking an object, for example, patent application CN201220189110 discloses a spherical lens device which enables a lens to be adjusted in front, back, left, right, up and down directions in order to track a shooting object, so as to reduce the adjustment of the device itself for tracking the lens.
Patent application CN200510055715 discloses an image processing apparatus for correcting image distortion, which can reduce the amount of computation for correcting a picture after image reduction, but it processes a picture by a data processing method, and relies on the processing of the picture itself, and processes the picture by a computation method, which is not a true picture but a picture subjected to distortion processing, and cannot completely restore the true color of the image to be photographed, regardless of how the computation is reduced or the computation is required.
Disclosure of Invention
The invention discloses an intelligent terminal shooting method, which comprises the following steps:
detecting whether an inclined intelligent shooting program is entered; if yes, controlling the terminal to generate heat and entering an inclined or offset shooting mode; if not, the normal shooting mode is maintained.
In the intelligent terminal shooting method, the inclined intelligent shooting program specifically includes: the system comprises a linking module, a focal length measuring module and a focal length adjusting module, wherein the linking module is used for linking a camera of the intelligent terminal, starting the camera, and sending a first determination message to the focal length measuring module when the linking module is linked to the camera; after the focal length measuring module receives the first determining message, the focal length measuring module starts to acquire the distance between the eyes of the user and the terminal screen, judges whether the distance between the eyes and the terminal is greater than a first distance, if so, the focal length adjusting module adjusts the focal length and judges the offset angle between the terminal and the eyes, and if so, the terminal enters an oblique intelligent shooting program; and if the distance between the eyes and the terminal is greater than the second distance and the deviation angle between the terminal and the eyes is greater than the second deviation angle, entering an oblique intelligent shooting program.
According to the intelligent terminal shooting method, the second distance is larger than the first distance, and the second offset angle is smaller than the first offset angle.
In the intelligent terminal shooting method, the inclined intelligent shooting program specifically includes: the system comprises a linking module and an inclination angle measuring module, wherein the linking module is used for linking a camera of the intelligent terminal, starting the camera, and sending a second determination message to the inclination angle measuring module when the linking module is linked to the camera; after the inclination angle measurement module receives the second determination message, the inclination angle measurement module starts to acquire an inclination angle between the terminal screen and a vertical plane, judges whether the inclination angle is larger than a first inclination angle, and if the inclination angle is larger than the first inclination angle, enters an inclination intelligent shooting program.
According to the intelligent terminal shooting method, the control terminal generates heat, and the mode of entering the inclined or offset shooting mode specifically comprises the following steps:
and a visual angle adjusting film is arranged on the terminal screen, receives the heat, adjusts the diopter of the visual angle adjusting film according to the heat, and adjusts the visual angle of the terminal screen according to the diopter.
According to the intelligent terminal shooting method, the visual angle adjusting film comprises a middle plane film and four peripheral refraction films, the four peripheral refraction films comprise four strip-shaped states surrounding the middle plane film, the cross sections of the strip-shaped states of the four peripheral refraction films comprise three sides, two sides are equal-side-length vertical sides, the other sides are arc-shaped, one side of each vertical side is connected with the side of the middle plane film, the other side of each vertical side is parallel to the bottom surface of the middle plane film, and the four peripheral refraction films adjust the diopter according to the heat of the screen, so that when the terminal screen and the eyes deviate or incline, the visual angle displayed by the screen is enlarged, and the eyes can see the screen.
In the intelligent terminal shooting method, the shooting mode entering the inclined or offset shooting mode specifically includes:
entering an orientation adjustment display mode, detecting the pitching angle of the terminal, and adjusting the terminal angle in the orientation adjustment display mode;
the azimuth adjustment display mode is that the display area of the control display screen is slightly smaller than the display screen to make the display area form a floating state on the display screen, the floating state comprises left, right, up and down object tracking and front and back included angle adjustment, the included angle adjustment between the display area and the display screen is formed, the included angle between the display area and the display screen is automatically adjusted according to a pitch angle, and the distortion of an image shooting image caused by the pitch angle of the terminal is corrected according to the included angle.
The intelligent terminal shooting method, the entering of the azimuth adjustment display mode includes: and detecting whether the pitch angle of the terminal deviates from a threshold value, if so, automatically entering an azimuth adjustment display mode, and if not, not entering.
According to the intelligent terminal shooting method, the azimuth adjustment display mode comprises a 3D display mode.
An intelligent terminal comprises the intelligent terminal shooting method, and the intelligent terminal can carry out intelligent shooting at an inclination angle or an offset angle.
The invention discloses an intelligent shooting method, which can be applied to shooting when the visual angle of an intelligent terminal and eyes deviates or the visual angle of eyes deviates from the shooting screen due to the fact that the visual angle of the eyes deviates from the shooting screen when the intelligent terminal and the eyes deviate from the angle or the angle of inclination occurs in the shooting process, and can facilitate a user to observe the screen. The main improvement point of the invention is that the visual angle adjusting film is arranged, the change of display can be adjusted according to the change of the visual angle, the visual angle problem of the screen observed by human eyes is improved, and the visual angle can be conveniently adjusted by arranging the film which can adjust the diopter according to the heat around the common film; the other improvement point of the invention is that the intelligent shooting program is entered according to the distance, the inclination angle, the offset angle and the like, the heating of the terminal is controlled by the intelligent shooting program, and the intelligent shooting is entered by heat. The invention has another improvement that the orientation adjustment display mode is set, and the inclination angle of the shot object can be adjusted when the terminal has the inclination angle, so that the authenticity of the picture is improved, and the distortion of the picture is reduced.
Drawings
Fig. 1 is a schematic diagram of a shooting method of an intelligent terminal according to the present invention.
Fig. 2 is a schematic diagram of an embodiment of a tilted smart camera process according to the present invention.
Fig. 3 is a schematic diagram of another embodiment of the oblique smart camera program according to the present invention.
Detailed Description
The present application will now be described in further detail with reference to the drawings, it should be noted that the following detailed description is given for illustrative purposes only and is not to be construed as limiting the scope of the present application, as those skilled in the art will be able to make numerous insubstantial modifications and adaptations to the present application based on the above disclosure.
Fig. 1 is a schematic diagram illustrating a shooting method of an intelligent terminal according to the present invention.
The invention discloses an intelligent terminal shooting method, which comprises the following steps:
detecting whether an inclined intelligent shooting program is entered; if yes, controlling the terminal to generate heat and entering an inclined or offset shooting mode; if not, the normal shooting mode is maintained.
Preferably, the method for controlling the terminal to generate heat includes starting a plurality of application programs in the background to increase the running process of the CPU, or increasing the internal program circulation amount and the circulation speed of the oblique intelligent shooting program to increase the heat generation amount of the CPU in unit time, and transmitting the heat generation amount to the screen of the intelligent terminal.
Preferably, the tilt intelligent photographing program may adjust an internal circulation amount and a circulation speed according to the heat of the CPU, and increase the circulation amount and the circulation speed when the heat is insufficient, and rapidly close an unnecessary circulation of the internal program when a heat threshold is reached, so that the temperature rapidly decreases.
Preferably, the program for intelligent oblique shooting further comprises an anti-interference module, when the heat reaches a certain temperature, some programs of the terminal may start a program which is forced to stop running and generates an excessively high temperature, and the anti-interference module is forced to execute for a certain time, and after the anti-interference processing is performed, the anti-interference module is closed to execute redundant circulation. The redundant loop comprises a dead loop executed for a certain time inside the program and the like.
Fig. 2 is a schematic diagram of an embodiment of the oblique smart camera program according to the present invention.
In the intelligent terminal shooting method, the inclined intelligent shooting program specifically includes: the system comprises a linking module, a focal length measuring module and a focal length adjusting module, wherein the linking module is used for linking a camera of the intelligent terminal, starting the camera, and sending a first determination message to the focal length measuring module when the linking module is linked to the camera; after the focal length measuring module receives the first determining message, the focal length measuring module starts to acquire the distance between the eyes of the user and the terminal screen, judges whether the distance between the eyes and the terminal is greater than a first distance, if so, the focal length adjusting module adjusts the focal length and judges the offset angle between the terminal and the eyes, and if so, the terminal enters an oblique intelligent shooting program; and if the distance between the eyes and the terminal is greater than the second distance and the deviation angle between the terminal and the eyes is greater than the second deviation angle, entering an oblique intelligent shooting program.
According to the intelligent terminal shooting method, the second distance is larger than the first distance, and the second offset angle is smaller than the first offset angle.
Fig. 3 is a schematic diagram of another embodiment of the oblique smart camera program according to the present invention.
In the intelligent terminal shooting method, the inclined intelligent shooting program specifically includes: the system comprises a linking module and an inclination angle measuring module, wherein the linking module is used for linking a camera of the intelligent terminal, starting the camera, and sending a second determination message to the inclination angle measuring module when the linking module is linked to the camera; after the inclination angle measurement module receives the second determination message, the inclination angle measurement module starts to acquire an inclination angle between the terminal screen and a vertical plane, judges whether the inclination angle is larger than a first inclination angle, and if the inclination angle is larger than the first inclination angle, enters an inclination intelligent shooting program.
According to the intelligent terminal shooting method, the control terminal generates heat, and the mode of entering the inclined or offset shooting mode specifically comprises the following steps:
and a visual angle adjusting film is arranged on the terminal screen, receives the heat, adjusts the diopter of the visual angle adjusting film according to the heat, and adjusts the visual angle of the terminal screen according to the diopter.
According to the intelligent terminal shooting method, the visual angle adjusting film comprises a middle plane film and four peripheral refraction films, the four peripheral refraction films comprise four strip-shaped states surrounding the middle plane film, the cross sections of the strip-shaped states of the four peripheral refraction films comprise three sides, two sides are equal-side-length vertical sides, the other sides are arc-shaped, one side of each vertical side is connected with the side of the middle plane film, the other side of each vertical side is parallel to the bottom surface of the middle plane film, and the four peripheral refraction films adjust the diopter according to the heat of the screen, so that when the terminal screen and the eyes deviate or incline, the visual angle displayed by the screen is enlarged, and the eyes can see the screen.
Preferably, the lower side of the periphery light bending film is provided with a heat conduction layer which can quickly conduct heat to the periphery light bending film.
Preferably, the convex mirror is formed by two parts of the middle plane film and the peripheral bent film of the visual angle adjusting film, when the terminal does not generate heat when the inclination program is not started, the peripheral bent film is not acted, at the moment, the visual angle adjusting film is in a plane display mode, and when the terminal generates heat and reaches a certain heat degree, the peripheral bent film is acted to form the convex mirror.
In the intelligent terminal shooting method, the shooting mode entering the inclined or offset shooting mode specifically includes:
entering an orientation adjustment display mode, detecting the pitching angle of the terminal, and adjusting the terminal angle in the orientation adjustment display mode;
the azimuth adjustment display mode is that the display area of the control display screen is slightly smaller than the display screen to make the display area form a floating state on the display screen, the floating state comprises left, right, up and down object tracking and front and back included angle adjustment, the included angle adjustment between the display area and the display screen is formed, the included angle between the display area and the display screen is automatically adjusted according to a pitch angle, and the distortion of an image shooting image caused by the pitch angle of the terminal is corrected according to the included angle.
The intelligent terminal shooting method, the entering of the azimuth adjustment display mode includes: and detecting whether the pitch angle of the terminal deviates from a threshold value, if so, automatically entering an azimuth adjustment display mode, and if not, not entering.
According to the intelligent terminal shooting method, the azimuth adjustment display mode comprises a 3D display mode.
An intelligent terminal comprises the intelligent terminal shooting method, and the intelligent terminal can carry out intelligent shooting at an inclination angle or an offset angle.
A shooting device comprises the intelligent terminal shooting method.
A computer storage medium, comprising the intelligent terminal shooting method of any one of the above.
The invention discloses an intelligent shooting method, which can be applied to shooting when the visual angle of an intelligent terminal and eyes deviates or the visual angle of eyes deviates from the shooting screen due to the fact that the visual angle of the eyes deviates from the shooting screen when the intelligent terminal and the eyes deviate from the angle or the angle of inclination occurs in the shooting process, and can facilitate a user to observe the screen. The main improvement point of the invention is that the visual angle adjusting film is arranged, the change of display can be adjusted according to the change of the visual angle, the visual angle problem of the screen observed by human eyes is improved, and the visual angle can be conveniently adjusted by arranging the film which can adjust the diopter according to the heat around the common film; the other improvement point of the invention is that the intelligent shooting program is entered according to the distance, the inclination angle, the offset angle and the like, the heating of the terminal is controlled by the intelligent shooting program, and the intelligent shooting is entered by heat. The invention has another improvement that the orientation adjustment display mode is set, and the inclination angle of the shot object can be adjusted when the terminal has the inclination angle, so that the authenticity of the picture is improved, and the distortion of the picture is reduced.