CN109758749B - Shooting correction auxiliary system and method - Google Patents

Abstract

The embodiment of the invention relates to the technical field of basketball auxiliary equipment, in particular to a shooting correction auxiliary system and a shooting correction auxiliary method, wherein the system comprises the following components: a headband; a plurality of wrists; the head band is worn on the head of a human body, the wrist band is worn on the wrist and the arm of the human body, the shooting correction auxiliary system obtains the current shooting posture of the human body and judges whether the current shooting posture meets the preset accurate shooting posture, if not, the shooting correction auxiliary system can prompt a user to correct the shooting posture by controlling the first vibration module and the second vibration module to vibrate. Therefore, the user only needs to wear the head belt of the shooting correction auxiliary system on the head of the human body, wear the wrist band of the shooting correction auxiliary system on the wrist and the arm of the human body, and the shooting correction auxiliary system can judge whether the current shooting posture of the user meets the standard shooting posture or not, and when the current shooting posture is not met, the user is prompted to correct the shooting posture.

Description

Shooting correction auxiliary system and method

Technical Field

The embodiment of the invention relates to the technical field of basketball auxiliary equipment, in particular to a shooting correction auxiliary system and method.

Background

Basketball is a very popular sport, where the scoring of shots is the most common scoring method used and the position of shots is an important factor affecting the shot hit rate. For a beginner to shoot, it is important to strengthen shooting technique training, establish a correct shooting posture concept, and form a good shooting posture shaping. When basketball shooting training is carried out, a good standard shooting posture is formed as a precondition for improving the hit rate, and the current method for correcting the shooting posture is mainly that a coach guides the basketball shooting posture sideways, so that a sportsman who carries out shooting posture learning can train according to the requirement of the coach to a certain extent, and the accuracy of the shooting posture of the sportsman is ensured.

However, in the process of implementing the present invention, the present inventors have found that the following problems exist in the prior art: with the increase of the exercise amount, the shooting posture of the athlete cannot be kept unchanged all the time, and poor shooting posture habit can be developed for a long time, the habit is difficult to change once developed, if the athlete needs to train aside to correct the posture each time the athlete performs shooting training, extra labor is added to the train, and professionals are required to follow the training frequently in the mode, so that time and effort are consumed.

Disclosure of Invention

The technical problem that the embodiment of the invention mainly solves is to provide a shooting correction auxiliary system and method, and aims to solve the problems that in the prior art, correcting the shooting posture of a user consumes time, labor and labor.

In order to solve the above technical problems, a first technical solution adopted in an embodiment of the present invention is: provided is a shooting correction assistance system, including:

The headband comprises a headband body, a first distance detector, a first gyroscope, a first vibration module and a first main controller, wherein the first distance detector, the first gyroscope, the first vibration module and the first main controller are all arranged in the headband body, and the first main controller is respectively connected with the first distance detector, the first gyroscope and the first vibration module;

The wrist support comprises a plurality of wrist supports, a plurality of vibration modules and a plurality of vibration modules, wherein the wrist supports comprise a wrist support body, a first distance sensor, a second gyroscope, a second vibration module and a second main controller, the first distance sensor, the second gyroscope, the second vibration module and the second main controller are all arranged in the wrist support body, and the second main controller is respectively connected with the first distance sensor, the second gyroscope and the second vibration module;

The auxiliary system is used for correcting shooting, namely, the head band is worn on the head of a human body, the wrist band is worn on the wrist and the arm of the human body, the shooting correction auxiliary system obtains the current shooting posture of the human body through the first distance detector, the first distance sensor and the first gyroscope, the first main controller and the second main controller are used for receiving the current shooting posture and judging whether the current shooting posture meets the preset accurate shooting posture, and if not, the first vibration module and the second vibration module vibrate to prompt a user to correct the shooting posture.

Optionally, the headband further includes a first piezoelectric film, the first piezoelectric film is disposed in the headband body, the first piezoelectric film is connected with the first main controller, and the first piezoelectric film is used for detecting physiological parameters of a human body.

Optionally, the wrist band further includes a second piezoelectric film, the second piezoelectric film is disposed in the wrist band body, the second piezoelectric film is connected with the second main controller, and the second piezoelectric film is used for detecting physiological parameters of a human body.

Optionally, the headband includes four the first vibration modules, the four first vibration modules are uniformly spaced and arranged on the headband body.

Optionally, the wrist band includes four the second shakes the module, four the second shakes the module evenly spaced set up in on the wrist band body.

Optionally, the headband further includes a first sounding device, the first sounding device is disposed on the headband body, the first main controller is connected with the first sounding device, and the first main controller is further used for controlling the first sounding device to sound when determining that the current shooting gesture does not meet a preset accurate shooting gesture, so as to prompt a user to correct the shooting gesture.

Optionally, the headband further includes a first lighting device, the first lighting device is disposed on the headband body, the first main controller is connected with the first lighting device, and the first main controller is further configured to control the first lighting device to emit light when it is determined that the current shooting gesture does not meet a preset accurate shooting gesture, so as to prompt a user to correct the shooting gesture.

Optionally, the wrist band further includes a second sound generating device, the second sound generating device is disposed on the wrist band body, the second main controller is connected with the second sound generating device, and the second main controller is further configured to control the second sound generating device to generate sound when determining that the current shooting gesture does not meet the preset accurate shooting gesture, so as to prompt the user to correct the shooting gesture.

Optionally, the wrist band further includes a second light emitting device, the second light emitting device is disposed on the wrist band body, the second main controller is connected with the second light emitting device, and the second main controller is further configured to control the second light emitting device to emit light when determining that the current shooting gesture does not satisfy the preset accurate shooting gesture, so as to prompt the user to correct the shooting gesture.

In order to solve the above technical problem, another technical solution adopted by the embodiment of the present invention is as follows: there is provided a basket correction assistance method applied to the basket correction assistance system described above, the method comprising:

judging whether the user is making a shooting action;

if yes, acquiring the current shooting gesture of the user;

Judging whether the current shooting gesture meets a preset accurate shooting gesture or not;

if the current shooting gesture does not meet the preset accurate shooting gesture, prompting the user to correct the shooting gesture; wherein, the step of prompting the user to correct the shooting gesture comprises the following steps:

The method comprises the steps of controlling a first vibration module of a headband in the system to vibrate, controlling a second vibration module of a wrist band in the system to vibrate, controlling a first sound generating device of the headband in the system and a second sound generating device of the wrist band in the system to generate sound, and controlling the first sound generating device of the headband in the system and the second sound generating device of the wrist band in the system to emit light so as to prompt a user to correct shooting postures.

The beneficial effects of the embodiment of the invention are as follows: unlike the prior art, in an embodiment of the present invention, a basket correction assist system includes: the headband comprises a headband body, a first distance detector, a first gyroscope, a first vibration module and a first main controller, wherein the first distance detector, the first gyroscope, the first vibration module and the first main controller are all arranged in the headband body, and the first main controller is respectively connected with the first distance detector, the first gyroscope and the first vibration module; the wrist support comprises a plurality of wrist supports, a plurality of vibration modules and a plurality of vibration modules, wherein the wrist supports comprise a wrist support body, a first distance sensor, a second gyroscope, a second vibration module and a second main controller, the first distance sensor, the second gyroscope, the second vibration module and the second main controller are all arranged in the wrist support body, and the second main controller is respectively connected with the first distance sensor, the second gyroscope and the second vibration module; the auxiliary system is used for correcting shooting, namely, the head band is worn on the head of a human body, the wrist band is worn on the wrist and the arm of the human body, the shooting correction auxiliary system obtains the current shooting posture of the human body through the first distance detector, the first distance sensor and the first gyroscope, the first main controller and the second main controller are used for receiving the current shooting posture and judging whether the current shooting posture meets the preset accurate shooting posture, and if not, the first vibration module and the second vibration module vibrate to prompt a user to correct the shooting posture. Therefore, the user only needs to wear the head belt of the shooting correction auxiliary system on the head of the human body, wear the wrist band of the shooting correction auxiliary system on the wrist and the arm of the human body, and the shooting correction auxiliary system can judge whether the current shooting posture of the user meets the standard shooting posture or not, and when the current shooting posture is not met, the user is prompted to correct the shooting posture, so that the labor cost is reduced.

Drawings

One or more embodiments are illustrated by way of example and not limitation in the figures of the accompanying drawings, in which like references indicate similar elements, and in which the figures do not depict a proportional limitation unless expressly stated otherwise.

FIG. 1 is a schematic diagram of a shooting correction assistance system according to an embodiment of the present invention;

FIG. 2 is a schematic view of an application environment of a shooting correction assistance system in accordance with an embodiment of the present invention;

FIG. 3 is a block diagram of a shooting correction assistance system in accordance with an embodiment of the present invention;

FIG. 4 is a flow chart of a second shot correction assistance method according to an embodiment of the invention.

Detailed Description

In order that the invention may be readily understood, a more particular description thereof will be rendered by reference to specific embodiments that are illustrated in the appended drawings. It will be understood that when an element is referred to as being "fixed" to another element, it can be directly on the other element or one or more intervening elements may be present therebetween. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or one or more intervening elements may be present therebetween. The terms "vertical," "horizontal," "left," "right," and the like are used herein for illustrative purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. The term "and/or" as used in this specification includes any and all combinations of one or more of the associated listed items.

Embodiment one

Referring to fig. 1 to 3, fig. 1 is a schematic structural diagram of a shooting correction assistance system according to an embodiment of the present invention, fig. 2 is an environmental schematic diagram of an application environment of a shooting correction assistance system according to an embodiment of the present invention, and fig. 3 is a structural block diagram of a shooting correction assistance system according to an embodiment of the present invention, where the shooting correction assistance system 100 includes: a headband 10 and a plurality of wristbands 20.

The headband 10 includes a headband body 11, a first distance detector 12, a first gyroscope 13, a first vibration module 14, a first communication module 15, and a first main controller 16, wherein the first distance detector 12, the first gyroscope 13, the first vibration module 14, the first communication module 15, and the first main controller 16 are all disposed in the headband body 11, and the first main controller 16 is respectively connected with the first distance detector 12, the first gyroscope 13, the first vibration module 14, and the first communication module 15; further, the headband body 11 is made of a flexible material which is easy to absorb sweat and easy to dissipate heat, so that the headband 10 is ensured to have better sweat absorption and heat dissipation, and a user can feel more comfortable when wearing the headband 10; the first distance detector 12 is configured to detect position information of the wrist band 20 and transmit the position information to the first main controller 16; the first gyroscope 13 is used for detecting motion gesture information of a user and sending the motion gesture information of the user to the first main controller 16 for transmission; optionally, the headband 10 includes four first vibration modules 14, where the four first vibration modules 14 are disposed on the headband body 11 at uniform intervals, and the first vibration modules 14 use a micro low-energy vibration motor as a vibration source for vibration reminding. Optionally, the first communication module 15 includes a bluetooth chip or the like.

In order to detect the physiological state of the human body in real time, the headband 10 further comprises a first piezoelectric film 17, the first piezoelectric film 17 is arranged in the headband body 11, the first piezoelectric film 17 is connected with a first main controller 16, the first piezoelectric film 17 is used for detecting physiological parameters of the human body, the physiological parameters comprise heart rate and respiratory rate of a user, and the first piezoelectric film 17 is made of flexible materials.

The wrist bands 20 include a wrist band body 21, a first distance sensor 22, a second gyroscope 23, a second vibration module 24, a second communication module 25, and a second main controller 26, where the first distance sensor 22, the second gyroscope 23, the second vibration module 24, the second communication module 25, and the second main controller 26 are all disposed in the wrist band body 21, and the second main controller 26 is connected to the first distance sensor 22, the second gyroscope 23, the second vibration module 24, and the second communication module 25; further, the wrist band body 21 is made of a flexible material which is easy to sweat and easy to radiate, so that the wrist band 20 is ensured to have better sweat absorption and radiation, and a user can feel more comfortable when wearing the wrist band 20; the first distance sensor 22 cooperates with the first distance detector 12, the first distance detector 12 is configured to detect position information of the first distance sensor 22, further determine position information of the headband 10 and the wrist band 20, and transmit the position information to the second main controller 26, and the second gyroscope 23 is configured to detect movement gesture information of a user, and send the movement gesture information of the user to the second main controller 26; optionally, the wrist band 20 includes four second vibration modules 24, where the four second vibration modules 24 are uniformly spaced on the wrist band body 21, and the second vibration modules 24 use a micro low-energy-consumption vibration motor as a vibration source for vibration reminding. Optionally, the second communication module 25 includes a bluetooth chip or the like. Information interaction, such as communication of various physiological information or posture information, is performed between the headband 10 and the wrist band 20 through the first communication module 15 and the second communication module 25.

In order to detect the physiological state of the human body in real time, the wrist band 20 further includes a second piezoelectric film 27, the second piezoelectric film 27 is disposed in the wrist band body 21, the second piezoelectric film 27 is connected with the second main controller 26, the second piezoelectric film 27 is used for detecting physiological parameters of the human body, the physiological parameters include heart rate, respiratory rate, etc. of the user, and the second piezoelectric film 27 is made of flexible materials.

Referring to fig. 2 again, the headband 10 is worn on the head of the human body, the wrist band 20 is worn on the wrist and/or the arm of the human body, the shooting correction assisting system 100 obtains the current shooting posture of the human body through the first distance detector 12, the first distance sensor 22, the first gyroscope 13 and the second gyroscope 23, the first main controller 16 and the second main controller 26 are used for receiving the current shooting posture and judging whether the current shooting posture meets the preset accurate shooting posture, and if not, the first vibration module 14 and the second vibration module 24 are controlled to vibrate so as to prompt the user to correct the shooting posture. Specifically, since the headband 10 is worn on the head of the human body, the wrist band 20 is worn on the wrist band 10, the first distance sensor 12 is disposed on the wrist band 20, the current movement posture of the human body can be known through the cooperation of the first distance sensor 12 and the first distance sensor 22, when the obtained movement posture meets the preset threshold, the current movement posture is determined to be the shooting posture, for example, the preset threshold can be the position where the wrist band 20 is detected to be located above the headband 10, the current shooting posture of the human body is obtained, whether the current shooting posture meets the preset accurate shooting posture is judged, and if not, the user is prompted to correct the shooting posture by controlling the first vibration module 14 and the second vibration module 24 to vibrate.

In order to better prompt the user to correct the shooting posture, the headband 10 further comprises a first sounding device 18 and a first lighting device 19, wherein the first sounding device 18 and the first lighting device 19 are arranged on the headband body 11, the first main controller 16 is respectively connected with the first sounding device 18 and the first lighting device 19, and the first main controller 16 is further used for controlling the first sounding device 18 to sound and controlling the first lighting device 19 to emit light when the current shooting posture is determined to not meet the preset accurate shooting posture so as to prompt the user to correct the shooting posture. Optionally, the first sound emitting means 18 comprises a horn or the like and the first light emitting means 19 comprises a light emitting diode or the like. The wrist band 20 further comprises a second sound generating device 28 and a second light emitting device 29, the second sound generating device 28 and the second light emitting device 29 are arranged on the wrist band body 21, the second main controller 26 is respectively connected with the second sound generating device 28 and the second light emitting device 29, and the second main controller 26 is further used for controlling the second sound generating device 28 to emit sound and the second light emitting device 29 to emit light when determining that the current shooting gesture does not meet the preset accurate shooting gesture, so as to prompt the user to correct the shooting gesture.

In an embodiment of the present invention, the basket correction assist system 100 includes: the headband 10 includes a headband body 11, a first distance detector 12, a first gyroscope 13, a first vibration module 14, and a first main controller 16, wherein the first distance detector 12, the first gyroscope 13, the first vibration module 14, and the first main controller 16 are all disposed in the headband body 11, and the first main controller 16 is connected to the first distance detector 12, the first gyroscope 13, and the first vibration module 14, respectively; the wrist band 20 comprises a wrist band body 21, a first distance sensor 22, a second gyroscope 23, a second vibration module 24 and a second main controller 26, wherein the first distance sensor 22, the second gyroscope 23, the second vibration module 24 and the second main controller 26 are all arranged in the wrist band body 21, and the second main controller 26 is respectively connected with the first distance sensor 22, the second gyroscope 23 and the second vibration module 24; the headband 10 is worn on the head of a human body, the wrist band 20 is worn on the wrist and the arm of the human body, the shooting correction auxiliary system 100 obtains the current shooting posture of the human body through the first distance detector 12, the first distance sensor 22 and the first gyroscope 13, the first main controller 16 and the second main controller 26 are used for receiving the current shooting posture and judging whether the current shooting posture meets the preset accurate shooting posture, and if not, the first vibration module 14 and the second vibration module 24 are controlled to vibrate so as to prompt a user to correct the shooting posture. Therefore, the user only needs to wear the headband 10 of the shooting correction assisting system 100 on the head of the human body, wear the wrist band 20 of the shooting correction assisting system 100 on the wrist and arm of the human body, and the shooting correction assisting system 100 can judge whether the current shooting posture of the user meets the standard shooting posture or not, and when the current shooting posture is not met, the user is prompted to correct the shooting posture, so that the labor cost is reduced.

Second embodiment

Referring to fig. 4, fig. 4 is a flowchart illustrating a second shooting correction assistance method according to an embodiment of the invention, which is applied to the shooting correction assistance system 100, the method includes:

step 201: judging whether the user is making a shooting action;

Referring to the specific disclosure of the first embodiment, since the headband 10 is worn on the head of a human body, the wrist band 20 is worn on the wrist and the arm of the human body, the first distance sensor 12 is disposed on the headband 10, the first distance sensor 22 is disposed on the wrist band 20, and the current movement posture of the human body can be known through the cooperation of the first distance sensor 12 and the first distance sensor 22, when the obtained movement posture meets the preset threshold, the current movement posture is determined to be the shooting posture, for example, the preset threshold can be the position of the detected wrist band 20 above the headband 10.

Step 202: if yes, acquiring the current shooting gesture of the user;

the current shooting attitude of the human body is acquired by the first distance detector 12, the first distance detector 22, the first gyroscope 13 and the second gyroscope 23.

Step 203: judging whether the current shooting gesture meets the preset accurate shooting gesture or not;

The preset accurate shooting gesture can be pre-stored in the first main controller 16 and the second main controller 26 in the form of data information, the acquired current shooting gesture can also be stored in the first main controller 16 and the second main controller 26 in the form of data information, and the first main controller 16 and the second main controller 26 judge whether the current shooting gesture meets the preset accurate shooting gesture or not by comparing the current shooting gesture with the data information of the preset accurate shooting gesture.

Step 204: if the current shooting gesture does not meet the preset accurate shooting gesture, prompting the user to correct the shooting gesture.

Specifically, step 204 of prompting the user to correct the shooting pose includes the following steps 2041 (not shown) and 2042 (not shown):

Step 2041: the first vibration module of the headband in the control system vibrates, and the second vibration module of the wrist band in the control system vibrates, so that the user is prompted to correct the shooting posture.

Step 2042: the first sound emitting device of the headband in the control system and the second sound emitting device of the wrist band in the system emit sound, and the first sound emitting device of the headband in the control system and the second sound emitting device of the wrist band in the system emit light to prompt a user to correct shooting postures.

It should be noted that: the second embodiment of the method and the first embodiment of the system of the present invention are based on the same inventive concept, and the specific content and the beneficial effects of the second embodiment of the present invention refer to the first embodiment of the present invention, and are not described in detail herein.

The foregoing description is only of embodiments of the present invention, and is not intended to limit the scope of the invention, and all equivalent structures or equivalent processes using the descriptions and the drawings of the present invention or directly or indirectly applied to other related technical fields are included in the scope of the present invention.

Claims (10)

1. A shooting correction assistance system, comprising:

The headband comprises a headband body, a first distance detector, a first gyroscope, a first vibration module and a first main controller, wherein the first distance detector, the first gyroscope, the first vibration module and the first main controller are all arranged in the headband body, and the first main controller is respectively connected with the first distance detector, the first gyroscope and the first vibration module;

each wrist protector comprises a wrist protector body, a first distance sensor, a second gyroscope, a second vibration module and a second main controller, wherein the first distance sensor, the second gyroscope, the second vibration module and the second main controller are arranged in the wrist protector body, and the second main controller is respectively connected with the first distance sensor, the second gyroscope and the second vibration module; the first distance sensor is matched with the first distance detector, and the first distance detector is used for detecting the position information of the first distance sensor so as to determine the position information of the headband and the wrist band;

The shooting correction auxiliary system acquires the current shooting posture of a human body through the first distance detector, the first distance sensor and the first gyroscope, the first main controller and the second main controller are used for receiving the current shooting posture and judging whether the current shooting posture meets the preset accurate shooting posture, and if not, the user is prompted to correct the shooting posture by controlling the first vibration module and the second vibration module to vibrate.

2. The system of claim 1, wherein the system further comprises a controller configured to control the controller,

The headband also comprises a first piezoelectric film, the first piezoelectric film is arranged in the headband body, the first piezoelectric film is connected with the first main controller, and the first piezoelectric film is used for detecting physiological parameters of a human body.

3. The system of claim 1, wherein the system further comprises a controller configured to control the controller,

The wrist band further comprises a second piezoelectric film, the second piezoelectric film is arranged in the wrist band body and connected with the second main controller, and the second piezoelectric film is used for detecting physiological parameters of a human body.

4. The system of claim 1, wherein the system further comprises a controller configured to control the controller,

The headband comprises four first vibration modules, and the four first vibration modules are arranged on the headband body at uniform intervals.

5. The system of claim 1, wherein the system further comprises a controller configured to control the controller,

The wrist band comprises four second vibration modules, and the four second vibration modules are uniformly arranged on the wrist band body at intervals.

6. The system of claim 1, wherein the system further comprises a controller configured to control the controller,

The headband also comprises a first sounding device, the first sounding device is arranged on the headband body, the first main controller is connected with the first sounding device, and the first main controller is further used for controlling the first sounding device to sound when determining that the current shooting gesture does not meet the preset accurate shooting gesture so as to prompt a user to correct the shooting gesture.

7. The system of claim 6, wherein the system further comprises a controller configured to control the controller,

The headband also comprises a first light emitting device, the first light emitting device is arranged on the headband body, the first main controller is connected with the first light emitting device, and the first main controller is further used for controlling the first light emitting device to emit light when determining that the current shooting gesture does not meet the preset accurate shooting gesture so as to prompt a user to correct the shooting gesture.

8. The system of claim 7, wherein the system further comprises a controller configured to control the controller,

The wrist band further comprises a second sounding device, the second sounding device is arranged on the wrist band body, the second main controller is connected with the second sounding device, and the second main controller is further used for controlling the second sounding device to sound when determining that the current shooting gesture does not meet the preset accurate shooting gesture so as to prompt a user to correct the shooting gesture.

9. The system of claim 8, wherein the system further comprises a controller configured to control the controller,

The wrist band further comprises a second light-emitting device, the second light-emitting device is arranged on the wrist band body, the second main controller is connected with the second light-emitting device, and the second main controller is further used for controlling the second light-emitting device to emit light when determining that the current shooting gesture does not meet the preset accurate shooting gesture so as to prompt a user to correct the shooting gesture.

10. A method of basket correction assistance applied to the basket correction assistance system of claim 9, the method comprising:

judging whether the user is making a shooting action;

if yes, acquiring the current shooting gesture of the user;

Judging whether the current shooting gesture meets a preset accurate shooting gesture or not;

If the current shooting gesture does not meet the preset accurate shooting gesture, controlling a first vibration module of a headband in the system to vibrate and controlling a second vibration module of a wrist band in the system to vibrate, controlling a first sound generating device of the headband in the system and a second sound generating device of the wrist band in the system to generate sound, and controlling a first light emitting device of the headband in the system and a second light emitting device of the wrist band in the system to emit light so as to prompt a user to correct the shooting gesture.