CN111346336A - Intelligent rope skipping physical training system - Google Patents

Abstract

The application relates to an intelligence rope skipping physical training system, the system includes user identification module, intelligence rope skipping identification module and central control equipment, wherein: before physical training begins, the user identification module identifies identity information of users participating in physical training, the intelligent rope skipping identification module identifies equipment identification of intelligent rope skipping, and the central control equipment pairs the identity information and the equipment identification corresponding to the same user according to the identity information and the equipment identification; in the process of physical training, the central control equipment acquires rope skipping data sent by intelligent rope skipping in real time, determines identity information corresponding to the rope skipping data according to the matching result between the identity information and the equipment identification, and acquires real-time rope skipping data of each user participating in physical training. Adopt the system that this application provided to greatly promote the efficiency of physical training.

Description

Intelligent rope skipping physical training system

Technical Field

The application relates to the technical field of intelligent motion detection, in particular to an intelligent rope skipping physical training system.

Background

The skipping rope sport is one of sports events frequently engaged in by people and is an important item in physical training, for example, sports competition training institutions, schools and other institutions usually use skipping rope as an important way for physical training of students.

In physical training that institutions such as sports competition training mechanism, school go on, the number of participating in physical training is great usually, for example school need use the class to carry out physical training to the student as the unit usually, and after physical training, need manually type into every student's rope skipping score by special personnel, it is very miscellaneous to lead to whole physical training process, wastes time and energy, and take place student's information easily and the condition such as rope skipping score mismatch, student's scheduling problem that cheats also appears easily.

Therefore, the problem of low physical training efficiency caused by more people participating in the rope skipping physical training process is urgently to be solved.

Disclosure of Invention

In order to solve the technical problem, an embodiment of the application provides an intelligent rope skipping physical training system for performing intelligent management on the condition that a plurality of people participate in rope skipping physical training.

The technical scheme adopted by the embodiment of the application is as follows:

the utility model provides an intelligence rope skipping physical training system, includes user identification module, intelligence rope skipping identification module and central control equipment, wherein: before physical training begins, the user identification module identifies identity information of users participating in physical training, the intelligent rope skipping identification module identifies equipment identification of intelligent rope skipping, and the central control equipment pairs the identity information and the equipment identification corresponding to the same user according to the identity information and the equipment identification; in the process of physical training, the central control equipment acquires rope skipping data sent by intelligent rope skipping in real time, determines identity information corresponding to the rope skipping data according to the matching result between the identity information and the equipment identification, and acquires real-time rope skipping data of each user participating in physical training.

In another exemplary embodiment, the intelligent rope skipping identification module identifies a wireless module of an intelligent rope skipping, and acquires a physical address of the wireless module as a device identifier of the intelligent rope skipping.

In another exemplary embodiment, the system further comprises a data display terminal in communication with the central control device; and in the process of the physical training, the central control equipment transmits the real-time rope skipping data of each user participating in the physical training to the data display terminal so as to monitor the rope skipping state of each user in real time.

In another exemplary embodiment, the data display terminal further responds to a user trigger operation and sends a rope skipping instruction to the central control device; and the central control equipment forwards the rope skipping instruction to each intelligent skipping rope communicated with the central control equipment, so that each intelligent skipping rope triggers the physical training to start or end according to the rope skipping instruction.

In another exemplary embodiment, before the physical training starts, the central control device scans a broadcast signal sent by an intelligent skipping rope, wherein the broadcast signal comprises a skipping rope starting signal or a skipping rope ending signal; and if the central control equipment scans the rope skipping starting signal or the rope skipping ending signal, determining that the physical training is started or ended.

In another exemplary embodiment, the system further includes a cloud server, and the cloud server stores the real-time rope skipping data of each user sent by the central control device, and analyzes the physical training state of each user.

In another exemplary embodiment, the system further comprises a camera, and the camera is used for shooting a training video of the physical training in the process of the physical training and sending the training video to the cloud server.

In another exemplary embodiment, the cloud server stores the training video sent by the camera according to a plurality of set data dimensions to support multi-dimensional query of the training video.

In another exemplary embodiment, the server publishes the received training video.

In another exemplary embodiment, the system further comprises an intelligent terminal in communication with the cloud server, and the intelligent terminal is used for data transmission with the cloud server.

The technical scheme adopted by the application has the following beneficial effects:

in the technical scheme, before physical training is started, identity information of a user participating in physical training and an equipment identifier of intelligent skipping are paired by using the central control equipment, and in the physical training process, the central control equipment determines identity information corresponding to skipping data according to a pairing result between the identity information and the equipment identifier, so that real-time skipping data of each user participating in physical training are obtained. Even if the number of people who participate in physical training is more, the accuracy of the rope skipping data corresponding to each user can be guaranteed through the pairing between the identity information of the user and the equipment identification of the intelligent rope skipping. In the process of physical training, rope skipping data of each user are reported to the central control device in real time, special manual input of personnel is not needed, the efficiency of physical training is greatly improved, the possibility that users can disguise real results in performance input is avoided, and cheating of the users can be effectively prevented.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the application.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the present application and together with the description, serve to explain the principles of the application.

FIG. 1 is a schematic diagram illustrating a configuration of an intelligent jump rope physical training system according to an exemplary embodiment;

fig. 2 is a schematic diagram illustrating a display interface of a data display terminal according to an exemplary embodiment.

While certain embodiments of the present application have been illustrated by the accompanying drawings and described in detail below, such drawings and description are not intended to limit the scope of the inventive concepts in any manner, but are rather intended to explain the concepts of the present application to those skilled in the art by reference to the particular embodiments.

Detailed Description

Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The embodiments described in the following exemplary embodiments do not represent all embodiments consistent with the present application. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the present application, as detailed in the appended claims.

It should be noted that the intelligent skipping rope physical training described in the present application is not limited to physical testing using an intelligent skipping rope, and may also be in the form of skipping rope competition, for example, skipping rope competition organized by school sports meetings, skipping rope assessment organized in physical classes, and the like.

As mentioned above, for the rope skipping physical training with multiple participants, after the training is finished, the score of each participant needs to be manually entered by a special person. In the score input process, as the number of participants is large, a large amount of time is needed, and the problems of score input error and the like are easy to occur, so that the efficiency of the whole rope skipping physical training process is very low.

For solving the technical problem, the application provides an intelligence rope skipping physical training system, and the intelligence rope skipping physical training system who adopts this application to provide need not manual entering rope skipping data to can carry out real time monitoring to the rope skipping data of each user who participates in the training.

Referring to fig. 1, fig. 1 is a schematic structural diagram illustrating an intelligent skipping rope physical training system according to an exemplary embodiment.

As shown in fig. 1, in an exemplary embodiment, the intelligent skipping rope physical training system includes an intelligent skipping rope 100, a central control device 110, a user identification module 120, an intelligent skipping rope identification module 130, a data display terminal 140, a cloud server 150, a camera 160 and an intelligent terminal 170.

The intelligent skipping rope 100, the user identification module 120, the intelligent skipping rope identification module 130, the data display terminal 140 and the cloud server 150 are respectively in communication with the central control device 110, and the camera 160 and the intelligent terminal 170 are respectively in communication with the cloud server 150.

It should be noted that the communication performed between the modules and the devices in the system may adopt any communication form such as Wi-Fi (wireless local area network technology established in IEEE 802.11 standard), bluetooth, a local area network, the internet, an optical fiber, an optical signal, or an electromagnetic signal, and is not limited herein.

The intelligent skipping rope 100 can be provided with a counter and a wireless module, the counter is used for recording the number of rotation turns of the rope body of the intelligent skipping rope 100 to obtain a skipping rope result of a user participating in training, and the wireless module is used for carrying out wireless communication with the central control device 110 to send the skipping rope result of the user to the central control device 110 in real time.

A skipping-rope mode switching button may be further configured in the intelligent skipping rope 100 to switch a skipping-rope mode of the intelligent skipping rope 100, for example, to switch the intelligent skipping rope 100 from a single-swing mode to a double-swing or other pattern skipping rope mode, or to switch the intelligent skipping rope 100 from a pattern skipping rope mode to a single-swing mode. And the rope skipping modes are different, and the counting schemes for the rope skipping scores of the users are correspondingly different.

If the intelligent skipping rope 100 triggers the skipping rope mode switching, data such as the switching time and the specifically switched skipping rope mode also need to be sent to the central control device 110. Thus, any skipping data generated in the intelligent skipping rope 100, for example, skipping result, data related to triggered skipping mode switching, and the like, are transmitted to the central control device 110 through the wireless module.

The user identification module 120 is configured to identify identity information of each user participating in rope skipping physical training, and based on different user identification modes, the user identification module 120 may specifically be a fingerprint identification module, a face identification module, a card reader module, or any other electronic module that can be used to read the identity information of the user, which is not limited in this context.

In one embodiment, the user recognition module 120 is a face recognition device, which includes a camera for capturing a face image of a user participating in training and a face recognition module for recognizing the identity information of the user according to the face image captured by the camera. The camera may be an internal camera of the face recognition device, or may be an external camera that establishes wired or wireless communication with the face recognition device, and is not limited here.

The intelligent skipping rope identification module 130 is used for identifying the device identification of the intelligent skipping rope 100 used by the user. Illustratively, the intelligent skipping rope recognition module 130 performs recognition through a wireless module provided with the intelligent skipping rope 100, and obtains a physical address of the wireless module as the device identifier of the intelligent skipping rope 100. Since the physical addresses of the wireless modules associated with different intelligent skipping ropes 100 are different from each other, the device identifier of each intelligent skipping rope 100 is unique.

In one embodiment, the user identification module 120 and the intelligent skipping rope identification module 130 are integrated in the same information recording device, and before the physical training begins, the identity information of each user participating in the training and the device identification of the intelligent skipping rope 100 used by each user are identified through the information recording device, and the identified identity information and device identification are sent to the central control device 110. The central control device 110 pairs the identity information and the device identifier corresponding to the same user according to the received identity information and the device identifier.

In another embodiment, the intelligent rope skipping recognition module 130 is integrated in the central control device 110, and the central control device 110 receives the identity information sent by the user recognition module 120 on the one hand, and pairs the identity information and the device identifier corresponding to the same user according to the device identifier recognized by the intelligent rope skipping recognition module 130 on the other hand.

In another embodiment, both the user identification module 120 and the intelligent rope skipping identification module 130 can be integrated in the central control device 110. That is, the central control device 110 has multiple functions of user identification, intelligent rope skipping identification, rope skipping data reception, and the like.

The intelligent skipping rope 100 used by each user can be uniquely determined based on the unique pairing relationship between the identity information of the user and the device identification of the intelligent skipping rope 100. Thus, for each physical training performed, the device identification of smart skipping rope 100 is uniquely paired with the identity information of the user.

In the process of physical training, the user uses the intelligent skipping rope 100 to perform skipping rope movement, and the intelligent skipping rope 100 sends skipping rope data of the user to the central control device 110 in real time. The central control device 110 determines the identity information corresponding to the rope skipping data according to the received rope skipping data and the pairing result between the identity information of each user and the device identifier of the intelligent skipping rope 100, so as to obtain the real-time rope skipping data of each user participating in physical training.

Illustratively, the rope skipping data sent by the intelligent skipping rope 100 to the central control device 110 carries the device identifier of the intelligent skipping rope 100, and after receiving the rope skipping data, the central control device 110 searches the device identifier from the pairing result, thereby determining the identity information matched with the device identifier, and obtaining the real-time rope skipping data of each user participating in physical training.

The central control device 110 sends rope skipping data of each user participating in physical training to the data display terminal 140 in real time, so that the data display terminal 140 displays the rope skipping data of each user in real time, and therefore real-time monitoring of rope skipping states of each user is achieved. The data display terminal 140 may be an electronic device with a display function, such as a smart phone, a tablet computer, a desktop computer, a notebook computer, or a smart television, and the number of the data display terminals 140 is at least one, which is not limited herein.

As shown in fig. 2, the display interface of the data display terminal 140 is divided into corresponding display areas for different users, and in the display area corresponding to each user, the identity information, the real-time rope skipping achievement and other rope skipping data of each user are correspondingly displayed, so that the rope skipping state of each user is monitored through the displayed rope skipping data.

In the physical training scene, the coach or teacher can check the skipping rope score and other information of each user in real time through the data displayed in the data display terminal 140, and the information displayed by the data display terminal 140 does not need to be manually input, so that the timeliness of the data is improved, meanwhile, the input error in the manual input process is avoided, and the accuracy of the data is improved.

Before the physical training starts, the data display terminal 140 further sends a rope skipping instruction to the central control device 110 in response to a user trigger operation, and the central control device 110 forwards the rope skipping instruction to each intelligent skipping rope 100 which is communicated.

The rope skipping instruction may include a rope skipping start instruction, and when the intelligent skipping rope 100 receives the rope skipping start instruction forwarded by the central control device 110, the currently recorded rope skipping result is cleared, and a timer is triggered to start counting down, for example, for one minute. When the countdown is started, the counter starts counting, and the wireless module starts a data channel for sending rope skipping data to the central control device 110, and when the countdown is finished, the counter and the wireless module stop working. For each user participating in the training, the countdown of the intelligent skipping rope 100 is started, which indicates that the user needs to perform rope skipping in the countdown, so as to start physical training accordingly.

In another embodiment, the rope skipping instruction includes a rope skipping start instruction and a rope skipping end instruction, the intelligent skipping rope 100 triggers the start of the physical training after receiving the rope skipping start instruction forwarded by the central control device 110, and controls the counter to stop counting after receiving the rope skipping end instruction forwarded by the central control device 110, and the wireless module does not send rope skipping data to the central control device 110 any more, thereby ending the physical training.

In another embodiment, the rope skipping instruction carries a set rope skipping duration and a rope skipping mode, and when the intelligent skipping rope 100 triggers the timer to start countdown according to the set rope skipping duration, the counting is performed according to a counting scheme corresponding to the set rope skipping mode.

In another embodiment, the data display terminal 140 may also selectively send a rope skipping instruction to a specific intelligent skipping rope 100 according to a user trigger operation, so as to control the specific intelligent skipping rope 100 to start or end the physical training.

From this, can control a plurality of intelligence rope skipping 100 simultaneously through data display terminal 140 and open or end physical training to realize that one-to-many intelligence rope skipping is controlled, ensure that many people's physical training or rope skipping match that participate in can go on in step, guarantee fairness and the accuracy of rope skipping data, greatly be adapted to many people's rope skipping scene.

In another exemplary embodiment, smart skipping rope 100 has signal broadcasting capability to broadcast communications with the device.

Illustratively, the intelligent skipping rope 100 sends its skipping rope data to the central control device 110 through its own broadcast signal, and the central control device 110 intercepts valid data of the received broadcast signal.

For example, the central control device 110 acquires valid skipping data of the intelligent skipping rope 100 according to a broadcast signal received only within the valid skipping time period, thereby ensuring the accuracy of the skipping data acquired by the central control device 110.

It should be noted that the effective rope skipping time period for the central control device 110 to intercept the effective rope skipping data may be preset by the central control device 110 itself, or may be set by the relevant person responsible for physical training by operating the data display terminal 140 or other devices, which is not limited here.

In an exemplary application scenario, after the intelligent skipping rope 100 and the central control device 110 are turned on, the intelligent skipping rope 100 continuously broadcasts rope skipping data to the central control device 110. After the central control device 110 obtains the instruction indicating the start of training, a countdown audio is played to prompt each user participating in training to start rope skipping, and after the countdown audio playing is finished, the central control device 110 also obtains the received broadcast signal as valid data. After the central control device 110 acquires the instruction indicating the end of training, the prompt audio indicating the end of training is correspondingly played, and after the prompt audio is played, the received broadcast signal is acquired as invalid data, so that it is ensured that the rope skipping data acquired by the central control device 110 corresponds to the valid counting duration.

In one embodiment, any person on the physical training site can send an instruction to the central control device 110 through the data display terminal 140 to trigger the central control device 110 to return specific information. For example, the data display terminal 140 is a touch screen display on which a separate window is displayed for each user to display the rope skipping count and the duration of the user, and the instruction for viewing detailed information can be sent to the central control device 110 by clicking the window corresponding to the displayed one or more target users. The central control device 110 synchronizes training data of the target user, such as training times, average rope skipping count, rope swinging frequency, etc., to the central control device 110 in response to the view detailed information instruction. It should be understood that the instructions may be sent from the data display terminal 140 in a variety of ways, such as by remote control selection, by gesture control selection, or by voice control, among others.

The cloud server 150 communicates with the central control device 110, so that the central control device 110 can upload any data, such as rope skipping data acquired in real time, matching results of identity information and device identifiers stored in the central control device 110, and the like, to the cloud server 150.

The cloud server 150 may count and store the data uploaded by the central control device 110. For example, from the data stored by the cloud server 150, it can be known that a certain user has performed a plurality of exercises and rope skipping data corresponding to each exercise, and that the user is currently performing physical training.

In one embodiment, cloud server 150 does not modify the saved record, but creates a new data entry each time real-time rope skipping data is received. For example, when the number of times of receiving the new real-time rope skipping data is 43, the cloud server 150 does not update the record of 40 times saved before, but creates a second record, that is, two real-time rope skipping data of 40 times and 43 times are saved in the cloud server 150, so as to refine the recording of the physical training process of the user.

In another embodiment, the cloud server 150 further analyzes the physical training state of each user according to the stored rope skipping data corresponding to each user, and correspondingly obtains a physical training analysis report of each user, so that the training situation and the ranking situation of each user can be quickly known according to the physical training analysis report.

After each training, the cloud server 150 records and counts the current training result and the historical training result for each user. For example, the cloud server 150 may obtain the historical best performance of the user, the training duration, the average rope skipping count per unit time, and the like.

When the training data of the user are counted, the cloud server 150 automatically generates a rope skipping movement analysis report of each training batch and each user at present, wherein the rope skipping movement analysis report includes information such as beat rope skipping statistics, body quality index, energy consumption, movement duration, training result ranking of the user and the like. The generation of the skipping rope movement analysis report can be triggered regularly every day, for example, at 24 times every day, or can be triggered in response to a user's instruction, for example, by a training end instruction.

Therefore, the cloud server 150 is used for storing related data in physical training, so that on one hand, data loss can be prevented, the safety of the data can be protected, and on the other hand, the analysis on the training state of the user can be realized by means of the strong data processing capacity of the cloud server 150.

The camera 160 is used for shooting a training video in the process of performing physical training, and sending the training video to the cloud server 150. It should be appreciated that the Format of the training Video may be any suitable Format, such as Moving Picture Experts Group (MPEG), Audio Video Interleaved (AVI), Advanced Streaming Format (ASF), multimedia container (MKV), or the like, and is not limited herein.

After receiving the training video sent by the camera 160, the cloud server 150 may store the training video sent by the camera 160 according to a plurality of set data dimensions, so as to support multi-dimensional query of the training video. For example, the preset data dimension may include dimensions of user identification, user gender, user age, industry engaged in by the user, training date, and the like. Each training video may be stored over one or more data dimensions.

The multidimensional query of the training video can be used for video review, for example, the training video which is trained by a certain user on a specific certain day can be queried to determine whether the user performance recorded on the day is wrong, so that the efficiency of querying the video can be improved, and the video review is facilitated.

The cloud server 150 may also publish the training video sent by the camera 160, for example, publish the training video to a specific website, or perform live broadcasting by using a real-time video stream. People interested in the training video can log in the website to watch the training live broadcast or the training video at any place, so that the regional limitation can be eliminated, and the live broadcast is utilized to conduct remote training guidance or management.

The smart terminal 170 communicates with the cloud server 150 to perform data interaction with the cloud server 150. Illustratively, the smart terminal 170 may be a mobile phone, a tablet computer, a notebook computer, or any other electronic device capable of data transmission.

For example, the intelligent terminal 170 may be used for information retrieval. The user participating in the physical training may enter the identity information and the face image through the intelligent terminal 170 in advance, and upload the entered identity information and the face image to the cloud server 150 through the intelligent terminal 170. The related information of the user is synchronized to the user identification module 120 via the cloud server 150, so that the user identification module 120 can identify the identity information of the user when the user participates in the physical training.

The intelligent terminal 170 may also be used to perform training reviews. The trainers of the physical training can evaluate and grade the training records or the training videos of the respective users through the smart terminal 170, and the evaluations and the grades can be uploaded to the cloud server 150. The rated user may view the received ratings and ratings through the smart terminal 170.

The intelligent terminal 170 may also be used for user personal training management. The user can send a personal training instruction to the intelligent skipping rope 100 being used by the user through the intelligent terminal 170 to start the counter of the intelligent skipping rope 100 for personal training. The central control device 110 may send the training result to the cloud server 150, so that the intelligent terminal 170 correspondingly obtains the training result through the cloud server 150, and therefore, the user can conveniently record the training result and perform physical training according to the training result.

The smart terminal 170 may also download training data from the cloud server 150 and generate a training plan according to the locally stored training data and the identity information of the user. For example, for a user with a older age and a lower historical training performance, a training program with a lower training frequency and intensity is generated, whereas for a user with a younger age and a higher historical training performance, a training program with a higher training frequency and intensity is generated.

From this, through the data interaction between intelligent terminal 170 and cloud server 150, can realize information management and user evaluation to intelligent rope skipping physical training, be very convenient for manage and guide a plurality of users that participate in physical training to the user can carry out rope skipping training individuality, helps improving the training effect.

The above description is only a preferred exemplary embodiment of the present application, and is not intended to limit the embodiments of the present application, and those skilled in the art can easily make various changes and modifications according to the main concept and spirit of the present application, so that the protection scope of the present application shall be subject to the protection scope of the claims.

Claims (10)

1. The utility model provides an intelligence rope skipping physical training system which characterized in that, the system includes user identification module, intelligence rope skipping identification module and central control equipment, wherein:

before physical training begins, the user identification module identifies identity information of users participating in physical training, the intelligent rope skipping identification module identifies equipment identification of intelligent rope skipping, and the central control equipment pairs the identity information and the equipment identification corresponding to the same user according to the identity information and the equipment identification;

in the process of physical training, the central control equipment acquires rope skipping data sent by intelligent rope skipping in real time, determines identity information corresponding to the rope skipping data according to the matching result between the identity information and the equipment identification, and acquires real-time rope skipping data of each user participating in physical training.

2. The system of claim 1, wherein the intelligent skipping rope recognition module obtains a physical address of a wireless module of an intelligent skipping rope as the equipment identifier of the intelligent skipping rope by recognizing the wireless module.

3. The system of claim 1, further comprising a data display terminal in communication with the central control device;

and in the process of the physical training, the central control equipment transmits the real-time rope skipping data of each user participating in the physical training to the data display terminal so as to monitor the rope skipping state of each user in real time.

4. The system of claim 3, wherein the data display terminal is further responsive to a user-triggered operation to send a rope skipping instruction to the central control device;

and the central control equipment forwards the rope skipping instruction to each intelligent skipping rope communicated with the central control equipment, so that each intelligent skipping rope triggers the physical training to start or end according to the rope skipping instruction.

5. The system of claim 1,

and the central control equipment obtains the skipping rope data of the intelligent skipping rope by receiving the broadcast signal sent by the intelligent skipping rope.

6. The system according to claim 1, further comprising a cloud server, wherein the cloud server stores real-time rope skipping data of each user sent by the central control device, analyzes the physical training state of each user, and obtains a physical training analysis report of each user.

7. The system according to claim 6, further comprising a camera for capturing a training video of the ongoing process of physical training and sending the training video to the cloud server.

8. The system according to claim 7, wherein the cloud server stores the training video sent by the camera according to a plurality of set data dimensions to support multi-dimensional query of the training video.

9. The system of claim 7, wherein the server publishes the received training video.

10. The system of claim 1, further comprising a smart terminal in communication with the cloud server, the smart terminal configured to communicate data with the cloud server.

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