CN111494912A - Basketball exercise assisting system and method - Google Patents

Abstract

The present application relates to a basketball exercise assisting system, the system comprising: the basketball net sensor is arranged on the basketball net and used for collecting shooting data of the user; the wearable device is used for acquiring basketball behavior information of the user; the first terminal is in communication connection with the net sensor and the wearable device, and is used for acquiring shooting data of the user and basketball movement data obtained through basketball behavior information of the user, and outputting the shooting data of the user and the basketball movement data, wherein the basketball movement data comprises one or more of physiological information and motion data. This mode need not artificial record user's shooting data and basketball motion data, has saved manpower resources, has avoided the wrong data that artificial record leads to, has improved shooting data and basketball motion data's accuracy to the efficiency of data arrangement has been promoted. The application also relates to a basketball exercise assisting method.

Description

Basketball exercise assisting system and method

Technical Field

The application relates to the technical field of basketball sports, in particular to a basketball sports auxiliary system and method.

Background

As is well known, the basketball game has a very large proportion in the amateur activities of people, which not only can build up the body, but also can promote the interaction between people, so that the basketball game is pursued by many basketball enthusiasts.

In basketball sports, there are high demands for human dribbling, shooting, putting or moving steps. However, in the conventional basketball training, the trainees who participate in the training cannot observe the exercise status of the trainees, and other personnel are required to manually record the basketball exercise data and performance of the trainees.

However, the basketball movement data and the performance of the trainer are recorded manually, so that the basketball movement data of the trainer is inaccurate.

Disclosure of Invention

Accordingly, it is desirable to provide a basketball exercise assisting system and method capable of improving accuracy of basketball exercise data in response to the technical problem that the basketball exercise data of the trainer is inaccurate.

A basketball exercise assisting system, the system comprising:

the basketball net sensor is used for collecting shooting data of a user;

the wearable device is used for acquiring basketball behavior information of the user;

the first terminal is in communication connection with the net sensor and the wearable device respectively and is used for acquiring shooting data and basketball movement data of the user and outputting the shooting data and the basketball movement data of the user; the basketball movement data comprises data obtained according to the basketball behavior information of the user, and further comprises one or more of physiological information and action data.

In one embodiment, the wearable device comprises a wrist-worn device, and the basketball behavior information comprises wrist action information;

the wrist wearing device is worn on the wrist of the user and used for collecting wrist action information of the user.

In one embodiment, the wearable device is further configured to perform data processing on basketball behavior information of the user to obtain the basketball movement data.

In one embodiment, the first terminal is further configured to acquire basketball behavior information of the user from the wearable device, perform data processing on the basketball behavior information of the user, and acquire the basketball movement data.

In one embodiment, the first terminal is further configured to receive a goal signal sent by the net sensor, acquire a basketball motion video corresponding to the user, and intercept a target video meeting a preset condition from the basketball motion video according to the goal signal.

In one embodiment, the system further comprises:

and the server is in communication connection with the first terminal and is used for storing one or more of shooting data of the user, basketball movement data of the user and the target video.

In one embodiment, the system further comprises:

and the second terminal is in communication connection with the server and is used for acquiring one or more of shooting data of the user, basketball movement data of the user and the target video from the server and outputting one or more of shooting data of the user, basketball movement data of the user and the target video.

In one embodiment, the first terminal is a coach terminal and the second terminal is a home terminal.

A basketball exercise assisting method, the method comprising:

the method comprises the steps that a net shooting sensor collects shooting data of a user and transmits the shooting data of the user to a first terminal;

the wearable device collects the basketball behavior information of the user, processes the basketball behavior information of the user to obtain basketball movement data, and transmits the basketball movement data to the first terminal; the basketball movement data comprises one or more of physiological information and motion data;

the first terminal acquires shooting data and basketball movement data of the user and outputs the shooting data and the basketball movement data of the user.

In one embodiment, the method further comprises:

the first terminal also receives a goal signal sent by the net sensor, acquires a basketball movement video corresponding to the user, and intercepts a target video meeting preset conditions from the basketball movement video according to the goal signal.

In one embodiment, the wearable device comprises a wrist-worn apparatus;

the wearable device collects the basketball behavior information of the user, processes the basketball behavior information of the user to obtain basketball movement data, and transmits the basketball movement data to the first terminal, and the method comprises the following steps:

the wrist wearing device collects wrist action information of the user, processes the wrist action information of the user to obtain basketball movement data, and transmits the basketball movement data to the first terminal.

In one embodiment, the wrist wearing apparatus acquires wrist motion information of the user, processes the wrist motion information of the user to obtain basketball motion data, and transmits the basketball motion data to the first terminal, including:

after the first terminal is successfully connected with the wrist wearing device, the first terminal sends a starting instruction to the wrist wearing device, and then the first terminal is disconnected with the wrist wearing device;

the wrist wearing device carries out initialization operation to obtain initialization data, collects wrist action information of the user based on the initialization data, and obtains basketball movement data according to the collected wrist action information;

and after the first terminal sends a finishing instruction to the wrist wearing device, the wrist wearing device transmits the basketball movement data to the first terminal.

In one embodiment, the method further comprises:

and the server receives one or more of shooting data of the user, basketball movement data of the user and the target video sent by the first terminal, and stores one or more of shooting data of the user, basketball movement data of the user and the target video.

In one embodiment, the method further comprises:

the server sends a notification message to the second terminal;

and after the second terminal is started based on the notification message, sending an information acquisition request to the server, and receiving one or more of shooting data of the user, basketball movement data of the user and the target video, which are responded by the server to the information acquisition request.

A basketball exercise assisting method, the method comprising:

acquiring one or more of shooting data of a user, basketball movement data of the user and a target basketball movement video sent by a first terminal;

storing one or more of shooting data of the user, basketball movement data of the user and the target basketball movement video, and sending a notification message to a second terminal based on one or more of shooting data of the user, basketball movement data of the user and the target basketball movement video;

and receiving an information acquisition request sent by the second terminal, and sending one or more of shooting data of the user, basketball movement data of the user and the target video to the second terminal according to the information acquisition request.

According to the basketball movement auxiliary system and method, the basketball net sensor is arranged on the basketball net, and the user wears the wearable device, so that the basketball net sensor and the wearable device respectively collect shooting data of the user and basketball behavior information of the user, the first terminal obtains the shooting data of the user and the basketball movement data obtained through the basketball behavior information of the user, and the data are output, so that the user can know own movement data and movement states. This mode need not artificial record user's shooting data and basketball motion data, has saved manpower resources, has avoided the error data that artificial record leads to, has improved shooting data and basketball motion data's accuracy to promote the efficiency of data arrangement, be favorable to the data processing process to the huge shooting data of data flow and basketball motion data.

Drawings

FIG. 1 is a schematic diagram of an embodiment of a basketball exercise assisting system;

FIG. 2 is a schematic diagram of another embodiment of a basketball exercise assisting system;

FIG. 3 is a schematic flow chart of a basketball exercise assisting method in one embodiment;

fig. 4 is a flowchart illustrating a basketball exercise assisting method according to another embodiment.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

In one embodiment, referring to fig. 1, a basketball exercise assistance system is provided that includes a net sensor 102, a wearable device 104, and a first terminal 106. Wherein, the net sensor 102 is arranged on the net for collecting shooting data of the user. The wearable device 104 is used to collect basketball behavior information of the user. The first terminal 106 is in communication connection with the net sensor 102 and the wearable device 104, and is configured to acquire shooting data of the user and basketball movement data obtained by processing basketball behavior information of the user, and output the shooting data of the user and the basketball movement data, so that the user can know the own motion state and motion performance. Wherein the basketball movement data includes one or more of physiological information and motion data.

Alternatively, the user may be a basketball sports fan, a learner in basketball training, or a professional basketball player, etc. Communication between basket sensor 102 or wearable device 104 and first terminal 106 may be via wired or wireless means. Optionally, the basket sensor 102 communicates with the first terminal 106 via bluetooth. Optionally, the wearable device 104 communicates with the first terminal 106 via bluetooth. Alternatively, the first terminal 106 may be a mobile terminal or a fixed terminal, which may be implemented in various forms. For example, the first terminal 106 described in the present embodiment may include a mobile terminal such as a mobile phone, a smart phone, a notebook computer, a digital broadcast receiver, a PDA (personal digital assistant), a PAD (tablet computer), a PMP (portable multimedia player), a navigation device, and the like, and a fixed terminal such as a digital TV, a desktop computer, and the like.

Specifically, before the user begins playing a basketball game, the net sensor 102 may be suspended from the net or secured to the net by a clasp and the wearable device 104 worn on the user. When net sensor 102 is turned on, net sensor 102 may collect shooting data of the user, wherein the shooting data of the user includes, but is not limited to, a number of shots, a number of goals, and a number of goals not. After the wearable device 104 is turned on, the wearable device 104 may collect basketball behavior information of the user, where the basketball behavior information of the user includes, but is not limited to, shooting information, dribbling information, and arm swing action information of running, and further, the shooting information may include shooting angle, shooting speed, and shooting strength. After the net sensor 102 is successfully connected to the first terminal 106, the net sensor 102 transmits the shooting data of the user to the first terminal 106. After the wearable device 104 is successfully connected to the first terminal 106, the wearable device 104 transmits the basketball behavior information of the user to the first terminal 106. Then, the first terminal 106 obtains shooting data of the user and basketball movement data obtained by arranging the basketball behavior information of the user, and outputs the shooting data and the basketball movement data of the user. Wherein the basketball movement data includes one or more of physiological information and motion data. The physiological information includes, but is not limited to, heart beat, blood pressure, and calories consumed by the human body. The motion data includes, but is not limited to, number of shots, shot angle, shot strength, hand speed, number of shots, number of steps taken.

The basketball exercise assisting system comprises a net sensor, wearable equipment and a first terminal, wherein the net sensor is arranged on a net, and the net sensor and the wearable equipment are in communication connection with the first terminal. Through setting up the net sensor on the net to the user wears this wearable equipment, like this, net sensor and wearable equipment gather user's shooting data and user's basketball behavior information respectively, and then first terminal obtains user's shooting data and the basketball movement data that obtains by user's basketball behavior information, and exports these data, so that the user knows own motion data and motion state. This mode need not artificial record user's shooting data and basketball motion data, has saved manpower resources, has avoided the error data that artificial record leads to, has improved shooting data and basketball motion data's accuracy to promote the efficiency of data arrangement, be favorable to the data processing process to the huge shooting data of data flow and basketball motion data.

Optionally, in an embodiment, when the number of users is multiple, correspondingly, the number of the first terminals 106 may be multiple, and the number of the wearable devices 104 may also be multiple. Optionally, the number of users, the number of first terminals 106, and the number of wearable devices 104 may be the same, or may be different, and this application does not limit this. Wherein the plurality of first terminals 106 are communicatively coupled to the plurality of wearable devices 104. As an embodiment, the plurality of first terminals 106 are in one-to-one communication connection with the plurality of wearable devices 104. For example, assume that the user includes a user Aa, a user Bb, and a user Cc, there are 3 first terminals including a terminal a, a terminal B, and a terminal C, and there are 3 wearable devices including a wearable device a, a wearable device B, and a wearable device C. Each terminal communicates with each wearable equipment accessible bluetooth communication mode, wherein, the bluetooth pairing mode can be that terminal A accomplishes the bluetooth with wearable equipment a and is connected, terminal B accomplishes the bluetooth with wearable equipment B and is connected and terminal C accomplishes the bluetooth with wearable equipment C and is connected, and like this, wearable equipment a can gather user Aa's basketball action information, and send for terminal A, and wearable equipment B can gather user Bb's basketball action information, and send for terminal B, and wearable equipment C can gather user Cc's basketball action information, and send for terminal C. It should be clear that the above-mentioned collocation manners of the multiple users, the multiple first terminals and the multiple wearable devices in a one-to-one correspondence are only shown in an exemplary manner, for example, the terminal a and the wearable device B may complete a bluetooth connection, the terminal B and the wearable device C may complete a bluetooth connection, and the terminal C and the wearable device a may complete a bluetooth connection.

Optionally, in one embodiment, the wearable device 104 may be a sports brace, a sports bracelet, sports apparel, and the like. As an embodiment, referring to fig. 2, the wearable device 104 includes a wrist-worn apparatus 1042, and the wrist-worn apparatus 1042 is communicatively connected to the first terminal 106. The wrist wearing device 1042 is worn on the wrist of the user, and can accurately collect the wrist action information of the user, wherein the wrist action information may include shooting information, dribbling information, and swing arm action of running. After the wrist wearing device 1042 is successfully connected to the first terminal 106, the wrist wearing device 1042 sends the collected wrist action information of the user to the first terminal 106.

Optionally, in an embodiment, the wearable device 104 is further configured to perform data processing on basketball behavior information of the user to obtain basketball movement data. Specifically, the wearable device 104 collects basketball behavior information of the user in real time, such as shooting action information corresponding to each shot. Typically, the user will make multiple shots, and the wearable device 104 will accumulate or summarize the information of each shot to obtain the basketball movement data of the user's entire basketball movement process. For example, the wearable device 104 may count the number of shots the user makes based on each shot taken in real time. As another example, the wearable device 104 may count the number of steps the user runs based on running behavior collected in real time, and so on.

Optionally, in another embodiment, the first terminal 106 is further configured to obtain basketball behavior information of the user from the wearable device 104, and perform data processing on the basketball behavior information of the user to obtain basketball movement data. Specifically, after the first terminal 106 is successfully connected to the wearable device 104, the wearable device 104 collects basketball behavior information of the user in real time, and sends the collected basketball behavior information of the user to the first terminal 106. The first terminal 106 accumulates or summarizes the basketball behavior information of the user collected by the wearable device 104 in real time, and basketball movement data of the user in the whole basketball movement process can be obtained. When the first terminal 106 receives the viewing instruction of the user, the first terminal 106 may notify the basketball movement data to the user in a voice or visual manner.

Further, the wrist-worn device 1042 has two operation modes, i.e., an off-line mode and an on-line mode. In the offline mode, first terminal 106 may dock a plurality of wrist-worn devices 1042. Optionally, the first terminal 106 is connected to the plurality of wrist worn devices 1042 by bluetooth. After the first terminal 106 successfully connects to the wrist-worn device 1042, the first terminal 106 sends a start instruction to the plurality of wrist-worn devices 1042. The wrist worn device 1042 is then emptied of all counters, including the number of shots, balls played, etc., and starts counting from 0. Meanwhile, the first terminal 106 actively disconnects the bluetooth connection with the wrist wearing device 1042, and at this time, the wrist wearing device 1042 is in an off-line working state, thereby completing the work of recording all wrist action information and basketball movement data. After the first terminal 106 is actively connected to the wrist-worn device 1042, the first terminal 106 sends an end instruction to the wrist-worn device 1042, and at this time, the wrist-worn device 1042 uploads all the wrist motion information to the first terminal 106. On the other hand, in the online mode, the wrist-worn device 1042 transmits the captured wrist motion information to the first terminal 106 in real time, for example: shooting strength, shooting angle, shooting speed and the like.

In one embodiment, the first terminal 106 is further configured to obtain a basketball sports video corresponding to the user, and intercept a target video meeting a preset condition from the basketball sports video.

Specifically, the first terminal 106 may further intercept a target video meeting a preset condition from the acquired basketball motion video in combination with various setting signals. The setting signal includes a ball-in signal, a snap-off signal, and the like. Assuming that the setting signal is a snap signal, a target video meeting a preset time window is intercepted from the basketball motion video based on the snap signal, wherein the preset time window can be expressed as [ n seconds before snap, and m seconds after snap ].

Further, in an embodiment, the first terminal 106 is further configured to receive a goal signal sent by the net sensor 102, acquire a basketball movement video corresponding to the user, and intercept a target video meeting a preset condition from the basketball movement video according to the goal signal.

Specifically, assume that basket net sensor 102 collects a goal signal and sends the goal signal to first terminal 106. The first terminal 106 first determines the generation time of the goal signal, and cuts out the target video of (n + m) seconds from the acquired basketball motion video according to the generation time of the goal signal, where n is n seconds before the generation time of the goal signal, m is n seconds after the generation time of the goal signal, and n and m can be set according to actual requirements. Optionally, the (n + m) seconds default to 10 seconds. Optionally, the basketball motion video corresponding to the user may be recorded by a camera of the first terminal 106, and the recorded basketball motion video is cached in the memory, so as to facilitate capturing of subsequent videos. Alternatively, the target video may be saved in disk.

In one embodiment, the basketball exercise assisting system further includes a server 108, wherein the server 108 is communicatively coupled to the first terminal 106 and is configured to store one or more of shooting data of the user, basketball exercise data of the user, and target video. Specifically, after the first terminal 106 and the server 108 are successfully connected, the first terminal 106 may transmit one or more of shooting data of the user, basketball movement data of the user, and the target video to the server 108, and the server 108 stores the data in a database or a video cloud. Optionally, the server 108 may classify and store the data after the data analysis processing, so as to facilitate the data analysis at the later stage.

In one embodiment, the basketball exercise assisting system further comprises a second terminal 110, wherein the second terminal 110 is connected to the server 108 in a communication mode and is used for obtaining one or more of shooting data of the user, basketball exercise data of the user and target videos from the server 108 and outputting one or more of shooting data of the user, basketball exercise data of the user and target videos. Specifically, after the server 108 is successfully connected to the second terminal 110, once the server 108 stores one or more of the new user shooting data, the user basketball movement data, and the target video, the server 108 sends a notification message to the second terminal 110, so as to prompt the user that new content can be viewed. Once the user clicks the notification message, the second terminal 110 sends an information obtaining request to the server 108, and receives one or more of shooting data of the user, basketball movement data of the user, and target video of the server 108 responding to the information obtaining request, and displays the data on the interface in a waterfall manner. Optionally, the second terminal 110 includes an application program, which is classified as an APP or a wechat applet. The user may obtain new content through the wechat applet in the second terminal 110.

Optionally, in one embodiment, the first terminal 106 is a coach terminal and the second terminal 110 is a home terminal. The wrist wearing device 1042 is worn on the student, so that when the student starts basketball, the trainer end such as the mobile phone APP can check the shooting data, the basketball movement data and the goal video of the student. The coach end can share the contents with the WeChat corresponding to the parents of the student, and the parents can check the shooting data, basketball movement data and goal videos of the student through the WeChat small program. The embodiment can be applied to the classroom scene of a basketball training institution, collects physical movement data of students in real time, records the classroom performance of the students in an audio and video mode, pushes the data to the server 108 for storage and analysis, and can be displayed at a small program terminal. Through the modes, the teaching quality of a coach can be effectively improved, and the service quality of students and parents is improved.

In one embodiment, the wrist worn device 1042 comprises a cuff and a sensing device, the cuff comprises an inner layer and an outer layer, the inner layer has an opening, the size of the opening matches with the size of the sensing device, and an accommodating space is arranged between the inner layer and the outer layer, the opening is used for accommodating the sensing device, and the accommodating space can accommodate the sensing device. Further, the sensing device comprises a wrist data collector and a processor, wherein the wrist data collector is used for collecting the movement data of the wrist of the wearer, and the processor is connected with the wrist data collector.

Based on the same inventive concept, please refer to fig. 3, an embodiment of the present application further provides a basketball exercise assisting method, which includes the following steps:

s202, a basketball net sensor collects shooting data of a user and transmits the shooting data of the user to a first terminal, wearable equipment collects basketball behavior information of the user and processes the basketball behavior information of the user to obtain basketball movement data, and the basketball movement data are transmitted to the first terminal and comprise one or more of physiological information and action data.

In particular, the net sensor may be suspended from the net or secured to the net by a snap. The user wears the wearable device on himself. When the net sensor is turned on, the net sensor may collect shooting data of the user, wherein the shooting data of the user includes, but is not limited to, a number of shots, a number of goals, and a number of goals. When the wearable device is turned on, the wearable device may collect basketball behavior information of the user, wherein the basketball behavior information of the user includes, but is not limited to, shooting information, dribbling information, and swing arm movements of running. And then the wearable equipment handles user's basketball action information, obtains basketball movement data. Wherein the basketball movement data includes one or more of physiological information and motion data. The physiological information includes, but is not limited to, heart beat, blood pressure, and calories consumed by the human body. The motion data includes, but is not limited to, number of shots, shot angle, shot strength, hand speed, number of shots, number of steps taken.

And after the net sensor is successfully connected with the first terminal, the net sensor transmits the shooting data of the user to the first terminal. After the wearable device is successfully connected with the first terminal, the wearable device transmits basketball movement data to the first terminal.

S204, the first terminal obtains the shooting data and the basketball movement data of the user and outputs the shooting data and the basketball movement data of the user.

In particular, the first terminal may configure output components including, but not limited to, speakers, visualization devices, such as a display screen, and the like. The first terminal obtains shooting data and basketball movement data of a user, generates voice information and/or visual information based on the shooting data and the basketball movement data of the user, and outputs the voice information and/or the visual information through a loudspeaker or visual equipment, so that the user can know the voice information and/or the visual information. For example, when a user plays a basketball, the user can see the shooting angle, shooting speed, acceleration and other data of the user in real time through the display screen.

According to the basketball movement assisting method, the basketball net sensor is arranged on the basketball net, and the user wears the wearable device, so that the basketball net sensor and the wearable device respectively collect shooting data of the user and basketball behavior information of the user, the first terminal obtains the shooting data of the user and the basketball movement data obtained through the basketball behavior information of the user, and the data are output, so that the user can know own movement data and movement states. This mode need not artificial record user's shooting data and basketball motion data, has saved manpower resources, has avoided the error data that artificial record leads to, has improved shooting data and basketball motion data's accuracy to promote the efficiency of data arrangement, be favorable to the data processing process to the huge shooting data of data flow and basketball motion data.

In one embodiment, the method further comprises the steps of:

and S212, the first terminal further receives a goal signal sent by the net sensor, acquires a basketball motion video corresponding to the user, and intercepts a target video meeting preset conditions from the basketball motion video according to the goal signal.

Specifically, assume that the net sensor collects a goal signal and sends the goal signal to the first terminal. The first terminal firstly determines the generation time of the goal signal, and cuts out a target video of (n + m) seconds from the acquired basketball motion video according to the generation time of the goal signal, wherein n is n seconds before the generation time of the goal signal, m is n seconds after the generation time of the goal signal, and n and m can be set according to actual requirements. Optionally, the (n + m) seconds default to 10 seconds. Optionally, the basketball motion video corresponding to the user may be recorded through a camera of the first terminal, and the recorded basketball motion video is cached in a memory, so as to facilitate capturing of subsequent videos. Alternatively, the target video may be saved in disk.

In one embodiment, the method relates to a possible implementation process of the wearable device collecting basketball behavior information of the user, processing the basketball behavior information of the user to obtain basketball movement data, and transmitting the basketball movement data to the first terminal. On the basis of the above embodiment, S202 includes the steps of:

and S2022, the wrist wearing device collects the wrist action information of the user, processes the wrist action information of the user to obtain basketball movement data, and transmits the basketball movement data to the first terminal.

Specifically, the wrist wearing device is worn on the wrist of the user, so that the wrist action information of the user can be accurately captured, and the wrist action information can comprise shooting information, dribbling information, swinging arm action of running and the like. And then the wrist wearing device processes the wrist action information of the user to obtain basketball movement data. After the wrist wearing device is successfully connected with the first terminal, the wrist wearing device sends basketball movement data to the first terminal.

In one embodiment, please refer to fig. 4, which relates to a possible implementation process of the wrist wearing apparatus acquiring wrist motion information of the user, processing the wrist motion information of the user to obtain basketball movement data, and transmitting the basketball movement data to the first terminal. On the basis of the above embodiment, S2022 includes the steps of:

s2022a, when the first terminal is successfully connected to the wrist-worn device, the first terminal sends a start instruction to the wrist-worn device, and then the first terminal is disconnected from the wrist-worn device;

s2022b, initializing the wrist wearing device to obtain initialized data, collecting the wrist action information of the user based on the initialized data, and obtaining basketball movement data according to the collected wrist action information;

s2022c, when the first terminal sends an end instruction to the wrist wearing apparatus, the wrist wearing apparatus transmits the basketball exercise data to the first terminal.

Specifically, the wrist wearing device has two working modes, namely an off-line mode and an on-line mode. In the off-line mode, the first terminal may dock a plurality of wrist-worn devices. Optionally, the first terminal is connected to the plurality of wrist worn devices via bluetooth. After the first terminal is successfully connected with the wrist wearing device, the first terminal sends a starting instruction to the plurality of wrist wearing devices. The wrist worn device is then emptied of all counters, including the number of shots, balls played, etc., and counted from 0. Meanwhile, the first terminal actively breaks the Bluetooth connection with the wrist wearing device, and the wrist wearing device is in an off-line working state at the moment, so that the work of recording all wrist action information and basketball movement data is completed. After the first terminal is actively connected with the wrist wearing device, the first terminal sends an ending instruction to the wrist wearing device, and at the moment, the wrist wearing device uploads all wrist action information to the first terminal. On the other hand, in the online mode, the wrist-worn device transmits the captured wrist motion information to the first terminal in real time, for example: shooting strength, shooting angle, shooting speed and the like.

In one embodiment, the method further comprises the steps of:

s222, the server receives one or more of the shooting data of the user, the basketball movement data of the user and the target video sent by the first terminal, and stores one or more of the shooting data of the user, the basketball movement data of the user and the target video.

Specifically, after the first terminal is successfully connected with the server, the first terminal transmits one or more of shooting data of the user, basketball movement data of the user and the target video to the server, and the server stores the data in a database or a video cloud.

In one embodiment, the method further comprises the steps of:

s232, the server sends a notification message to the second terminal;

s234, after the second terminal is turned on based on the notification message, sending an information obtaining request to the server, and receiving one or more of the shooting data of the user, the basketball movement data of the user, and the target video, which are responded by the server to the information obtaining request.

Specifically, after the server is successfully connected with the second terminal, once the server stores one or more of new shooting data of the user, basketball movement data of the user and the target video, the server sends a notification message to the second terminal so as to achieve the purpose of prompting the user that new content can be viewed. Once the user clicks the notification message, the second terminal sends an information acquisition request to the server, receives one or more of shooting data of the user, basketball movement data of the user and target videos which are responded by the server and displayed on the interface in a waterfall manner. Optionally, the second terminal comprises an application, which is classified as APP or wechat applet. The user may obtain new content through the wechat applet in the second terminal.

Based on the same inventive concept, an embodiment of the present application further provides a basketball exercise assisting method, which is applied to a server as an example, and includes the following steps:

the method comprises the steps that a server obtains one or more of shooting data of a user, basketball movement data of the user and target basketball movement videos sent by a first terminal;

the server stores one or more of shooting data of the user, basketball movement data of the user and the target basketball movement video, and sends a notification message to a second terminal based on one or more of shooting data of the user, basketball movement data of the user and the target basketball movement video;

and the server receives an information acquisition request sent by the second terminal, and sends one or more of shooting data of the user, basketball movement data of the user and the target video to the second terminal according to the information acquisition request.

The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (15)

1. A basketball exercise assist system, the system comprising:

the basketball net sensor is used for collecting shooting data of a user;

the wearable device is used for acquiring basketball behavior information of the user;

the first terminal is in communication connection with the net sensor and the wearable device respectively and is used for acquiring shooting data and basketball movement data of the user and outputting the shooting data and the basketball movement data of the user; the basketball movement data comprises data obtained according to the basketball behavior information of the user, and further comprises one or more of physiological information and action data.

2. The system of claim 1, wherein the wearable device comprises a wrist-worn apparatus, the basketball behavior information comprises wrist action information;

the wrist wearing device is worn on the wrist of the user and used for collecting wrist action information of the user.

3. The system of claim 1, wherein the wearable device is further configured to perform data processing on basketball behavior information of the user to obtain the basketball movement data.

4. The system of claim 1, wherein the first terminal is further configured to obtain basketball behavior information of the user from the wearable device, perform data processing on the basketball behavior information of the user, and obtain the basketball movement data.

5. The system of claim 1, wherein the first terminal is further configured to receive a goal signal sent by the basketball goal sensor, obtain a basketball sports video corresponding to the user, and intercept a target video meeting a preset condition from the basketball sports video according to the goal signal.

6. The system of claim 5, further comprising:

and the server is in communication connection with the first terminal and is used for storing one or more of shooting data of the user, basketball movement data of the user and the target video.

7. The system of claim 6, further comprising:

and the second terminal is in communication connection with the server and is used for acquiring one or more of shooting data of the user, basketball movement data of the user and the target video from the server and outputting one or more of shooting data of the user, basketball movement data of the user and the target video.

8. The system of claim 7, wherein the first terminal is a trainer terminal and the second terminal is a home terminal.

9. A basketball movement assistance method, said method comprising:

the method comprises the steps that a net shooting sensor collects shooting data of a user and transmits the shooting data of the user to a first terminal;

the wearable device collects the basketball behavior information of the user, processes the basketball behavior information of the user to obtain basketball movement data, and transmits the basketball movement data to the first terminal; the basketball movement data comprises one or more of physiological information and motion data;

the first terminal acquires shooting data and basketball movement data of the user and outputs the shooting data and the basketball movement data of the user.

10. The method of claim 9, further comprising:

the first terminal also receives a goal signal sent by the net sensor, acquires a basketball movement video corresponding to the user, and intercepts a target video meeting preset conditions from the basketball movement video according to the goal signal.

11. The method of claim 9, wherein the wearable device comprises a wrist-worn apparatus;

the wearable device collects the basketball behavior information of the user, processes the basketball behavior information of the user to obtain basketball movement data, and transmits the basketball movement data to the first terminal, and the method comprises the following steps:

the wrist wearing device collects wrist action information of the user, processes the wrist action information of the user to obtain basketball movement data, and transmits the basketball movement data to the first terminal.

12. The method of claim 11, wherein the wrist-worn device collects wrist motion information of the user, processes the wrist motion information of the user to obtain basketball motion data, and transmits the basketball motion data to the first terminal, comprising:

after the first terminal is successfully connected with the wrist wearing device, the first terminal sends a starting instruction to the wrist wearing device, and then the first terminal is disconnected with the wrist wearing device;

the wrist wearing device carries out initialization operation to obtain initialization data, collects wrist action information of the user based on the initialization data, and obtains basketball movement data according to the collected wrist action information;

and after the first terminal sends a finishing instruction to the wrist wearing device, the wrist wearing device transmits the basketball movement data to the first terminal.

13. The method of claim 10, further comprising:

and the server receives one or more of shooting data of the user, basketball movement data of the user and the target video sent by the first terminal, and stores one or more of shooting data of the user, basketball movement data of the user and the target video.

14. The method of claim 13, further comprising:

the server sends a notification message to the second terminal;

and after the second terminal is started based on the notification message, sending an information acquisition request to the server, and receiving one or more of shooting data of the user, basketball movement data of the user and the target video, which are responded by the server to the information acquisition request.

15. A basketball movement assistance method, said method comprising:

acquiring one or more of shooting data of a user, basketball movement data of the user and a target basketball movement video sent by a first terminal;

storing one or more of shooting data of the user, basketball movement data of the user and the target basketball movement video, and sending a notification message to a second terminal based on one or more of shooting data of the user, basketball movement data of the user and the target basketball movement video;

and receiving an information acquisition request sent by the second terminal, and sending one or more of shooting data of the user, basketball movement data of the user and the target video to the second terminal according to the information acquisition request.

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