CN117652148A - Shooting method, shooting system and storage medium - Google Patents

Abstract

A shooting method, a shooting system and a storage medium, the method includes: displaying a third person viewing angle picture corresponding to the shooting template on a display interface of a display device, wherein the third person viewing angle picture displays a shot target and a photographer so as to guide a first user operating a shooting system to shoot according to a shooting method of the photographer in the third person viewing angle picture (S101); after the shooting instruction input by the first user is acquired, the shooting device is controlled to shoot based on the current shooting template (S102).

Description

Shooting method, shooting system and storage medium Technical Field

The present disclosure relates to the field of shooting technologies, and in particular, to a shooting method, a shooting system, and a storage medium.

Background

More and more terminal devices are equipped with cameras to realize shooting functions. The user shoots a video using the terminal device to record life. Although the shooting of video becomes very convenient, the desire to shoot quality video clips generally has a high threshold, requiring the photographer to be skilled in the relevant shooting technique. Many users currently spend time learning teaching videos related to shooting techniques before shooting. However, the user still does not use the relevant shooting technique at the shooting site.

Disclosure of Invention

Based on this, the present application provides a photographing method, a photographing system, and a storage medium.

In a first aspect, the present application provides a photographing method applied to a photographing system including a photographing device and a display device, the method including:

displaying a third person viewing angle picture corresponding to the shooting template on a display interface of a display device, wherein the third person viewing angle picture displays a shot target and a photographer so as to guide a first user operating the shooting system to shoot according to a shooting method of the photographer in the third person viewing angle picture;

and after acquiring a shooting instruction input by the first user, controlling a shooting device to shoot based on a current shooting template.

In a second aspect, the present application provides a shooting method, applied to a shooting system, where the shooting system includes a pan-tilt and a load device carried on the pan-tilt, and the load device includes a shooting device, and the method includes:

acquiring a selection instruction input by a first user, and determining a shooting template to be shot;

acquiring an instruction input by a first user for starting shooting, and controlling the shooting device to start shooting;

in the process that the shooting device starts shooting, according to a first user, operating the cradle head to enable the bearing device of the cradle head to change in pose, and according to the lens setting of a preset shooting template and the pose of the bearing device of the cradle head, controlling the cradle head and/or load equipment of the cradle head to execute corresponding operation.

In a third aspect, the present application provides a photographing system including a photographing device and a display device, the photographing system further including: a memory and a processor;

the memory is used for storing a computer program;

the processor is configured to execute the computer program and when executing the computer program implement the shooting method as described in the first aspect above.

In a fourth aspect, the present application provides a shooting system, the shooting system includes a cradle head and a load device carried by the cradle head, the load device includes a shooting apparatus, and the shooting system further includes: a memory and a processor;

the memory is used for storing a computer program;

the processor is configured to execute the computer program and when executing the computer program, implement the photographing method as described in the second aspect above.

In a fifth aspect, the present application provides a computer-readable storage medium storing a computer program which, when executed by a processor, causes the processor to implement the photographing method according to the first aspect.

In a sixth aspect, the present application provides a computer-readable storage medium storing a computer program which, when executed by a processor, causes the processor to implement the photographing method according to the second aspect.

The embodiment of the application provides a shooting method, a shooting system and a storage medium, wherein a third person viewing angle picture corresponding to a shooting template is displayed on a display interface of a display device, and a shot target and a photographer are displayed on the third person viewing angle picture so as to instruct a first user operating the shooting system to shoot according to a shooting method of the photographer in the third person viewing angle picture; after a shooting instruction input by a first user is acquired, the shooting device is controlled to shoot based on a current shooting template. Since the third person calls the view angle screen to display the photographed object and the photographer, the first user can be instructed to perform photographing according to the photographing method in which the photographer.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the application.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings needed in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present application, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic flow chart of an embodiment of a shooting method of the present application;

FIG. 2 is a schematic diagram of a third control for indicating to start a shooting instruction function set on a display interface of a display device according to an embodiment of the shooting method of the present application;

FIG. 3 is a schematic diagram of a display interface of a display device displaying recommended shooting scenes according to an embodiment of the shooting method of the present application;

FIG. 4 is a schematic diagram of a display interface of a display device displaying a plurality of theme sub-templates of one of theme templates in a recommended shooting scene according to an embodiment of the shooting method of the present application;

fig. 5 is a schematic diagram of a display interface of a display device displaying a shooting effect picture of a shooting template and a corresponding third person viewing angle picture simultaneously according to an embodiment of the shooting method of the present application;

FIG. 6 is a schematic diagram of displaying a shooting effect screen of a shooting template on a display interface of a display device in an embodiment of a shooting method of the present application in a superimposed manner;

fig. 7 is a schematic structural diagram of a handheld pan-tilt according to an embodiment of the shooting method of the present application;

FIG. 8 is a schematic diagram of a display interface of a display device displaying a shooting effect screen and a new video clip according to an embodiment of the shooting method of the present application;

fig. 9 is a schematic diagram of a display interface of a display device displaying a preview screen of a film corresponding to a default film forming template according to an embodiment of the shooting method of the present application;

FIG. 10 is a schematic diagram showing a display interface of a display device displaying a selected sheeting template according to an embodiment of the shooting method of the present application;

FIG. 11 is a schematic diagram of a display interface of a display device displaying a preview image of a film corresponding to a confirmed film forming template according to an embodiment of the photographing method of the present application;

FIG. 12 is a schematic diagram showing a rendering process screen displayed on a display interface of a display device according to an embodiment of the photographing method of the present application;

FIG. 13 is a schematic diagram of a display interface of a display device displaying a sharing frame according to an embodiment of a shooting method of the present application;

fig. 14 to 17 are schematic diagrams showing a standard mode, a hanging mode, a side holding mode, and a low-level mode of a cradle head according to an embodiment of the shooting method of the present application;

FIG. 18 is a schematic diagram of an action set in an embodiment of a shooting method of the present application;

FIG. 19 is a schematic view of an action set in another embodiment of a photographing method of the present application;

FIG. 20 is a schematic diagram showing a mirror path in an embodiment of a photographing method of the present application;

FIG. 21 is a schematic flow chart diagram of another embodiment of a shooting method of the present application;

FIG. 22 is a schematic diagram illustrating an embodiment of a camera system according to the present application;

fig. 23 is a schematic structural view of another embodiment of the photographing system of the present application.

Detailed Description

The following description of the embodiments of the present application will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are some, but not all, of the embodiments of the present application. All other embodiments, which can be made by one of ordinary skill in the art without undue burden from the present disclosure, are within the scope of the present disclosure.

The flow diagrams depicted in the figures are merely illustrative and not necessarily all of the elements and operations/steps are included or performed in the order described. For example, some operations/steps may be further divided, combined, or partially combined, so that the order of actual execution may be changed according to actual situations.

Although the shooting of video becomes very convenient, the desire to shoot quality video clips generally has a high threshold, requiring the photographer to be skilled in the relevant shooting technique. Many users currently spend time learning teaching videos related to shooting techniques before shooting. However, the user still does not use the relevant shooting technique at the shooting site.

The embodiment of the application provides a shooting method, a shooting system and a storage medium, wherein a third person viewing angle picture corresponding to a shooting template is displayed on a display interface of a display device, and a shot target and a photographer are displayed on the third person viewing angle picture so as to instruct a first user operating the shooting system to shoot according to a shooting method of the photographer in the third person viewing angle picture; after a shooting instruction input by a first user is acquired, the shooting device is controlled to shoot based on a current shooting template. Since the third person calls the view angle screen to display the photographed object and the photographer, the first user can be instructed to perform photographing according to the photographing method in which the photographer.

Some embodiments of the present application are described in detail below with reference to the accompanying drawings. The following embodiments and features of the embodiments may be combined with each other without conflict.

Referring to fig. 1, fig. 1 is a schematic flow chart of an embodiment of a photographing method of the present application, which is applied to a photographing system including a photographing device and a display device, the method includes: step S101 and step S102.

Step S101: and displaying a third person viewing angle picture corresponding to the shooting template on a display interface of the display device, wherein the third person viewing angle picture displays a shot target and a photographer so as to guide a first user operating the shooting system to shoot according to a shooting method of the photographer in the third person viewing angle picture.

And the third person refers to a shot target displayed by the visual angle picture and a photographer as virtual objects of the shooting template.

The photographing template may refer to a video template that may provide a first user with reference photographing, including, but not limited to, a scene template of a main photographing scene, a theme template constituting a complete story, a self-photographing template for a photographer to photograph himself, a food template for photographing food, a travel template for photographing travel, and the like. The shooting template may be the single-stage template, or may be a multi-stage mixed template in which two or more of the above-mentioned templates are combined with each other, for example: a secondary mixed template forming a complete story in a certain scene, a secondary mixed template forming a complete story in a certain travel process, a secondary mixed template comprising various delicacies in a certain travel process, a tertiary mixed template comprising various delicacies and forming a complete story in a certain travel process, and the like. If the shooting template is obtained by fusing a plurality of video templates (i.e., sub-templates) respectively shot, the shooting template in this embodiment may also refer to one of the sub-templates respectively shot. In one embodiment, the shooting template corresponds to a complete shot. Illustratively, each photographing template corresponds to one photographing lens.

The photographing method may refer to photographing skills related to photographing, which require cooperation of the first user. For example: how to transport the mirror, how to hold the cradle head carrying the camera, how to move the cradle head carrying the camera, etc.

Illustratively, the photographing method includes a fortune mirror. Identifying whether a lens of the shooting system matches a preset lens moving direction of the shooting template through a position sensor or a displacement sensor on the shooting system; and when the two types of the images are not matched, sending out corresponding reminding through the shooting system.

Illustratively, the photographed objects include scenes, characters, and things.

The display interface may display a third person viewing angle picture corresponding to a certain shooting template, or may simultaneously display a plurality of third person viewing angle pictures corresponding to a plurality of shooting templates, or simultaneously display a plurality of third person viewing angle pictures corresponding to a plurality of sub-templates of a certain shooting template, and so on. A first control for shooting the same money can be arranged beside each third person called view angle picture.

Step S102: after a shooting instruction input by a first user is acquired, the shooting device is controlled to shoot based on a current shooting template.

Illustratively, in step S102, the shooting instruction includes an instruction to enter a shooting preview interface or an instruction to start recording.

The first control for shooting the same money is arranged beside the third person viewing angle picture, when the first user triggers the first control for shooting the same money corresponding to the third person viewing angle picture, the first control enters a shooting preview interface, a second control for starting shooting is arranged on the shooting preview interface, when the first user triggers the second control for starting shooting, a shooting instruction is input for the first user, and after the shooting system receives the shooting instruction, the shooting device can be controlled to shoot and record based on the current shooting template. When the photographing device is controlled to start photographing, a photographing image may be displayed on a display interface of the display device, the photographing image including related contents of a photographing process, for example, displaying a dynamic photographing timing time, displaying a recommended photographing duration, displaying a control for terminating photographing, displaying photographing parameters, displaying a prompt message prompting the first user that photographing is about to be completed according to the recommended photographing duration, and the like.

In the embodiment of the application, a third person viewing angle picture corresponding to a shooting template is displayed on a display interface of a display device, and the third person viewing angle picture displays a shot target and a photographer so as to guide a first user to shoot according to a shooting method of the photographer in the third person viewing angle picture; after a shooting instruction input by a first user is acquired, the shooting device is controlled to shoot based on a current shooting template. Since the third person calls the view angle screen to display the photographed object and the photographer, the first user can be instructed to perform photographing according to the photographing method in which the photographer.

In order to guide the first user to use the photographing method according to the embodiment of the present application, for example, before the display interface of the display device displays the third person viewing angle picture corresponding to the photographing template, step S101 may further include: step S103.

Step S103: and in response to an instruction input by a first user to start a shooting instruction function, displaying one or more shooting templates on a display interface of the display device.

In this embodiment, the instruction to start the shooting guidance function may refer to an instruction to start a shooting method using the shooting guidance function in the field of the embodiment of the present application.

The third control for indicating to start the shooting guidance function may be set on the display interface of the display device, so as to guide the first user to use the shooting method in the embodiment of the present application, as shown in fig. 2. Illustratively, in step S103, in response to the instruction of starting the shooting guidance function input by the first user, displaying one or more shooting templates on the display interface of the display device may further include: and responding to the triggering operation of the first user for opening the third control of the shooting guide function, and displaying one or more shooting templates on a display interface of the display device.

Illustratively, in step S103, in response to an instruction for starting a shooting guidance function input by the first user, displaying one or more shooting templates on a display interface of the display device may further include: substep S1031, substep S1032, and substep S1033.

Substep S1031: and acquiring a recommended shooting scene based on the image currently shot by the shooting device.

Sub-step S1032: and displaying the recommended shooting scene on a display interface of the display device, as shown in fig. 3.

Substep S1033: one or more shooting templates under the recommended shooting scene are displayed on a display interface of the display device in response to the operation of the first user on the recommended shooting scene.

Illustratively, the substep S1031, based on the image currently captured by the capturing device, acquires a recommended capturing scene, and may further include: and determining the recommended shooting scene according to the image currently shot by the shooting device.

Illustratively, the step S1031 of obtaining the recommended shooting scene based on the image currently captured by the shooting device may further include: acquiring the current position of the first user; and determining the recommended shooting scene according to the current image shot by the shooting device and the current position of the first user.

Illustratively, the substep S1031, based on the image currently captured by the capturing device, acquires a recommended capturing scene, and may further include: transmitting the image currently shot by the shooting device to a server; and receiving the recommended shooting scene returned by the server based on the image currently shot by the shooting device and one or more shooting templates in the recommended shooting scene. When the shooting templates are more, the occupied storage space is larger, in order to save the storage space of the shooting system, the shooting scene is identified through the assistance of the server, and after the recommended shooting scene is obtained, one or more different shooting templates in the recommended shooting scene are pushed to the shooting system.

Illustratively, in step S103, displaying one or more shooting templates on a display interface of the display device may further include: and displaying shooting effect pictures of one or more shooting templates on a display interface of the display device, wherein the shooting effect pictures are generated after shooting a shot target by using shooting methods of a photographer in the third person-to-view angle picture.

In an exemplary embodiment, in step S101, the displaying, on a display interface of the display device, a third person viewing angle picture corresponding to the shooting template may further include: and responding to the operation of the first user on the one or more shooting templates, and displaying a third person viewing angle picture corresponding to the operated shooting template on a display interface of the display device.

Setting a fourth control for indicating to watch the third person viewing angle picture corresponding to the shooting template beside the shooting effect picture of the shooting template, at this time, step S101, displaying the third person viewing angle picture corresponding to the shooting template on the display interface of the display device may further include: and responding to the touch operation of the first user on the fourth control, and displaying a third person-named visual angle picture corresponding to the touched shooting template on a display interface of the display device.

In an exemplary embodiment, in step S101, the displaying, on a display interface of the display device, a third person viewing angle picture corresponding to the shooting template may further include: and simultaneously displaying the shooting effect picture of the shooting template and the third person viewing angle picture on a display interface of the display device.

In an exemplary embodiment, in step S101, the displaying, on a display interface of the display device, a third person viewing angle picture corresponding to the shooting template may further include: and in response to the operation of the first user on the one or more shooting templates, simultaneously displaying a shooting effect picture of the operated shooting template and a corresponding third person viewing angle picture on a display interface of the display device.

In an exemplary embodiment, in step S101, the displaying, on a display interface of the display device, a third person viewing angle picture corresponding to the shooting template may further include: and responding to the touch operation of the first user on the fourth control, and simultaneously displaying a shooting effect picture of the touched shooting template and a corresponding third person viewing angle picture on a display interface of the display device.

The photographing template may be a theme template in a photographing scene, for example. The shot scene may have one or more shot scenes, and each shot scene may have one or more different topic templates.

For example, the photographing template may be a plurality of theme sub-templates of one of the theme templates in the photographing scene. Each topic template may include a plurality of topic sub-templates. A plurality of theme sub-templates form a complete shot. Each topic sub-template corresponds to a shot.

Shooting contents corresponding to the theme sub-templates are all shot in the same scene.

The shooting template corresponds to one shooting lens, and the shooting template comprises lens settings, wherein the lens settings comprise one or more of a holding mode, a scene, a lens moving direction, a lens moving duration, a lens moving mode, a shooting mode and actions of a second user of the first user.

Illustratively, in step S103, displaying, on a display interface of the display device, a shooting effect screen of one or more shooting templates may further include: and displaying a plurality of theme sub-templates of one theme template under the currently recommended shooting scene on a display interface of the display device, wherein each theme sub-template displays a shooting effect picture of the shot and/or a shot name of the shot.

The display interface may display the shooting effect pictures and/or shot names of the shots of the multiple theme sub-templates of one of the theme templates in the currently recommended shooting scene.

As shown in fig. 4, the display interface displays the shooting effect pictures of a plurality of theme sub-templates of one theme template "single person" under the currently recommended shooting scene "coffee shop" and the lens names of the shots: the shooting effect pictures of the theme sub-templates (i.e., shooting templates) of the 'lens 1' and the 'lens 1', and the shooting effect pictures of the theme sub-templates (i.e., shooting templates) of the 'lens 2' and the 'lens 2'. The first user may click on a fourth control beside the shooting effect screen of the theme sub-template of "shot 1", and the display interface may display the shooting effect screen of the theme sub-template of "shot 1" and a corresponding third person viewing angle screen, as shown in fig. 5.

The display interface of the display device may display three levels of content, the displayed first level of content may be one or more shooting scenes, the displayed second level of content may be a plurality of theme templates corresponding to one of the selected shooting scenes, the displayed third level of content may be a plurality of theme sub-templates corresponding to one of the selected theme templates, and video frames of one of the shooting effects are displayed on each of the theme sub-templates, and each of the theme sub-templates corresponds to one of the shots. When receiving the selection operation of a first user on any theme sub-template, playing the shooting effect corresponding to the theme sub-template according to the selection operation.

For example, as shown in fig. 4, a shooting scene includes: the five shooting scenes are displayed in sequence as first-level options, and a first user can select the shooting scene, and three subjects exist in the scene of the coffee house: the three topics are displayed in sequence as secondary options, and the current display interface also displays the recommended shooting effect pictures of a plurality of topic sub-templates of 'single person' under 'coffee shop' and the lens names of the sub-templates of the sub-topics. The first user can click to select other shooting scenes, click to select the theme under the other shooting scenes, and the display interface can display shooting effect pictures and shot names of the shots of a plurality of theme sub-templates of the theme template under the other shooting scenes. The lens names of the sub-lenses are named according to one or more of scenery, content and lens-carrying modes, such as shadow close-up, seaside environment, lover view angle and the like. The display interface of the display device also displays the shooting object type corresponding to the shooting effect picture. The shooting object type includes a person and/or an environment.

Step S102, after obtaining the shooting instruction input by the first user, of controlling the shooting device to shoot based on the current shooting template may include: and after a shooting instruction input by a first user is acquired, controlling the shooting device to shoot a new video clip corresponding to the shooting template. The method may further comprise: and in the shooting process, displaying the third person name visual angle picture and/or the shooting effect picture of the shooting template on a display interface of the display device.

Illustratively, the shooting template corresponds to one shooting lens, and the shooting template comprises lens settings; based on the current shooting template, the shooting device is controlled to shoot, and the method can further comprise the following steps: based on the lens setting of the current shooting template, controlling the shooting device to shoot a new video segment corresponding to the shooting template; or based on the current lens setting of the shooting template, controlling the shooting device to shoot a new video segment corresponding to the shooting template, and simultaneously controlling a cradle head carrying the shooting device to move.

When the shooting device is controlled to start shooting, the shooting image is displayed on a display interface of the display device and stored. On this basis, the display interface may further superimpose and display the third person viewing angle picture and/or the shooting effect picture of the shooting template. For example, a third person is referred to as a viewing angle screen and/or a shooting effect screen of the shooting template is superimposed on the shooting image. As shown in fig. 6, the photographing effect screen of the photographing template is displayed superimposed on the upper left corner of the photographed image near the edge.

Illustratively, the photographing system further comprises a cradle head carrying the photographing device; as shown in fig. 7, the cradle head includes a carrying device 17 and a cradle head device disposed on the carrying device 17, the cradle head device includes: roll axis motor 11, pitch axis motor 12, translation axis motor 13, roll axis arm 14, pitch axis arm 15, translation axis arm 16, and load fixture 18, load fixture 18 is used for carrying load equipment. The load device comprises a camera means and may further comprise a display means. For example, the load device may be a cell phone, tablet, or the like. The cradle head can further comprise a controller and a posture sensor electrically connected with the controller, the posture sensor can acquire posture information of the cradle head, and the controller can control the cradle head to execute related operations according to the posture information of the cradle head. The posture information of the cradle head comprises posture information of the bearing device (such as an inclination angle of the bearing device relative to the gravity direction, an inclination angle of the bearing device relative to the horizontal direction, and the like), and also comprises posture information of the cradle head device. The controller can calculate the attitude information of the bearing device according to the attitude information of the cradle head device. The controller can calculate the attitude information of the cradle head device according to the angular speeds, the accelerations and the rotation angles of the motors of the plurality of shaft arms. The attitude sensor includes an inertial measurement unit IMU.

Illustratively, the cradle head is a handheld cradle head, and the carrying device includes a handle.

The method may further comprise: in the shooting process, displaying corresponding icons on a display interface of the display device to guide a first user to move a cradle head carrying the shooting device along an expected path indicated by the icons.

Illustratively, the icon includes an arrow, and the icon is displayed in a blinking form for the purpose of making the arrow appear to be convenient for the first user to view; and/or, the color of the icon is red; and/or the size of the icon is at least larger than characters on a display interface of the display device.

Wherein the arrow includes at least one of a forward arrow, a backward arrow, a left arrow, a right arrow, a counterclockwise round arrow, and a clockwise round arrow to indicate a mirror direction. Illustratively, the arrow is displayed superimposed on the captured image of the capturing device in real time.

In some embodiments, in the process that the photographing device starts photographing, according to a first user, operating the pan-tilt to change the pose of the carrying device of the pan-tilt, and according to the lens setting of the preset photographing template and the pose of the carrying device of the pan-tilt, controlling the pan-tilt and/or the load device of the pan-tilt to execute corresponding operations.

In the following, how to control the cradle head and/or the load device of the cradle head to execute corresponding operations according to the pose of the bearing device of the cradle head and the lens setting of the preset shooting template will be described through a plurality of embodiments.

The method includes the steps that whether the moving mode of the first user (namely, the pose of the bearing device of the cradle head) meets the requirement of lens setting or not is detected through an image shot in real time or a sensor on the shooting system, and when the moving mode does not meet the requirement of lens setting, the shooting system is controlled to send out corresponding reminding. In some embodiments, when the requirement of the lens setting is not met, a corresponding reminder is sent out by superimposing a preset effect on the icon. For example, a blinking effect is superimposed on the icon.

By way of example, the detected actual movement path of the first user is displayed superimposed on the captured image by detecting the movement pattern of the first user by the captured image in real time or by a sensor on the capturing system. For example, the detected actual movement path of the first user and the icon for indicating the expected path are simultaneously displayed on the display interface of the display device, so that the first user can be reminded to correct the movement path.

The motion mirror is a motion lens, and can be used for manufacturing a shooting method of a motion picture by shaking or moving the lens to match with a music node. The picture taken by this photographing mode is called a moving picture. Such as: the lens pushing, lens pulling, lens shaking, lens moving, lens following, lens lifting, lens combining and the like are formed by pushing, pulling, lens shaking, lens moving, lens combining and the like.

For example: the forward arrow may indicate that the first user needs to push the lens of the photographing device forward (i.e. push the lens) gradually approaching the photographed object to be observed, and this photographing method may represent a change from far to near of the same object, or may represent a change from one object to another object. The backward arrow, as opposed to the forward lens, may indicate that the first user needs to move the lens of the photographing device backward (i.e., zoom lens) gradually away from the object to be photographed, and may represent a change from near to far in the same object, or may represent a change from one object to another object. The left or right arrow may indicate that the first user needs to move the lens of the camera to the left or right (i.e., pan). The anticlockwise encircling arrow or the clockwise encircling arrow can indicate that the first user needs to rotate the lens of the shooting device in the anticlockwise direction or in the clockwise direction (namely, rotate the lens), and the shooting method can obtain a picture with a rotating effect of a shot object, and the dizziness feeling of people is represented. Alternatively, the counterclockwise around arrow or the clockwise around arrow indicates that the first user needs to perform around shooting centering on the object to be shot.

After the shooting is completed, the new video segment is displayed on a display interface of the display device.

After the shooting is completed, the shooting effect picture and the new video clip of the shooting template are displayed on the display interface of the display device at the same time. The two are displayed and played simultaneously, so that the difference between the two can be displayed more intuitively. Illustratively, the seventh control for returning to the re-shooting is displayed while the display interface of the display device displays the shooting effect picture and the new video clip of the shooting template. Illustratively, the similarity score is performed on the new video segment based on a preset detection algorithm, and the similarity score is used for evaluating the similarity of the new video segment and the shooting effect picture of the shooting template. The preset detection algorithm scores similarity through dimensions such as scenery, fortune mirror, composition and the like.

And when shooting of a new video segment corresponding to any shooting template is completed, recommending a next shooting template according to the new video segment. Illustratively, recommending a next shooting template according to one or more of shooting content, a fortune mirror and a scene of the new video segment.

Illustratively, the method may further comprise: and responding to the film forming instruction input by the first user, and automatically forming films according to the photographed one or more new video films. Thus, the instant photographing can be performed.

For example, on a display interface on which a shooting effect screen of a shooting template and a new video clip are displayed, three controls may be displayed in an overlapping manner: a fifth control, a sixth control, and a seventh control, which may respectively indicate a shot (e.g., represented by NEXT in english), a pan-out (e.g., represented by a pan icon), and a return-back-to-pan (e.g., represented by RETAKE in english), as shown in fig. 8.

Illustratively, the automatically panning according to the photographed one or more new video clips in response to the panning instruction input by the first user may further include: and responding to the operation of the first user on the sixth control for indicating the slicing, and automatically slicing according to the photographed one or more new video clips.

Illustratively, the automatically panning according to the photographed one or more new video clips in response to the panning instruction input by the first user may further include: in response to a first user input of a film-forming instruction, automatic film-forming is performed according to the photographed one or more new video clips and a default film-forming template.

The method may further comprise:

A. and displaying a preview picture of the piece corresponding to the default piece template on a display interface of the display device.

B. And responding to the first user input film forming model switching instruction, and displaying a plurality of film forming templates which can be selected by the first user on a display interface of a display device.

In the example, in the step B, displaying a plurality of sheeting templates available for the first user to select on a display interface of the display device may further include: and displaying a first area, a second area and a third area on a display interface of the display device, wherein the first area is used for displaying a preview picture of a sheeting corresponding to the sheeting template selected by the first user, the second area is used for displaying one or more types of templates for sheeting, which can be selected by the first user, and the third area is used for displaying a plurality of sheeting templates under one of the types of templates selected by the first user, and the first user can select one of the sheeting templates.

C. And responding to the film forming model confirmation instruction input by the first user, and displaying a film forming preview picture corresponding to the confirmed film forming template on a display interface of the display device.

D. And responding to a sheeting export instruction input by a first user, and exporting the sheeting corresponding to the confirmed sheeting template. For example, a slice export process screen may be displayed on a display interface of a display device.

E. And after the sheet guiding-out process is finished, displaying a sharing picture on a display interface of the display device, wherein the sharing picture displays one or more sharing channels. Exemplary, shared channels include, but are not limited to: tremble, weChat, microblog, circle of friends, etc.

Illustratively, the deriving the slice corresponding to the confirmed slice template in response to the slice derivation instruction input by the first user may further include: and responding to a sheeting export instruction input by a first user, exporting and rendering the sheeting corresponding to the confirmed sheeting template, and displaying a rendering process picture on a display interface of a display device.

For example, after the film forming derivation process is completed, displaying the sharing image on the display interface of the display device may further include: and after the rendering process is completed, displaying the sharing picture on a display interface of the display device.

As shown in fig. 9, the display interface displays a preview screen of a corresponding sheeting of the default sheeting template, and also displays a control of "template switching". When the first user clicks the "template switch" control, as shown in fig. 10, a first area, a second area and a third area are displayed on the display interface of the display device, where the first area displays a preview picture of a sheeting corresponding to the "vacation" of the sheeting template selected by the first user, and the second area displays four types of templates for sheeting available for the first user to select: "calm", "happy", "strength", "movie", and also a control for "confirm" the sheeting model, and a third area displays a plurality of sheeting templates under one of the template types "calm" selected by the first user: "holiday", "lake", "memory", "bridge", "sea", one of the sliced templates "holiday" is selected by the first user. When the first user clicks the "confirm" control, as shown in fig. 11, a preview picture of the film corresponding to the confirmed film forming template is displayed on the display interface of the display device, a "template switching" control and a film forming "export" control are also displayed, and if the first user is not satisfied with the preview picture of the film forming corresponding to the currently confirmed film forming template, the "template switching" control can be clicked to reselect the film forming template. When the first user clicks on the "export" control, as shown in fig. 12, a rendering process screen is displayed on the display interface of the display device. After the rendering process is completed, as shown in fig. 13, the sharing screen is displayed on the display interface of the display device. The photographing device is mounted on a cradle head, and when the first user operates the cradle head to perform position movement, one or more shafts of the cradle head are controlled to rotate so as to adjust the posture of the photographing device. The shooting device bears on the cradle head, so that various gestures and positions of the shooting device can be realized, various shooting angles can be presented, and various shooting effects can be realized.

The photographing device is mounted on a cradle head, and when the first user operates the cradle head to perform position movement, one or more shafts of the cradle head are controlled to rotate, so that the posture of the photographing device is adjusted to enable the posture of the photographing device to meet the posture set by the lens setting of the photographing template.

Illustratively, the method further comprises: and controlling the shooting system to send information reminding the first user or the second user serving as a shot target in the shooting process.

The shooting system is controlled to send out voice information for reminding the first user or the second user in the shooting process.

The photographing device is carried on the cradle head, and the first user needs to move the cradle head in the photographing process, so that the first user can photograph high-quality video, and the first user is guided to move the cradle head through voice in the photographing process. That is, the method may further include: and controlling the shooting system to send out first voice information in the shooting process, wherein the first voice information is used for indicating a first user to move and bear a holder of the shooting device.

Illustratively, during the photographing, the second user's actions are directed by voice. That is, the method may further include: and controlling the shooting system to send out second voice information in the shooting process, wherein the second voice information is used for indicating the action of a second user serving as a shot target.

The cradle head is a handheld cradle head, the shooting system is a mobile phone or a tablet personal computer, the shooting device is a camera on the mobile phone or the tablet personal computer, and the display device is a display screen of the mobile phone or the tablet personal computer.

Wherein the second speech information is further used to indicate how the second user interacted with the scene.

The lens setting of the shooting template comprises a cradle head mode, and the cradle head is controlled to move according to the cradle head mode set by the lens setting of the shooting template during shooting. During shooting, the cradle head mode can be set to be set by the lens of the shooting template, the first user does not need to manually set the cradle head mode, and the shooting difficulty of the first user can be reduced.

The method may further comprise: and when a new video clip corresponding to the shooting template is shot, controlling a cradle head carrying the shooting device to move according to a cradle head mode set by the lens setting of the shooting template.

The cradle head mode comprises a stability augmentation mode, a rotation mode, a pitching locking mode, an FPV mode or a lens orientation locking mode.

The stability augmentation mode is also called as a following mode, is the most basic functional mode of the cradle head, is suitable for most shooting scenes, and the transverse rolling shaft of the cradle head is kept horizontal, and the pitching shaft and the translation shaft follow the rotation of the handle; the rotation mode indicates that the translation shaft, the pitching shaft and the transverse rolling shaft all act along with the handle, and the rotation of the transverse rolling shaft of the cradle head can be controlled by the rocker; the pitching locking mode indicates that a translation shaft of the cradle head rotates along with the handle, the pitching shaft is locked, and a rolling shaft is kept horizontal; the FPV mode indicates that three shafts of a pitching shaft, a translation shaft and a transverse rolling shaft of the tripod head all follow the handle to act, the picture is not kept horizontal any more, and the mode is suitable for shooting a continuously rotating scene; the lens orientation locking mode indicates that the pan-tilt locks the lens orientation of the photographing device, and the lens of the photographing device will not follow rotation.

Exemplary, the setting of the lens of the shooting template includes a holding mode of the pan-tilt and a preset mapping relationship for controlling the shooting device and/or the pan-tilt to execute corresponding operations, and the method further includes: in the shooting process, recognizing a holding mode of a first user holding the cradle head through an attitude sensor of the cradle head; the gesture of the bearing device of the cradle head can be determined through the gesture sensor of the cradle head, so that the holding mode of the first user holding the cradle head is recognized. When the holding mode of the first user holding the cradle head meets the holding mode set by the lens setting of the shooting template, the shooting device and/or the cradle head are controlled to execute corresponding operations according to the preset mapping relation.

In the shooting process, a holding mode of a first user holding the cradle head is identified through a posture sensor of the cradle head, and when the holding mode of the first user holding the cradle head meets the holding mode set by the lens setting of the shooting template, the cradle head is controlled to enter a preset cradle head mode. For each shooting template, a mapping relation is preset, namely, a preset holding mode of a cradle head and a cradle head mode exist, when the holding mode of the cradle head held by a first user is identified through an attitude sensor of the cradle head, the cradle head is controlled to enter the preset cradle head mode according to the preset mapping relation, so that an automatic shooting effect can be achieved, and shooting complexity is reduced.

Illustratively, the photographing device includes at least two cameras, and the setting of the lens of the photographing template includes simultaneously starting the at least two cameras to perform photographing, and the method further includes: when a new video clip corresponding to the shooting template is shot, when the lens setting of the shooting template comprises simultaneously starting at least two cameras, controlling the shooting device to simultaneously start at least two cameras.

The setting of the lens of the shooting template includes a preset mapping relationship between a holding mode of the first user holding the pan-tilt and simultaneously starting at least two cameras. And recognizing a holding mode of holding the cradle head by a first user through an attitude sensor of the cradle head, and controlling the shooting device to simultaneously start at least two cameras to shoot according to the preset mapping relation when the holding mode of holding the cradle head by the first user meets the holding mode set by the lens setting of the shooting template.

For example, when the photographing device includes front and rear cameras, the setting of the lens of the photographing template includes simultaneously starting the front and rear cameras to perform photographing, and the method further includes: when a new video clip corresponding to the shooting template is shot, when the lens setting of the shooting template comprises simultaneously starting front and rear cameras, the shooting device is controlled to simultaneously start the front and rear cameras to shoot. In the shooting process, shooting images of the front camera and the rear camera can be simultaneously displayed through the display interface.

The setting of the lens of the shooting template includes a preset mapping relationship between a holding mode of the first user holding the pan-tilt and simultaneously starting the front and rear cameras. And recognizing a holding mode of holding the cradle head by a first user through an attitude sensor of the cradle head, and controlling the shooting device to simultaneously start a front camera and a rear camera to shoot according to the preset mapping relation when the holding mode of holding the cradle head by the first user meets the holding mode set by the lens setting of the shooting template.

Illustratively, when the photographing device includes front and rear cameras, the setting of the lens of the photographing template includes switching the front and rear cameras, and the method further includes: when a new video clip corresponding to the shooting template is shot, when the lens setting of the shooting template comprises switching of the front camera and the rear camera, the shooting device is controlled to switch the front camera and the rear camera.

The lens setting of the shooting template includes a preset mapping relationship between a holding mode of the first user holding the pan-tilt and front-rear camera switching, that is, the first holding mode mapping is switched from the front camera to the rear camera, and the second holding mode mapping is switched from the rear camera to the front camera. Recognizing a holding mode of a first user holding the cradle head through an attitude sensor of the cradle head, when the holding mode of the first user holding the cradle head meets a first holding mode set by lens setting of the shooting template, controlling the shooting device to be switched from a front camera to a rear camera to shoot according to the preset mapping relation, and when the holding mode of the first user holding the cradle head meets a second holding mode set by lens setting of the shooting template, controlling the shooting device to be switched from the rear camera to the front camera to shoot according to the preset mapping relation.

Illustratively, the photographing device has only one camera, the lens setting of the photographing template includes a self-timer mode switch, and the method further includes: when a new video clip corresponding to the shooting template is shot, and when the lens setting of the shooting template comprises self-shooting mode switching, the gesture of the shooting device is adjusted through one or more shafts of the cradle head so that a camera of the shooting device faces a first user.

The setting of the lens of the shooting template includes a preset mapping relationship between a holding mode of the first user holding the pan-tilt and a self-shooting mode switching. And recognizing a holding mode of holding the cradle head by a first user through an attitude sensor of the cradle head, and adjusting the attitude of the shooting device through one or more shafts of the cradle head according to the preset mapping relation when the holding mode of holding the cradle head by the first user meets the holding mode set by the lens setting of the shooting template, so that a camera of the shooting device faces the first user.

Illustratively, the lens setting of the photographing template includes an operation of rotating one or more axes of the pan-tilt, the method further comprising: and when a new video clip corresponding to the shooting template is shot, controlling the rotation of one or more shafts of the tripod head to rotate by a corresponding angle according to the operation of rotating the one or more shafts of the tripod head set by the lens setting of the shooting template.

For example, the lens setting of the shooting template includes a preset mapping relationship between a holding mode of the first user holding the pan-tilt and an angle corresponding to one or more axes rotation of the control pan-tilt. And identifying a holding mode of a first user holding the cradle head through a posture sensor of the cradle head, and controlling one or more shafts of the cradle head to rotate by corresponding angles according to the preset mapping relation when the holding mode of the first user holding the cradle head meets the holding mode set by the lens setting of the shooting template.

The holding mode of the first user holding the cradle head comprises the following steps: standard mode, hanging mode, side grip mode, and low gear mode. The cradle head works in a standard mode by default as shown in fig. 14; inverting the cradle head 180 ° from the standard mode, i.e., entering a hanging mode, as shown in fig. 15; tilting the pan-tilt 90 ° left or right from the standard mode, namely a side-grip mode, as shown in fig. 16; the pan-tilt is tilted forward from the standard mode, i.e., the low-level mode, as shown in fig. 17. According to the preset mapping relation between the holding mode of the holder corresponding to the shooting template and the rotation of one or more shafts of the holder, the holding mode of the holder by a first user is identified through the gesture sensor, the rotation of the one or more shafts of the holder is controlled to correspond to the angle, automatic shooting effect can be achieved, and shooting complexity is reduced.

In the shooting process, when the shooting time is longer than the preset shooting time of the shooting template, the shooting system is controlled to remind the first user to stop shooting.

Exemplary, the setting of the lens of the shooting template includes a preset mapping relationship between a lens moving direction and a control cradle head to execute corresponding operations, and the method further includes: during shooting, identifying the mirror direction of the first user (namely detecting the pose of a bearing device of the cradle head); when the lens carrying direction of the first user is the direction set by the lens setting of the shooting template, controlling the cradle head to execute corresponding operation according to the preset mapping relation. When the first user carries the mirror, the change condition of the pose of the bearing device of the cradle head is detected, and the mirror carrying direction of the first user can be identified according to the change condition of the pose of the bearing device of the cradle head.

The lens setting of the shooting template comprises a preset mapping relation of a lens moving direction and one or more axes of a control cradle head rotating by a corresponding angle. And in the shooting process, identifying the mirror carrying direction of the first user, and controlling one or more shafts of the holder to rotate by corresponding angles according to the preset mapping relation when the mirror carrying direction of the first user is the set direction for the lens of the shooting template.

The lens setting of the shooting template comprises a preset mapping relation of a lens moving direction, a lens moving duration and an angle corresponding to one or more axis rotations of a control cradle head. During shooting, identifying the mirror direction of a first user; and when the mirror carrying time length accords with the mirror carrying time length set by the lens setting of the shooting template, controlling one or more axes of the cradle head to rotate by corresponding angles according to the preset mapping relation. For example, when the first user is identified to pull the lens, the length of the lens is obtained, and when the length of the lens is consistent with the length of the lens transportation set by the lens setting of the shooting template, the roll axis of the cradle head is controlled to rotate 180 degrees, so that a film with a specific video effect is generated.

Exemplary, the lens setting of the shooting template includes a preset mapping relationship between a lens moving direction and a pan-tilt mode. And in the shooting process, identifying the lens moving direction of the first user, and controlling the cradle head to enter a preset cradle head mode according to the preset mapping relation when the lens moving direction of the first user is the set direction set by the lens of the shooting template.

Illustratively, the lens setting of the shooting template is set with a composition of an image, when shooting, whether the current composition is matched with the composition set by the lens setting of the shooting template is determined, and when not matched, the current composition is adjusted to be matched with the composition set by the lens setting of the shooting template. That is, the method may further include: when a new video clip corresponding to a shooting template is shot, determining the matching condition of the current composition and the composition set by the lens setting of the shooting template; if the current composition is not matched with the composition set by the lens setting of the shooting template, adjusting the posture of the cradle head to enable the current composition to be matched with the composition set by the lens setting of the shooting template; or if the current composition is not matched with the composition set by the lens setting of the shooting template, sending out prompt information to guide the first user to move the cradle head carrying the shooting device, so that the current composition is matched with the composition set by the lens setting of the shooting template.

For example, the lens setting of the shooting template is set with a preset shooting mode, and the method may further include: and when a new video clip corresponding to the shooting template is shot, controlling the shooting device to shoot according to a preset shooting mode set by the lens setting of the shooting template.

Preset shooting modes include, but are not limited to: a time-lapse photography mode (including a static time-lapse mode, a track time-lapse mode, a motion time-lapse mode, etc.), a dynamic zoom mode, a panoramic photography mode (including a portrait panoramic photography mode, a wide-angle panoramic photography mode, etc.), a slow motion, etc.

In the prior art, how to combine a mirror mode, a scene, a shooting mode, a shooting object and the like is a problem to be solved. In this embodiment, when a new video clip corresponding to a shooting template is shot, the shooting system may automatically set the shooting mode of the shooting device to a preset shooting mode set by the lens setting of the shooting template without manually setting the shooting mode by the first user, and control the shooting device to shoot according to the preset shooting mode set by the lens setting of the shooting template.

The preset shooting mode includes a motion delay mode, the lens setting of the shooting template further includes a pan-tilt following a shot target in the motion delay mode, when a new video clip corresponding to the shooting template is shot, a first user is prompted to select the shot target in an image currently shot by the shooting device or identify and automatically lock the shot target in the image currently shot by the shooting device, the first user is prompted to move around the shot target, the shooting device is controlled to shoot according to the motion delay mode set by the lens setting of the shooting template, and meanwhile the pan-tilt is controlled to follow the shot target, so that the shot target is located in the middle of a picture.

The cradle head of the embodiment comprises a handheld cradle head, and the first user holds the handheld cradle head to move around the preset shot target.

The preset shooting mode comprises a dynamic zooming mode, when a new video clip corresponding to the shooting template is shot, a first user is prompted to select a shot target in an image currently shot by the shooting device or identify and automatically lock the shot target in the image currently shot by the shooting device, the first user is prompted to gradually approach the shot target or gradually get away from the shot target, the speed of moving the shooting system by the first user is controlled according to the acquired speed, the speed of changing the focal length of the shooting device is controlled to enable the size of the shot target to be unchanged in a picture, and one or more axes of a tripod head are adjusted to enable the shot target to be located in the middle of the picture.

In this embodiment, the dynamic zoom mode, i.e. the hezak zoom, simply refers to selecting a shot target, where the size of the shot target is unchanged, and the surrounding scenery gradually gets far or near, so that the zoom device is very suitable for creating a terrorist, distortion, compression, and tense lens atmosphere. A spatially offset look and feel is formed between the relatively static photographed object and the far and near pulled background, pushing the photographed object towards the center of vision. The dynamic zoom mode can be classified into a dynamic zoom mode in which the background is close (gradually away from the object to be photographed when photographing, the employed lens is a zoom lens) and a dynamic zoom mode in which the background is far (gradually close to the object to be photographed when photographing, the employed lens is a zoom lens).

Illustratively, the lens setting of the photographing template includes a plurality of consecutive action sets, and the method further includes: during shooting, identifying the action currently executed by a second user serving as a shot target according to the image shot by the shooting device currently; and reminding the second user to perform the next action in the action combination according to the historical actions executed by the second user and the actions currently executed by the second user. For example: as shown in fig. 18, the action set includes six yoga actions in order: action 1, action 2, action 3, action 4, action 5, action 6; and identifying the action currently executed by the second user serving as the shot target as action 3 according to the image shot by the shooting device currently, wherein the history actions executed by the second user comprise action 1 and action 2, and reminding the second user of carrying out the next action in the action combination-action 4.

Another example is: as shown in fig. 19, the action set includes jumping, walking, and jumping in order; and recognizing that the action currently executed by the second user serving as the shot target is walking according to the image shot by the shooting device, and reminding the second user of carrying out the next action-jump in the action combination when the history action executed by the second user is jump.

The set of actions includes jumping, walking, gestures, body gestures, and the like. Illustratively, identifying the action currently performed by the second user as the photographed target from the image currently photographed by the photographing apparatus includes: and detecting the joint point of the second user, and identifying the action of the second user according to the joint point of the second user.

Illustratively, the lens setting of the photographing template includes a plurality of consecutive action sets, and the method further includes: and in the shooting process, identifying the action currently executed by the second user serving as a shot target according to a sensor carried by the second user and used for detecting the action of the second user, and reminding the second user of executing the next action in the action set according to the history action executed by the second user and the action currently executed by the second user. The sensor for detecting a second user action includes an IMU, a pressure sensor, etc.

The manner of reminding includes, but is not limited to, voice, text, etc. For example, if a rear camera is used for shooting, a second user can be reminded of performing the next action in a voice mode; if the front-facing camera is used for shooting (namely, self-shooting), the second user can be reminded of carrying out the next action in a voice mode or a mode of displaying characters or characters.

The lens arrangement of the shooting template comprises a plurality of continuous action sets, and a second user serving as a shot target carries terminal equipment capable of communicating with the shooting system, and the actions of the second user are indicated through the terminal equipment. That is, the method may further include: during shooting, identifying the action currently executed by a second user serving as a shot target according to the image shot by the shooting device currently; determining the next action in the action combination which is required to be performed by the second user according to the historical actions which the second user has performed and the actions which the second user currently performs; and sending the next action required by the second user to the terminal equipment so that the terminal equipment reminds the second user of carrying out the next action.

The embodiment is particularly suitable for shooting scenes of the second user far away from the shooting device, and because the second user is far away from the shooting device, the reminding modes such as voice sent by the shooting device cannot be received by the second user far away from the shooting device, the reminding information sent by the shooting device is sent to the terminal equipment carried by the second user far away from the shooting device, so that the terminal equipment reminds the second user of carrying out the next action.

Illustratively, the terminal device includes a wristwatch, a cell phone, a tablet computer, or other portable device.

Illustratively, the lens setting of the photographing template includes a lens collection including a plurality of consecutive lenses of the photographing lens of the photographing template, each lens including a lens direction and a lens duration, and the method may further include: recommending and reminding the mirror direction and the mirror duration of the next mirror in the mirror collection according to the historical mirror direction of the first user.

For example, the first user may be reminded of a selection operation to follow the target, i.e. the method may further comprise: when the shot setting of the shooting template comprises target following, reminding the first user of carrying out a selection operation of following the target.

For example, the lens setting of the shooting template includes a mapping relationship between a target of a preset type and a preset operation of the second user, where the method may further include: when a new video clip corresponding to the shooting template is shot, if the target of the preset type is identified in the image currently shot by the shooting device, reminding a second user to perform corresponding preset operation according to the mapping relation.

For example, when capturing a new video clip corresponding to a capturing template, if the target of the preset type is identified in the image currently captured by the capturing device, prompting, according to the mapping relationship, a second user to perform a corresponding preset operation may include: and in shooting, if a door is identified in the image currently shot by the shooting device, reminding a second user to perform corresponding door pushing operation according to the mapping relation.

For example, the lens setting of the shooting template includes a mapping relationship between a target of a preset type and a preset operation of the first user, where the method may further include: when a new video clip corresponding to a shooting template is shot, if the target of the preset type is identified in the current shot image of the shooting device, reminding a first user to perform corresponding preset operation according to the mapping relation.

For example, when capturing a new video clip corresponding to a capturing template, if the target of the preset type is identified in the image currently captured by the capturing device, prompting the first user to perform a corresponding preset operation according to the mapping relationship may include: and when shooting, if the hole is identified in the image currently shot by the shooting device, reminding the first user to pass through the hole mirror according to the mapping relation. In this way, the effect of the traversing machine can be simulated.

For example, when capturing a new video clip corresponding to a capturing template, if the target of the preset type is identified in the image currently captured by the capturing device, prompting the first user to perform a corresponding preset operation according to the mapping relationship may include: and when shooting, if the railing is identified in the image currently shot by the shooting device, reminding the first user to pass around the railing according to the mapping relation. For example, when capturing a new video clip corresponding to a capturing template, if the target of the preset type is identified in the image currently captured by the capturing device, prompting the first user to perform a corresponding preset operation according to the mapping relationship may include: and in shooting, if a target of a preset type is identified in the image currently shot by the shooting device, reminding a first user to shake the shooting device according to the mapping relation.

Illustratively, the lens setting of the shooting template includes a scene-set, and the method may further include: and recommending the first user to shoot the next scene in the scene aggregation according to the shot Jing Bie when shooting a new video clip corresponding to the shooting template. In some embodiments, the captured scene is identified from the captured image. The scene categories can be specifically classified into the categories of distant scenes, panoramic scenes, middle scenes, close-up scenes and the like. The distant view may be a picture of taking a distant photographed object. Panorama may refer to taking a picture of the entire object being photographed. The middle view may refer to taking a picture of a photographed target portion. Close-up may refer to taking a picture of a part of the object being photographed. The close-up may be a screen for capturing a minute part of the subject.

Illustratively, the lens setting of the photographing template includes photographing parameters, and the method may further include: and when a new video clip corresponding to the shooting template is shot, setting the set shooting parameters according to the lens of the shooting template, and controlling the parameters of the shooting device.

Illustratively, the lens setting of the shooting template includes a pan-tilt setting, and the method may further include: when a new video clip corresponding to a shooting template is shot, one or more shafts of a tripod head carrying the shooting device are controlled to rotate according to a tripod head rotation setting set by a lens setting of the shooting template. Thus, a rotating picture of the dream theft space can be shot, and a first person main view angle FPV picture can be shot.

Illustratively, the attitude of the photographed object with respect to the photographing system is recognized, and a mirror path is displayed on a screen according to the attitude thereof. For example, recognizing the yaw attitude of the photographic target relative to the photographic system may provide a more accurate recommended mirror path with the attitude of the photographic target as a reference.

As shown in fig. 20, when the posture of the photographed object with respect to the photographing device is recognized as the left front and the path of the preset mirror is the right front of the photographed object, the mirror path is indicated by an icon according to the posture of the photographed object with respect to the photographing device as the left front.

Illustratively, the method further comprises: and after receiving an instruction of starting shooting by a first user, displaying an instruction of a holding mode of the cradle head on a display interface of the display device, wherein the instruction is a static picture or a dynamic image.

Referring to fig. 14 to 17, the first user may have four modes (applicable in both horizontal and vertical photographing states) as follows: standard mode, hanging mode, side grip mode, and low gear mode.

The gesture sensor of the pan-tilt is used for identifying a holding mode of the first user holding the pan-tilt, and when the holding mode of the first user holding the pan-tilt is not in accordance with the holding mode set by the lens setting of the shooting template, the shooting system is controlled to send out a corresponding prompt. Therefore, the situation that the holding mode of the first user holding the cradle head is not in accordance with the set holding mode can be effectively avoided. Illustratively, the attitude sensor includes an IMU. For example, when the set holding mode is a side holding mode, and the current holding mode of the first user is detected to be a standard mode, a corresponding reminder is sent out.

Referring to fig. 21, fig. 21 is a schematic flow chart of another embodiment of a photographing method of the present application, where the photographing method is applied to a photographing system, the photographing system includes a pan-tilt and a load device carried on the pan-tilt, and the load device includes a photographing apparatus; the load device may include a display device in addition to the photographing device. The method comprises the following steps: step S201, step S202, and step S203.

Step S201: and acquiring a selection instruction input by a first user, and determining a shooting template to be shot.

Step S202: and acquiring an instruction input by a first user to start shooting, and controlling the shooting device to start shooting.

Step S203: in the process that the shooting device starts shooting, according to a first user, operating the cradle head to enable the bearing device of the cradle head to change in pose, and according to the lens setting of a preset shooting template and the pose of the bearing device of the cradle head, controlling the cradle head and/or load equipment of the cradle head to execute corresponding operation.

By the method, the new video clip consistent with the shooting effect picture of the shooting template can be generated.

The lens setting includes a holding mode of a pan-tilt and a preset mapping relation for controlling the photographing device and/or the pan-tilt to execute corresponding operations, and the controlling the pan-tilt and/or the load device of the pan-tilt to execute corresponding operations according to the lens setting of the preset photographing template and a pose of the bearing device of the pan-tilt includes: in the shooting process, determining the gesture of a bearing device of the cradle head through a gesture sensor of the cradle head, and further identifying a holding mode of a first user holding the cradle head; when the holding mode of the first user holding the holder meets the holding mode set by the lens setting of the shooting template, controlling the holder and/or the shooting device to execute corresponding operations according to the preset mapping relation.

The controlling the pan-tilt and/or the photographing device to execute the corresponding operations according to the preset mapping relationship includes: and controlling the cradle head to enter a preset cradle head mode according to the preset mapping relation, wherein the preset mapping relation comprises a preset cradle head holding mode and a preset cradle head mode.

The controlling the pan-tilt and/or the photographing device to execute the corresponding operations according to the preset mapping relationship includes: and controlling the shooting device to simultaneously start at least two cameras to shoot according to the preset mapping relation, wherein the preset mapping relation comprises a preset holding mode of a cradle head and the mapping relation between the at least two cameras is simultaneously started.

The controlling the pan-tilt and/or the photographing device to execute the corresponding operations according to the preset mapping relationship includes: and controlling the shooting device to simultaneously start the front camera and the rear camera to shoot according to the preset mapping relation, wherein the preset mapping relation comprises a preset holding mode of the cradle head and a mapping relation between the front camera and the rear camera which are simultaneously started.

The controlling the pan-tilt and/or the photographing device to execute the corresponding operations according to the preset mapping relationship includes: and controlling the shooting device to be switched from the front camera to the rear camera for shooting according to a first holding mode of the cradle head in the preset mapping relation, and controlling the shooting device to be switched from the rear camera to the front camera for shooting according to a second holding mode of the cradle head in the preset mapping relation, wherein the preset mapping relation comprises a mapping relation between the holding mode of the preset cradle head and the front and rear camera switching.

The controlling the pan-tilt and/or the photographing device to execute the corresponding operations according to the preset mapping relationship includes: according to the preset mapping relation, the gesture of the shooting device is adjusted through one or more shafts of the cradle head, so that a camera of the shooting device faces a first user, wherein the preset mapping relation comprises a mapping relation between a preset holding mode of the cradle head and self-shooting mode switching.

The controlling the pan-tilt and/or the photographing device to execute the corresponding operations according to the preset mapping relationship includes: and controlling one or more shafts of the tripod head to rotate by corresponding angles according to the preset mapping relation, wherein the preset mapping relation comprises a mapping relation between a preset holding mode of the tripod head and the angles corresponding to the rotation of the one or more shafts of the tripod head.

For example, the controlling the pan-tilt and/or the load device of the pan-tilt to execute corresponding operations according to the preset lens setting of the shooting template and the pose of the bearing device of the pan-tilt includes: determining the gesture of a bearing device of the cradle head through a gesture sensor of the cradle head, and further identifying a holding mode of a first user holding the cradle head; when the holding mode of the first user holding the cradle head is not in accordance with the holding mode set by the lens setting of the shooting template, controlling the shooting system to send out a corresponding prompt.

For example, the controlling the pan-tilt and/or the load device of the pan-tilt to execute corresponding operations according to the preset lens setting of the shooting template and the pose of the bearing device of the pan-tilt includes: when the first user operates the cradle head to perform position movement, one or more shafts of the cradle head are controlled to rotate, so that the posture of the shooting device is adjusted to enable the posture of the shooting device to meet the posture set by the lens setting of the shooting template.

The lens setting includes a preset mapping relationship for carrying out a corresponding operation by a lens moving direction and controlling a cradle head, and the controlling the cradle head and/or a load device of the cradle head to execute a corresponding operation according to a pose of a bearing device of the cradle head and a lens setting of a preset shooting template includes: in the shooting process, identifying the direction of a first user in which the lens is moved according to the change condition of the pose of the bearing device of the cradle head; when the lens carrying direction of the first user is the direction set by the lens setting of the shooting template, controlling the cradle head to execute corresponding operation according to the preset mapping relation.

For example, when the lens-carrying direction of the first user is the set direction for the lens setting of the shooting template, the control of the pan-tilt according to the preset mapping relationship performs a corresponding operation, including: when the lens carrying direction of the first user is the direction set by the lens setting of the shooting template, controlling one or more axes of the cradle head to rotate by corresponding angles, wherein the preset mapping relation comprises a mapping relation between the preset lens carrying direction and the angles corresponding to the rotation of the one or more axes of the control cradle head.

For example, when the lens-carrying direction of the first user is the direction set by the lens setting of the shooting template, the controlling the rotation of one or more axes of the pan-tilt by a corresponding angle includes: when the mirror carrying direction of the first user is the set direction of the lens setting of the shooting template, acquiring the mirror carrying time length of the first user in the set direction; when the lens transporting duration accords with the lens transporting duration set by the lens setting of the shooting template, controlling one or more axes of the cradle head to rotate by corresponding angles according to the preset mapping relation, wherein the preset mapping relation comprises a mapping relation among a preset lens transporting direction, the lens transporting duration and the angles corresponding to the rotation of the one or more axes of the control cradle head.

For example, when the lens-carrying direction of the first user is the set direction for the lens setting of the shooting template, the control of the pan-tilt according to the preset mapping relationship performs a corresponding operation, including: when the lens moving direction of the first user is the direction set by the lens setting of the shooting template, the cradle head is controlled to enter a preset cradle head mode according to the preset mapping relation, wherein the preset mapping relation comprises a mapping relation between the preset lens moving direction and the cradle head mode.

The load device further includes a display device, the method further including: in the shooting process, displaying corresponding icons on a display interface of the display device to guide a first user to move a cradle head carrying the shooting device along an expected path indicated by the icons.

Illustratively, the method further comprises: detecting whether the moving mode of the first user meets the requirement of the lens setting or not through an image shot in real time or a sensor on the shooting system; and when the requirements of the lens setting are not met, controlling the shooting system to send out corresponding reminding.

The load device further includes a display device, the method further including: in the shooting process, displaying a corresponding icon on a display interface of the display device to guide a first user to move a cradle head carrying the shooting device along an expected path indicated by the icon; when the requirements of the lens setting are not met, controlling the shooting system to send out corresponding reminding, including: when the requirements of the lens setting are not met, a preset effect is overlapped on the icon to send out a corresponding prompt.

The load device further includes a display device, the method further including: detecting a moving mode of the first user through an image shot in real time or a sensor on the shooting system; and displaying the detected actual moving path of the first user in a superimposed manner on the photographed image.

Illustratively, the method further comprises: detecting a moving mode of the first user through an image shot in real time or a sensor on the shooting system; the displaying the corresponding icon on the display interface of the display device includes: the detected actual moving path of the first user and an icon for indicating the expected path are simultaneously displayed on a display interface of the display device.

The load device further includes a display device, the method further including: during shooting, recognizing the gesture of the shot object relative to the shooting system; and displaying the mirror conveying path on a display interface of the display device according to the gesture.

The load device further includes a display device, the method further including: and after receiving an instruction of starting shooting input by a first user, displaying an instruction of a holding mode of the cradle head on a display interface of the display device, wherein the instruction is a static picture or a dynamic image.

Referring to fig. 22, the present application further provides a photographing system, the photographing system 100 includes a photographing device 31 and a display device 32, and the photographing system 100 further includes: a memory 10 and a processor 20; the processor 20 is connected to the memory 10, the photographing device 31 and the display device 32 via buses. The processor 20 may be a micro control unit, a central processing unit or a digital signal processor, etc. The memory 10 may be a Flash chip, a read-only memory, a magnetic disk, an optical disk, a U disk, a removable hard disk, or the like.

The memory 10 is used for storing a computer program; the processor 20 is configured to execute the computer program and when executing the computer program implement the shooting method of the first aspect as above. The photographing system of the present embodiment can perform the steps in the photographing method of the first aspect, and for details of the related content, please refer to the related content of the photographing method of the first aspect, which is not described herein again.

Referring to fig. 23, another photographing system is further provided, the photographing system 100 includes a pan-tilt 40 and a load device 30 carried on the pan-tilt 40, the load device 30 includes a photographing apparatus, and the photographing system 100 further includes: a memory 10 and a processor 20; the processor 20 is connected with the memory 10, the load device 30 and the cradle head 40 through buses. The processor 20 may be a micro control unit, a central processing unit or a digital signal processor, etc. The memory 10 may be a Flash chip, a read-only memory, a magnetic disk, an optical disk, a U disk, a removable hard disk, or the like.

The memory 10 is used for storing a computer program; the processor 20 is configured to execute the computer program and when executing the computer program, implement the shooting method of the second aspect described above. The photographing system of the present embodiment can perform the steps in the photographing method of the second aspect, and for details of the related content, please refer to the related content of the photographing method of the second aspect, which is not described herein.

The present application also provides a computer-readable storage medium storing a computer program which, when executed by a processor, causes the processor to implement the photographing method according to any one of the above first aspects. For detailed descriptions of related contents, please refer to the related content section, and detailed descriptions thereof are omitted.

The computer readable storage medium may be an internal storage unit of the photographing system, such as a hard disk or a memory. The computer readable storage medium may also be an external storage device such as a equipped plug-in hard disk, smart memory card, secure digital card, flash memory card, etc.

The present application also provides another computer-readable storage medium storing a computer program which, when executed by a processor, causes the processor to implement the photographing method of any one of the above second aspects. For detailed descriptions of related contents, please refer to the related content section, and detailed descriptions thereof are omitted.

The computer readable storage medium may be an internal storage unit of the photographing system, such as a hard disk or a memory. The computer readable storage medium may also be an external storage device such as a equipped plug-in hard disk, smart memory card, secure digital card, flash memory card, etc.

It is to be understood that the terminology used in the description of the present application is for the purpose of describing particular embodiments only and is not intended to be limiting of the application.

It should also be understood that the term "and/or" as used in this specification and the appended claims refers to any and all possible combinations of one or more of the associated listed items, and includes such combinations.

While the invention has been described with reference to certain preferred embodiments, it will be understood by those skilled in the art that various changes and substitutions of equivalents may be made and equivalents will be apparent to those skilled in the art without departing from the scope of the invention. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.

Claims (120)

1. A photographing method applied to a photographing system including a photographing device and a display device, the method comprising:

   Displaying a third person viewing angle picture corresponding to the shooting template on a display interface of a display device, wherein the third person viewing angle picture displays a shot target and a photographer so as to guide a first user operating the shooting system to shoot according to a shooting method of the photographer in the third person viewing angle picture;

   and after acquiring a shooting instruction input by the first user, controlling a shooting device to shoot based on a current shooting template.
2. The method of claim 1, wherein the shooting instructions comprise instructions to enter a shooting preview interface or instructions to begin recording.
3. The method according to claim 1, wherein the method further comprises:

   when a first user triggers a first control arranged beside the third name visual angle picture and used for shooting the same money, entering a shooting preview interface;

   when the first user triggers the second control set by the shooting preview interface to start shooting, the shooting device is controlled to shoot and record based on the current shooting template.
4. The method according to claim 1, wherein before the displaying the third person viewing angle picture corresponding to the photographing template on the display interface of the display device, the method further comprises:

   And in response to an instruction input by a first user to start a shooting instruction function, displaying one or more shooting templates on a display interface of the display device.
5. The method of claim 4, wherein the displaying one or more photographing templates on the display interface of the display device in response to the instruction for starting the photographing instruction function input by the first user comprises:

   and responding to the triggering operation of the first user on a third control which is arranged on the display interface of the display device and used for starting the shooting guidance function, and displaying one or more shooting templates on the display interface of the display device.
6. The method of claim 4, wherein the displaying one or more photographing templates on the display interface of the display device in response to the instruction for starting the photographing instruction function input by the first user comprises:

   acquiring a recommended shooting scene based on an image currently shot by the shooting device;

   displaying the recommended shooting scene on a display interface of the display device;

   one or more shooting templates under the recommended shooting scene are displayed on a display interface of the display device in response to the operation of the first user on the recommended shooting scene.
7. The method of claim 6, wherein the acquiring a recommended shooting scene based on the image currently captured by the shooting device comprises:

   and determining the recommended shooting scene according to the image currently shot by the shooting device.
8. The method of claim 6, wherein the acquiring a recommended shooting scene based on the image currently captured by the shooting device comprises:

   acquiring the current position of the first user;

   and determining the recommended shooting scene according to the current image shot by the shooting device and the current position of the first user.
9. The method of claim 6, wherein the acquiring a recommended shooting scene based on the image currently captured by the shooting device comprises:

   transmitting the image currently shot by the shooting device to a server;

   and receiving the recommended shooting scene returned by the server based on the image currently shot by the shooting device and one or more shooting templates in the recommended shooting scene.
10. The method of claim 4, wherein displaying one or more photographic templates on a display interface of the display device comprises:

    And displaying shooting effect pictures of one or more shooting templates on a display interface of the display device, wherein the shooting effect pictures are generated after shooting a shot target by using shooting methods of a photographer in the third person-to-view angle picture.
11. The method of claim 10, wherein a fourth control for indicating to watch a third person viewing angle picture corresponding to the shooting template is arranged beside the shooting effect picture of the shooting template,

    the third person name visual angle picture corresponding to the shooting template is displayed on a display interface of the display device, and the third person name visual angle picture comprises:

    and responding to the touch operation of the first user on the fourth control, and displaying a third person-named visual angle picture corresponding to the touched shooting template on a display interface of the display device.
12. The method of claim 10, wherein the shooting templates comprise one or more subject templates under a shooting scene; the topic template comprises a plurality of topic sub-templates; the shooting templates comprise a plurality of theme sub-templates of one theme template in a shooting scene; each theme sub-template corresponds to one sub-lens;

    the displaying, on a display interface of the display device, a shooting effect picture of one or more shooting templates includes:

    And displaying a plurality of theme sub-templates of one theme template under the currently recommended shooting scene on a display interface of the display device, wherein each theme sub-template displays a shooting effect picture of the shot and/or a shot name of the shot.
13. The method according to claim 10, wherein the method further comprises:

    displaying three-level content on a display interface of the display device, wherein the displayed first-level content comprises one or more shooting scenes, the displayed second-level content comprises a plurality of theme templates corresponding to one of the selected shooting scenes, the displayed third-level content comprises a plurality of theme sub-templates corresponding to one of the selected theme templates, video frames of one shooting effect of each theme sub-template are displayed, and each theme sub-template corresponds to one shot;

    when receiving the selection operation of a first user on any theme sub-template, playing the shooting effect corresponding to the theme sub-template according to the selection operation.
14. The method of claim 4, wherein displaying a third person perspective view corresponding to the photographing template on the display interface of the display device comprises:

    And responding to the operation of the first user on the one or more shooting templates, and displaying a third person viewing angle picture corresponding to the operated shooting template on a display interface of the display device.
15. The method of claim 1, wherein displaying, on the display interface of the display device, a third person viewing angle picture corresponding to the photographing template, comprises:

    and simultaneously displaying the shooting effect picture of the shooting template and the third person viewing angle picture on a display interface of the display device.
16. The method according to claim 1, wherein the method further comprises:

    and in the shooting process, displaying the third person name visual angle picture and/or the shooting effect picture of the shooting template on a display interface of the display device.
17. The method according to claim 1, wherein the method further comprises:

    when the shooting device is controlled to start shooting, displaying a shooting image on a display interface of the display device and storing the shooting image;

    and displaying the third person name visual angle picture and/or the shooting effect picture of the shooting template in a superimposed mode on a display interface displaying the shooting image.
18. The method according to claim 17, wherein the step of displaying the third person viewing angle screen and/or the photographic effect screen of the photographic template on the display interface on which the photographed image is displayed, further comprises:

    And superposing and displaying the third person name visual angle picture and/or the shooting effect picture of the shooting template at the position close to the edge of the shooting image.
19. The method of claim 1, wherein after the capturing instruction input by the first user is obtained, controlling the capturing device to capture based on the current capturing template, includes:

    and after a shooting instruction input by a first user is acquired, controlling the shooting device to shoot a new video clip corresponding to the shooting template.
20. The method of claim 19, wherein the method further comprises:

    and after the shooting is completed, displaying the new video segment on a display interface of the display device.
21. The method of claim 19, wherein displaying the new video clip on the display interface of the display device after the current shooting is completed, comprises:

    and after the shooting is finished, simultaneously displaying a shooting effect picture and a new video segment of the shooting template on a display interface of the display device.
22. The method of claim 19, wherein displaying the new video clip on the display interface of the display device after the current shooting is completed, comprises:

    And after the shooting is finished, simultaneously displaying a shooting effect picture, a new video segment and a seventh control for returning to the re-shooting of the shooting template on a display interface of the display device.
23. The method of claim 19, wherein displaying the new video clip on the display interface of the display device after the current shooting is completed, comprises:

    after the shooting is completed, a shooting effect picture of the shooting template, a new video segment, a fifth control for shooting the next lens, a sixth control for slicing and a seventh control for returning to re-shooting are displayed on a display interface of the display device at the same time.
24. The method according to any one of claims 21-23, further comprising:

    and carrying out similarity scoring on the new video segment based on a preset detection algorithm, wherein the similarity scoring is used for evaluating the similarity of the new video segment and the shooting effect picture of the shooting template.
25. The method of claim 24, wherein the predetermined detection algorithm performs similarity scoring through dimensions such as scenery, mirror, composition, etc.
26. The method of claim 19, wherein the method further comprises:

    And when shooting of a new video segment corresponding to any shooting template is completed, recommending a next shooting template according to the new video segment.
27. The method of claim 26, wherein the recommending a next capture template from the new video clip comprises:

    and recommending a next shooting template according to one or more of shooting content, a moving mirror and a scene of the new video segment.
28. The method of claim 19, wherein the method further comprises:

    and responding to the film forming instruction input by the first user, and automatically forming films according to the photographed one or more new video films.
29. The method of claim 28, wherein automatically panning based on the one or more new video clips taken in response to the panning command input by the first user comprises:

    and responding to the operation of the first user on a sixth control displayed on a display interface of the display device, and automatically sheeting according to the photographed one or more new video clips.
30. The method of claim 28, wherein automatically panning based on the one or more new video clips taken in response to the panning command input by the first user comprises:

    In response to a first user input of a film-forming instruction, automatic film-forming is performed according to the photographed one or more new video clips and a default film-forming template.
31. The method of claim 28, wherein the method further comprises:

    displaying a preview picture of a piece corresponding to a default piece template on a display interface of the display device;

    responding to a first user input film forming model switching instruction, and displaying a plurality of film forming templates which can be selected by a first user on a display interface of a display device;

    responding to a film forming model confirmation instruction input by a first user, and displaying a film forming preview picture corresponding to the confirmed film forming template on a display interface of a display device;

    responding to a sheeting export instruction input by a first user, and exporting the sheeting corresponding to the confirmed sheeting template;

    and after the sheet guiding-out process is finished, displaying a sharing picture on a display interface of the display device, wherein the sharing picture displays one or more sharing channels.
32. The method of claim 31, wherein displaying the plurality of sheeting templates available for selection by the first user on the display interface of the display device comprises:

    and displaying a first area, a second area and a third area on a display interface of the display device, wherein the first area is used for displaying a preview picture of a sheeting corresponding to the sheeting template selected by the first user, the second area is used for displaying one or more types of templates for sheeting selected by the first user, and the third area is used for displaying a plurality of sheeting templates for the first user to select under one of the types of templates selected by the first user.
33. The method of claim 31, wherein deriving the slice corresponding to the confirmed slice template in response to the slice derivation instruction input by the first user comprises:

    and responding to the sheeting derivation instruction input by the first user, deriving the sheeting corresponding to the confirmed sheeting template, and displaying a sheeting derivation process picture on a display interface of a display device.
34. The method of claim 31, wherein deriving the slice corresponding to the confirmed slice template in response to the slice derivation instruction input by the first user comprises:

    and responding to a sheeting export instruction input by a first user, exporting and rendering the sheeting corresponding to the confirmed sheeting template, and displaying a rendering process picture on a display interface of a display device.
35. The method of claim 34, wherein displaying the sharing frame on the display interface of the display device after the sheeting out process is completed comprises:

    and after the rendering process is completed, displaying the sharing picture on a display interface of the display device.
36. The method of claim 1, wherein the photographing template comprises a lens setting, the method further comprising:

    Detecting whether the moving mode of the first user meets the requirement of the lens setting or not through an image shot in real time or a sensor on the shooting system;

    and when the requirements of the lens setting are not met, controlling the shooting system to send out corresponding reminding.
37. The method of claim 36, wherein the method further comprises:

    in the shooting process, displaying a corresponding icon on a display interface of the display device to guide a first user to move a cradle head carrying the shooting device along an expected path indicated by the icon;

    when the requirements of the lens setting are not met, a corresponding prompt is sent out, which comprises the following steps:

    when the requirements of the lens setting are not met, a preset effect is overlapped on the icon to send out a corresponding prompt.
38. The method according to claim 1, wherein the method further comprises:

    in the shooting process, displaying corresponding icons on a display interface of the display device to guide a first user to move a cradle head carrying the shooting device along an expected path indicated by the icons.
39. The method of claim 38, wherein the method further comprises:

    Detecting a moving mode of the first user through an image shot in real time or a sensor on the shooting system;

    the displaying the corresponding icon on the display interface of the display device includes:

    the detected actual moving path of the first user and an icon for indicating the expected path are simultaneously displayed on a display interface of the display device.
40. The method of any one of claims 37 to 39, wherein the icon is displayed in a flashing form; and/or, the color of the icon is red; and/or the size of the icon is at least larger than characters on a display interface of the display device.
41. The method of claim 40, wherein the icon comprises an arrow.
42. The method of claim 41, wherein the arrow comprises at least one of a forward arrow, a backward arrow, a left arrow, a right arrow, a counterclockwise-encircling arrow, and a clockwise-encircling arrow to indicate a mirror direction.
43. The method of claim 41, wherein the arrow is displayed superimposed on the captured image of the capturing device in real time.
44. The method according to claim 1, wherein the method further comprises:

    Detecting a moving mode of the first user through an image shot in real time or a sensor on the shooting system;

    and displaying the detected actual moving path of the first user in a superimposed manner on the photographed image.
45. The method according to claim 1, wherein the method further comprises:

    during shooting, recognizing the gesture of the shot object relative to the shooting system;

    and displaying the mirror conveying path on a display interface of the display device according to the gesture.
46. The method according to claim 1, wherein the method further comprises:

    and controlling the shooting system to send information reminding the first user or the second user serving as a shot target in the shooting process.
47. The method of claim 46, wherein controlling the photographing system to issue information prompting the first user or the second user as a photographed object during photographing comprises:

    in the shooting process, when the shooting time is longer than the preset shooting time of the shooting template, the shooting system is controlled to remind the first user to stop shooting.
48. The method of claim 46, wherein controlling the photographing system to issue information prompting the first user or the second user as a photographed object during photographing comprises:

    And controlling the shooting system to send out voice information reminding the first user or the second user in the shooting process.
49. The method of claim 48, wherein controlling the photographing system to send out voice information prompting the first user or the second user during photographing comprises:

    and controlling the shooting system to send out first voice information in the shooting process, wherein the first voice information is used for indicating a first user to move and bear a holder of the shooting device.
50. The method of claim 48, wherein controlling the photographing system to send out voice information prompting the first user or the second user during photographing comprises:

    and controlling the shooting system to send out second voice information in the shooting process, wherein the second voice information is used for indicating the action of a second user serving as a shot target.
51. The method of claim 50, wherein the second voice information is further used to indicate how the second user interacted with a scene.
52. The method of claim 1, wherein the shooting templates comprise one or more subject templates under a shooting scene; the topic template comprises a plurality of topic sub-templates; the shooting templates comprise a plurality of theme sub-templates of one theme template in a shooting scene; the theme sub-templates form a complete shooting short sheet; each topic sub-template corresponds to a shot.
53. The method of claim 52, wherein the photographing contents corresponding to the plurality of theme sub-templates are all photographed in the same scene.
54. The method of claim 1, wherein the photographing template corresponds to a photographing lens, the photographing template comprising a lens setting;

    based on current shooting template, control shooting device shoots, include:

    based on the lens setting of the current shooting template, controlling the shooting device to shoot a new video segment corresponding to the shooting template;

    or based on the current lens setting of the shooting template, controlling the shooting device to shoot a new video segment corresponding to the shooting template, and simultaneously controlling a cradle head carrying the shooting device to move.
55. The method of claim 54, wherein the lens settings include one or more of a first user's grip on the pan-tilt, a scene, a mirror orientation, a mirror duration, a pan-tilt mode, a capture mode, capture parameters, a second user's motion, a first user's motion.
56. The method of claim 54, wherein the lens settings include a pan-tilt mode, the method further comprising:

    And when a new video clip corresponding to the shooting template is shot, controlling a cradle head carrying the shooting device to move according to a cradle head mode set by the lens setting of the shooting template.
57. The method of claim 56, wherein said pan-tilt mode comprises a stability augmentation mode, a rotation mode, a pitch lock mode, a FPV mode, or a lens orientation lock mode.
58. The method of claim 54, wherein the setting of the shots of the photographic template includes simultaneously activating at least two cameras, the camera including at least two cameras, the method further comprising:

    and when a new video clip corresponding to the shooting template is shot, controlling the shooting device to simultaneously start at least two cameras for shooting.
59. The method of claim 54, wherein the setting of the shots of the photographic template includes simultaneously activating front and rear cameras, the camera includes front and rear cameras, the method further comprising:

    and when a new video clip corresponding to the shooting template is shot, controlling the shooting device to simultaneously start the front camera and the rear camera for shooting.
60. The method of claim 54, wherein the setting of the lens of the photographing template includes switching front and rear cameras, and wherein the photographing device includes front and rear cameras, the method further comprising:

    And when a new video clip corresponding to the shooting template is shot, controlling the shooting device to switch the front camera and the rear camera.
61. The method of claim 54, wherein the camera has only one camera, wherein the setting of the lens of the camera template comprises a self-timer mode switch, and wherein the method further comprises:

    and when a new video clip corresponding to the shooting template is shot, adjusting the posture of the shooting device through one or more shafts of the cradle head so as to enable a camera of the shooting device to face a first user.
62. The method of claim 54, wherein the lens setting of the capture template includes rotating one or more axes of the pan-tilt, the method further comprising:

    and when a new video segment corresponding to the shooting template is shot, controlling one or more shafts of the tripod head to rotate by a corresponding angle according to the operation of rotating the one or more shafts of the tripod head set by the lens setting of the shooting template.
63. The method of claim 54, wherein the lens setting includes a grip pattern of a pan-tilt and a preset mapping relationship for controlling the photographing device and/or the pan-tilt to perform a corresponding operation,

    The method further comprises the steps of:

    in the shooting process, recognizing a holding mode of a first user holding the cradle head through an attitude sensor of the cradle head;

    when the holding mode of the first user holding the cradle head meets the holding mode set by the lens setting of the shooting template, the shooting device and/or the cradle head are controlled to execute corresponding operations according to the preset mapping relation.
64. The method of claim 63, wherein the controlling the photographing device and/or the pan/tilt head to perform the corresponding operations according to the preset mapping relationship comprises:

    and controlling the cradle head to enter a preset cradle head mode according to the preset mapping relation, wherein the preset mapping relation comprises a preset cradle head holding mode and a preset cradle head mode.
65. The method of claim 63, wherein the controlling the photographing device and/or the pan/tilt head to perform the corresponding operations according to the preset mapping relationship comprises:

    and controlling the shooting device to simultaneously start at least two cameras to shoot according to the preset mapping relation, wherein the preset mapping relation comprises a preset holding mode of a cradle head and the mapping relation between the at least two cameras is simultaneously started.
66. The method of claim 63, wherein the controlling the photographing device and/or the pan/tilt head to perform the corresponding operations according to the preset mapping relationship comprises:

    and controlling the shooting device to simultaneously start the front camera and the rear camera to shoot according to the preset mapping relation, wherein the preset mapping relation comprises a preset holding mode of the cradle head and a mapping relation between the front camera and the rear camera which are simultaneously started.
67. The method of claim 63, wherein the controlling the photographing device and/or the pan/tilt head to perform the corresponding operations according to the preset mapping relationship comprises:

    and controlling the shooting device to be switched from the front camera to the rear camera for shooting according to a first holding mode of the cradle head in the preset mapping relation, and controlling the shooting device to be switched from the rear camera to the front camera for shooting according to a second holding mode of the cradle head in the preset mapping relation, wherein the preset mapping relation comprises a mapping relation between the holding mode of the preset cradle head and the front and rear camera switching.
68. The method of claim 63, wherein the controlling the photographing device and/or the pan/tilt head to perform the corresponding operations according to the preset mapping relationship comprises:

    According to the preset mapping relation, the gesture of the shooting device is adjusted through one or more shafts of the cradle head, so that a camera of the shooting device faces a first user, wherein the preset mapping relation comprises a mapping relation between a preset holding mode of the cradle head and self-shooting mode switching.
69. The method of claim 63, wherein the controlling the photographing device and/or the pan/tilt head to perform the corresponding operations according to the preset mapping relationship comprises:

    and controlling one or more shafts of the tripod head to rotate by corresponding angles according to the preset mapping relation, wherein the preset mapping relation comprises a mapping relation between a preset holding mode of the tripod head and the angles corresponding to the rotation of the one or more shafts of the tripod head.
70. The method of claim 54, further comprising:

    and after receiving an instruction of starting shooting input by a first user, displaying an instruction of a holding mode of the cradle head on a display interface of the display device, wherein the instruction is a static picture or a dynamic image.
71. The method of claim 54, further comprising:

    Identifying a holding mode of a first user holding the cradle head through an attitude sensor of the cradle head;

    when the holding mode of the first user holding the cradle head is not in accordance with the holding mode set by the lens setting of the shooting template, controlling the shooting system to send out a corresponding prompt.
72. The method of claim 54, wherein the lens settings of the capture template include pan-tilt settings, the method further comprising:

    and when a new video clip corresponding to the shooting template is shot, controlling one or more shafts of the tripod head to rotate according to the tripod head rotation setting set by the lens setting of the shooting template.
73. The method of claim 1, wherein the camera is carried on a pan-tilt, the method further comprising:

    when the first user operates the cradle head to perform position movement, one or more shafts of the cradle head are controlled to rotate so as to adjust the gesture of the shooting device.
74. The method of claim 54, wherein the lens setting includes a predetermined mapping relationship of a lens handling direction and a control cradle head to perform a corresponding operation, the method further comprising:

    During shooting, identifying the mirror direction of a first user;

    when the lens carrying direction of the first user is the direction set by the lens setting of the shooting template, controlling the cradle head to execute corresponding operation according to the preset mapping relation.
75. The method according to claim 74, wherein when the first user's mirror direction is the direction set by the lens setting of the photographing template, controlling the pan-tilt to perform the corresponding operation according to the preset mapping relationship includes:

    when the lens carrying direction of the first user is the direction set by the lens setting of the shooting template, controlling one or more axes of the cradle head to rotate by corresponding angles, wherein the preset mapping relation comprises a mapping relation between the preset lens carrying direction and the angles corresponding to the rotation of the one or more axes of the control cradle head.
76. The method of claim 75, wherein controlling one or more axes of the pan-tilt to rotate by the corresponding angle when the first user's mirror orientation is a set orientation for the lens setting of the capture template, comprises:

    when the mirror carrying direction of the first user is the set direction of the lens setting of the shooting template, acquiring the mirror carrying time length of the first user in the set direction;

    When the lens carrying time length accords with the lens carrying time length set by the lens setting of the shooting template, controlling one or more axes of the cradle head to rotate by corresponding angles, wherein the preset mapping relation comprises a mapping relation among a preset lens carrying direction, the lens carrying time length and the angles corresponding to the rotation of the one or more axes of the cradle head.
77. The method according to claim 74, wherein when the first user's mirror direction is the direction set by the lens setting of the photographing template, controlling the pan-tilt to perform the corresponding operation according to the preset mapping relationship includes:

    when the lens moving direction of the first user is the direction set by the lens setting of the shooting template, controlling the cradle head to enter a preset cradle head mode according to the preset mapping relation, wherein the preset mapping relation comprises a mapping relation between the preset lens moving direction and the cradle head mode.
78. The method of claim 54, wherein the lens setting of the capture template comprises a collection of mirrors, the collection of mirrors comprising a plurality of consecutive mirrors of the capture lens of the capture template, each mirror comprising a mirror direction and a mirror duration, the method further comprising:

    Recommending and reminding the mirror direction and the mirror duration of the next mirror in the mirror collection according to the historical mirror direction of the first user.
79. The method of claim 54, wherein the shot settings of the shooting template include a scene album, the method further comprising:

    and recommending the first user to shoot the next scene in the scene aggregation according to the shot Jing Bie when shooting a new video clip corresponding to the shooting template.
80. The method of claim 54, wherein the lens settings of the capture template comprise a plurality of consecutive sets of actions, the method further comprising:

    during the photographing, identifying an action currently performed by the second user as a photographed object;

    and reminding the second user of the next action in the action combination needed to be performed according to the historical actions executed by the second user and the actions currently executed by the second user.
81. The method of claim 54, wherein the lens setting of the photographing template comprises a plurality of consecutive sets of actions, a second user as a photographed object carrying a terminal device capable of communicating with the photographing system, the method further comprising:

    During the photographing, identifying an action currently performed by the second user as a photographed object;

    determining the next action in the action combination which is required to be performed by the second user according to the historical actions which the second user has performed and the actions which the second user currently performs;

    and sending the next action required by the second user to the terminal equipment so that the terminal equipment reminds the second user of carrying out the next action.
82. The method of claim 80 or 81, wherein the identifying the action currently performed by the second user as the photographed target comprises:

    and identifying the action currently executed by the second user serving as the shot target according to the image shot by the shooting device.
83. The method of claim 82, wherein the identifying the action currently performed by the second user as the object to be photographed based on the image currently photographed by the photographing device comprises:

    detecting an articulation point of a second user in the current shot image;

    and identifying the action currently executed by the second user according to the joint point of the second user.
84. The method of claim 80 or 81, wherein the identifying the action currently performed by the second user as the photographed target comprises:

    and identifying the action currently executed by the second user as the shot target according to the sensor carried on the second user and used for detecting the action of the second user.
85. The method of claim 54, wherein the lens settings of the capture template include a composition of images, the method further comprising:

    when a new video clip corresponding to a shooting template is shot, determining the matching condition of the current composition and the composition set by the lens setting of the shooting template;

    if the current composition is not matched with the composition set by the lens setting of the shooting template, adjusting the posture of the cradle head to enable the current composition to be matched with the composition set by the lens setting of the shooting template;

    or if the current composition is not matched with the composition set by the lens setting of the shooting template, sending out prompt information to guide the first user to move the cradle head carrying the shooting device, so that the current composition is matched with the composition set by the lens setting of the shooting template.
86. The method of claim 54, wherein the lens settings of the photographing template are set with a preset photographing mode, the method further comprising:

    and when a new video clip corresponding to the shooting template is shot, controlling the shooting device to shoot according to a preset shooting mode set by the lens setting of the shooting template.
87. The method of claim 86, wherein the predetermined capture mode comprises a motion delay mode, wherein the lens setting of the capture template further comprises the pan-tilt following the captured object in the motion delay mode,

    when shooting a new video clip corresponding to the shooting template, controlling the shooting device to shoot according to a preset shooting mode set by the lens setting of the shooting template, including:

    when a new video clip corresponding to a shooting template is shot, prompting a first user to select a shot target in an image currently shot by the shooting device or identify and automatically lock the shot target in the image currently shot by the shooting device, prompting the first user to move around the shot target, controlling the shooting device to shoot according to a movement delay mode set by a lens setting of the shooting template, and simultaneously controlling a cradle head to follow the shot target, so that the shot target is positioned in the middle of a picture.
88. The method of claim 86, wherein said predetermined capture mode comprises a dynamic zoom mode,

    when shooting a new video clip corresponding to the shooting template, controlling the shooting device to shoot according to a preset shooting mode set by the lens setting of the shooting template, including:

    when a new video clip corresponding to the shooting template is shot, prompting a first user to select a shot target in an image currently shot by the shooting device or identify and automatically lock the shot target in the image currently shot by the shooting device, prompting the first user to gradually get close to the shot target or gradually get away from the shot target, controlling the speed of changing the focal length of the shooting device according to the speed of moving the shooting system by the acquired first user so as to ensure that the size of the shot target is unchanged in a picture, and simultaneously adjusting one or more axes of a tripod head so as to ensure that the shot target is positioned in the middle of the picture.
89. The method of claim 54, wherein the lens settings of the photographic template include photographic parameters, the method further comprising:

    and when a new video clip corresponding to the shooting template is shot, setting the set shooting parameters according to the lens of the shooting template, and controlling the parameters of the shooting device.
90. The method of claim 54, wherein the shot settings of the shooting template include a mapping between a target of a preset type and a preset operation of the first user or the second user, the method further comprising:

    when a new video clip corresponding to a shooting template is shot, if the target of the preset type is identified in the current shot image of the shooting device, reminding a first user or a second user to perform corresponding preset operation according to the mapping relation.
91. The method according to claim 90, wherein, when capturing the new video clip corresponding to the capturing template, if the target of the preset type is identified in the image currently captured by the capturing device, prompting the first user or the second user to perform the corresponding preset operation according to the mapping relationship, includes:

    and in shooting, if a door is identified in the image currently shot by the shooting device, reminding a second user to perform corresponding door pushing operation according to the mapping relation.
92. The method according to claim 90, wherein, when capturing the new video clip corresponding to the capturing template, if the target of the preset type is identified in the image currently captured by the capturing device, prompting the first user or the second user to perform the corresponding preset operation according to the mapping relationship, includes:

    And when shooting, if the hole is identified in the image currently shot by the shooting device, reminding the first user to pass through the hole mirror according to the mapping relation.
93. The method according to claim 90, wherein, when capturing the new video clip corresponding to the capturing template, if the target of the preset type is identified in the image currently captured by the capturing device, prompting the first user or the second user to perform the corresponding preset operation according to the mapping relationship, includes:

    and when shooting, if the railing is identified in the image currently shot by the shooting device, reminding the first user to pass around the railing according to the mapping relation.
94. The method according to claim 90, wherein, when capturing the new video clip corresponding to the capturing template, if the target of the preset type is identified in the image currently captured by the capturing device, prompting the first user or the second user to perform the corresponding preset operation according to the mapping relationship, includes:

    and in shooting, if a target of a preset type is identified in the image currently shot by the shooting device, reminding a first user to shake the shooting device according to the mapping relation.
95. The method of claim 54, further comprising:

    when the shot setting of the shooting template comprises target following, reminding the first user of carrying out a selection operation of following the target.
96. A photographing method, characterized in that it is applied to a photographing system, the photographing system including a cradle head and a load device carried on the cradle head, the load device including a photographing apparatus, the method comprising:

    acquiring a selection instruction input by a first user, and determining a shooting template to be shot;

    acquiring an instruction input by a first user for starting shooting, and controlling the shooting device to start shooting;

    in the process that the shooting device starts shooting, according to a first user, operating the cradle head to enable the bearing device of the cradle head to change in pose, and according to the lens setting of a preset shooting template and the pose of the bearing device of the cradle head, controlling the cradle head and/or load equipment of the cradle head to execute corresponding operation.
97. The method of claim 96, wherein the lens setting includes a holding pattern of the pan-tilt and a predetermined mapping relationship for controlling the photographing device and/or the pan-tilt to perform the corresponding operation,

    The setting of the lens according to the preset shooting template and the pose of the bearing device of the cradle head, and the control of the cradle head and/or the load equipment of the cradle head to execute corresponding operations comprise:

    in the shooting process, determining the gesture of a bearing device of the cradle head through a gesture sensor of the cradle head, and further identifying a holding mode of a first user holding the cradle head;

    when the holding mode of the first user holding the holder meets the holding mode set by the lens setting of the shooting template, controlling the holder and/or the shooting device to execute corresponding operations according to the preset mapping relation.
98. The method of claim 97, wherein the controlling the pan-tilt and/or the camera to perform the corresponding operations according to the preset mapping relationship comprises:

    and controlling the cradle head to enter a preset cradle head mode according to the preset mapping relation, wherein the preset mapping relation comprises a preset cradle head holding mode and a preset cradle head mode.
99. The method of claim 97, wherein the controlling the pan-tilt and/or the camera to perform the corresponding operations according to the preset mapping relationship comprises:

    And controlling the shooting device to simultaneously start at least two cameras to shoot according to the preset mapping relation, wherein the preset mapping relation comprises a preset holding mode of a cradle head and the mapping relation between the at least two cameras is simultaneously started.
100. The method of claim 97, wherein the controlling the pan-tilt and/or the camera to perform the corresponding operations according to the preset mapping relationship comprises:

     and controlling the shooting device to simultaneously start the front camera and the rear camera to shoot according to the preset mapping relation, wherein the preset mapping relation comprises a preset holding mode of the cradle head and a mapping relation between the front camera and the rear camera which are simultaneously started.
101. The method of claim 97, wherein the controlling the pan-tilt and/or the camera to perform the corresponding operations according to the preset mapping relationship comprises:

     and controlling the shooting device to be switched from the front camera to the rear camera for shooting according to a first holding mode of the cradle head in the preset mapping relation, and controlling the shooting device to be switched from the rear camera to the front camera for shooting according to a second holding mode of the cradle head in the preset mapping relation, wherein the preset mapping relation comprises a mapping relation between the holding mode of the preset cradle head and the front and rear camera switching.
102. The method of claim 97, wherein the controlling the pan-tilt and/or the camera to perform the corresponding operations according to the preset mapping relationship comprises:

     according to the preset mapping relation, the gesture of the shooting device is adjusted through one or more shafts of the cradle head, so that a camera of the shooting device faces a first user, wherein the preset mapping relation comprises a mapping relation between a preset holding mode of the cradle head and self-shooting mode switching.
103. The method of claim 97, wherein the controlling the pan-tilt and/or the camera to perform the corresponding operations according to the preset mapping relationship comprises:

     and controlling one or more shafts of the tripod head to rotate by corresponding angles according to the preset mapping relation, wherein the preset mapping relation comprises a mapping relation between a preset holding mode of the tripod head and the angles corresponding to the rotation of the one or more shafts of the tripod head.
104. The method according to claim 96, wherein the controlling the pan-tilt and/or the load device of the pan-tilt to perform the corresponding operation according to the lens setting of the preset photographing template and the pose of the carrying device of the pan-tilt comprises:

     Determining the gesture of a bearing device of the cradle head through a gesture sensor of the cradle head, and further identifying a holding mode of a first user holding the cradle head;

     when the holding mode of the first user holding the cradle head is not in accordance with the holding mode set by the lens setting of the shooting template, controlling the shooting system to send out a corresponding prompt.
105. The method according to claim 96, wherein the controlling the pan-tilt and/or the load device of the pan-tilt to perform the corresponding operation according to the lens setting of the preset photographing template and the pose of the carrying device of the pan-tilt comprises:

     when the first user operates the cradle head to perform position movement, one or more shafts of the cradle head are controlled to rotate, so that the posture of the shooting device is adjusted to enable the posture of the shooting device to meet the posture set by the lens setting of the shooting template.
106. The method of claim 96, wherein the lens setting includes a predetermined mapping relationship between a lens handling direction and a control cradle head to perform a corresponding operation,

     the setting of the lens according to the preset shooting template and the pose of the bearing device of the cradle head, and the control of the cradle head and/or the load equipment of the cradle head to execute corresponding operations comprise:

     In the shooting process, identifying the direction of a first user in which the lens is moved according to the change condition of the pose of the bearing device of the cradle head;

     when the lens carrying direction of the first user is the direction set by the lens setting of the shooting template, controlling the cradle head to execute corresponding operation according to the preset mapping relation.
107. The method according to claim 106, wherein when the first user's mirror direction is the direction set by the lens setting of the photographing template, controlling the pan-tilt to perform the corresponding operation according to the preset mapping relationship includes:

     when the lens carrying direction of the first user is the direction set by the lens setting of the shooting template, controlling one or more axes of the cradle head to rotate by corresponding angles, wherein the preset mapping relation comprises a mapping relation between the preset lens carrying direction and the angles corresponding to the rotation of the one or more axes of the control cradle head.
108. The method according to claim 107, wherein controlling one or more axes of the pan-tilt to rotate by the corresponding angle when the first user's mirror orientation is a direction set for the lens setting of the photographing template, comprises:

     When the mirror carrying direction of the first user is the set direction of the lens setting of the shooting template, acquiring the mirror carrying time length of the first user in the set direction;

     when the lens transporting duration accords with the lens transporting duration set by the lens setting of the shooting template, controlling one or more axes of the cradle head to rotate by corresponding angles according to the preset mapping relation, wherein the preset mapping relation comprises a mapping relation among a preset lens transporting direction, the lens transporting duration and the angles corresponding to the rotation of the one or more axes of the control cradle head.
109. The method according to claim 106, wherein when the first user's mirror direction is the direction set by the lens setting of the photographing template, controlling the pan-tilt to perform the corresponding operation according to the preset mapping relationship includes:

     when the lens moving direction of the first user is the direction set by the lens setting of the shooting template, controlling the cradle head to enter a preset cradle head mode according to the preset mapping relation, wherein the preset mapping relation comprises a mapping relation between the preset lens moving direction and the cradle head mode.
110. The method of claim 96, further comprising:

     Detecting whether the moving mode of the first user meets the requirement of the lens setting or not through an image shot in real time or a sensor on the shooting system;

     and when the requirements of the lens setting are not met, controlling the shooting system to send out corresponding reminding.
111. The method of claim 110, wherein the load device further comprises a display apparatus, the method further comprising:

     in the shooting process, displaying a corresponding icon on a display interface of the display device to guide a first user to move a cradle head carrying the shooting device along an expected path indicated by the icon;

     when the requirements of the lens setting are not met, controlling the shooting system to send out corresponding reminding, including:

     when the requirements of the lens setting are not met, a preset effect is overlapped on the icon to send out a corresponding prompt.
112. The method of claim 96, wherein the load device further comprises a display device, the method further comprising:

     in the shooting process, displaying corresponding icons on a display interface of the display device to guide a first user to move a cradle head carrying the shooting device along an expected path indicated by the icons.
113. The method of claim 112, further comprising:

     detecting a moving mode of the first user through an image shot in real time or a sensor on the shooting system;

     the displaying the corresponding icon on the display interface of the display device includes:

     the detected actual moving path of the first user and an icon for indicating the expected path are simultaneously displayed on a display interface of the display device.
114. The method of claim 96, wherein the load device further comprises a display apparatus, the method further comprising:

     detecting a moving mode of the first user through an image shot in real time or a sensor on the shooting system;

     and displaying the detected actual moving path of the first user in a superimposed manner on the photographed image.
115. The method of claim 96, wherein the load device further comprises a display apparatus, the method further comprising:

     during shooting, recognizing the gesture of the shot object relative to the shooting system;

     and displaying the mirror conveying path on a display interface of the display device according to the gesture.
116. The method of claim 96, wherein the load device further comprises a display apparatus, the method further comprising:

     And after receiving an instruction of starting shooting input by a first user, displaying an instruction of a holding mode of the cradle head on a display interface of the display device, wherein the instruction is a static picture or a dynamic image.
117. A photographing system comprising a photographing device and a display device, characterized in that the photographing system further comprises: a memory and a processor;

     the memory is used for storing a computer program;

     the processor is configured to execute the computer program and to implement the shooting method according to any one of claims 1 to 95 when the computer program is executed.
118. A shooting system comprising a pan-tilt and a load device carried by the pan-tilt, the load device comprising a shooting means, the shooting system further comprising: a memory and a processor;

     the memory is used for storing a computer program;

     the processor is configured to execute the computer program and to implement the shooting method according to any one of claims 96-116 when the computer program is executed.
119. A computer-readable storage medium storing a computer program which, when executed by a processor, causes the processor to implement the photographing method of any one of claims 1 to 95.
120. A computer readable storage medium storing a computer program which when executed by a processor causes the processor to implement the shooting method of any one of claims 96 to 116.