CN113035315A

CN113035315A - Children's intelligence rope skipping interactive system based on many terminals

Info

Publication number: CN113035315A
Application number: CN202110086301.0A
Authority: CN
Inventors: 董烨楠; 王可欣
Original assignee: Zhejiang University of Technology ZJUT
Current assignee: Zhejiang University of Technology ZJUT
Priority date: 2021-01-22
Filing date: 2021-01-22
Publication date: 2021-06-25

Abstract

The invention discloses a multi-terminal-based intelligent rope skipping interaction system for children, and relates to the technical field of intelligent fitness systems. The system consists of an intelligent skipping rope, an intelligent watch and a user terminal. The intelligent skipping rope, the intelligent watch and the user terminal are communicated with the central processing module. The central processing module consists of a cloud server and an information database; the interactive system also comprises a plan establishing module, a motion module, a central processing module, a motion data acquisition module, an interactive module and a planting module, wherein the modules are communicated through a cloud server; the multi-terminal intelligent rope skipping interaction system provided by the invention aims at the rope skipping movement of children, provides scientific and complete movement guidance and movement data recording and analysis through the system, provides multi-aspect user feedback, and further improves the enthusiasm of the user in movement.

Description

Children's intelligence rope skipping interactive system based on many terminals

Technical Field

The invention relates to the technical field of intelligent fitness systems, in particular to a multi-terminal-based intelligent rope skipping interaction system for children.

Background

Skipping ropes are effective sports for developing physical qualities of students. It is a project of upper and lower limbs coordinately matched exercise mainly by jumping, and needs to have good core strength to keep the stable posture of the trunk forward, so as to optimize the transmission of upper and lower limb strength and obtain better exercise performance. The longitudinal movement of the skipping rope is beneficial to epiphyseal growth of students, and the sensory integration ability of the students is improved. Therefore, the skipping rope is an important teaching content in the physical training of the primary and secondary schools. At present, the primary school students are encouraged to form a habit of daily rope skipping exercise by adopting paper recording cards or shooting and punching cards and the like, and the mode is simple and direct, but lacks interest and cannot well accord with the psychological characteristics of the children at the stage. At present, although a lot of sports intelligent software and hardware exist in the market, few sports products specially designed for children exist, and a large development space exists in the field.

CN 108921246 a, entitled "wearable device-based interaction system and method for fitness equipment for teenagers", includes an intelligent bracelet, a plurality of fitness equipment, a cloud server, a database, and a user terminal, and avoids the damage of teenagers due to excessive exercise for a certain exercise by classifying the fitness equipment and setting different maximum exercise durations. The method has the following defects: the function is simple, and the collected body-building data only comprises body-building time and body-building equipment. The system only monitors the time length and the fatigue grade of the user using the fitness equipment, does not further analyze and process the movement data of a specific movement, and cannot meet the requirement of the user on checking the movement effect.

CN 108732918A, entitled "intelligent watch for counting children skipping ropes and counting method", includes an intelligent watch for counting children skipping ropes and counting method, which can be used for counting and ranking skipping ropes, and can also check historical ranking conditions of skipping ropes. The method is characterized in that a user needs to make a specified gesture action, when the watch recognizes the specified gesture action, the watch can give a voice prompt to prepare for starting rope skipping, and then the watch starts to time and count the rope skipping. The background server carries out historical ranking according to the rope skipping condition, the previous data cannot be cleared, and a user can view the historical ranking and the ranking today on the watch. The method has the following defects: firstly, the exercise function is not rich enough, only the timing and counting function is provided, and the requirement of the user on exercise guidance cannot be met; secondly, the interactivity is insufficient, the user can only execute viewing operation on the motion ranking, and interaction between the user and the user cannot be carried out.

Disclosure of Invention

The invention provides a multi-terminal-based intelligent rope skipping interaction system for children, which aims to overcome the defects in the prior art, provide scientific and complete motion guidance and motion data recording and analysis through the system, provide multi-aspect user feedback and further improve the activity of user motion.

In order to achieve the purpose, the invention adopts the following technical scheme:

a multi-terminal-based intelligent rope skipping interaction system for children comprises an intelligent watch, an intelligent skipping rope, a cloud server, an information database and a user terminal, wherein the intelligent watch, the intelligent skipping rope and the user terminal are communicated with the cloud server and the information database; each smart watch, each smart terminal and a corresponding user account in the cloud server are bound; the intelligent watch is internally provided with a heart rate sensor, an acceleration sensor and a communication module, and the intelligent skipping rope consists of a rope body, a gyroscope sensor and the communication module;

the information database is stored with a plurality of reference data tables, including a rope skipping number scoring table corresponding to students of all grades and genders, a corresponding relation table of a heart rate value and all exercise intensities, a corresponding relation table of the number of rope skipping and virtual 'exercise energy' available for a user, and a corresponding relation table of rope skipping actions of different rope skipping levels and different difficulty levels; the system also stores motion data corresponding to each user account in each motion cycle, wherein the motion data comprises rope skipping time, rope skipping quantity, interruption times, average speed, average heart rate and virtual motion energy obtained through accumulation for each time;

the information database is also stored with guide information of different rope skipping actions, and the guide information comprises text information describing the action key points and dynamic images expressing action details.

The system is preferably characterized by further comprising a function module combination communicated with the cloud server, wherein the function module combination comprises a plan establishing module, a motion data acquisition module, an interaction module and a planting module, and all the function modules are communicated through the cloud server;

the plan establishing module is used for establishing a user account and an exercise plan, wherein the user account is associated with personal basic information and exercise information, and the exercise information comprises the current rope skipping level, the planned exercise time and the planned exercise frequency; obtaining the rope skipping level of the user through table lookup, and storing the user account number, the personal basic information, the movement information and the rope skipping level into an information database;

the motion data acquisition module is used for acquiring original motion data, wherein the original motion data comprises rope skipping time, rope skipping quantity, interruption times and a heart rate value; the heart rate value is obtained by reading the value of a heart rate sensor in the intelligent watch;

the motion module is used for acquiring rope skipping actions matched with the rope skipping level of the user and guiding information corresponding to the rope skipping actions from the information database, and providing action guidance before rope skipping; the system comprises a user terminal, a user terminal and a user terminal, wherein the user terminal is used for displaying the motion statistical data after single rope skipping, the motion statistical data comprise rope skipping time, rope skipping quantity, interruption times, average speed, average heart rate and virtual 'motion energy' obtained at a single time, and the current rope skipping level in the user motion information is updated according to the motion statistical data;

the planting module feeds back the exercise result of the user in a game mode, and the implementation method comprises the following steps: after the user skips the rope, the motion module calculates the virtual motion energy obtained by the motion according to the corresponding relation table of the number of skips in the information database and the virtual motion energy available to the user, and transmits the energy value to the information database for accumulative storage; carrying out interaction named as 'tree watering' with a virtual 'tree' image in the planting module by utilizing the virtual 'movement energy';

the interaction module is used for interaction between a user and parents and interaction between the user and the user.

Compared with the prior art, the invention has the advantages and beneficial effects that: the invention provides a multi-terminal-based intelligent rope skipping interaction system for children, which provides a motion plan, scientific and detailed action guidance and motion data analysis which accord with the personal rope skipping level of a user, and further improves the enthusiasm of the user through a game function and the interaction between parents and users.

Drawings

FIG. 1 is a schematic structural diagram of a multi-terminal-based intelligent rope skipping interaction system for children according to the present invention;

FIG. 2 is a block diagram of an embodiment of a multi-terminal based multi-terminal intelligent rope skipping interaction system for children according to the present invention;

in the figure, 1-plan building module, 2-motion module, 3-central processing module, 31-cloud server, 32-information database, 4-motion data acquisition module, 5-interaction module, 6-planting module, 7-user terminal, 8-intelligent watch and 9-intelligent skipping rope.

Detailed Description

In order to more clearly describe the technical contents of the present invention, the following further description is given in conjunction with specific embodiments.

The multi-terminal-based intelligent skipping rope interaction system for children shown in fig. 1 comprises a user terminal 7, an intelligent watch 8, an intelligent skipping rope 9 and a central processing module 3, wherein the intelligent watch, the intelligent skipping rope and the user terminal are all communicated with the central processing module 3. The central processing module 3 is composed of a cloud server 31 and an information database 32. Each smart watch is bound with a corresponding user account in the cloud server, and each user terminal is bound with a corresponding user account in the cloud server.

As shown in fig. 2, the multi-terminal based intelligent rope skipping interaction system for children further comprises a software function module combination, which comprises a plan establishing module 1, a motion module 2, a motion data acquisition module 4, an interaction module 5 and a planting module 6, wherein the function modules are communicated through a cloud server;

the plan establishing module is used for establishing a user account and an exercise plan, wherein the user account is associated with personal basic information and exercise information; when a user establishes an account, the personal information and the movement information of the user matched with the account are required to be input together, the movement information comprises the current rope skipping level, the planned movement time and the planned movement frequency, and the user account, the personal basic information, the movement information and the rope skipping level are stored in an information database and serve as the user account information.

The motion module is used for acquiring rope skipping actions matched with the rope skipping level of the user and guiding information corresponding to the rope skipping actions from the information database, and providing action guidance before rope skipping; and the system is used for displaying the motion statistical data after single rope skipping, wherein the motion statistical data comprise rope skipping time, rope skipping quantity, interruption times, average speed, average heart rate and virtual 'motion energy' obtained at a single time, and the current rope skipping level in the motion information of the user is updated according to the motion statistical data. In addition, the motion module generates a motion data change table in a week unit according to the motion data stored in the information database, and displays the motion data change table through the user terminal and the smart watch.

In one specific implementation of the invention, according to the account information and the data information in the information database, the rope skipping level of the current user can be judged, the rope skipping level is matched with the rope skipping action with corresponding difficulty, a corresponding movement plan is generated according to the movement information in the account information, and the movement plan and the guidance information corresponding to the movement plan are displayed in the user terminal and the smart watch, so that the user can read the user plan in the corresponding movement module interfaces of the user terminal and the smart watch, and simultaneously can read the guidance information used by the movement module for providing movement guidance.

For example, if the personal information of the user input by the user at the plan establishing module is gender male, grade two, the exercise information is current skipping level 24 per minute, the planned exercise duration is 5 minutes, and the exercise frequency is 5 times per week, the user can be judged to be at the skipping entry level according to the information and the skipping number scoring standard corresponding to the students of each grade and gender stored in the information database, and a corresponding exercise plan is generated.

The motion data acquisition module is used for acquiring original motion data, the original motion data comprise rope skipping time, rope skipping quantity, interruption times and a heart rate value, and the heart rate value is obtained by reading a heart rate sensor value in the intelligent watch. When skipping rope, the system obtains the number of skipping rope through the change of the gyroscope accelerator on the intelligent skipping rope in the vertical direction. Within the timing range, if the gyroscope accelerator detects motion interruption, the number of interruptions in the motion data is increased by one. And when the timing is finished, the intelligent watch stops counting, and the user is reminded of finishing the timing through voice and vibration of the intelligent watch. The motion data acquisition module sends the acquired motion data to the information database for storage.

In one specific implementation of the invention, after rope skipping is completed, the exercise module calculates and processes the data acquired by the exercise data acquisition module, and displays the rope skipping time, the number of rope skipping, the interruption times, the average speed, the average heart rate and other exercise data on the corresponding exercise data analysis interfaces of the user terminal and the smart watch. The analysis of the user motion data includes analysis of single motion data and analysis of motion data changes in units of weeks. In addition, the motion module calculates the motion energy obtained by the current motion user according to the corresponding relation between the number of skipping ropes in the information database and the virtual motion energy obtained by the user, and sends the energy value to the information database for accumulated storage.

The planting module feeds back the exercise result of the user in a game mode, and the implementation method comprises the following steps: after the user jumps, the motion module calculates the virtual motion energy obtained by the motion according to the corresponding relation table of the number of the jumping ropes in the information database and the virtual motion energy available to the user, and transmits the energy value to the information database for accumulative storage. And carrying out interaction named as 'tree watering' with a virtual 'tree' image in the planting module by utilizing the virtual 'movement energy'.

In one embodiment of the present invention, the interaction in the planting module is performed in the following manner: when a user wants to water trees, the user needs to do appointed gesture actions, a gyroscope sensor in the intelligent watch can identify the gestures made by the user, when the sensor identifies the appointed gesture actions, a kettle watering animation can appear on an operation interface of a user terminal, and the virtual tree image can be changed in a staged dynamic mode according to the motion energy value.

The interaction module is used for interaction between a user and parents and between the user and the user.

In one embodiment of the present invention, the interaction between the user and the parent is as follows: after the user finishes rope skipping, the intelligent watch sends the signal to the user terminal through the communication module, and reminds parents and children of the user to finish the rope skipping plan of the current day through system information. After the parents click a button for confirming the exercise situation today on a corresponding interface of the user terminal, the cloud server sends the signal to the smart watch of the same user account through network data communication, and the smart watch reminds the user through vibration that the parents confirm the exercise situation today, so that the interaction between the user and the parents is completed.

The interaction between the users is embodied as adding friends and friend interaction. The specific implementation mode of adding friends is as follows: when a user wants to add a friend, the user needs to hold the respective intelligent skipping rope by both sides and perform a specified gesture action at the same time, and the gesture performed by the user is recognized by a gyroscope sensor in the intelligent skipping rope. When the distance between the intelligent skipping ropes of the two parties of the user is smaller than the preset distance and the gyroscope sensor recognizes the appointed gesture action, the intelligent skipping ropes of the user receive the account number of the user of the other party, the account number information is sent to the intelligent watch through the communication module, and the account number information is displayed on the screen of the intelligent watch. And the user clicks on the smart watch operation interface to confirm that the operation of adding the friend can be completed.

After the friend is added, the user can perform friend interaction. The specific implementation mode of friend interaction is as follows: the user can check the rope skipping condition of the friend on the day on the interaction module interface of the smart watch and perform 'praise' operation on the friend. After the smart watch receives a friend praise signal sent by the cloud server, the smart watch reminds the user of friend praise information through vibration, and interaction between the user and the user is completed.

In one embodiment of the present invention, the plan creation module, the exercise module, the planting module, and the interaction module are integrated in the user terminal.

It is to be noted that, unless otherwise specified, technical or scientific terms used herein shall have the ordinary meaning as understood by those skilled in the art to which the invention pertains. Unless specifically stated otherwise, the relative steps, numerical expressions, and values of the components and steps set forth in these embodiments do not limit the scope of the present invention. In all examples shown and described herein, unless otherwise specified, any particular value should be construed as merely illustrative, and not restrictive, and thus other examples of example embodiments may have different values.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention, and they should be construed as being included in the following claims and description.

Claims

1. A multi-terminal-based intelligent rope skipping interaction system for children is characterized by comprising an intelligent watch, an intelligent skipping rope, a cloud server, an information database and a user terminal, wherein the intelligent watch, the intelligent skipping rope and the user terminal are communicated with the cloud server and the information database; each smart watch, each smart terminal and a corresponding user account in the cloud server are bound; the intelligent watch is internally provided with a heart rate sensor, an acceleration sensor and a communication module, and the intelligent skipping rope consists of a rope body, a gyroscope sensor and the communication module;

2. The intelligent rope skipping interaction system for the children based on the multiple terminals is characterized by further comprising a function module combination communicated with a cloud server, wherein the function module combination comprises a plan establishing module, a motion data acquisition module, an interaction module and a planting module, and all the function modules are communicated through the cloud server;

3. The multi-terminal based intelligent skipping rope interaction system for children as claimed in claim 2, wherein the motion module generates a corresponding motion plan according to the user motion information in the information database, and displays the motion plan and the guidance information corresponding to the motion plan in the user terminal and the intelligent watch.

4. The multi-terminal based intelligent rope skipping interaction system for children as claimed in claim 2, wherein the motion module generates a motion data change table in weeks according to the motion data stored in the information database, and displays the motion data change table through the user terminal and the intelligent watch.

5. The multi-terminal based intelligent rope skipping interaction system for children according to claim 2, wherein the interaction mode in the planting module is as follows: when the user wants to water trees, appointed gesture actions need to be done, a gyroscope sensor in the intelligent watch is used for identifying gestures done by the user, when the sensor identifies the appointed gesture actions, a kettle watering animation can appear on an operation interface, and the virtual tree image can make visual feedback on the movement of the user according to the staged dynamic change of the numerical value of the movement energy.

6. The multi-terminal based intelligent skipping rope interaction system for children as claimed in claim 2, wherein the plan creation module, the motion module, the planting module and the interaction module are integrated in the user terminal.

7. The multi-terminal based intelligent skipping rope interaction system for children according to claim 2, wherein the interaction mode between the user and the parent is as follows: after the user finishes rope skipping, the intelligent watch sends the signal to the user terminal through the communication module, and reminds parents and children of the user to finish the today's exercise plan through system information reminding; the method comprises the steps that parents click and confirm on corresponding interfaces of a user terminal, a cloud server sends a signal to a smart watch of the same user account through network data communication, and the smart watch reminds the parents of the user of the confirmation situation through vibration to complete interaction between the user and the parents and children;

the interaction between the users comprises friend adding and friend interaction; the specific implementation manner of adding friends is as follows: when a user wants to add a friend, the user needs to hold the respective intelligent skipping ropes and simultaneously perform a specified gesture action, and a gyroscope sensor in the intelligent skipping ropes can identify the gesture performed by the user; when the distance between the intelligent skipping ropes of the two parties of the user is smaller than the preset distance and the gyroscope sensor recognizes the appointed gesture action, the intelligent skipping ropes of the user receive the account number of the user of the other party, send the account number information to the intelligent watch through the communication module and display the account number information on the screen of the intelligent watch; the user clicks on the smart watch operation interface to confirm that the operation of adding friends can be completed;

after the friend is added, the user can perform friend interaction, and the specific implementation mode of the friend interaction is as follows: the user checks the rope skipping condition of the friend on the day on the interaction module interface of the smart watch and conducts 'praise' operation on the friend, and after the smart watch receives a friend praise signal sent by the cloud server, the smart watch reminds the user of the information of praise of the friend through vibration, and interaction between the user and the user is completed.