CN112865838A

CN112865838A - Rope skipping-based data fusion system and method, storage medium and terminal

Info

Publication number: CN112865838A
Application number: CN202011621620.9A
Authority: CN
Inventors: 张志玺
Original assignee: Shanghai Renyuhe Industrial Co ltd
Current assignee: Shanghai Renyuhe Industrial Co ltd
Priority date: 2020-12-30
Filing date: 2020-12-30
Publication date: 2021-05-28

Abstract

The invention provides a rope skipping-based data fusion system, a rope skipping-based data fusion method, a storage medium and a terminal, wherein the system comprises an intelligent rope skipping module, a rope skipping module and a rope skipping information recording module, wherein the intelligent rope skipping module is used for skipping a rope by a user and recording rope skipping information; the heart rate detection module is used for recording heart rate information of the user when the user jumps; the mobile terminal is respectively in communication connection with the intelligent rope skipping module and the heart rate detection module so as to transmit rope skipping information and the heart rate information; the server module is in communication connection with the mobile terminal to receive the rope skipping information and the heart rate information and store and process the rope skipping information and the heart rate information; the intelligent rope skipping system comprises a BLE broadcasting module, the intelligent rope skipping module is in communication connection with the heart rate detection module through the BLE broadcasting module, and rope skipping information and the heart rate information are marked mutually.

Description

Rope skipping-based data fusion system and method, storage medium and terminal

Technical Field

The invention relates to the technical field of data processing, in particular to a rope skipping-based data fusion system, a rope skipping-based data fusion method, a storage medium and a terminal.

Background

Although rope skipping is not a particularly strenuous type of exercise, in order to prevent accidents, heart rate monitoring is added to rope skipper during rope skipping, and the rope skipping is a necessary safety measure. For example, when students carry out rope skipping training, the self-protection consciousness is weak, the worry rate is abnormal, the rope skipping movement is not stopped, and the rope skipping is continued, so that accidents can occur. If a heart rate detection mechanism is available, the rope skipping person can be reminded to stop moving.

And current rope skipping heart rate detection scheme, for example application number is 201921296769.7, and the patent name is the intelligent rope skipping utility model patent of a detectable heart rate, and it discloses is to install heart rate detection device on rope skipping handle, detects the heart rate of palm portion, and this can lead to the heart rate to detect inaccurately, is difficult to give rope skipping person's suggestion.

For another example, the application number is 201621427806.X, the patent name is a practical novel patent of measurable heart rate intelligent skipping rope, which discloses that wearing a heart rate detection device on a wrist, or separating the heart rate detection device from the skipping rope, can accurately detect the heart rate, but in order to simply remind that the heart rate is abnormal, it is impossible to fuse heart rate information and skipping rope information (including a tripping rope, the frequency of each skipping rope time period, etc.), for example, when looking for the data details recorded by a certain skipping rope, it is desirable to look over the heart rate chart of the skipping rope at the same time, it is possible that the skipping rope and the detection device are two different devices because of some limitations of the devices, such as inconsistency of the system clocks of the two devices, resulting in that the data cannot be fused well, and it is impossible to effectively record and look over the skipping rope condition and the heart rate condition of a user.

Therefore, there is a need to provide a novel rope skipping-based data fusion system, method, storage medium and terminal to solve the above-mentioned problems in the prior art.

Disclosure of Invention

The invention aims to provide a rope skipping-based data fusion system, a rope skipping-based data fusion method, a storage medium and a terminal, which are used for fusing rope skipping information and heart rate information with each other, facilitating quick viewing of the relationship between analysis data and facilitating effective suggestion for a rope skipping user.

In order to achieve the above object, the rope skipping-based data fusion system of the present invention includes:

the intelligent rope skipping module is used for skipping a rope by a user and recording rope skipping information;

the heart rate detection module is used for recording heart rate information of the user when the user jumps;

the mobile terminal is respectively in communication connection with the intelligent rope skipping module and the heart rate detection module so as to transmit rope skipping information and the heart rate information;

the server module is in communication connection with the mobile terminal to receive the rope skipping information and the heart rate information and store and process the rope skipping information and the heart rate information;

the intelligent rope skipping detection module is connected with the BLE broadcasting module in a communication mode through the BLE broadcasting module and marks rope skipping information and heart rate information.

The invention has the beneficial effects that: in the system, rope skipping information is recorded through the intelligent rope skipping module, heart rate information is recorded through the heart rate detection module, meanwhile, the heart rate information and the rope skipping information are marked through the BLE broadcasting module, mutual correlation can be generated between the heart rate information and the rope skipping information, the correlated heart rate information and the rope skipping information are stored together when the heart rate information and the rope skipping information are stored in the subsequent server module, the heart rate information and the rope skipping information are fused together for analysis, the correlated data can be conveniently and rapidly searched subsequently, and guiding suggestions are provided for a user according to the correlated data.

Furthermore, the intelligent skipping rope module comprises a skipping rope terminal, a skipping rope time stamp recording unit, a skipping rope counting unit and a skipping rope mac address unit, wherein the skipping rope time stamp recording unit, the skipping rope counting unit and the skipping rope mac address unit are all electrically connected with the skipping rope terminal, the time stamp recording unit is used for recording skipping rope time stamp information at the beginning and the end of a skipping rope, the skipping rope counting unit is used for counting skipping rope related data of a user, and the skipping rope mac address unit is used for recording skipping rope mac address information when the user skips a rope. The beneficial effects are that: adopt the rope skipping terminal to supply the user to jump the rope, when the user jumps the rope, through the rope skipping statistics unit statistics rope skipping relevant data of rope skipping in-process, and rope skipping mac address unit is used for recording the rope skipping mac address information when the user jumps the rope, the rope skipping time stamp recording unit record the rope skipping time stamp information that the rope skipping begins and finishes, when knowing the concrete rope skipping condition of user, be convenient for know the rope skipping mac address information at rope skipping terminal to confirm the relevant position of rope skipping.

Furthermore, the intelligent rope skipping module further comprises at least one of a rope skipping time length recording unit and a calorie recording unit, the rope skipping time length recording unit is used for recording time length information of each rope skipping of the user, and the calorie recording unit is used for calculating and recording calorie information consumed when the user skips the rope. The beneficial effects are that: by recording the time length information and the calorie information of the rope skipping, the rope skipping condition of the user can be further known.

Further, heart rate detection module includes heart rate record unit, heart rate time stamp record unit, time interval setting unit and heart rate mac address unit, heart rate record unit is used for statistics and record user's heart rate data, time interval setting unit with heart rate record unit connects, is used for setting up heart rate record unit record the heart rate time interval information of heart rate data, heart rate mac address unit is used for the record heart rate mac address information of heart rate detection module, heart rate time stamp record unit with heart rate record unit communication connection is in order to be used for the record heart rate time stamp information. The beneficial effects are that: heart rate record unit detects and records user's rhythm of the heart data, and heart rate time stamp information when heart rate time stamp record unit record rhythm of the heart record, and time interval sets for the heart rate time interval information when the unit is used for setting for heart rate detecting element record rhythm of the heart each time, make heart rate detecting element carry out the rhythm of the heart detection at different time intervals, and heart rate mac address unit is used for detecting the rhythm of the heart mac address information when recording the rhythm of the heart, so that mark the relevance to rhythm of the heart information and rope skipping information.

Further, the heart rate detection module further comprises a heart rate abnormity judgment unit and a reminding unit, the heart rate abnormity judgment module is used for judging whether the heart rate data of the user is in an abnormal state, and the reminding unit is in communication connection with the heart rate abnormity judgment unit so as to generate reminding warning information when the heart rate data of the user is abnormal. The beneficial effects are that: whether the detected heart rate data are in an abnormal state or not is judged through the heart rate abnormity judging unit, alarm prompt is carried out through the reminding unit when abnormity occurs, and safety protection is carried out on a user.

Furthermore, the BLE broadcasting module comprises a marking unit, a heart rate information transmission unit and a rope skipping information transmission unit, the intelligent rope skipping module is in communication connection with the marking unit through the rope skipping information transmission unit, the heart rate detection module is in communication connection with the marking unit through the heart rate information transmission unit, and the marking unit marks the heart rate information and the rope skipping information through BLE broadcasting. The beneficial effects are that: the heart rate information and the skipping rope information are mutually marked through the marking unit to realize association, association between the two kinds of information is conveniently established, and accuracy of data recording is improved in the subsequent data searching process.

Further, the server module comprises a search unit, an association unit and a database unit, wherein the search unit is used for searching and judging whether the heart rate information and the rope skipping information are associated with each other, the association unit is used for associating the searched heart rate information and the rope skipping information with each other, and the database unit is used for storing the heart rate information and the rope skipping information. The beneficial effects are that: after the heart rate information or the skipping rope information is directly uploaded and transmitted to the server module, the related skipping rope information or the heart rate information is found through the searching unit and is related through the related unit, so that the skipping rope information or the heart rate information directly detected by the heart rate when each user singly skips the rope is accurately recorded, the completeness of the user information in the whole recording period is ensured, and the subsequent separation of the whole user information is facilitated.

The invention further provides a data fusion method based on rope skipping, which comprises the following steps:

s1, controlling the intelligent rope skipping module and the heart rate detection module to start so as to respectively collect rope skipping information and heart rate information when a user skips a rope;

s2, marking the skipping rope information and the heart rate information mutually and transmitting the skipping rope information and the heart rate information to the mobile terminal;

s3, the mobile terminal transmits the rope skipping information and the heart rate information to a server module, and the server module stores and processes the rope skipping information and the heart rate information.

The method has the beneficial effects that: the heart rate information and the rope skipping information are detected when a user skips a rope, the heart rate information and the rope skipping information are marked and stored, the correlated information can be conveniently and quickly found subsequently, a guide line suggestion is provided for the user, and the independently uploaded data can be correlated with the originally recorded information through the server module, so that the data of the user in different stages within a period of time can be accurately recorded, and data omission is avoided.

Further, the skipping rope information comprises at least one of skipping rope related data, skipping rope mac address information, skipping rope timestamp information, duration information and calorie information.

Further, the heart rate data includes heart rate data, heart rate time interval information, heart rate mac address information, and heart rate timestamp information.

Further, the process of controlling the start of the intelligent skipping rope module and the heart rate detection module in the step S1 includes:

s11, after the user starts rope skipping, the intelligent rope skipping module is started, and BLE broadcasting of rope skipping starting is transmitted to the heart rate detection module through the BLE broadcasting module;

s12, the heart rate detection module receives the start rope skipping BLE broadcast and starts to detect heart rate information of the user. The beneficial effects are that: in the process of rope skipping and relevant information recording of a user, after the intelligent rope skipping module is started, the heart rate detection module is controlled to start to detect under the action of the BLE broadcasting module, so that the intelligent rope skipping module and the heart rate detection module are respectively started to detect rope skipping information and heart rate information.

Further, the mutual labeling process in step S2 includes:

s21, the intelligent rope skipping module transmits rope skipping information to a marking unit through a rope skipping information transmission unit, and the marking unit marks rope skipping timestamp information and rope skipping mac address information in the rope skipping information into heart rate information;

s22, the heart rate detection module transmits the heart rate information to the marking unit through a heart rate information transmission unit, and the marking unit marks heart rate timestamp information and heart rate mac address information in the heart rate information into the skipping rope information. The beneficial effects are that: through the marking effect of the marking units, the intelligent skipping rope module detects the skipping rope information obtained, the skipping rope information and the skipping rope mac address information are marked with each other, the heart rate detection module monitors the obtained skipping rope information and the skipping rope information, the skipping rope information and the skipping rope mac address information are marked with each other, and therefore the skipping rope information and the heart rate information are correlated with each other, and the correlated data can be found quickly after storage.

Further, the fusion method further comprises:

s4, stopping skipping, wherein the BLE broadcasting module sends a rope skipping ending BLE broadcast to the heart rate detection module, and the rope skipping ending BLE broadcast comprises heart rate detection timestamp information and heart rate mac address information;

s5, the heart rate detection module stops detecting heart rate information after receiving the BLE broadcasting of rope skipping ending, sends out the BLE broadcasting of stopping detecting through the BLE broadcasting module to the intelligent rope skipping module, the BLE broadcasting of stopping detecting contains rope skipping mac address information and rope skipping timestamp information, and the intelligent rope skipping module stops working after receiving the BLE broadcasting of stopping detecting.

The invention also discloses a storage medium on which a computer program is stored, which computer program, when being executed by a processor, implements the fusion method described above.

The invention discloses a terminal, which comprises a processor and a memory;

the memory is used for storing a computer program;

the processor is configured to execute the computer program stored in the memory to enable the terminal to implement the fusion method described above.

Drawings

Fig. 1 is a block diagram showing an overall configuration of a fusion system according to an embodiment of the present invention;

FIG. 2 is a schematic overall flow chart of a fusion method according to an embodiment of the present invention;

FIG. 3 is a flowchart illustrating step S1 of the fusion method according to the embodiment of the present invention;

FIG. 4 is a flowchart illustrating step S2 of the fusion method according to the embodiment of the present invention;

fig. 5 is a schematic overall flow chart of a fusion method according to another embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings of the present invention, and it is obvious that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention. Unless defined otherwise, technical or scientific terms used herein shall have the ordinary meaning as understood by one of ordinary skill in the art to which this invention belongs. As used herein, the word "comprising" and similar words are intended to mean that the element or item listed before the word covers the element or item listed after the word and its equivalents, but does not exclude other elements or items.

To solve the problems in the prior art, an embodiment of the present invention provides a data fusion system based on rope skipping, as shown in fig. 1, including:

the intelligent rope skipping module 1 is used for skipping ropes by a user and recording rope skipping information;

the heart rate detection module 2 is used for recording heart rate information of the user when the user jumps;

the mobile terminal 3 is in communication connection with the intelligent rope skipping module 1 and the heart rate detection module 2 respectively to transmit rope skipping information and the heart rate information;

the server module 4 is in communication connection with the mobile terminal 3 to receive the rope skipping information and the heart rate information, and stores and processes the rope skipping information and the heart rate information;

the BLE broadcasting module 5, the intelligence rope skipping module 1 with through BLE broadcasting module 5 communication connection between the heart rate detection module 2 piece, and will rope skipping information with the mutual mark of heart rate information.

In the system, after a user starts rope skipping, the intelligent rope skipping module 1 detects and records rope skipping information of the user during rope skipping, after the intelligent rope skipping module 1 starts rope skipping detection, under the communication action of the BLE broadcasting module 5, the heart rate detection module 2 starts heart rate detection on the user to obtain heart rate information, in the process of detecting and obtaining the rope skipping information and the heart rate information, the BLE broadcasting module 5 marks and associates the heart rate information and the rope skipping information with each other, after the subsequent heart rate information and the rope skipping information are transmitted to the server module 4 through the mobile terminal 3, the heart rate information and the rope skipping information can be associated with each other, when the user or a manager checks user data, the associated rope skipping information and the heart rate information can be quickly searched, so that the rope skipping condition of the user can be comprehensively known, and instructive advice is given through the relevant data.

Further, in the above embodiment, the heart rate information and the rope skipping information are stored in the server module 4 to form a database, and different data are stored in the database according to different users during data storage, so that the search is facilitated.

In some embodiments, the intelligent skipping rope module 1 includes a skipping rope terminal 11, a skipping rope time stamp recording unit 12, a skipping rope statistics unit 13, and a skipping rope mac address unit 14, where the skipping rope time stamp recording unit 12, the skipping rope statistics unit 13, and the skipping rope mac address unit 14 are all electrically connected to the skipping rope terminal 11, the time stamp recording unit 12 is configured to record skipping rope time stamp information at the beginning and end of a skipping rope, the skipping rope statistics unit 13 is configured to count skipping rope related data of a user, and the skipping rope mac address unit 14 is configured to record skipping rope mac address information when the user skips a rope.

When the intelligent skipping rope is used, a user skips a rope through the skipping rope terminal 11, the skipping rope terminal 11 in the embodiment adopts an intelligent skipping rope which can be used for recording related information of the skipping rope, in the process of skipping the rope, the skipping rope counting unit 13 is used for counting and recording related skipping rope data of the user in the process of skipping the rope on the skipping rope terminal 11, specifically including the number of skipping ropes, the frequency of skipping ropes within a fixed time, the frequency of tripping ropes, the rope skipping strength and the like, the skipping rope time stamp recording unit 12 records skipping rope time stamp information of starting skipping ropes and finishing skipping ropes of the user, and the skipping rope mac address unit 14 records skipping rope mac address information of the skipping rope, so that the related judgment of the skipping rope information is performed according to the skipping rope mac address information and the skipping rope time stamp information subsequently.

Preferably, the rope skipping terminal 11 is an intelligent rope skipping device.

In some embodiments, the intelligent rope skipping module 1 further includes at least one of a rope skipping duration recording unit 15 and a calorie recording unit 16, the rope skipping duration recording unit 15 is configured to record duration information of each rope skipping of the user, the calorie recording unit 16 is configured to calculate and record calorie information consumed when the user skips the rope, and after the rope skipping information is transmitted to the server module 4, the duration information and the calorie information are also transmitted to the server module 4, so that more refined data information can be conveniently viewed subsequently.

In some embodiments, the heart rate detection module 2 includes a heart rate recording unit 21, a heart rate timestamp recording unit 22, a time interval setting unit 23, and a heart rate mac address unit 24, the heart rate recording unit 21 is configured to count and record heart rate data of the user, the time interval setting unit 23 is connected to the heart rate recording unit and is configured to set heart rate time interval information of the heart rate data recorded by the heart rate recording unit, the heart rate mac address unit 24 is configured to record heart rate mac address information of the heart rate detection module 2, and the heart rate timestamp recording unit 22 is in communication connection with the heart rate recording unit 21 and is configured to record the heart rate timestamp information.

Similarly, after heart rate detection module 2 begins to detect heart rate information, heart rate recording unit 21 detects and records user's heart rate data, and time interval setting unit 23 sets for the heart rate detection interval time of heart rate recording unit 21, heart rate time stamp recording unit 22 records the initial time of recording heart rate data, record heart rate time stamp information promptly, heart rate mac address unit 24 detects and records heart rate mac address information of heart rate detection module 2 simultaneously, because heart rate information includes heart rate data, heart rate detection interval information, heart rate time stamp information and heart rate mac address information, when uploading heart rate information, can look over fast different data in the heart rate information, so that the concrete condition of user's heart rate is known fast.

Preferably, the heart rate recording unit 21 directly detects and records the heart rate by using a sports bracelet or a watch.

The intelligent rope skipping module 1 and the heart rate detection module 2 transmit heart rate information and rope skipping information to the mobile terminal 3 in a Bluetooth transmission or data flow mode.

Further preferably, the mobile terminal 3 is a smart phone or a laptop.

In some embodiments, the heart rate detection module 2 further includes a heart rate abnormality determination unit 25 and a reminding unit 26, the heart rate abnormality determination unit 25 is configured to determine whether the heart rate data of the user is in an abnormal state, and the reminding unit 26 is in communication connection with the heart rate abnormality determination unit 25, so as to generate a reminding warning message when the heart rate data of the user is abnormal.

In the process of detecting the heart rate of the user, the heart rate data is judged abnormally through the heart rate abnormity judging unit 25, and when the heart rate data is judged to be in an abnormal state, reminding warning information is generated through the reminding unit 26, so that the user or related personnel are warned, the accident situation is avoided, and the safety of the user is ensured.

It should be noted that, when the heart rate abnormality determination unit 25 determines whether the heart rate of the user is abnormal, since the heart rate normal ranges of different crowds are different, the heart rate abnormality determination unit 25 can set different heart rate threshold ranges for different crowds to meet the heart rate abnormality determination requirements of different crowds.

Further, the heart rate threshold range of the heart rate abnormality determination unit 25 is set by the server module 4, and may also be set by an external control device, which is not particularly limited herein.

In some embodiments, the BLE broadcasting module 5 includes a marking unit 51, a heart rate information transmission unit 52, and a rope skipping information transmission unit 53, the intelligent rope skipping module 1 is in communication connection with the marking unit 51 through the rope skipping information transmission unit 53, the heart rate detection module 2 is in communication connection with the marking unit 51 through the heart rate information transmission unit 52, and the marking unit 51 mutually marks the heart rate information and the rope skipping information through BLE broadcasting.

When the BLE broadcasting module 5 marks heart rate information and rope skipping information mutually, the rope skipping information is transmitted to the marking unit 51 through the rope skipping information transmission unit 53, the heart rate information is transmitted to the marking unit 51 through the heart rate information transmission unit 52, and then under the action of the marking unit 51, the marking unit 51 marks the heart rate information and the rope skipping information mutually through BLE broadcasting, and the marking process is as follows:

after rope skipping starts, the intelligent rope skipping module 1 detects that rope skipping information is transmitted to a marking unit 51 in a BLE broadcasting module 5 through a rope skipping information transmission module 53, then the marking unit 51 sends rope skipping timestamp information and rope skipping mac address information in the rope skipping information in a BLE broadcasting mode, and transmits the rope skipping timestamp information and the rope skipping mac address information to the heart rate detection module 2 through a heart rate information transmission unit 52, and under the action of the marking unit 51, the heart rate information detected by the heart rate detection module 2 and the rope skipping timestamp information and the rope skipping mac address information in the rope skipping information are marked together mutually so as to be convenient for subsequent searching; corresponding with it, heart rate detection module 2 detects heart rate information and transmits the mark unit 51 among BLE broadcast module 5 through heart rate information transmission module 52, later mark unit 51 sends heart rate mac address information and heart rate timestamp information in the heart rate information with the BLE broadcast, and transmit among intelligent rope skipping module 1 through rope skipping information transmission unit, later mark unit 51 with the heart rate mac address information in rope skipping information and the heart rate information, the mutual mark of heart rate timestamp information, in subsequent processes, after heart rate information and rope skipping information transmit server module 4, be convenient for look for fast and match relevant data.

In some embodiments, the server module 4 includes a search unit 41, an association unit 42, and a database unit 43, where the search unit 41 is configured to search and determine whether the heart rate information and the rope skipping information are associated with each other, the association unit 42 is configured to associate the searched heart rate information and the rope skipping information with each other, and the database unit 43 is configured to store the heart rate information and the rope skipping information.

After the heart rate information and the rope skipping information are transmitted to the inside of the server module 4, the searching unit 41 searches the information related to the heart rate information through the related mac address information (heart rate mac address information or rope skipping mac address information) and the timestamp information (heart rate timestamp information or rope skipping timestamp information), if corresponding data is found in the database unit 43, the heart rate information or the rope skipping information and the found corresponding data are correlated, and if not, the heart rate information or the rope skipping information is directly stored in the database unit 43.

For example, when searching and associating the heart rate information, the searching unit 41 parses the rope skipping mac address information and the rope skipping timestamp information in the heart rate information, searches whether there is data associated with the rope skipping mac address information and the rope skipping timestamp information in the database unit 43, if there is data associated with the rope skipping mac address information and the rope skipping timestamp information, associates the found associated data with the heart rate information through the associating unit 42 and stores the data in the database unit 43, if there is no data directly storing the heart rate information in the database unit 43, similarly, when searching and associating the rope skipping information, the searching unit 41 parses the heart rate mac address information and the heart rate timestamp information in the rope skipping information, searches whether there is data associated with the heart rate mac address information and the heart rate timestamp information in the database unit 43, if there is data associated with the found rope skipping information through the associating unit 42 and stores the data in the database unit 43, if not, the skipping rope information is directly saved in the database unit 43.

Further, in this embodiment, BLE broadcasting is adopted to label heart rate information and rope skipping information, and BLE refers to bluetooth low energy, which is a personal area network technology designed and sold by the bluetooth technical alliance, and is intended for emerging applications in the fields of medical care, exercise and fitness, beacons, security, home entertainment, and the like. Bluetooth low energy is intended to significantly reduce power consumption and cost while maintaining equivalent communication range compared to classical bluetooth.

Because adopt BLE broadcast to realize information transfer and mark, and intelligence rope skipping module 1 and rhythm of the heart examine module 2 and generally all be small-size embedded equipment, the battery power of taking is generally very little, use the power saving of BLE relatively, and the benefit of using the broadcast rather than lug connection is more time-saving, the operation is simpler, need not jump the rope and go to connect bracelet or bracelet and go to connect the rope skipping, the process that the initiative connection has a bluetooth scanning, it is consuming time relatively, and connect for a long time can be more power consumptive, whole efficiency has effectively been improved.

Sometimes, the user performs heart rate detection by using the heart rate detection module 2 when skipping rope, only rope skipping information is obtained, or heart rate detection is performed only for a period of time without rope skipping, rope skipping information is not detected, only heart rate information is obtained, at this time, the single heart rate information or rope skipping information is also directly transmitted to the server module 4 through the mobile terminal 3, data related to the rope skipping information or the heart rate information is found under the action of the searching unit 41, and the rope skipping information or the heart rate information is correlated with the stored related data of the user through the correlation unit 42, so that the related data of the user each time can be stored, the related data can be called and checked or analyzed subsequently, and the specific condition of the user can be conveniently known.

Preferably, when the search unit 41 searches for the associated data, the search may be performed by using a user name in the database, or the search may be performed according to the heart rate mac address information or the skipping rope mac address information of the user, specifically, when the heart rate information is searched, the search unit 41 searches in the database whether the skipping rope information of the skipping rope mac address information having the same heart rate mac address information as the heart rate mac address information of the heart rate information exists, if yes, it indicates that the heart rate mac address information and the skipping rope information are associated with each other, and the association unit 42 performs the association, and similarly, the manner when the skipping rope information is searched is similar to that described above, and is not described herein again.

The invention further discloses a rope skipping-based data fusion method applied to the rope skipping-based data fusion system, which comprises the following steps as shown in fig. 2:

s1, controlling the intelligent rope skipping module and the heart rate detection module to start so as to respectively collect rope skipping information and heart rate information when a user skips a rope.

In some embodiments, as shown in fig. 3, the process of controlling the start of the intelligent skipping rope module and the heart rate detecting module in step S1 includes:

s12, the heart rate detection module receives the start rope skipping BLE broadcast and starts to detect heart rate information of the user.

And S2, marking the skipping rope information and the heart rate information mutually and transmitting the skipping rope information and the heart rate information to the mobile terminal.

In some embodiments, as shown in fig. 4, the mutual tagging in step S2 includes:

s22, the heart rate detection module transmits the heart rate information to the marking unit through a heart rate information transmission unit, and the marking unit marks heart rate timestamp information and heart rate mac address information in the heart rate information into the skipping rope information.

In the process, under the action of the marking unit 51, the skipping rope information and the heart rate information are marked with each other, when relevant data are searched subsequently, the relevant heart rate information and the skipping rope information can be directly inquired, and meanwhile, because the heart rate information and the skipping rope information respectively contain mac address information and timestamp information of the other side, when data are searched subsequently, corresponding information search can be realized only through the mac address information and the timestamp information.

Specifically, the process of associating and storing the rope skipping information and the heart rate information by the server module 4 is already described in the data fusion system, and is not described herein again.

In still other embodiments, as shown in fig. 5, the fusion method further comprises:

After stopping skipping the rope, under BLE broadcasting module 5's effect, the heart rate detection module 2 stops detecting the heart rate core after receiving the BLE broadcast of ending skipping the rope, and intelligence skipping rope module 1 stops detecting skipping rope information after receiving to stop detecting the BLE broadcast to accomplish whole testing process.

In some embodiments, the rope skipping information comprises at least one of rope skipping related data, rope skipping mac address information, rope skipping timestamp information, duration information, and calorie information.

In some embodiments, the heart rate data includes heart rate data, heart rate time interval information, heart rate mac address information, heart rate timestamp information.

The present invention provides a storage medium having stored thereon a computer program which, when executed by a processor, implements the fusion method described above.

It should be noted that the division of each unit or module or unit in the fusion system in the present invention is only a division of a logic function, and all or part of the actual implementation may be integrated into one physical entity, or may be physically separated. And these units or modules can be implemented entirely in software called by a processing element; or may be implemented entirely in hardware; and a part of the unit or module can be realized in the form of software called by the processing element, and a part of the unit or module can be realized in the form of hardware. For example, the x unit or module may be a separate processing element, or may be implemented by being integrated into a chip of the system, or may be stored in a memory of the system in the form of program code, and may be called by a processing element of the system to execute the functions of the x unit or module. Other units or modules may be implemented similarly. In addition, all or part of the units or modules can be integrated together or can be independently realized. The processing element described herein may be an integrated circuit having signal processing capabilities. In the implementation process, each step of the above method or each unit or module above may be implemented by an integrated logic circuit of hardware in a processor element or an instruction in the form of software.

The invention also provides a terminal, which comprises a processor and a memory;

the processor is adapted to execute the computer program described above.

The memory is for storing a computer program. Preferably, the memory comprises: various media that can store program codes, such as ROM, RAM, magnetic disk, U-disk, memory card, or optical disk.

The processor is connected with the memory and is used for executing the computer program stored in the memory so as to enable the terminal to execute the fusion method.

Preferably, the Processor may be a general-purpose Processor, including a Central Processing Unit (CPU), a Network Processor (NP), and the like; the Integrated Circuit may also be a Digital Signal Processor (DSP), an Application Specific Integrated Circuit (ASIC), a Field Programmable Gate Array (FPGA) or other Programmable logic device, discrete Gate or transistor logic device, or discrete hardware components.

Although the embodiments of the present invention have been described in detail hereinabove, it is apparent to those skilled in the art that various modifications and variations can be made to these embodiments. However, it is to be understood that such modifications and variations are within the scope and spirit of the present invention as set forth in the following claims. Moreover, the invention as described herein is capable of other embodiments and of being practiced or of being carried out in various ways.

Claims

1. A rope skipping based data fusion system, comprising:

2. The rope skipping-based data fusion system according to claim 1, wherein the intelligent rope skipping module comprises a rope skipping terminal, a rope skipping time stamp recording unit, a rope skipping statistic unit and a rope skipping mac address unit, the rope skipping time stamp recording unit, the rope skipping statistic unit and the rope skipping mac address unit are all electrically connected with the rope skipping terminal, the time stamp recording unit is used for recording rope skipping time stamp information at the beginning and the end of a rope skipping, the rope skipping statistic unit is used for counting rope skipping related data of a user, and the rope skipping mac address unit is used for recording rope skipping mac address information when the user skips a rope.

3. The rope skipping-based data fusion system of claim 2, wherein the intelligent rope skipping module further comprises at least one of a rope skipping time length recording unit and a calorie recording unit, the rope skipping time length recording unit is used for recording time length information of each rope skipping of a user, and the calorie recording unit is used for calculating and recording calorie information consumed when the user skips the rope.

4. The rope skipping-based data fusion system according to claim 1, wherein the heart rate detection module comprises a heart rate recording unit, a heart rate time stamp recording unit, a time interval setting unit and a heart rate mac address unit, the heart rate recording unit is used for counting and recording heart rate data of the user, the time interval setting unit is connected with the heart rate recording unit and is used for setting heart rate time interval information of the heart rate recording unit for recording the heart rate data, the heart rate mac address unit is used for recording heart rate mac address information of the heart rate detection module, and the heart rate time stamp recording unit is connected with the heart rate recording unit in a communication manner and is used for recording the heart rate time stamp information.

5. The rope skipping-based data fusion system of claim 4, wherein the heart rate detection module further comprises an abnormal heart rate judgment unit and a reminding unit, the abnormal heart rate judgment module is used for judging whether the heart rate data of the user is in an abnormal state, and the reminding unit is in communication connection with the abnormal heart rate judgment unit so as to generate reminding warning information when the heart rate data of the user is abnormal.

6. The rope skipping-based data fusion system according to claim 1, wherein the BLE broadcasting module comprises a marking unit, a heart rate information transmission unit and a rope skipping information transmission unit, the intelligent rope skipping module is in communication connection with the marking unit through the rope skipping information transmission unit, the heart rate detection module is in communication connection with the marking unit through the heart rate information transmission unit, and the marking unit mutually marks the heart rate information and the rope skipping information through BLE broadcasting.

7. The rope skipping-based data fusion system of claim 1, wherein the server module comprises a lookup unit, an association unit and a database unit, the lookup unit is used for looking up and judging whether the heart rate information and the rope skipping information are associated with each other, the association unit is used for associating the found heart rate information and the rope skipping information with each other, and the database unit is used for storing the heart rate information and the rope skipping information.

8. A skipping-rope based data fusion method applied to the skipping-rope based data fusion system according to any one of claims 1 to 7, characterized by comprising the following steps:

9. The rope skipping-based data fusion method of claim 8, wherein the rope skipping information comprises at least one of rope skipping related data, rope skipping mac address information, rope skipping timestamp information, duration information, and calorie information.

10. The rope skipping based data fusion method of claim 9, wherein the heart rate data comprises heart rate data, heart rate time interval information, heart rate mac address information, and heart rate timestamp information.

11. The rope skipping-based data fusion method according to claim 8, wherein the process of controlling the start of the intelligent rope skipping module and the heart rate detection module in step S1 comprises:

12. The rope skipping-based data fusion method of claim 8, wherein the mutual labeling process in step S2 comprises:

13. The rope skipping based data fusion method of claim 8, further comprising:

14. A storage medium on which a computer program is stored which, when being executed by a processor, carries out the fusion method according to any one of claims 8 to 13.

15. A terminal comprising a processor and a memory;

the memory is used for storing a computer program;

the processor is configured to execute the computer program stored in the memory to cause the terminal to implement the fusion method according to any one of claims 8 to 13.