CN117258240A

CN117258240A - AI management stand based on supervision one to one

Info

Publication number: CN117258240A
Application number: CN202311146656.XA
Authority: CN
Inventors: 黄勇达; 王光辉; 张广洁; 陈剑侠; 孟庆志; 黄成成
Original assignee: Zhejiang Yuzhan Information Technology Co ltd
Current assignee: Zhejiang Yuzhan Information Technology Co ltd
Priority date: 2023-09-06
Filing date: 2023-09-06
Publication date: 2023-12-22

Abstract

The invention discloses an AI (advanced technology attachment) management upright post based on one-to-one supervision, which is characterized by comprising a movable column body, a video acquisition unit, an attitude acquisition unit, a central control unit and a training unit, wherein the lower end of the movable column body is provided with a movable wheel, and the training unit, the video acquisition unit and the central control unit are arranged on the movable column body; the video acquisition unit is used for acquiring videos of human body rope skipping and judging the motion state of the sportsman; the gesture acquisition unit is used for acquiring elbow bending angles and knee bending angles of the sportsman and judging gesture information of the sportsman; the central control unit is respectively connected with the video acquisition unit, the gesture acquisition unit and the training unit and is used for comparing training contents in the selected training mode with the motion state and the motion gesture of the sportsman to generate training data, and the one-to-one supervision AI management upright post can be used for the sportsman to perform targeted rope skipping exercise, so that the manpower requirement is reduced.

Description

AI management stand based on supervision one to one

Technical Field

The invention relates to a management upright, in particular to an AI management upright based on one-to-one supervision.

Background

The intelligent sports body-building is a novel body-building mode which takes scientific body-building technology as a core, intelligent body-building hardware as a carrier and aims at meeting personalized and efficient body-building requirements. The intelligent sports fitness equipment provides a more specialized and personalized fitness scheme for users through image sensing technology, action recognition, voice recognition and other modes.

Rope skipping is a well known aerobic exercise which is a very effective form of cardiopulmonary exercise and has low requirements for the ground, thereby meeting the requirements of exercise and body building of most people. From this will jump the rope motion and bring into student's exercise in elementary and middle school's sports class gradually, need to reasonably correct child's rope-skipping action at rope-skipping in-process to and need to handle the accuse to child training intensity, nevertheless a mr on the sports class needs to correspond dozens of students, exists the condition of supervision not in place, from this will have AI's equipment to introduce into the school, thereby strengthen the one-to-one supervision to students, and how to utilize AI equipment in the sports course, further be applied to on the rope-skipping item, be required to carry out the technological innovation of pertinence.

Disclosure of Invention

Aiming at the defects existing in the prior art, the invention aims to provide an AI management upright post based on one-to-one supervision, which can be used for an exercise person to perform targeted rope skipping exercise and reduce the manpower requirement.

In order to achieve the above purpose, the present invention provides the following technical solutions: AI management stand based on supervision one to one, characterized by: the device comprises a movable column, a video acquisition unit, a gesture acquisition unit, a central control unit and a training unit, wherein the lower end of the movable column is provided with a movable wheel, and the training unit, the video acquisition unit and the central control unit are arranged on the movable column;

a display screen and a card reader are arranged on the movable column;

the video acquisition unit is used for acquiring videos of human body rope skipping and judging the motion state of a sporter;

the gesture acquisition unit is used for acquiring elbow bending angles and knee bending angles of the sportsman and judging gesture information of the sportsman;

the training unit stores a plurality of training modes;

the central control unit is respectively connected with the video acquisition unit, the gesture acquisition unit and the training unit and is used for comparing training contents in the selected training mode with the motion state and the motion gesture of the sportsman to generate training data.

In summary, the invention has the following beneficial effects: the card reader is used for reading student card information and recording exercise records, and the mobile body can move to any wide place in cooperation with the mobile wheel, so that students can perform one-to-one training operation conveniently.

In the rope skipping training process, the gesture sensor is located the elbow and the knee inboard this moment, and the pressure sensor is located the elbow and the knee outside, can monitor elbow bending degree to judge current rope skipping state, and through comparing elbow bending degree and the elbow gesture that stores in the system, can make the suggestion when the hand state is incorrect, improve the accuracy of motion process.

On the other hand, the current leg rope skipping state is judged by monitoring the knee bending degree, and the leg rope skipping state is roughly divided into three modes: 1. flat jump, leg standing; 2. leg lifting jump, wherein the leg is more than or equal to 90 degrees; 3. the back kick is realized, and the leg is smaller than 90 degrees. Different rope skipping states correspond to different movement modes and also correspond to different energy consumption modes.

In summary, in rope skipping motion, at first select rope skipping scheme, judge the current rope skipping state of sportsman according to the real-time state of hand, shank at rope skipping in-process, compare with action in the scheme, can in time make the suggestion when action mistake appears, judge sportsman's physical power change according to motion initiation rope skipping speed and middle section rope skipping speed and back end rope skipping speed, can adjust subsequent motion scheme from this, improve the intellectuality of equipment.

Drawings

FIG. 1 is a schematic perspective view of a management column;

FIG. 2 is a logical block diagram of a management column;

fig. 3 is a schematic perspective view of the elbow cover.

Reference numerals: 1. a moving column; 11. a moving wheel; 12. a display screen; 13. a card reader; 2. a video acquisition unit; 3. a gesture acquisition unit; 31. an elbow cover; 32. a first inductor; 33. a first connecting rope; 34. a second inductor; 35. a first pressure sensor; 36. a second pressure sensor; 37. bending the detection belt; 4. a central control unit; 5. a training unit; 51. a counting module; 52. a mode selection module; 53. and a data recording module.

Detailed Description

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

Referring to fig. 1 to 3, in order to achieve the above object, the present invention provides the following technical solutions: AI management stand based on supervision one to one, characterized by: the device comprises a movable column 1, a video acquisition unit 2, a gesture acquisition unit 3, a central control unit 4 and a training unit 5, wherein the lower end of the movable column 1 is provided with a movable wheel 11, and the training unit 5, the video acquisition unit 2 and the central control unit 4 are all arranged on the movable column 1;

a display screen 12 and a card reader 13 are arranged on the movable column 1;

the video acquisition unit 2 is used for acquiring videos of human body rope skipping and judging the motion state of a sporter;

the gesture acquisition unit 3 is used for acquiring elbow bending angles and knee bending angles of the sportsman and judging gesture information of the sportsman;

the training unit 5 stores a plurality of training modes;

the central control unit 4 is respectively connected with the video acquisition unit 2, the gesture acquisition unit 3 and the training unit 5 and is used for comparing training contents in the selected training mode with the motion state and the motion gesture of the sportsman to generate training data.

According to the design of the invention, the card reader 13 is used for reading student card information and recording exercise records, and the mobile body can move to any wide place in cooperation with the mobile wheel 11, so that students can perform one-to-one training operation conveniently.

The training schemes of various exercises are stored in the system, corresponding training contents can be provided for students according to different courses, videos of human body exercises are collected through the video collecting unit 2 in real time in the monitoring process, the exercise state of the exercise personnel is analyzed through a video analysis module in the system, and the hand posture and knee state of the exercise personnel in the exercise process are collected through the posture collecting unit 3, so that posture information such as arm bending and knee bending of the exercise personnel is determined, and whether the posture of the exercise personnel in the exercise process is accurate is determined.

In addition, the elbow monitoring piece and the knee monitoring piece serve as knee pads and elbow pads, so that the safety of sports personnel is protected.

The video analysis module judges whether the movement condition exists for the movement personnel or not by collecting the node values in the movement process of the human body.

The gesture collection unit 3 includes an elbow sleeve 31, a first sensor 32 and a first connection rope 33, the first sensor 32 is disposed in an upper arm region of the elbow sleeve 31, one end of the first connection rope 33 is connected with the first sensor 32, the other end is connected with a lower arm region of the elbow sleeve 31, and the first sensor 32 is connected with the central control unit 4.

The gesture acquisition unit 3 further comprises a knee cap sleeve, a second sensor 34 and a second connecting rope, the first sensor 32 is arranged in the thigh area of the knee cap sleeve, one end of the second connecting rope is connected with the second sensor 34, the other end of the second connecting rope is connected to the calf area of the knee cap sleeve, and the second sensor 34 is connected with the central control unit 4.

When the knee and the elbow are in the straightened state, the first sensor 32 and the second sensor 34 receive the pulling force corresponding to the first connecting rope 33 and the second connecting rope, the pulling force is maximum at this time, and when the knee and the elbow are gradually bent, the pulling force becomes smaller, so that the values of the first sensor 32 and the second sensor 34 are changed, and the system determines the posture information of the current sportsman according to the change of the values.

The operation steps of the central control unit 4 specifically include:

step S1, reading student card information through a card reader 13, and acquiring an exercise process;

step S2, the athletic personnel wear the elbow cover 31, the knee cover and the bending detection belt 37;

step S3, the display screen 12 displays the detection action;

step S4, the movement personnel perform following actions along with the detection actions displayed by the display screen 12;

step S5, the central control unit 4 determines the action position condition of the moving person according to the following action and the detecting action;

step S6, the data recording module 53 determines training scores according to the action position conditions;

in step S7, the mode selection module 52 changes the training mode according to the training score.

The detecting action in step S3 specifically includes:

s31, standing the feet, enabling the two arms to sag and be parallel to the trunk, wherein armpits are 0 degrees;

s32, standing the two feet, slightly stretching the two arms, straightening the two arms, and gradually turning the two arms until the two arms form an included angle of 60 degrees;

s33, jumping with feet, wherein the knees are at an included angle of 90 degrees;

s34, jumping with feet and kicking the rear leg, wherein the knees are acute angles.

In the early stage of the exercise, the elbow monitoring piece and the knee monitoring piece are worn first, the wearing comfort level is adjusted, then the system displays the detection action on the display screen 12, the exercise personnel follows the action according to the detection action, and the system acquires the posture information of the exercise personnel according to the following action, so that the posture judgment standards of different users can be acquired.

The training module comprises a counting module 51, a mode selecting module 52 and a data recording module 53;

the counting module 51 is connected with the video acquisition unit 2 and is used for recording rope skipping frequency of a sportsman;

the data recording module 53 is respectively connected with the first sensor 32 and the second sensor 34 and is used for recording the arm state and the leg state of the sportsman;

the mode selection module 52 is electrically connected with the counting module 51 and the data recording module 53 respectively, and is used for performing mode adjustment according to the arm state, the leg state and the rope skipping frequency of the sportsman.

A first pressure sensor 35 is further arranged on one side, far away from the first sensor 32, of the elbow sleeve 31, and the first pressure sensor 35 is used for sensing the outer side state of the elbow;

the side of the knee cap remote from the second sensor 34 is provided with a second pressure sensor 36, the second pressure sensor 36 being adapted to sense the lateral condition of the knee.

The design of this first pressure sensor 35 and second pressure sensor 36, when first inductor 32 is located the elbow inboard, first pressure sensor 35 is located the elbow outside, first pressure sensor 35 atress increases when the arm is crooked, first inductor 32 atress reduces, when first inductor 32 is located the elbow outside, first pressure sensor 35 is located the elbow inboard, when the arm is crooked, first inductor 32 atress increases, low pressure sensor atress or atress minute power, can form different atress curves according to the difference of wearing mode from this, can be directed against various training items.

The central control unit 4 further comprises a project selecting module, wherein the project selecting module at least comprises a rope skipping project, and the project selecting module is connected with the first pressure sensor 35 and the second pressure sensor 36.

The system can meet the training of the jump rope, can also meet the training of basketball, is especially the dribbling resistance training in basketball, is provided with an elbow abutting region and a knee abutting region on the movable upright post, is in ball-beating with one hand and is in ball-protecting shape to collide with the elbow abutting region in the training process, and determines a collision region according to feedback of the elbow abutting region when the ball is touched, and the elbow abutting region can press the first connecting rope 33 in the touching process to enable the numerical value of the first sensor 32 to change, so that the change of the touch force and the elbow angle is determined according to the numerical value change fed back by the first sensor 32, the effect of judging the accuracy of hand actions is achieved, and the accuracy of leg actions is judged by touching the knee abutting region in the touching process.

In this way, also with the elbow cover 31 and the knee cover, different values can be detected according to the wearing mode, and thus different training items can be associated.

The gesture collection unit 3 further comprises a bending detection belt 37, and the bending detection belt is connected with the data recording module 53 and is used for being attached to the vertebra of the sportsman. The physical state information can be monitored in the rope skipping process, and the vertebra of the sportsman is ensured to be in a vertical state except in the rapid rope skipping state; the bending state can be monitored during the basketball exercise process, so that the gravity center state of the exercising person can be judged by combining the knee monitoring piece.

Both the elbow cuff 31 and the knee cuff are provided with two sets. Two groups of numerical value changes which can correspond to the left side and the right side are arranged.

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 examples, and all technical solutions belonging to the concept of the present invention belong to the protection scope of the present invention. It should be noted that modifications and adaptations to the present invention may occur to one skilled in the art without departing from the principles of the present invention and are intended to be within the scope of the present invention.

Claims

1. AI management stand based on supervision one to one, characterized by: the device comprises a movable column body (1), a video acquisition unit (2), a gesture acquisition unit (3), a central control unit (4) and a training unit (5), wherein the lower end of the movable column body (1) is provided with a movable wheel (11), and the training unit (5), the video acquisition unit (2) and the central control unit (4) are arranged on the movable column body (1);

a display screen (12) and a card reader (13) are arranged on the movable column body (1);

the video acquisition unit (2) is used for acquiring videos of human body rope skipping and judging the motion state of a sporter;

the gesture acquisition unit (3) is used for acquiring elbow bending angles and knee bending angles of the sportsman and judging gesture information of the sportsman;

a plurality of training modes are stored in the training unit (5);

the central control unit (4) is respectively connected with the video acquisition unit (2), the gesture acquisition unit (3) and the training unit (5) and is used for comparing training contents in the selected training mode with the motion state and the motion gesture of the sportsman to generate training data.

2. The AI management column based on one-to-one supervision according to claim 1, wherein: the gesture collection unit (3) is including elbow cover (31), first inductor (32) and first connecting rope (33), first inductor (32) set up in the upper arm region of elbow cover (31), the one end and the first inductor (32) of first connecting rope (33) are connected, and the other end is connected in the lower arm region of elbow cover (31), first inductor (32) are connected with well accuse unit (4).

3. The AI management column based on one-to-one supervision according to claim 2, wherein: the gesture acquisition unit (3) is still including knee cover, second inductor (34) and second connecting rope, first inductor (32) set up in the thigh region of knee cover, the one end and the second inductor (34) of second connecting rope are connected, and the other end is connected in the shank region of knee cover, second inductor (34) are connected with well accuse unit (4).

4. The AI management column based on one-to-one supervision as set forth in claim 3, wherein: the training module comprises a counting module (51) and a mode selection module (52) and a data recording module (53);

the counting module (51) is connected with the video acquisition unit (2) and is used for recording rope skipping frequency of a sportsman;

the data recording module (53) is respectively connected with the first sensor (32) and the second sensor (34) and is used for recording the arm state and the leg state of the sportsman;

the mode selection module (52) is respectively and electrically connected with the counting module (51) and the data recording module (53) and is used for carrying out mode adjustment according to the arm state, the leg state and the rope skipping frequency of the sportsman.

5. The AI management column based on one-to-one supervision as set forth in claim 4, wherein: a first pressure sensor (35) is further arranged on one side, far away from the first sensor (32), of the elbow sleeve (31), and the first pressure sensor (35) is used for sensing the outer side state of the elbow;

a second pressure sensor (36) is arranged on one side, far away from the second sensor (34), of the knee sleeve, and the second pressure sensor (36) is used for sensing the outer side state of the knee.

6. The AI management column based on one-to-one supervision as set forth in claim 4, wherein: the gesture acquisition unit (3) further comprises a bending detection belt (37), and the bending detection belt is connected with the data recording module (53) and is used for being attached to the vertebra of a sportsman.

7. The AI management column based on one-to-one supervision as set forth in claim 6, wherein: the operation steps of the central control unit (4) specifically comprise:

step S1, reading student card information through a card reader (13) to acquire an exercise process;

step S2, a sportsman wears an elbow sleeve (31), a knee sleeve and a bending detection belt (37);

step S3, a display screen (12) displays the detection action;

step S4, the movement personnel perform following actions along with the detection actions displayed by the display screen (12);

step S5, the central control unit (4) determines the action position condition of the moving person according to the following action and the detection action;

step S6, a data recording module (53) determines training scores according to the action position conditions;

in step S7, the mode selection module (52) changes the training mode according to the training score.

8. The AI management column based on one-to-one supervision as set forth in claim 7, wherein: the detecting action in the step S3 specifically includes:

9. The AI management column based on one-to-one supervision as set forth in claim 5, wherein: the central control unit (4) further comprises an item selection module, wherein the item selection module at least comprises a rope skipping item, and the item selection module is connected with the first pressure sensor (35) and the second pressure sensor (36).

10. The AI management column based on one-to-one supervision as set forth in claim 3, wherein: both the elbow sleeve (31) and the knee sleeve are provided with two groups.