CN112843662A - Wearable device, system and method for monitoring exercise completion degree - Google Patents

Abstract

The invention provides a wearable device, a system and a method for monitoring the completion degree of movement, wherein the wearable device monitors the completion degree of movement based on a UWB ranging system and comprises a positioning tag, the positioning tag is used for calculating the distance between the positioning tag and a positioning base station through the time difference of signals transmitted and received between the positioning tag and the positioning base station, transmitting the distance out, and obtaining the movement times, the completion degree of movement and the energy consumption of a user through calculation. The distance between the positioning label and the positioning base station in the movement process of the user can be accurately obtained through the UWB-based ranging system, the grade of the movement completion degree is clearly distinguished, the problem of counting errors of the user in the training process is solved, and the user is helped to count the movement completion degree.

Description

Wearable device, system and method for monitoring exercise completion degree

Technical Field

The invention relates to the technical field of software systems, in particular to a wearable device, a wearable system and a wearable method for monitoring the completion degree of movement.

Background

In sporting events or fitness training, it is often necessary to count, for example, a group of 50 times a jump, a group of 40 sit-ups, etc. Since the training person is tired and has no effort to count during the training process, the problem of counting errors is easy to occur. In order to solve this problem, it is a waste to arrange a counter. Therefore, in the course of exercise, electronic calculation is usually performed by using motion technology sensors (such as acceleration sensors, etc.), but these motion technology sensors only record the number of times that the trainer completes, and cannot specifically represent the degree of completion of the exercise of the exerciser.

Therefore, there is a need for a device that can help users count and count the completion of exercise during training.

Disclosure of Invention

The invention aims to provide a wearable device, a wearable system and a wearable method for monitoring exercise completion, which can solve the problem of counting errors of a user in a training process and can help the user to count the exercise completion.

In order to solve the above problems, the present invention provides a wearable device for monitoring exercise completion, wherein the wearable device monitors exercise completion based on a UWB ranging system, and comprises a positioning tag, wherein the positioning tag is configured to calculate a distance between the positioning tag and a positioning base station according to a time difference between a transmission time and a reception time of a signal from the positioning tag and the positioning base station, and to transmit the distance, and obtain exercise times, exercise completion, and energy consumption of a user through calculation.

Optionally, the exercise device further comprises a first display module, wherein the first display module is used for displaying the exercise times, the exercise completion degree and the consumed energy of the user.

The distance display device further comprises an operation module, wherein the operation module, the positioning label and the first display module are in communication connection, and the operation module is used for receiving the distance sent by the positioning label in real time, calculating the movement times, the movement completion degree and the energy consumption of a user according to the distance, and sending the movement times, the movement completion degree and the energy consumption to the first display module.

Optionally, the positioning tag includes a UWB positioning tag, and the positioning base station includes a UWB positioning base station.

Optionally, the system further comprises an early warning module, wherein the early warning module is used for giving out an early warning when the motion completion degree of the user does not reach the standard.

On the other hand, the invention also provides a system for monitoring the completion degree of the movement, which comprises a positioning base station, a calculation control unit and the wearing device for monitoring the completion degree of the movement, wherein the wearing device, the positioning base station and the calculation control unit are in communication connection, the positioning base station is arranged at a target position, and the wearing device is configured on the body of a user;

the positioning base station is used for calculating the distance between the wearing device and the positioning base station through the time difference of the sending and receiving signals and sending the distance to the calculation control unit;

the calculation control unit is used for receiving the distance in real time and calculating the motion times, the motion completion degree and the energy consumption of the user according to the distance, and the calculation control unit sends the motion times, the motion completion degree and the energy consumption of the user.

Optionally, the exercise device further comprises a second display module, the second display module is in communication connection with the calculation control unit, and the second display module is used for receiving and displaying the exercise times, exercise completion and energy consumption of the user sent by the calculation control unit.

In another aspect, the present invention further provides a method for monitoring exercise completion, including the above system for monitoring exercise completion, including the following steps:

step S10: providing an environment with a plurality of sports apparatuses, wherein each sports apparatus is fixed with a positioning base station, and a user carries wearable equipment to enter the environment;

step S20: a user selects a sports apparatus and establishes communication connection between a positioning label of the wearable device carried by the user and a positioning base station on the sports apparatus;

step S30: when the user starts to move, the distance sent by the control unit through the positioning base station is calculated, and the movement times, the movement completion degree and the energy consumption of the user are calculated in real time according to the distance; and

step S40: judging the end of the movement, if not, returning to the step S20; and if the communication connection between the positioning label carrying the wearable equipment and the positioning base station on the sports equipment is ended, disconnecting the communication connection.

Optionally, step S20 includes:

after the user stops moving, the calculation control unit judges whether the movement is finished according to the distance between the positioning label on the wearable device carried by the user and the positioning base station on the selected sports equipment;

if the position between the positioning tag and the positioning base station on the selected exercise equipment still changes periodically, the exercise is judged not to be finished, the step S20 is returned, the user selects the exercise equipment to continuously establish the communication connection between the positioning tag carrying the wearable equipment and the positioning base station on the exercise equipment, and the calculation control unit calculates the number of times of exercise, the exercise completion degree and the consumed energy of the user according to the distance;

and if the movement is finished, disconnecting the communication connection between the positioning label carrying the wearable equipment and the positioning base station on the sports equipment.

Compared with the prior art, the invention has the following beneficial effects:

the invention provides a wearable device, a system and a method for monitoring the completion degree of movement, wherein the wearable device monitors the completion degree of movement based on a UWB ranging system and comprises a positioning tag, the positioning tag is used for calculating the distance between the positioning tag and a positioning base station through the time difference of signals transmitted and received between the positioning tag and the positioning base station, transmitting the distance out, and obtaining the movement times, the completion degree of movement and the energy consumption of a user through calculation. The distance between the positioning label and the positioning base station in the movement process of the user can be accurately obtained through the UWB-based ranging system, the grade of the movement completion degree is clearly distinguished, the problem of counting errors of the user in the training process is solved, and the user is helped to count the movement completion degree.

Drawings

FIG. 1 is a schematic diagram of a system for monitoring the completion of a workout in accordance with one embodiment of the present invention in a gym application;

FIGS. 2a-2c are schematic diagrams of a system for monitoring the completion of a sport in a high-touch sport according to an embodiment of the present invention;

FIGS. 3a-3b are schematic views of a system for monitoring the completion of exercise during chest movements of an instrument in accordance with an embodiment of the present invention;

FIG. 4 is a block diagram of a wearable device for monitoring the completion of an exercise in accordance with one embodiment of the present invention;

FIG. 5 is a block diagram of a system for monitoring the completion of a movement according to one embodiment of the present invention;

fig. 6 is a control flow chart of a method for monitoring motion completion according to an embodiment of the invention.

Description of reference numerals:

100. 101, 102, 103-positioning base stations;

200-a wearable device; 210. 211, 212-positioning tags; 220-a first display module; 230-an operation module; 240-early warning module;

300-a calculation control unit;

400-second display module.

Detailed Description

A wearable device, system and method for monitoring the completion of an exercise according to the present invention will be described in further detail below. The present invention will now be described in more detail with reference to the accompanying drawings, in which preferred embodiments of the invention are shown, it being understood that one skilled in the art may modify the invention herein described while still achieving the advantageous effects of the invention. Accordingly, the following description should be construed as broadly as possible to those skilled in the art and not as limiting the invention.

In the interest of clarity, not all features of an actual implementation are described. In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail. It will of course be appreciated that in the development of any such actual embodiment, numerous implementation-specific details must be set forth in order to achieve the developer's specific goals, such as compliance with system-related and business-related constraints, which will vary from one implementation to another. Moreover, it will be appreciated that such a development effort might be complex and time-consuming, but would nevertheless be a routine undertaking for those of ordinary skill in the art.

In order to make the objects and features of the present invention more comprehensible, embodiments of the present invention are described in detail below with reference to the accompanying drawings. It is to be noted that the drawings are in a very simplified form and are all used in a non-precise ratio for the purpose of facilitating and distinctly aiding in the description of the embodiments of the invention.

The UWB (Ultra Wide Band) technology is a wireless carrier communication technology, which uses nanosecond-level non-sine wave narrow pulses to transmit data, and the data transmission rate can reach several hundred megabits per second or more. UWB technology system complexity is low, and transmitted signal power is low, has extremely strong penetrability, can carry out accurate positioning indoor and underground, and different with GPS provides absolute geographical position, the relative position can be given to the ultra wide band radio locator, and its positioning accuracy can reach centimetre level.

The principle of the UWB ranging system is that the distance between a UWB tag and a UWB base station is calculated through the transmission time and the light speed of wireless signals between the UWB tag and the UWB base station.

In the UWB ranging system, the communication connection between one UWB tag and one UWB base station can realize zero-dimensional positioning; the communication connection between one UWB tag and two UWB base stations can realize one-dimensional positioning; the two-dimensional positioning can be realized by the communication connection of one UWB tag and 3 or 4 UWB base stations; the communication connection of one UWB tag and more than 4 (for example, 6) UWB base stations can realize three-dimensional positioning.

Fig. 5 is a block diagram of a system for monitoring the completion of a movement according to the present embodiment. As shown in fig. 5, the present embodiment provides a system for monitoring the completion of a movement, which is based on a UWB ranging system. The system for monitoring the completion degree of the movement comprises a wearable device 200 for monitoring the completion degree of the movement, a positioning base station 100 and a calculation control unit 300, wherein the wearable device 200, the positioning base station 100 and the calculation control unit 300 are in communication connection.

Fig. 4 is a block diagram of the wearable device for monitoring the completion of exercise according to the present embodiment. As shown in fig. 4, the wearable device 200 may be worn on the body of a user, such as the wrist or ankle, and may be placed on the clothing of the user. Specifically, for example, in high jump and high touch sports, the wearable device 200 is sleeved on the wrist, ankle or neck of the user, and can be placed in clothes such as a hat, a pocket, a belt and the like of the user; the device is sleeved on the wrist of the user during the chest clamping movement of the instrument. The exercise completion degree of the present embodiment is graded according to the distance between the wearable device 200 and the positioning base station 100. The wearable device 200 may be a bracelet or a magnetic card, the wearable device 200 includes a positioning tag 210, the positioning tag 210 is a UWB positioning tag, for example, the positioning tag 210 is configured to calculate a distance between the positioning tag 210 and the positioning base station 100 through a time difference between the positioning tag and the positioning base station 100, and send the distance, for example, to the operation module 230.

Fig. 1 is a schematic diagram of the system for monitoring exercise completion degree in the gymnasium application according to the embodiment. As shown in fig. 1, in the present embodiment, two positioning tags 211, 212 are respectively connected to the 3 positioning base stations 101, 102, 103 in a communication manner, so that one positioning tag can measure distances of multiple sports apparatuses at the same time to monitor the completion degree of the user.

Referring to fig. 5, the positioning base station 100 is, for example, a UWB positioning base station, and the positioning base station 100 is configured to calculate a distance between the wearable device 200 and the positioning base station 100 according to a time difference between a transmission time and a reception time, and transmit the distance to the calculation control unit 300. The positioning base station 100 is provided on a sports apparatus, for example, in a touchup motion, the positioning base station 100 is provided at a target position (i.e., an object needs to be touched).

Referring to fig. 5, the calculation control unit 300 receives the distance from the positioning base station 100 in real time, calculates the number of movements of the user in the movement and the movement completion degree of each movement according to the distance, and obtains the energy consumed by the user, i.e., calories, according to the movement completion degree and the movement number, so that the system for monitoring the movement completion degree can obtain the accurate distance between the positioning tag 210 and the positioning base station 100 during the movement of the user, and clearly distinguish the level of the movement completion degree, thereby solving the problem of counting errors of the user during the training process, and helping the user to count the movement completion degree.

Fig. 2a-2c are schematic diagrams illustrating the setup of the system for monitoring the completion degree of exercise in the high-touch exercise according to the present embodiment. As shown in fig. 2a-2c, in the jump exercise, the positioning base station 100 is disposed at a target position (where the jump ball is located) on the exercise device, the wearing device 200 is sleeved on a wrist where the user needs to jump, the distance between the positioning tag 210 and the positioning base station 100 is relatively long before the user jumps up, in the jump and jump exercise process, the positioning tag 210 gradually approaches to the positioning base station 100, and the distance between the positioning tag 210 and the positioning base station 100 is relatively far away along with the action of the user dropping down to the ground, in this process, the distance between the positioning tag 210 and the positioning base station 100 is measured in real time, and the calculation control unit 300 calculates the number of times of the jump and the completion degree of the jump and the consumed calories of the user according to the variation cycle of the exercise distance of the user.

Fig. 3a-3b are schematic diagrams illustrating the arrangement of the system for monitoring the completion degree of movement in the chest clamping movement of the instrument according to the embodiment. As shown in fig. 3a-3b, please refer to fig. 5, in the chest clamping movement of the apparatus, the positioning base station 100 is disposed on one handle of the apparatus, the wearable device 200 is sleeved on the wrist of the user holding the other handle, in the chest clamping movement of the apparatus, the positioning tag 210 gradually approaches the positioning base station 100 along with the approach of the two hands of the user, and keeps away from the positioning base station 100 along with the distance of the two hands of the user, in this process, the positioning tag 210 and the positioning base station 100 measure the distance therebetween in real time, and the calculation control unit 300 calculates the chest clamping movement times, the movement completion degree, the consumed calories, and the like of the apparatus of the user according to the distance.

Referring to fig. 4, optionally, the wearable device 200 further includes a first display module 220, the first display module 220 is in communication connection with the calculation control unit 300, the calculation control unit 300 sends the calculation result to the wearable device 200, and the wearable device 200 displays the calculation result through the first display module 220, for example, the first display module 220 displays the exercise category, the exercise frequency, the action completion degree, the calories consumed by the user, and the like.

Referring to fig. 4, optionally, the wearable device 200 may further include an operation module 230, where the operation module 230, the positioning tag 210 and the first display module 220 are in communication connection, and the operation module 230 receives the distance sent by the positioning base station 100 in real time, calculates the number of exercises performed by the user and the completion degree of the movement in each exercise according to the distance, and obtains calories consumed by the user according to the completion degree of the movement and the number of exercises. The calculation and the calculation control unit 300 may perform calculation at the same time, and send the calculation result to the first display module 220 and/or the calculation control unit 300, so that the calculation control unit 300 may compare the calculation results of the two, thereby preventing the calculation from being wrong, and the wearable device 200 may perform calculation by itself without depending on the calculation control unit.

Referring to fig. 4, optionally, the wearable device 200 may further include an early warning module 240, and when the exercise completion degree of the user does not reach the standard, the early warning module 240 sends an early warning to remind the user.

Referring to fig. 5, optionally, the system for monitoring exercise completion degree further includes a second display module 400, the wearable device 200 and the calculation control unit 300 are in communication connection, and the second display module 400 is configured to display the exercise times, exercise completion degree and energy consumption of the user calculated by the wearable device 200 and/or the calculation control unit 300.

The distance between the exercise part of the user and the exercise equipment can be accurately measured by the UWB distance measuring technology in the embodiment, the exercise frequency of the user can be accurately calculated according to the change period of the exercise distance of the user, whether the exercise completion degree of the user reaches the standard or not is judged according to the exercise distance of the user, a prompt is given, and calories consumed by the user are calculated according to the exercise frequency and the exercise completion degree of the user.

The embodiment also provides a method for monitoring the completion degree of the movement, which comprises the following steps:

step S10: providing an environment with a plurality of sports apparatuses, wherein each sports apparatus is fixed with a positioning base station, and a user carries wearable equipment to enter the environment;

step S20: a user selects a sports apparatus and establishes communication connection between a positioning label of the wearable device carried by the user and a positioning base station on the sports apparatus;

step S30: when the user starts to move, the distance sent by the control unit through the positioning base station is calculated, and the movement times, the movement completion degree and the energy consumption of the user are calculated in real time according to the distance; and

step S40: judging the end of the movement, if not, returning to the step S20; and if the communication connection between the positioning label carrying the wearable equipment and the positioning base station on the sports equipment is ended, disconnecting the communication connection.

The execution steps of the method of monitoring the degree of completion of a movement will be described in detail below in connection with fig. 1-6.

Fig. 6 is a control flowchart of the method for monitoring the completion of movement according to the present embodiment. As shown in fig. 6, step S10 is executed to provide an environment with a plurality of exercise apparatuses, each of the exercise apparatuses has a positioning base station 100 fixed thereon, and a user enters the environment with the wearable device 200, and the positioning tag 210 of the wearable device 200 and the positioning base station 100 fixed on each of the exercise apparatuses can establish a communication connection.

The method specifically comprises the following steps:

firstly, an environment with a plurality of sports apparatuses is provided, each of the sports apparatuses is fixed with a positioning base station 100, and the positioning base station 100 fixed on each of the sports apparatuses can establish communication connection with a plurality of positioning tags 210.

Then, the user carries the wearable device 200 into the environment, and the positioning tag 210 of the wearable device 200 and the positioning base station 100 fixed on each of the exercise apparatuses can establish a communication connection.

Then, step S20 is executed, and the user selects an exercise apparatus and establishes a communication connection between the positioning tag 210 of the wearable device carried by the user and the positioning base station 100 on the exercise apparatus.

Specifically, the user selects an exercise apparatus according to the requirement, and opens the communication connection between the positioning tag 210 and the selected positioning base station 100 on the exercise apparatus by swiping a card, at this time, the positioning tag 210 and the positioning base station 100 start ranging. The selected exercise type, such as a bounce type, a waist and abdomen strength type, or a limb strength type, is determined according to the card swiping result, and the wearable device 200 may specifically display the name of the selected exercise apparatus, such as a height measuring apparatus, a bounce apparatus, a chest clamping apparatus, and the like.

Next, step S30 is executed, the user starts to move, the distance sent by the control unit 300 through the positioning base station 100 is calculated, and the number of movements, the degree of completion of the movement, and the energy consumption of the user are calculated in real time according to the distance.

Specifically, the method comprises the following steps:

the positioning base station 100 transmits a distance, and the distance changes periodically with the change of time, and the calculation control unit 300 calculates the number of times the user gets high, the completion degree of the high, the consumed energy (calorie), etc. according to the change period of the user's movement distance.

The following table distances illustrate the criteria for the exercise completion of the different exercise apparatus used by the user:

the above table classifies the completion degree of the exercise, and the calculation control unit 300 can determine the completion degree of the exercise by the above distance when the exercise distance of each exercise is known, for example, the classification of the completion degree of the exercise is divided into four classes, i.e. excellent, good, qualified and failed, and specifically, in the bouncing category, if the distance between the positioning tag 210 and the positioning base station 100 is less than 10cm, the completion degree of the exercise is excellent; the distance between the positioning tag 210 and the positioning base station 100 is between 10cm and 20cm, which indicates that the movement completion degree is good; the distance between the positioning tag 210 and the positioning base station 100 is 20 cm-30 cm, which indicates that the motion completion degree is qualified; if the distance between the positioning tag 210 and the positioning base station 100 is greater than 30cm, it indicates that the exercise completion is failed, and counts the completion times of each level of completion in the whole exercise process and the total completion times, and finally the calculation control unit 300 calculates the calories consumed by the user in the exercise according to the completion times and the completion times. The formula for calculating the energy consumed by the user at each device is:

energy consumed by a single device ∑ (number of completions × standard calorie completion weight).

The following table specifically illustrates the user's performance under the criteria of the exercise completion of the three exercise apparatus of fig. 1:

in the above table, device 1 is a device provided with a positioning base station 101, device 2 is a device provided with a positioning base station 102, and device 3 is a device provided with a positioning base station 103, and the calories obtained by the user at device 1 can be obtained according to the above table and the calculation formula of energy consumption: 10 × 5 × 1+5 × 0.8+5 × 0.6+2 × 5 × 0.2 ═ 87 cal cards; the calories obtained at the apparatus 2 are: 10 x 3 x 1+10 x 3 x 0.8+10 x 3 x 0.6 ═ 72 cards; the calories obtained at the apparatus 3 are: 15 × 4 × 1+2 × 4 × 0.2 ═ 61.6 cards, and finally, according to the total calories consumed by the user on the various devices used: 87+72+61.6 ═ 220.6 cards.

Then, step S40 is executed to determine that the exercise is finished, and if not finished, the process returns to step S20, and if the disconnection of the communication connection between the positioning tag 210 carrying the wearable device and the positioning base station 100 on the exercise apparatus is finished.

Specifically, after the user stops exercising, the calculation control unit 300 determines whether the exercise is finished according to the distance between the positioning tag 210 on the wearable device 200 carried by the user and the positioning base station 100 on the selected exercise device, and if the position between the positioning tag 210 and the positioning base station 100 on the selected exercise device is still periodically changed, it determines that the exercise is not finished, the process returns to step S20, the user selects an exercise device to continuously establish a communication connection between the positioning tag 210 carrying the wearable device and the positioning base station 100 on the exercise device, and the calculation control unit 300 calculates the exercise frequency, the exercise completion degree, the calorie consumed, and the like of the user according to the distance. If the movement is finished, the communication connection between the positioning label 210 carrying the wearable device and the positioning base station 100 on the sports equipment is disconnected.

The exercise of one exercise machine is completed through the above steps, if the user needs to reselect one exercise machine to exercise, the above steps S20-S40 are repeated, the exercise frequency, the exercise completion degree, the consumed calories and the like of the user using the reselected exercise machine are calculated, finally, the exercise frequency, the exercise completion degree and the consumed calories of the user on all the exercise machines used by the user are uniformly displayed, and the total consumed calories are displayed.

In summary, the present invention provides a wearable device, a system and a method for monitoring exercise completion, wherein the wearable device monitors exercise completion based on a UWB ranging system, and includes a positioning tag, the positioning tag is configured to calculate a distance between the positioning tag and a positioning base station according to a time difference between a transmitting time and a receiving time of a signal from the positioning base station, and transmit the distance, so as to obtain exercise frequency, exercise completion and energy consumption of a user through calculation. The distance between the positioning label and the positioning base station in the movement process of the user can be accurately obtained through the UWB-based ranging system, the grade of the movement completion degree is clearly distinguished, the problem of counting errors of the user in the training process is solved, and the user is helped to count the movement completion degree.

In addition, unless otherwise specified or indicated, the description of the terms "first" and "second" in the specification is only used for distinguishing various components, elements, steps and the like in the specification, and is not used for representing logical relationships or sequential relationships among the various components, elements, steps and the like. It is to be understood that while the present invention has been described in conjunction with the preferred embodiments thereof, it is not intended to limit the invention to those embodiments. It will be apparent to those skilled in the art from this disclosure that many changes and modifications can be made, or equivalents modified, in the embodiments of the invention without departing from the scope of the invention. Therefore, any simple modification, equivalent change and modification made to the above embodiments according to the technical essence of the present invention are still within the scope of the protection of the technical solution of the present invention, unless the contents of the technical solution of the present invention are departed.

Claims (10)

1. The utility model provides a wearing device of control motion completion degree, the device monitors the motion completion degree based on UWB ranging system, its characterized in that includes the location label, the location label is used for through with the location between the basic station send with the time difference of received signal calculate the distance between location label and the location basic station, and will the distance is sent out, obtains user's motion number of times, motion completion degree and energy consumption through the calculation.

2. The wearable device for monitoring the completion of an exercise of claim 1, further comprising a first display module for displaying the number of exercises, the completion of the exercise, and the energy expenditure of the user.

3. The wearable device for monitoring the completion degree of exercise according to claim 2, further comprising an operation module, wherein the operation module, the positioning tag and the first display module are in communication connection, and the operation module is configured to receive the distance sent by the positioning tag in real time, calculate the number of exercise, the completion degree of exercise and the energy consumption of the user according to the distance, and send the number of exercise, the completion degree of exercise and the energy consumption to the first display module.

4. The wearable device for monitoring the completion of movement of claim 1, wherein the positioning tag comprises a UWB positioning tag and the positioning base station comprises a UWB positioning base station.

5. The wearable device for monitoring the completion of sports of claim 1, further comprising an early warning module for issuing an early warning when the completion of sports of the user does not meet a predetermined standard.

6. A system for monitoring the completion degree of sports, which is characterized by comprising a positioning base station, a calculation control unit and a wearable device for monitoring the completion degree of sports, wherein the wearable device, the positioning base station and the calculation control unit are in communication connection, the positioning base station is arranged at a target position, and the wearable device is arranged on a user;

the positioning base station is used for calculating the distance between the wearing device and the positioning base station through the time difference of the sending and receiving signals and sending the distance to the calculation control unit;

the calculation control unit is used for receiving the distance in real time and calculating the motion times, the motion completion degree and the energy consumption of the user according to the distance, and the calculation control unit sends the motion times, the motion completion degree and the energy consumption of the user.

7. The system for monitoring exercise completion according to claim 6, further comprising a second display module, wherein the second display module is communicatively connected to the calculation control unit, and the second display module is configured to receive and display the exercise times, exercise completion and energy consumption of the user sent by the calculation control unit.

8. A method of monitoring the completion of a sport, including a system for monitoring the completion of a sport according to claim 6 or 7, characterized by the steps of:

step S10: providing an environment with a plurality of sports apparatuses, wherein each sports apparatus is fixed with a positioning base station, and a user carries wearable equipment to enter the environment;

step S20: a user selects a sports apparatus and establishes communication connection between a positioning label of the wearable device carried by the user and a positioning base station on the sports apparatus;

step S30: when the user starts to move, the distance sent by the control unit through the positioning base station is calculated, and the movement times, the movement completion degree and the energy consumption of the user are calculated in real time according to the distance; and

step S40: judging the end of the movement, if not, returning to the step S20; and if the communication connection between the positioning label carrying the wearable equipment and the positioning base station on the sports equipment is ended, disconnecting the communication connection.

9. The method of claim 8, wherein step S20 includes:

the user selects one sports apparatus according to the requirement, and the communication connection between the positioning tag and the selected positioning base station on the sports apparatus is opened in a card swiping mode.

10. The method of claim 8, wherein step S40 includes:

after the user stops moving, the calculation control unit judges whether the movement is finished according to the distance between the positioning label on the wearable device carried by the user and the positioning base station on the selected sports equipment;

if the position between the positioning label and the positioning base station on the selected exercise equipment still changes periodically, the exercise is judged not to be finished, the step S20 is returned, the user selects the exercise equipment to continuously establish the communication connection between the positioning label carrying the wearing equipment and the positioning base station on the exercise equipment, and the calculation control unit calculates the exercise frequency, the exercise completion degree and the consumed energy of the user according to the distance;

and if the movement is finished, disconnecting the communication connection between the positioning label carrying the wearable equipment and the positioning base station on the sports equipment.

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