CN113349813B

CN113349813B - Shooting auxiliary device and method for children scoliosis

Info

Publication number: CN113349813B
Application number: CN202110373437.XA
Authority: CN
Inventors: 胡立伟; 徐琳; 沈凯颖; 钟玉敏
Original assignee: Shanghai Childrens Medical Center Affiliated to Shanghai Jiaotong University School of Medicine
Current assignee: Shanghai Childrens Medical Center Affiliated to Shanghai Jiaotong University School of Medicine
Priority date: 2021-04-07
Filing date: 2021-04-07
Publication date: 2024-01-26
Anticipated expiration: 2041-04-07
Also published as: CN113349813A

Abstract

The invention relates to a photographing auxiliary device for children scoliosis and a method thereof. The method has the advantages that the first projection is formed on the front-to-front projection standard shooting body position of the shot person through the first projection positioning component, the second projection positioning component is utilized to project the figure outline of the shot person to form the second projection, and the shot person can automatically and rapidly adjust the whole position through whether the second projection coincides with the first projection; the light source emitted by the light source emitting part is used for assisting the photographer in adjusting the body position, and the photographer can confirm that the body position of the photographer is adjusted correctly by shielding the light source to enable the first projection to be irradiated by the non-light source; the combination of the first projection positioning component, the second projection positioning component and the light source emitting component reduces the adjustment time, shortens the detection time, improves the detection efficiency and reduces the radiation receiving quantity of a shot person.

Description

Shooting auxiliary device and method for children scoliosis

Technical Field

The invention relates to the technical field of detection devices, in particular to a shooting auxiliary device, a shooting auxiliary method, computer equipment and a storage medium for scoliosis of children.

Background

In recent years, the incidence rate of cervical spondylosis and scoliosis of children increases continuously, and long-term bad sitting posture, standing and sleeping postures are main causes of spinal dysplasia.

The occurrence of cervical spondylosis of teenagers is increased by 10% year by year, and the intrinsic cognition of people suffering from cervical spondylosis is broken. The European spinal Association published consensus: the head of a normal person has a mass of 5Kg, and when the electronic product is obliquely seen, the angle is usually 60 degrees, and the neck muscles bear more than 5 times of weight due to the physical leverage, so that the neck is uncomfortable, painful and stiff. Research also shows that bad postures including mobile phone playing and computer playing, long-term learning postures, sitting postures, sleeping postures, bad eating habits, dysplasia caused by food preference, trauma and the like are main factors causing teenagers to be ill, and the harm to human bodies is not less than inconvenience brought to life of people. Compared with the basic shaping of adult human body development, teenagers in a long body stage are more harmful to cervical spondylosis once suffering, are highly likely to influence the development of the body spine, and even cause the overall scoliosis to need surgical treatment.

There are reports of research: the incidence rate of scoliosis of middle school students is up to 5.3 percent at present. The scoliosis early stage is represented by: the shoulders are uneven, the spine deviates from the midline, the scapula is higher or lower, the chest on one side is provided with wrinkles and dermatoglyph, and the back on both sides is asymmetric when the back is bent forwards. Scoliosis is a phenomenon that the nerve muscle strength is unbalanced due to long-term bad postures and bad living habits, so that the original physiological curvature of the spine is changed into pathological curvature, namely the original thoracic kyphosis is changed into scoliosis and the like, and the scoliosis is frequently caused to children and teenagers patients.

In clinical X-ray photography, malposition is often encountered, and patients with anteverted patients exist, so that diagnosis results and customization of later-stage braces are greatly affected.

At present, common teenager malpositions are quite visible in: 1. the head is tilted forwards; 2. uneven shoulders; 3. the lifting of the hands is not aligned. The manifestation of these non-spinal natural sites can affect disease diagnosis and later follow-up. Based on the common problems in the above clinical work.

In clinical imaging, the subject is generally required to adjust his/her posture. Common situations include: the left shoulder lifts a little, lifts the head, turns the head a little to the left, etc. However, the direction, angle and position cannot be quantified at this time, so that the posture adjustment needs to be repeated for many times, and the detection time is long and the detection efficiency is low. In addition, as the detection time is prolonged, the amount of radiation to which the subject is exposed increases, which is likely to cause damage to the physical health of the subject.

At present, aiming at the problems of long detection time and low detection efficiency in the related technology, no effective solution has been proposed yet.

Disclosure of Invention

The invention aims to overcome the defects in the prior art and provide a photographing auxiliary device, a photographing auxiliary method, computer equipment and a storage medium for scoliosis of children so as to at least solve the problems of long detection time and low detection efficiency in the related art.

In order to achieve the above purpose, the technical scheme adopted by the invention is as follows:

in a first aspect, the present invention provides a shooting auxiliary device for scoliosis of children, which is applied to a 3D panoramic standing position shooting device, wherein the 3D panoramic standing position shooting device comprises a shooting room, and is characterized in that the shooting auxiliary device comprises:

a data acquisition unit provided inside and/or outside the photographing room for acquiring body data of a subject, wherein the body data includes at least height data;

the first projection positioning component is arranged in the shooting room and is used for projecting a standard shooting body position corresponding to the height data on one side wall of the shooting room so as to form a first projection;

the light source emitting component is arranged on the side wall of the shooting room and used for emitting a plurality of light sources, and the light sources are aligned to the edge of the first projection when the shot person is not positioned in the shooting room;

The second projection positioning component is arranged in the shooting room and is used for projecting the figure outline of the shot person on the side wall where the standard shooting position is located so as to form second projection, wherein the shot person is positioned between the first projection and a plurality of light sources;

the reminding component is arranged in the shooting room and is used for generating reminding information to remind the shot person to adjust the posture when the second projection is not overlapped with the first projection and/or at least one light source passes through the side wall where the shot person irradiates the first projection and the second projection, so that the second projection is overlapped with the first projection or a plurality of light sources do not pass through the shot person;

the control part is respectively in communication connection with the data acquisition part, the first projection positioning part, the light source emission part, the second projection positioning part and the reminding part, and is used for receiving the body data transmitted by the data acquisition part and transmitting the body data to the first projection positioning part and the light source emission part.

In some of these embodiments, the data acquisition component is a height measurement device and/or an image sensor.

In some embodiments, the first projection positioning component and the second projection positioning component are projection devices.

In some embodiments, the light source emitting means is an infrared sensor and/or an array of LED light sources.

In some embodiments, the reminding component is a reminding light device and/or a reminding sound device.

In some embodiments, the control component is at least one of a computer, a server, and a cloud platform.

In some embodiments, the first projection positioning component is disposed above the interior of the shooting chamber and is disposed on a third wall of the shooting chamber.

In some embodiments, the second projection positioning component is arranged in the shooting chamber, is positioned below the first projection positioning component, and is arranged on a first side wall and a second side wall of the shooting chamber, wherein the first side wall and the second side wall are symmetrically arranged;

wherein, when the second projection positioning member provided on the first side wall performs projection work, the second projection positioning member provided on the second side wall does not perform projection work.

In some embodiments, the light source emitting part is arranged in the shooting chamber, is positioned below the first projection positioning part, and is arranged on a first side wall and a second side wall of the shooting chamber, wherein the first side wall and the second side wall are symmetrically arranged;

wherein, in the case where the light source emitting part provided at the first side wall emits the light source, the light source emitting part provided at the second side wall does not emit the light source.

In some embodiments, the second projection positioning component arranged on the first side wall performs projection work, and the light source emitting component arranged on the first side wall emits the light source.

In some of these embodiments, further comprising:

the light source receiving component is arranged on the side wall of the shooting room and is in communication connection with the control component, and is used for being started under the condition that the second projection is projected on the side wall, generating first alarm information under the condition that at least one light source emitted by the light source emitting component is received, and transmitting the first alarm information to the control component;

The reminding component generates first reminding information according to the first alarm information transmitted by the control component so as to remind the shot person of adjusting the posture.

In some embodiments, the light source receiving part is arranged in the shooting chamber, is positioned below the first projection positioning part, and is arranged on a first side wall and a second side wall of the shooting chamber, wherein the first side wall and the second side wall are symmetrically arranged;

wherein, in the case where the light source receiving part provided at the first side wall receives light information, the light source emitting part provided at the second side wall does not receive light information.

In some of these embodiments, the light source receiving component is an illumination sensor.

In some of these embodiments, further comprising:

the image acquisition component is arranged on the side wall of the shooting room and is in communication connection with the control component, and is used for acquiring image information of the side wall where the first projection and the second projection are located, generating second alarm information under the condition that the second projection is not overlapped with the first projection, and transmitting the second alarm information to the control component;

The reminding component generates second reminding information according to the second alarm information transmitted by the control component so as to remind the shot person of adjusting the posture.

In some of these embodiments, the image acquisition component is an image sensor.

In some of these embodiments, further comprising:

and a lifting auxiliary component which is arranged in the shooting room and is in communication connection with the control component, and is used for carrying out lifting operation according to the height data and the first projection so as to reach a position coplanar with the positions of the head and the shoulder of the first projection when the shot person stands in the shooting room, so that the head and the shoulder of the shot person are abutted against the lifting auxiliary component, and the second projection is overlapped with the first projection.

In some of these embodiments, the lift assistance component comprises:

the bracket is arranged in the shooting room;

a first drive element mounted to the bracket, the first drive element being in communication with the control component;

the two second driving elements are arranged on the bracket and symmetrically positioned at two sides of the first driving element, and the two second driving elements are respectively in communication connection with the control part;

The first baffle is arranged on the first driving element and is used for performing up-down linear motion under the action of the first driving element;

and each second baffle is provided with a second baffle, the two second baffles respectively perform up-down linear motion under the action of the corresponding second driving elements, and the horizontal positions of the two second baffles are the same.

In some embodiments, the first drive element and the second drive element are screw drive mechanisms.

In some of these embodiments, the second baffle is an L-shaped baffle.

In some of these embodiments, the lift assistance component further comprises:

the first sensor elements are respectively arranged in front of the first baffle plate and in front of the second baffle plate, are in communication connection with the control part and are used for transmitting position signals to the side wall where the first projection is located;

the plurality of second sensor elements are arranged on the side wall of the shooting room and are in communication connection with the control part, and are used for generating matching information under the condition of acquiring position signals transmitted by the corresponding plurality of first sensor elements;

The control part controls the first driving element and the second driving element to stop moving according to the matching information.

In some embodiments, the first sensor element and the second sensor element are any one of an infrared sensor and a bluetooth sensor.

In some of these embodiments, the lift assistance component further comprises:

the multi-axis manipulator is arranged at the top of the inside of the shooting chamber, is fixedly connected with the bracket and is in communication connection with the control component.

In some of these embodiments, the lift assistance component further comprises:

a sliding rail installed around the top of the inside of the photographing chamber;

the sliding block is fixedly connected with the bracket and is arranged on the sliding track;

and the third driving element is arranged on one side of the sliding track, is connected with the sliding block and is in communication connection with the control part and is used for driving the sliding block to move on the sliding track under the control of the control part.

In a second aspect, the present invention provides a method for assisting in photographing a scoliosis of a child, including:

Acquiring body data of a photographed person, wherein the body data at least comprises height data;

generating a standard shooting position corresponding to the height data, and projecting the standard shooting position to the side wall of a shooting room to form a first projection;

emitting a number of light sources such that a number of said light sources are aligned with an edge of said first projection;

projecting the person to be photographed to the side wall of the photographing room to form a second projection, wherein the second projection and the first projection are positioned on the same side wall of the photographing room;

judging whether the second projection is overlapped with the first projection and/or judging whether at least one light source irradiates the side wall where the first projection and the second projection are located through the shot person;

and generating reminding information to remind the shot person to adjust the posture under the condition that the second projection is not coincident with the first projection and/or at least one light source passes through the shot person to irradiate the side wall where the first projection and the second projection are located, so that the second projection is coincident with the first projection or a plurality of light sources do not pass through the shot person.

In some embodiments, determining whether the second projection coincides with the first projection and/or whether at least one light source irradiates a sidewall of the first projection and the second projection through the shot person includes:

Acquiring light information of the side wall where the first projection and the second projection are located;

judging whether the light information comprises at least one light source or not;

generating first alarm information under the condition that the light information comprises at least one light source;

generating first reminding information according to the first alarm information so as to remind the shot person of adjusting the posture, so that the light information does not comprise the light source.

acquiring image information of the side wall where the first projection and the second projection are located;

judging whether the coincidence rate of the second projection and the first projection reaches a preset threshold value or not;

generating second alarm information under the condition that the coincidence rate of the second projection and the first projection does not reach the preset threshold value;

generating second reminding information according to the second alarm information so as to remind the shot person of adjusting the posture, so that the coincidence rate of the second projection and the first projection reaches the preset threshold.

In some of these embodiments, after forming the first projection, further comprising:

generating a lifting instruction according to the height data and the first projection;

and according to the lifting instruction, lifting operation is performed so as to reach a position coplanar with the positions of the head and the shoulder of the first projection, so that the head and the shoulder of the shot person are respectively aligned with the head and the shoulder of the first projection, and the second projection is overlapped with the first projection.

In some embodiments, according to the lifting instruction, lifting operation is performed to reach a position coplanar with the position of the head and the shoulder of the first projection, including:

acquiring a position signal;

judging whether the position signal comprises preset position information or not;

generating matching information when the position signal comprises the preset position information, wherein the matching information is used for indicating that the position coplanar with the position of the head and the shoulder of the first projection is reached;

and stopping the lifting operation according to the matching information.

In a third aspect, the present invention provides a computer device comprising:

at least one processor;

and a memory communicatively coupled to the at least one processor;

Wherein the memory stores a computer program executable by the at least one processor, the computer program being executable by the at least one processor to cause the at least one processor to perform the method of assisting in the panning of a scoliosis of a child as described above.

In a fourth aspect, the present invention provides a computer readable storage medium storing a computer program which, when executed by a processor, implements a method for assisting in the panning of a scoliosis of a child as described above.

Compared with the prior art, the invention has the following technical effects:

according to the photographing auxiliary device for the scoliosis of the children and the method thereof, a first projection is formed on the front-to-face projection standard photographing body position of a photographed person through the first projection positioning component, the body contour of the photographed person is projected to form a second projection through the second projection positioning component, and the photographed person can automatically and rapidly adjust the whole position through whether the second projection coincides with the first projection or not; in addition, the light source emitted by the light source emitting part is used for assisting the shot person in adjusting the body position, and as the light source irradiates the edge of the first projection, the shot person can confirm that the body position of the shot person is adjusted correctly by shielding the light source so that no light source irradiates the first projection; the combination of the first projection positioning component, the second projection positioning component and the light source emitting component enables a photographer to accurately know the position required to be adjusted, reduces adjustment time, shortens detection time, improves detection efficiency and reduces radiation receiving quantity of the photographer.

Drawings

Fig. 1 is a schematic diagram (one) of a film-taking auxiliary device according to an embodiment of the present application;

fig. 2 is an electrical component connection block diagram (one) of the film taking auxiliary device according to the embodiment of the present application;

FIG. 3 is a schematic view of a camera auxiliary device according to an embodiment of the present application (II)

Fig. 4 is a schematic diagram (iii) of a film-taking auxiliary device according to an embodiment of the present application;

fig. 5 is a schematic diagram (fourth) of a film-taking auxiliary device according to an embodiment of the present application;

FIG. 6 is a schematic view (one) of a lift assist feature according to an embodiment of the present application;

fig. 7 is a schematic diagram (fifth) of a film-taking auxiliary device according to an embodiment of the present application;

fig. 8 is an electrical component connection block diagram (two) of the film taking auxiliary device according to the embodiment of the present application;

FIG. 9 is a schematic view of a lift assist feature according to an embodiment of the present application (II);

fig. 10 is a schematic diagram (sixth) of a film-taking auxiliary device according to an embodiment of the present application;

fig. 11 is an electrical component connection block diagram (iii) of the film taking auxiliary device according to the embodiment of the present application;

FIG. 12 is a schematic view of a lift assist feature according to an embodiment of the present application (III);

FIG. 13 is a schematic diagram of a 3D panoramic stand still camera apparatus according to an embodiment of the present application;

FIG. 14 is a flowchart (one) of a film-taking assisting method according to an embodiment of the present application;

fig. 15 is a flowchart (two) of a film-taking assisting method according to an embodiment of the present application;

fig. 16 is a flowchart (iii) of a film-taking assisting method according to an embodiment of the present application;

fig. 17 is a flowchart (fourth) of a film-taking assisting method according to an embodiment of the present application;

fig. 18 is a flowchart (fifth) of a film capturing assisting method according to an embodiment of the present application.

Wherein the reference numerals are as follows: 100. a film shooting auxiliary device; 110. a data acquisition section; 120. a first projection positioning component; 130. a light source emitting part; 140. a second projection positioning component; 150. a reminding component; 160. a control part; 170. a light source receiving part; 180. an image acquisition section; 190. a lifting auxiliary member; 1901. a bracket; 1902. a first driving element; 1903. a second driving element; 1904. a first baffle; 1905. a second baffle; 1906. a first sensor element; 1907. a second sensor element; 1908. a sliding rail; 1909. a sliding block; 1910. a third driving element; 1911. a multi-axis manipulator;

200. a 3D panoramic standing position film shooting device; 210. a shooting room; 220. a bottom turntable; 230. foot marks.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

It should be noted that, without conflict, the embodiments of the present invention and features of the embodiments may be combined with each other.

The invention is further described below with reference to the drawings and specific examples, which are not intended to be limiting.

Example 1

In an exemplary embodiment of the present invention, as shown in fig. 1 to 4, a film shooting auxiliary device for lateral curvature of the spine of a child is applied to a 3D panorama standing position film shooting device 200,3D, wherein the panorama standing position film shooting device 200 comprises a shooting room 210, and the film shooting auxiliary device 100 comprises a data acquisition component 110, a first projection positioning component 120, a light source emitting component 130, a second projection positioning component 140, a reminding component 150 and a control component 160. Wherein the data acquisition part 110 is disposed inside and/or outside the photographing room 210 for acquiring physical data of a photographed person; the first projection positioning component 120 is disposed inside the shooting room 210, and is configured to project a standard shooting body position corresponding to height data on a side wall of the shooting room 210 to form a first projection; the light source emitting part 130 is disposed inside the photographing chamber 210, and is used for emitting a plurality of light sources aligned to the edge of the first projection; the second projection positioning component 140 is disposed inside the shooting chamber 210, and is configured to project a figure outline of the person to be shot on a side wall where the standard shooting position is located, so as to form a second projection; the reminding component 150 is disposed inside the shooting room 210, and is configured to generate reminding information for reminding the photographer to adjust the posture when the second projection is not coincident with the first projection and/or when at least one light source passes through the photographer to irradiate on the first projection and the second projection; the control unit 160 is communicatively coupled to the data acquisition unit 110, the first projection positioning unit 120, the light source emission unit 130, the second projection positioning unit 140, and the alert unit 150, respectively.

The data acquisition unit 110 acquires body data of a subject, the body data including at least height data.

In some embodiments, the data acquisition component 110 is a height measurement device, and is disposed outside the shooting room 210, and the subject stands on the height measurement device, so that the height data of the subject can be acquired, and the control component 160 can set a standard shooting position matched with the height data after acquiring the height data.

In some embodiments, the data acquisition component 110 is an image sensor, and is disposed inside the shooting room 210, and is configured to acquire a plurality of images of a person under shot at different angles when the person under shot stands in the shooting room 210, and the control component 160 acquires the plurality of images of the person under shot at different angles, acquires height data and body shape data of the person under shot after processing such as image calculation and image fusion, and then sets a standard shooting position matched with the height data and the body shape data.

The first projection positioning unit 120 is a projection device, and is configured to project the standard photographing body position set by the control unit 160 on a sidewall of the photographing chamber 210 to form a first projection.

The first projection positioning unit 120 has a correction algorithm (the correction algorithm is a conventional correction algorithm) incorporated therein, and can adjust the body position of the subject by taking the first projection projected on one side wall as a reference while the first projection is being directed to the subject so that the subject can directly view the first projection.

The first projection positioning part 120 is installed above the inside of the photographing chamber 210 and is located at a third sidewall of the photographing chamber 210. The shooting room comprises a first side wall, a second side wall and a third side wall, wherein the first side wall and the second side wall are symmetrically arranged, and the first side wall and the second side wall are respectively located on two sides of the third side wall.

The light source emitting part 130 is an array of several infrared sensors or LED light sources, and is configured to emit several light sources under the action of the control part 160, so that the several light sources irradiate the edge of the first projection. The light sources irradiate at least the head edge, the shoulder edge and the hand edge of the first projection.

The light source emitting part 130 is installed inside the photographing chamber 210, below the first projection positioning part 120, and at the first and second sidewalls of the photographing chamber 210.

In some of these embodiments, infrared sensors are embedded in the first and second sidewalls of the photographing chamber 210, each of which emits one light source. The control part 160 causes the infrared sensors facing the first projected outline to emit light sources according to the first projected outline, and the remaining infrared sensors do not emit light sources.

In some of the embodiments, the first and second sidewalls of the photographing chamber 210 are made of a liquid crystal panel, and the rear sides thereof are provided with LED light source arrays. The control unit 160 causes the LED light source array facing the first projected outline to emit light according to the first projected outline.

Wherein, the light source emitting part 130 is located under the first projection positioning part 120 means that the vertical height of the light source emitting part 130 at the side wall of the photographing chamber 210 is smaller than the vertical height of the first projection positioning part 120 at the side wall of the photographing chamber 210, including that the light source emitting part 130 is located under the first projection positioning part 120 and obliquely under.

The light source emitting part 130 mounted to the first sidewall of the photographing room 210 emits light sources to the second sidewall of the photographing room 210, and the light source emitting part 130 mounted to the second sidewall of the photographing room 210 emits light sources to the first sidewall of the photographing room 210. Further, the light source emitting part 130 mounted to the first sidewall of the photographing room 210 emits the light source at the same time as the light source emitting part 130 mounted to the second sidewall of the photographing room 210.

The second projection positioning component 140 is a projection device, and is configured to project the contour of the photographed person on the sidewall where the first projection is located under the action of the control component 160, so as to form a second projection.

The second projection positioning unit 140 has a correction algorithm (the correction algorithm is a conventional correction algorithm) incorporated therein, and can set the second projection and the body contour of the subject to 1:1 corresponds to.

The second projection positioning member 140 is installed inside the photographing chamber 210, below the first projection positioning member 120, and on the first and second sidewalls of the photographing chamber 210.

The second projection positioning member 140 is located below the first projection positioning member 120, which means that the vertical height of the second projection positioning member 140 on the side wall of the shooting chamber 210 is smaller than the vertical height of the first projection positioning member 120 on the side wall of the shooting chamber 210, including that the second projection positioning member 140 is located right below and obliquely below the first projection positioning member 120.

The second projection positioning member 140 mounted on the first side wall of the photographing room 210 projects on the second side wall of the photographing room 210, and the second projection positioning member 140 mounted on the second side wall of the photographing room 210 projects on the first side wall of the photographing room 210. The second projection positioning member 140 attached to the first side wall of the photographing room 210 does not perform the projection operation at the same time as the second projection positioning member 140 attached to the second side wall of the photographing room 210, that is, at most one second projection positioning member 140 performs the projection operation at the same time.

In some of these embodiments, the first projection positioning component 120 and the second projection positioning component 140 have different light source colors to facilitate identification of the photographer and identification of the coincidence ratio of the first projection and the second projection by the control component 160. The light source color of the first projection positioning component 120 is a warm color tone, and the light source color of the second projection positioning component 140 is a cool color tone.

Wherein the light source emitting part 130 positioned at the first side wall and the second projection positioning part 140 positioned at the first side wall operate simultaneously; the light source emitting part 130 located at the second sidewall and the second projection positioning part 140 located at the second sidewall operate simultaneously.

The reminding component 150 is a reminding light device and/or a reminding sound device, and is installed inside the shooting room 210, and is used for reminding the photographer to adjust the body position when the body position of the photographer is incorrect.

In some of these embodiments, in the event that the second projection does not coincide with the first projection (i.e., except that the second projection completely coincides with the first projection or the first projection is located inside the second projection), the control component 160 sends an instruction to the alert component 150, and the alert component 150 generates alert information (e.g., red light flashing, alert sound, photographer voice instruction) to alert the photographer to make a posture adjustment so that the second projection coincides with the first projection.

In some embodiments, in the case that at least one light source irradiates the sidewall where the first projection and the second projection are located through the photographer (including but not limited to that the second projection overlaps with the first projection partially, that the second projection is located inside the first projection, and that the first projection and the second projection overlap crosswise), the control component 160 sends an instruction to the reminding component 150, and the reminding component 150 generates reminding information (such as red light flashing, warning sound, and voice instruction of the photographer) to remind the photographer to perform posture adjustment so that no light source passes through the photographer.

In general, the control section 160 controls the reminder section 150 to generate reminder information when either of the above two situations occurs.

The control part 160 is at least one of a computer, a server and a cloud platform, is arranged outside the shooting room 210, and is in communication connection with the 3D panoramic standing position shooting device 200.

Specifically, the photographer controls the data acquisition part 110, the first projection positioning part 120, the light source emission part 130, the second projection positioning part 140, the reminding part 150, and the 3D panorama standing position film capturing device 200 through the control part 160 to guide the photographer to complete the 3D film capturing.

Through the device, a photographer can automatically adjust the photographing position through whether the second projection is overlapped with the first projection and whether the second projection is irradiated by the light source; and the reminding information is used for assisting the shot person in adjusting the shooting position.

Further, the auxiliary device 100 further includes a light source receiving unit 170, where the light source receiving unit 170 is disposed inside the shooting chamber 210 and is communicatively connected to the control unit 160, and is configured to obtain light information of a sidewall of the shooting chamber 210 where the light source receiving unit 170 is disposed, generate first alarm information when the light information includes a light source, and transmit the first alarm information to the control unit 160, so that the control unit 160 sends an instruction to the reminding unit 150, and the reminding unit 150 generates first reminding information for indicating that a light source passes through a sidewall where the person to be shot irradiates the first projection and the second projection.

Wherein the light source receiving part 170 is a plurality of illumination sensors. The principle of operation is that it only detects the luminosity of the light source emitted by the light source emitting means 130, which can filter the illumination value of the first projection and the illumination value of the second projection by a built-in filtering algorithm.

The light source receiving part 170 is installed inside the photographing chamber 210, below the first projection positioning part 120, and at the first and second sidewalls of the photographing chamber 210.

Wherein, the light source receiving part 170 is located under the first projection positioning part 120 means that the vertical height of the light source receiving part 170 at the side wall of the photographing chamber 210 is smaller than the vertical height of the first projection positioning part 120 at the side wall of the photographing chamber 210, including that the light source receiving part 170 is located under the first projection positioning part 120 and obliquely under the same.

The light source receiving part 170 installed at the first side wall of the photographing room 210 is not operated at the same time as the light source receiving part 170 installed at the second side wall of the photographing room 210, i.e., at most one light source receiving part 170 is operated at the same time.

Wherein the light source emitting part 130 at the first sidewall operates simultaneously with the light source receiving part 170 at the second sidewall; the light source emitting part 130 at the second sidewall operates simultaneously with the light source receiving part 170 at the first sidewall.

In some of these embodiments, the light source emitting part 130 and the light source receiving part 170 are integrated into one light sensor, i.e., the same light sensor has both the function of emitting light sources and the function of receiving light sources. In particular, the light sensor located at the first side wall receives the light source in the case of emitting the light source.

Further, the auxiliary device 100 further includes an image acquisition unit 180, where the image acquisition unit 180 is disposed in the shooting room 210 and is in communication connection with the control unit 160, and is configured to acquire graphic information of a sidewall where the first projection and the second projection are located, generate second alarm information when the second projection does not overlap with the first projection, and transmit the second alarm information to the control unit 160, so that the control unit 160 sends an instruction to the reminding unit 150, and the reminding unit 150 generates second alarm information to indicate that the second projection does not overlap with the first projection.

Wherein the image acquisition component 180 is an image sensor, including but not limited to a camera.

The image acquisition part 180 is installed inside the photographing chamber 210, above the second projection positioning part 140, and at the first and second sidewalls of the photographing chamber 210.

Wherein, the image capturing part 180 is located above the second projection positioning part 140 means that the vertical height of the image capturing part 180 at the side wall of the photographing chamber 210 is greater than the vertical height of the second projection positioning part 140 at the side wall of the photographing chamber 210, including that the image capturing part 180 is located right above, obliquely above, the second projection positioning part 140.

The image capturing section 180 mounted to the first side wall of the photographing room 210 is not operated at the same time as the image capturing section 180 mounted to the second side wall of the photographing room 210, i.e., at most one image capturing section 180 is operated at the same time.

Wherein the image acquisition component 180 located at the first sidewall operates simultaneously with the second projection positioning component 140 located at the first sidewall.

Further, as shown in fig. 2 and 5, the camera auxiliary device 100 further includes a lifting auxiliary component 190, where the lifting auxiliary component 190 is disposed inside the shooting chamber 210 and is communicatively connected to the control component 160, and is configured to perform lifting operation according to height data and the first projection to reach a position coplanar with the position of the head and the shoulder of the first projection when the subject stands inside the shooting chamber 210, so that the head, the shoulder and the hand of the subject support the lifting auxiliary component 190 to overlap the second projection with the first projection.

As shown in fig. 6, the lift assisting member 190 includes a bracket 1901, a first driving element 1902, two second driving elements 1903, a first shutter 1904, and two second shutters 1905. Wherein the stand 1901 is installed above the inside of the photographing room 210; the first drive element 1902 is mounted to the support 1901 and is communicatively coupled to the control unit 160; two second driving elements 1903 are mounted on the bracket 1901 and symmetrically positioned at two sides of the first driving element 1902, and the two second driving elements 1903 are respectively in communication connection with the control part 160; the first baffle 1904 is mounted on the first driving element 1902, and is used for performing up-down linear motion under the action of the first driving element 1902; each second driving element 1903 is provided with a second baffle plate 1905, and the two second baffle plates 1905 respectively perform up-down linear motion under the action of the corresponding second driving elements 1903, and the horizontal positions of the two second baffle plates are the same.

In some embodiments, the first drive element 1902 and the second drive element 1903 are screw drive arrangements.

The first baffle 1904 is a head baffle, and under the action of the first driving element 1902, the horizontal position of the bottom surface of the first baffle 1904 is the same as the top position of the head of the first projection, so that the head of the photographer can prop against the first baffle 1904.

The second baffle 1905 is a shoulder and a hand baffle, that is, the second baffle 1905 is an L-shaped baffle, and under the action of the second driving element 1903, the horizontal position of the bottom surface of the horizontal plate (shoulder baffle) of the second baffle 1905 is the same as the top position of the first projected shoulder, and the shoulder of the photographer can prop against the horizontal plate of the second baffle 1905; the resin position of the inner side surface of the vertical plate (hand plate) of the second shutter 1905 is the same as the outer side of the hand of the first projection, and the hand of the subject can abut against the vertical plate of the second shutter 1905.

The lifting auxiliary component is utilized to assist a photographer to quickly adjust the whole position, reduce the adjustment time and improve the shooting efficiency.

Further, as shown in fig. 2, the lift assistance member 190 further includes a plurality of first sensor elements 1906 and a plurality of second sensor elements 1907. Wherein, a plurality of first sensor elements 1906 are respectively arranged in front of the first baffle 1904 and in front of the second front baffle 1905, and are respectively connected with the control part 160 in a communication manner, and are used for transmitting position signals to the side wall where the first projection is located; the plurality of second sensor elements 1907 are disposed on a side wall of the shooting chamber 210 and are in communication connection with the control part 160, and are used for acquiring position signals emitted by the first sensor elements 1906, and when the plurality of second sensor elements 1907 at specific positions acquire corresponding position signals emitted by the first sensor elements 1906, matching information is generated, and the control part 160 controls the first driving element 1902 and the second driving element 1903 to stop moving according to the matching information.

In some embodiments, the first sensor element 1906, the second sensor element 1907 are any one of an infrared sensor, a bluetooth sensor.

A plurality of second sensor elements 1907 are disposed at the first and second sidewalls of the photographing chamber 210.

The plurality of second sensor elements 1907 mounted to the first side wall of the photographing room 210 do not operate simultaneously with the plurality of second sensor elements 1907 mounted to the second side wall of the photographing room 210.

Wherein a number of second sensor elements 1907 located at the first side wall operate simultaneously with the first projection positioning member 120 located at the second side wall.

Further, as shown in fig. 7 to 9, the lift auxiliary member 190 further includes a slide rail 1908, a slide block 1909, and a third driving element 1910. Wherein the slide rail 1908 is installed around the top of the inside of the photographing room 210; the sliding block 1909 is fixedly connected with the bracket 1901 and is arranged on the sliding rail 1908 in a sliding manner; the third driving element 1910 is disposed on one side of the sliding rail 1908, connected to the sliding block 1909, and communicatively connected to the control unit 160, for driving the sliding block 1909 to move on the sliding rail 1908 under the control of the control unit 160 to adjust the position of the support 1901 (i.e., adjust the position of the support 1901 between the first side wall and the second side wall of the photographing chamber 210).

Specifically, the third driving element 1910 is mounted above the interior of the photographing chamber 210, which is a crank-link mechanism.

Alternatively, as shown in fig. 10 to 12, the lifting auxiliary component 190 further includes a multi-axis manipulator 1911, where the multi-axis manipulator 1911 is installed at the top of the inside of the shooting chamber 210, the operation end of the multi-axis manipulator 1911 is fixedly connected to the support 1901, and the multi-axis manipulator 1911 is communicatively connected to the control component 160, so as to perform an action in a three-dimensional space under the action of the control component 160, so as to adjust the position of the support 1901.

The application method of the auxiliary device for photographing the scoliosis of the children is as follows:

the data acquisition section 110 acquires body data of a subject including at least height data;

the control part 160 generates a standard photographing posture according to the height data and transmits the related information of the standard photographing posture to the first projection positioning part 120, the light source emitting part 130, and the elevation assisting part 190;

the first projection positioning part 120 located at the third sidewall projects the standard photographing body position at the first sidewall (or the second sidewall, the same applies below) to form a first projection;

the light source emitting part 130 positioned at the second sidewall emits a plurality of light sources so that the plurality of light sources irradiate the head edge, the shoulder edge, and the hand edge of the first projection;

The first driving element 1902 and the second driving element 1903 of the lifting auxiliary component 190 move, so that the first baffle plate 1904 and the second baffle plate 1905 respectively descend, and the first driving element 1902 and the second driving element 1903 stop moving under the feedback of the plurality of second sensor elements 1907 of the first side wall;

the subject stands in the photographing room 210, and at this time, the control part 160 controls the second projection positioning part 140, the light source receiving part 170, and the image obtaining part 180 to operate;

the second projection positioning component 140 positioned on the second side wall projects the figure outline of the photographed person on the first side wall to form a second projection;

the light source receiving part 170 positioned at the first sidewall acquires illumination information of the first sidewall to determine whether a light source passes through the subject to illuminate the first sidewall;

the image acquisition component 180 positioned on the second side wall acquires the image information of the first side wall to judge whether the second projection is overlapped with the first projection or not;

in the case that the control part 160 acquires the first alarm information transmitted by the light source receiving part 170 and/or the second alarm information transmitted by the image acquiring part 180, the reminding part 150 generates corresponding first reminding information and/or second reminding information to remind the photographer to adjust the body position;

The photographing is completed, and the subject walks out of the photographing room 210.

The use method is body position front adjustment.

Or the following operations:

the control part 160 generates a standard photographing posture according to the height data and transmits the related information of the standard photographing posture to the first projection positioning part 120 and the light source emitting part 130;

shooting;

if the body position of the photographed person is found to be incorrect after photographing, the control part 160 transmits the relevant information of the standard photographing body position to the elevation assisting part 190;

the head of the subject abuts against the first barrier 1904, the shoulder and the hand of the subject abuts against the second barrier 1905;

shooting;

The use method is a post-adjustment method.

Or the following operations:

When the control unit 160 acquires the first alarm information transmitted by the light source receiving unit 170 and/or the second alarm information transmitted by the image acquiring unit 180, the reminding unit 150 generates corresponding first reminding information and/or second reminding information, and at this time, the control unit 160 controls the lifting auxiliary unit 190 to operate;

shooting;

The use method is a post-adjustment method.

The embodiment has the advantages that the first projection is formed by projecting the standard shooting body position on the right opposite side of the shot person through the first projection positioning component, the second projection is formed by projecting the figure outline of the shot person through the second projection positioning component, and the shot person can automatically and rapidly adjust the whole position through whether the second projection coincides with the first projection; in addition, the light source emitted by the light source emitting part is used for assisting the shot person in adjusting the body position, and as the light source irradiates the edge of the first projection, the shot person can confirm that the body position of the shot person is adjusted correctly by shielding the light source so that no light source irradiates the first projection; the combination of the first projection positioning component, the second projection positioning component and the light source emitting component enables a photographer to accurately know the position required to be adjusted, reduces adjustment time, shortens detection time, improves detection efficiency and reduces radiation receiving quantity of the photographer.

Example 2

The embodiment relates to a 3D panoramic standing position shooting device.

As shown in fig. 13, the 3D panorama standing position camera device 200 comprises a camera room 210, a bottom carousel 220, and foot markers 230. The bottom turntable 220 is disposed at the bottom of the shooting room 210, and is communicatively connected to the control unit 160, and is configured to rotate under the action of the control unit 160 to adjust the shooting direction of the person to be shot; foot marks 230 are provided on the upper surface of the bottom turntable 220 for indicating a standing position of both feet of the photographed person.

The application method of the embodiment is as follows:

shooting for the first time:

the first projection positioning component 120 positioned on the third side wall projects the standard shooting body position on the first side wall to form a first projection;

the person to be photographed stands on the bottom turntable 220 of the photographing room 210 with his feet inside the foot marks 230, and at this time, the control part 160 controls the second projection positioning part 140, the light source receiving part 170, and the image acquisition part 180 to operate;

Shooting for the second time:

after the first photographing is completed, the control part 160 controls the first driving element 1902 and the second driving element 1903 of the elevation assisting part 190 to move so that the first barrier 1904 and the second barrier 1905 are respectively raised;

the first projection positioning part 120 located at the third sidewall, the light source emitting part 130 located at the second sidewall, the second projection positioning part 140 located at the second sidewall, the light source receiving part 170 located at the first sidewall, the image acquiring part 180 located at the second sidewall stop working;

the control part 160 controls the bottom turntable 220 to rotate so that the photographer changes from facing the first side wall to facing the second side wall;

the first projection positioning component 120 positioned on the first side wall projects the standard shooting body position on the second side wall to form a first projection;

the light source emitting part 130 positioned at the first sidewall emits a plurality of light sources so that the plurality of light sources irradiate the head edge, the shoulder edge, and the hand edge of the first projection;

the control part 160 controls the lifting auxiliary part 190 to rotate so that the bracket 1901 is changed from being positioned on the second side wall to being positioned on the first side wall, the first driving element 1902 and the second driving element 1903 of the lifting auxiliary part 190 move, the first baffle plate 1904 and the second baffle plate 1905 respectively descend, and the first driving element 1902 and the second driving element 1903 stop moving under the feedback of the plurality of second sensor elements 1907 of the second side wall;

The second projection positioning component 140 positioned on the first side wall projects the figure outline of the photographed person on the second side wall to form a second projection;

the light source receiving part 170 positioned at the second side wall acquires illumination information of the second side wall to judge whether a light source passes through the photographed person to irradiate the first side wall;

the image acquisition component 180 positioned on the first side wall acquires the image information of the second side wall to judge whether the second projection is overlapped with the first projection or not;

The advantage of this embodiment is that images of the person to be photographed (i.e., front image and back image) in different directions can be acquired by using the bottom turntable and the rotatable lifting auxiliary member, thereby acquiring the posture information of the person to be photographed more accurately.

Example 3

The embodiment is a shooting auxiliary method for children scoliosis.

Fig. 14 is a flowchart (one) of a film capturing assisting method according to an embodiment of the present application. As shown in fig. 14, a method for assisting in photographing a scoliosis of a child includes:

Step S302, acquiring body data of a shot person, wherein the body data at least comprises height data;

step S304, generating a standard shooting position corresponding to the height data, and projecting the standard shooting position to the side wall of the shooting room to form a first projection;

step S306, emitting a plurality of light sources so that the light sources are aligned with the edge of the first projection;

step S308, projecting the shot person to the side wall of the shooting room to form a second projection, wherein the second projection and the first projection are positioned on the same side wall of the shooting room;

step S310, judging whether the second projection is overlapped with the first projection and/or judging whether at least one light source passes through the side wall where the shot person irradiates the first projection and the second projection;

in step S312, when the second projection is not coincident with the first projection and/or at least one light source passes through the sidewall where the first projection and the second projection are located, a prompting message is generated to prompt the photographer to adjust the posture, so that the second projection is coincident with the first projection or a plurality of light sources do not pass through the photographer.

For the film taking assisting method of the present embodiment, the execution subject is a film taking assisting apparatus.

For step S302, the execution subject thereof is a data acquisition section of the photographic auxiliary device.

For step S304, the execution subject is a first projection positioning part of the film taking auxiliary device.

For step S306, the light source emitting part whose execution subject is the photographic auxiliary device.

For step S308, it executes the second projection positioning means whose subject is the film taking auxiliary device.

For step S310, the execution subject is a control part of the photographic auxiliary device.

For step S312, the execution subject is a reminder of the photographic auxiliary device.

The specific working principle and technical effects of this embodiment are described in embodiment 1, and are not described here again.

Fig. 15 is a flowchart (two) of a film capturing assisting method according to an embodiment of the present application. As shown in fig. 15, determining whether the second projection coincides with the first projection and/or whether at least one light source irradiates the sidewall where the first projection and the second projection are located through the person to be photographed includes:

step S402, acquiring light information of the side wall where the first projection and the second projection are located;

step S404, judging whether the light information comprises at least one light source;

step S406, generating first alarm information when the light information comprises at least one light source;

step S408, generating first reminding information according to the first alarm information to remind the shot person to adjust the posture so that the light information does not comprise the light source.

For steps S402 to S406, the execution subject is the light source receiving part of the auxiliary device.

For step S408, the execution subject is a reminder of the photographic auxiliary device.

Fig. 16 is a flowchart (iii) of a film capturing assisting method according to an embodiment of the present application. As shown in fig. 16, determining whether the second projection coincides with the first projection and/or whether at least one light source irradiates the sidewall where the first projection and the second projection are located through the person to be photographed includes:

step S502, obtaining image information of the side wall where the first projection and the second projection are located;

step S504, judging whether the coincidence ratio of the second projection and the first projection reaches a preset threshold value;

step S506, generating second alarm information under the condition that the coincidence rate of the second projection and the first projection does not reach a preset threshold value;

step S508, generating second reminding information according to the second alarm information to remind the shot person to adjust the posture so as to enable the coincidence rate of the second projection and the first projection to reach a preset threshold.

For steps S502 to S506, the execution subject is the image acquisition means and the control means of the photographic auxiliary device.

For step S508, the execution subject is a reminder of the photographic auxiliary device.

Fig. 17 is a flowchart (fourth) of a film capturing assisting method according to an embodiment of the present application. As shown in fig. 17, after forming the first projection, further includes:

step S602, generating a lifting instruction according to height data and first projection;

step S604, performing lifting operation according to the lifting instruction to reach a position coplanar with the head and shoulder positions of the first projection, so that the head and shoulder of the shot person are respectively aligned with the head and shoulder of the first projection, and the second projection is overlapped with the first projection.

For step S602, the execution subject is a control section of the photographic auxiliary device.

For step S604, the execution subject is a lift assist member of the photographic auxiliary device.

Fig. 18 is a flowchart (fifth) of a film capturing assisting method according to an embodiment of the present application. As shown in fig. 18, according to the lifting instruction, lifting operation is performed to reach a position coplanar with the position of the head and the shoulder of the first projection, including:

step S702, acquiring a position signal;

step S704, judging whether the position signal comprises preset position information;

step S705, generating matching information when the position signal comprises preset position information, wherein the matching information is used for indicating that the position coplanar with the position of the head and the shoulder of the first projection is reached;

step S708, stopping lifting operation according to the matching information.

For steps S702 to S708, the execution subject is the lifting support means and the control means of the imaging support device.

Example 4

The shooting assisting method of the embodiment of the application can be realized by computer equipment. Components of a computer device may include, but are not limited to, a processor and memory storing computer program instructions.

In some embodiments, the processor may include a Central Processing Unit (CPU), or an application specific integrated circuit (Application Specific Integrated Circuit, abbreviated as ASIC), or may be configured to implement one or more integrated circuits of embodiments of the present application.

In some embodiments, the memory may include mass storage for data or instructions. By way of example, and not limitation, the memory may comprise a Hard Disk Drive (HDD), floppy Disk Drive, solid state Drive (Solid State Drive, SSD), flash memory, optical Disk, magneto-optical Disk, tape, or universal serial bus (Universal Serial Bus, USB) Drive, or a combination of two or more of the foregoing. The memory may include removable or non-removable (or fixed) media, where appropriate. The memory may be internal or external to the data processing apparatus, where appropriate. In a particular embodiment, the memory is a Non-Volatile (Non-Volatile) memory. In particular embodiments, the Memory includes Read-Only Memory (ROM) and random access Memory (Random Access Memory, RAM). Where appropriate, the ROM may be a mask-programmed ROM, a programmable ROM (Programmable Read-Only Memory, abbreviated PROM), an erasable PROM (Erasable Programmable Read-Only Memory, abbreviated EPROM), an electrically erasable PROM (Electrically Erasable Programmable Read-Only Memory, abbreviated EEPROM), an electrically rewritable ROM (Electrically Alterable Read-Only Memory, abbreviated EAROM), or a FLASH Memory (FLASH), or a combination of two or more of these. The RAM may be Static Random-Access Memory (SRAM) or dynamic Random-Access Memory (Dynamic Random Access Memory DRAM), where the DRAM may be a fast page mode dynamic Random-Access Memory (Fast Page Mode Dynamic Random Access Memory FPMDRAM), extended data output dynamic Random-Access Memory (Extended Date Out Dynamic Random Access Memory EDODRAM), synchronous dynamic Random-Access Memory (Synchronous Dynamic Random-Access Memory SDRAM), or the like, as appropriate.

The memory may be used to store or cache various data files that need to be processed and/or communicated, as well as possible computer program instructions for execution by the processor.

The processor reads and executes the computer program instructions stored in the memory to implement any of the film-taking assisting methods of the above embodiments.

In some of these embodiments, the computer device may also include a communication interface and a bus. The processor, the memory and the communication interface are connected through a bus and complete communication with each other.

The communication interface is used to implement communication between modules, devices, units and/or units in the embodiments of the application. The communication interface may also enable communication with other components such as: and the external equipment, the image/data acquisition equipment, the database, the external storage, the image/data processing workstation and the like are used for data communication.

The bus includes hardware, software, or both, coupling components of the computer device to each other. The bus includes, but is not limited to, at least one of: data Bus (Data Bus), address Bus (Address Bus), control Bus (Control Bus), expansion Bus (Expansion Bus), local Bus (Local Bus). By way of example, and not limitation, the buses may include a graphics acceleration interface (Accelerated Graphics Port, AGP) or other graphics Bus, an enhanced industry standard architecture (Extended Industry Standard Architecture, EISA) Bus, a Front Side Bus (FSB), a HyperTransport (HT) interconnect, an industry standard architecture (Industry Standard Architecture, ISA) Bus, a wireless bandwidth (InfiniBand) interconnect, a Low Pin Count (LPC) Bus, a memory Bus, a micro channel architecture (Micro Channel Architecture, MCA) Bus, a peripheral component interconnect (Peripheral Component Interconnect, PCI) Bus, a PCI-Express (PCI-X) Bus, a serial advanced technology attachment (Serial Advanced Technology Attachment, SATA) Bus, a video electronics standards association local (Video Electronics Standards Association Local Bus, VLB) Bus, or other suitable Bus, or a combination of two or more of the foregoing. The bus may include one or more buses, where appropriate. Although embodiments of the present application describe and illustrate a particular bus, the present application contemplates any suitable bus or interconnect.

In addition, in combination with the film capturing assisting method in the above embodiment, the embodiment of the application may be implemented by providing a computer readable storage medium. The computer readable storage medium has stored thereon computer program instructions; the computer program instructions, when executed by a processor, implement any of the film-taking assistance methods of the above embodiments.

The foregoing description is only illustrative of the preferred embodiments of the present invention and is not to be construed as limiting the scope of the invention, and it will be appreciated by those skilled in the art that equivalent substitutions and obvious variations may be made using the description and illustrations of the present invention, and are intended to be included within the scope of the present invention.

Claims

1. The utility model provides a take photograph auxiliary device of children scoliosis, is applied to 3D panorama and stands the position and take photograph the device, 3D panorama stands the position and takes photograph the device and includes shooting room, its characterized in that includes:

2. The imaging assisting device for scoliosis of children according to claim 1, further comprising:

the reminding component generates first reminding information according to the first alarm information transmitted by the control component so as to remind the shot person of adjusting the posture; and/or

3. The imaging assisting device for scoliosis of children according to claim 1, further comprising:

a lifting support member provided in the photographing room and communicatively connected to the control member, the lifting support member being configured to perform a lifting operation according to the height data and the first projection so as to reach a position coplanar with a position of a head and a shoulder of the first projection, when the subject stands in the photographing room, so that the head and the shoulder of the subject are brought into abutment with the lifting support member so that the second projection overlaps with the first projection;

wherein the elevation assisting member includes:

the bracket is arranged in the shooting room;

4. A photographic aid for children scoliosis according to claim 3, wherein the elevation assistance part further comprises:

5. A photographic aid for children scoliosis according to claim 3, wherein the elevation assistance part further comprises:

The multi-axis mechanical arm is arranged at the top of the inside of the shooting chamber, is fixedly connected with the bracket and is in communication connection with the control component;

or (b)

6. A method for assisting in photographing a scoliosis of a child, comprising the steps of:

7. The method according to claim 6, wherein determining whether the second projection coincides with the first projection and/or whether at least one of the light sources irradiates a sidewall of the first projection and the second projection through the photographer comprises:

Generating first reminding information according to the first alarm information so as to remind the shot person of adjusting the posture, so that the light information does not comprise the light source;

and/or

8. The method of assisting in the filming of a scoliosis in a child according to claim 6, further comprising, after forming the first projection:

9. A computer device, comprising:

at least one processor;

and a memory communicatively coupled to the at least one processor;

the memory stores a computer program executable by the at least one processor, and the computer program is executed by the at least one processor, so that the at least one processor executes the method for assisting in shooting scoliosis of children according to any one of claims 6 to 8.

10. A computer readable storage medium, wherein the computer readable storage medium stores a computer program, and the computer program when executed by a processor implements the method for assisting in photographing scoliosis of children according to any one of claims 6 to 8.