CN112995629A

CN112995629A - Intelligent self-shooting hall realization method based on holographic technology

Info

Publication number: CN112995629A
Application number: CN202110261628.7A
Authority: CN
Inventors: 关锐; 付玉堂; 田锋; 曾广慧; 黄龙杰; 金勇�; 靳云昭; 李佳林; 李良淼
Original assignee: Inbo Supercomputing Nanjing Technology Co Ltd
Current assignee: Inbo Supercomputing Nanjing Technology Co Ltd
Priority date: 2021-03-10
Filing date: 2021-03-10
Publication date: 2021-06-18
Anticipated expiration: 2041-03-10
Also published as: CN112995629B

Abstract

The invention relates to the field of self-photographing museums, and discloses an intelligent self-photographing museums realization method based on holographic photography technology.

Description

Intelligent self-shooting hall realization method based on holographic technology

Technical Field

The invention relates to the field of self-photographing museums, in particular to an intelligent self-photographing museums realization method based on a holographic technology.

Background

With the development of scientific industry, a self-photographing photo studio gradually becomes a mainstream mode of photography. The random self-timer tide is deeply favored by young people pursuing individuality. The self-timer museum provides the background, the field, the props and other related articles for the customers, and is also provided with a professional cosmetic maker. After the customer makes up, the customer stands in front of the camera and can put the model in front of the camera without the restriction of a photographer, and the customer who takes pictures can be particularly opened, so that the system is particularly creative and has natural expression;

however, the use of a self-service museum requires the continuous replacement of scenes in the museum to meet the demands of different users, which is very costly.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide an intelligent self-shooting hall realization method based on a holographic technology, which is used for reducing the use cost when the scene of the self-shooting hall is changed.

In order to achieve the purpose, the invention provides the following technical scheme: an intelligent self-shooting museum realization method based on holographic technology comprises a holographic projection end and a shooting end, wherein the holographic projection end comprises a curtain, a projection module and a background module, the background module comprises a storage unit, the storage unit is used for storing background pictures, the projection module comprises a projection unit, and the projection unit is used for holographically projecting the background pictures in the storage unit to the front of the curtain;

the shooting end comprises a controller, a shooting module and a display module, the shooting module comprises a shooting unit and a capturing unit, the controller is used for controlling the shooting unit to shoot, and the display module is used for synchronously displaying shooting contents of the shooting module;

the capturing unit is used for capturing the motion of the hand of the user and generating capturing information, the capturing information comprises capturing data, the capturing data comprises transverse data and vertical data, the transverse data represents the distance of the transverse motion of the hand of the user, and the vertical data represents the distance of the vertical motion of the hand of the user;

the projection unit comprises a projection strategy, and the projection strategy respectively adjusts the width and the height of a background projected by holographic projection according to the transverse data and the vertical data through an algorithm.

As a further improvement of the present invention, the holographic projection end further includes an adjusting module, and the adjusting module is configured to drive the curtain to move so as to enable the curtain to approach or be away from the shooting end.

As a further improvement of the present invention, the shooting end further includes a distance measurement module, the distance measurement module includes a distance measurement unit, the shooting module includes a camera, the distance measurement unit is configured to detect a distance between the curtain and the camera, generate distance data, and feed back the distance data to the projection module, the projection module is preset with a length and a height of the curtain, the projection unit further includes a comparison policy, the projection policy sends the width and the height of the background on the curtain to the comparison policy in real time, the comparison policy compares the width and the height of the background projected by the holographic projection with the width and the height of the curtain, and controls the adjustment module to adjust the position of the curtain through an algorithm.

As a further improvement of the present invention, the controller is provided with a start button and an end button, and the start button and the end button respectively control the on and off of the capturing unit.

As a further improvement of the invention, the captured information further comprises forward data and backward data, the forward data represents the forward extending distance of the hand of the user, the backward data represents the backward shrinking distance of the hand of the user, and the projection strategy is used for zooming the background holographically projected on the curtain according to the forward data and the backward data through an algorithm.

As a further improvement of the present invention, a focal length module is configured in the camera, the focal length module includes a focal length unit, the distance measurement unit feeds back the distance data to the focal length unit, and the focal length unit adjusts the focal length of the camera according to the distance data.

As a further improvement of the present invention, the photographing module further includes a framing unit, and the framing unit is configured to blank the periphery of the photo imaged by the camera.

As a further improvement of the present invention, the framing unit is configured with a framing strategy, the framing strategy is configured with a framing information table, a plurality of side thickness data are configured in the framing information table, each side thickness data corresponds to a width data, the width data represents a width of a photo, the framing strategy uses the width of the photo imaged by the camera as an index, and the periphery of the photo imaged by the camera is blank according to the corresponding side thickness data.

As a further improvement of the invention, an intelligent voice interaction system is arranged in the camera.

The invention has the beneficial effects that: the storage unit is arranged in the invention, a user can store the background pictures in the storage unit according to the self requirement, and then the background pictures are projected to the front of the curtain through the projection module, so that the background pictures can be continuously replaced, the scenes in the self-portrait museum do not need to be dismantled and replaced, the holographic projection is carried out only by replacing the background pictures, the time for replacing the scenes is saved, the cost is also saved, the holographic projection method is more convenient, the width and the height of the holographically projected background can be adjusted through a projection strategy, and the holographic projection method is convenient for the user to use.

Drawings

Fig. 1 is a block diagram of the present invention.

Reference numerals: 1. a holographic projection end; 11. a curtain; 12. a projection module; 13. a background module; 14. an adjustment module; 2. a shooting end; 21. a controller; 22. a photographing module; 23. a display module; 24. and a distance measuring module.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples. In which like parts are designated by like reference numerals. It should be noted that the terms "front," "back," "left," "right," "upper" and "lower" used in the following description refer to directions in the drawings, and the terms "bottom" and "top," "inner" and "outer" refer to directions toward and away from, respectively, the geometric center of a particular component.

Referring to fig. 1, the method for implementing an intelligent self-shooting hall based on holographic technology of this embodiment includes a holographic projection end 1 and a shooting end 2, where the holographic projection end 1 includes a curtain 11, a projection module 12 and a background module 13, the background module 13 includes a storage unit for storing background pictures, and a user can store the required background pictures in the storage unit through a mobile storage device such as a USB device according to his needs, and then project the background pictures into a space in front of the curtain 11 through the projection module 12, so as to continuously change the background pictures, so as to meet the needs of the user, when the user needs to take pictures in different scenes, the user does not need to change scenes in the self-shooting hall, and only needs to change the background pictures to perform holographic projection, so as to save the time required for changing scenes, and be more convenient, and the projection module 12 includes a projection unit, the projection unit is used for carrying out holographic projection on the background picture in the storage unit to the front of the curtain 11;

shoot end 2 and include controller 21, photography module 22 and display module 23, photography module 22 includes photography unit and capture unit, controller 21 is used for controlling photography unit and shoots, is provided with the start button and ends the button on the controller 21, start button and end button control respectively capture unit's the start and close, the setting of start button and end button can prevent that the user from in the pendulum POSE in-process, because of the swing of arm causes the change of background picture width and height. The display module 23 is used for synchronously displaying the shooting contents of the shooting module 22, and a user holds the controller 21 in the hand during shooting and remotely controls the shooting unit to shoot through the controller 21, so that the user can conveniently put each posture and the shooting is convenient; holographic projection end 1 still includes adjustment module 14, adjustment module 14 is used for driving curtain 11 and removes, so that curtain 11 is close to or keeps away from shooting end 2, adjustment module 14 includes the motor, rack and gear, motor output and gear fixed connection, wheel and rack intermeshing, curtain 11 fixed connection is on two racks, rack sliding connection is on the slide rail, slide rail fixed connection is subaerial, drive the gear through the motor and rotate, make the rack slide on the slide rail, in order to drive curtain 11 and remove, motor and shooting end 2 electric connection, start-stop and positive reverse rotation through contrast strategy control motor. The shooting end 2 further comprises a distance measuring module 24, the distance measuring module 24 comprises a distance measuring unit, the shooting module 22 comprises a camera, the distance measuring unit is used for detecting the distance between the curtain 11 and the camera and generating distance data to be fed back to the projection module 12, the length and the height of the curtain 11 are preset in the projection module 12, the projection unit further comprises a contrast strategy, the width and the height of the background on the curtain 11 are sent to the contrast strategy in real time by the projection strategy, the contrast strategy compares the width and the height of the background projected by holographic projection with the width and the height of the curtain 11, and the position of the curtain 11 is adjusted by the algorithm control adjusting module 14, so that the background projected on the curtain 11 can be completely matched with the curtain 11, the background on the shot picture is more complete, when the height of the background projected by holographic projection is smaller than the height of the curtain 11, the motor is started to drive the curtain 11 to move towards the side far away from the camera, similarly, when the width of the holographically projected background is smaller than the width of the curtain 11, the motor is started to drive the curtain 11 to move towards the side far away from the camera, so that the holographically projected background is adapted to the curtain 11, shooting is performed by adjusting the focal length of the camera, and the width of the holographically projected background refers to the width of a picture formed by taking the shooting direction of the camera as the front view direction; dispose intelligent voice interaction system in the camera, through intelligent voice interaction system, the user can operate the camera through pronunciation, realizes the function of shooing, and the user is when shooting whole body and shine, probably inconvenient controller 21 of holding, can be convenient for the user through intelligent voice interaction system and shoot.

The capturing unit is used for capturing the hand motion of the user and generating capturing information, the capturing information comprises capturing data, the capturing data comprises transverse data and vertical data, the transverse data represents the distance of the transverse motion of the hand of the user, and the vertical data represents the distance of the vertical motion of the hand of the user; the capture information further comprises forward data and backward data, the forward data represents the distance that the hand of the user extends forwards, the backward data represents the distance that the hand of the user contracts backwards, the projection strategy is according to the forward data and the backward data, and the background of the holographic projection on the curtain 11 is zoomed through an algorithm, the width and the height of the background on the curtain 11 are adjusted through the transverse data and the vertical data, the inconsistency of the ratio between the width and the height can be caused, the distortion of the background projected out is caused, the background of the holographic projection is directly zoomed through the forward data and the backward data, the width and the height of the background can be adjusted between the same ratio, the distortion of the background projected out is prevented, and the width and the height of the curtain 11 are adjusted more conveniently through the forward data and the backward data.

The projection unit comprises a projection strategy, the projection strategy respectively adjusts the width and the height of the background on the screen 11 through algorithms according to the horizontal data and the vertical data, the arm swing range amplitude of a general user can be preset in the projection strategy, then the horizontal data and the vertical data are compared with the arm swing range amplitude of the preset general user, a proportion result is obtained, the proportion result is brought into the width and the height of the screen 11, the width and the height of the background of the holographic projection are adjusted in the same proportion according to the proportion result, and a user has better photographing experience.

Dispose the focus module in the camera, the focus module includes the focus unit, and the range finding unit feeds back the focus unit with distance data, and the focus unit is according to the focus of distance data adjustment camera, and the removal of curtain 11 can lead to the unable fine picture of catching of camera, can be through the focus of focus unit adjustment camera, makes the complete presentation of holographic projection's background in taking the photo.

The photographing module 22 further comprises a framing unit, wherein the framing unit is used for keeping white around the photo imaged by the camera, and the white-keeping enables the shot photo to be more exquisite, so that a user can conveniently make a photo frame in the later period.

The framing unit is provided with a framing strategy, the framing strategy is provided with a framing information table, a plurality of side thickness data are arranged in the framing information table, each side thickness data corresponds to width data, the width data represents the width of a photo, the framing strategy takes the width of the photo imaged by the camera as an index, the periphery of the photo imaged by the camera is blank according to the corresponding side thickness data, the width of the blank is defined according to the width of the shot photo, so that the blank on the shot photo is more fit with the photo, and a user can trim the photo conveniently.

The working principle is as follows: a user can store required background pictures into a storage unit through a USB device and other mobile storage devices according to the needs of the user, then the background pictures are projected into a space in front of the curtain 11 through the projection module 12, the user holds the controller 21 in the hand during shooting, the shooting unit is remotely controlled by the controller 21 to shoot, the arm swing range amplitude of a general user can be preset in a projection strategy, then transverse data and vertical data are compared with the preset arm swing range amplitude of the general user to obtain a proportional result, the proportional result is brought into the width and the height of the curtain 11, the width and the height of the holographically projected background are adjusted according to the proportional result in proportion, in the process of adjusting the width and the height of the holographically projected background, a motor in the adjusting module 14 is started, the curtain 11 is driven to move through a gear and a rack, the distance between the curtain 11 and the camera is adjusted to completely project the background picture in the space in front of the curtain 11.

The above is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above-mentioned embodiments, and all technical solutions belonging to the idea of the present invention belong to the protection scope of the present invention. It should be noted that modifications and embellishments within the scope of the invention may occur to those skilled in the art without departing from the principle of the invention, and are considered to be within the scope of the invention.

Claims

1. The utility model provides an intelligence is from shooting hall implementation method based on holography, includes holographic projection end (1) and shoots end (2), its characterized in that: the holographic projection end (1) comprises a curtain (11), a projection module (12) and a background module (13), wherein the background module (13) comprises a storage unit, the storage unit is used for storing a background picture, the projection module (12) comprises a projection unit, and the projection unit is used for holographically projecting the background picture in the storage unit to the front of the curtain (11);

the shooting end (2) comprises a controller (21), a shooting module (22) and a display module (23), wherein the shooting module (22) comprises a shooting unit and a capturing unit, the controller (21) is used for controlling the shooting unit to shoot, and the display module (23) is used for synchronously displaying shooting contents of the shooting module (22);

the projection unit comprises a projection strategy, and the projection strategy respectively adjusts the width and the height of the holographic projection according to the transverse data and the vertical data through an algorithm.

2. The method of claim 1, wherein the method comprises: the holographic projection end (1) further comprises an adjusting module (14), wherein the adjusting module (14) is used for driving the curtain (11) to move so that the curtain (11) is close to or far away from the shooting end (2).

3. The method of claim 2, wherein the method comprises: the shooting end (2) further comprises a distance measuring module (24), the distance measuring module (24) comprises a distance measuring unit, the shooting module (22) comprises a camera, the distance measuring unit is used for detecting the distance between the curtain (11) and the camera and generating distance data to feed back to the projection module (12), the length and the height of the curtain (11) are preset in the projection module (12), the projection unit further comprises a comparison strategy, the width and the height of a background on the curtain (11) are sent to the comparison strategy in real time through the projection strategy, the width and the height of the background projected by holographic projection are compared with the width and the height of the curtain (11) through the comparison strategy, and the adjustment module (14) is controlled through an algorithm to adjust the position of the curtain (11).

4. The method of claim 3, wherein the method comprises: the controller (21) is provided with a start button and an end button, and the start button and the end button respectively control the start and the stop of the capturing unit.

5. The method of claim 4, wherein the method comprises: the capture information further comprises forward data and backward data, the forward data represents the distance that the hand of the user extends forwards, the backward data represents the distance that the hand of the user contracts backwards, and the projection strategy is based on the forward data and the backward data and scales the background projected by holographic projection through an algorithm.

6. The method of claim 5, wherein the method comprises: the camera is internally provided with a focal length module which comprises a focal length unit, the distance measurement unit feeds back the distance data to the focal length unit, and the focal length unit adjusts the focal length of the camera according to the distance data.

7. The method of claim 6, wherein the method comprises: the photographing module (22) further comprises a framing unit, and the framing unit is used for performing white reservation on the periphery of the photo imaged by the camera.

8. The method of claim 7, wherein the method comprises: the frame selection unit is provided with a frame selection strategy, the frame selection strategy is provided with a frame selection information table, a plurality of side thickness data are arranged in the frame selection information table, each side thickness data corresponds to width data, the width data represents the width of a photo, the frame selection strategy takes the width of the photo imaged by the camera as an index, and the periphery of the photo imaged by the camera is blank according to the corresponding side thickness data.

9. The method of claim 8, wherein the method comprises: an intelligent voice interaction system is configured in the camera.