CN114663999A - Running timing management method and system - Google Patents

Abstract

The invention provides a running timing management method and a running timing management system.A unique ID information is written in a tag card in advance, a pre-check activation is carried out through an intelligent terminal before running, and a low-power consumption standby mode is entered after the pre-check activation; establishing a corresponding association relationship between the tag card and the athlete through an intelligent terminal; when the athlete carries the tag card to reach a timing induction area on a runway in the running process, the carpet type sensor wakes up the tag card and reads the ID information of the tag card and sends the ID information to a reader through a wireless network; the reader adds timestamp information after receiving the ID information of the tag card and transmits the timestamp information to the intelligent terminal through a network; and the intelligent terminal performs lap counting according to the received ID information and the timestamp information of the tag card and then correspondingly stores the lap counting. The invention can automatically record and count the running time and the number of turns of the athlete, eliminates the interference of human factors and has high precision.

Description

Running timing management method and system

Technical Field

The invention relates to the technical field of computers, in particular to a running timing management method and system.

Background

In track and field training or competition projects, for example, running, the time length and the sequence of running of athletes from beginning to end need to be recorded, the conventional timing method is that counting is carried out manually in a stopwatch mode, manual circle counting needs to be carried out in cooperation with a judge, manual counting is prone to errors, the number of required judge people is large, timing precision is not accurate enough, interference of human factors is prone to being caused, and manual statistical data are prone to errors.

Disclosure of Invention

The invention aims to solve the technical problem of providing a running timing management method and a running timing management system, which can automatically record and count the running time and the number of turns of athletes, eliminate the interference of human factors and have high precision.

In a first aspect, the present invention provides a running timing management method, including:

writing unique ID information in a tag card in advance, performing pre-check activation through an intelligent terminal before running, and entering a low-power consumption standby mode after the pre-check activation;

establishing a corresponding association relationship between the tag card and the athlete through an intelligent terminal;

when an athlete carries the tag card to a timing induction area on a runway in the running process, awakening the tag card through a carpet type inductor, reading the ID information of the tag card and sending the ID information to a reader through a wireless network; (ii) a

The reader adds timestamp information after receiving the ID information of the tag card and transmits the timestamp information to the intelligent terminal through a network;

and the intelligent terminal performs lap counting according to the received ID information and the timestamp information of the tag card and then correspondingly stores the lap counting.

In a second aspect, the invention provides a running timing management system, which comprises a tag card, an intelligent terminal, a carpet type sensor and a reader, wherein the intelligent terminal is connected with the tag card; the carpet type inductor is laid on the runway and is provided with an induction antenna, and a timing induction area can be formed through the induction antenna;

the tag card is pre-written with unique ID information, pre-check activation is carried out through the intelligent terminal before running, and a low-power consumption standby mode is entered after the pre-check activation;

establishing a corresponding association relationship between the tag card and the athlete through an intelligent terminal;

when the athlete carries the tag card to reach a timing induction area on a runway in the running process, the carpet type sensor wakes up the tag card and reads the ID information of the tag card and sends the ID information to a reader through a wireless network;

the reader adds timestamp information after receiving the ID information of the tag card and transmits the timestamp information to the intelligent terminal through a network;

and the intelligent terminal performs lap counting according to the received ID information and the timestamp information of the tag card and then correspondingly stores the lap counting.

One or more technical solutions provided in the embodiments of the present invention have at least the following technical effects or advantages: bind with the sportsman through the only ID information of writing in advance in the tag card to get into low-power consumption standby mode after going on the preliminary examination activation through intelligent terminal before running, awaken up through the carpet formula inductor that timing induction area set up on the runway the tag card, every time awaken up, the tag card just sends ID information and gives and reads the ware, add the time stamp information by reading the ware and send for intelligent terminal again, the time stamp information is accurate to the millisecond level, intelligent terminal just can accurately record and count sportsman's running time and number of turns, timing management when realizing the training at ordinary times of every sportsman or match, and get rid of the interference of human factor, the precision is high.

The foregoing description is only an overview of the technical solutions of the present invention, and the embodiments of the present invention are described below in order to make the technical means of the present invention more clearly understood and to make the above and other objects, features, and advantages of the present invention more clearly understandable.

Drawings

The invention will be further described with reference to the following examples with reference to the accompanying drawings.

FIG. 1 is a schematic block diagram of the system of the present invention;

FIG. 2 is a flow chart of a method according to one embodiment of the present invention;

fig. 3 is a schematic layout view of a timing sensing area on a runway according to an embodiment of the invention.

Detailed Description

The embodiment of the application provides a running timing management method and system, so that running time and number of turns of athletes can be automatically recorded and counted, interference of human factors is eliminated, and the accuracy is high.

The technical scheme in the embodiment of the application has the following general idea: bind with the sportsman through the only ID information of writing in advance in the tag card to get into low-power consumption standby mode after going on the preliminary examination activation through intelligent terminal before running, awaken up through the carpet formula inductor that timing induction area set up on the runway the tag card, every time awaken up, the tag card just sends ID information and gives and reads the ware, add the time stamp information by reading the ware and send for intelligent terminal again, the time stamp information is accurate to the millisecond level, intelligent terminal just can accurately record and count sportsman's running time and number of turns, timing management when realizing the training at ordinary times of every sportsman or match, and get rid of the interference of human factor, the precision is high.

Before describing the specific embodiment, a system framework corresponding to the method of the embodiment of the present application is described, and as shown in fig. 1, the system is roughly divided into three parts:

the tag card can be a 2.4G tag card, unique ID information is written in the tag card in advance, and when the tag card is used, the tag card can be associated with the information of the athlete through the ID information, can be embedded in sportswear (such as a sports vest) or sports shoes of the athlete for the convenience of carrying of the athlete, and can also be arranged on wearing equipment such as a bracelet and the like;

the carpet type sensor is a 2.4G label card sensor, is specially designed for sensing a label card, is in a carpet shape, is laid in an area needing timing or counting the number of turns on a runway, is provided with a sensing antenna so as to form a timing sensing area on the runway, and can interact data with the carpet type sensor when the label card reaches the timing sensing area;

the reader is a specially designed wireless communication lora (an ultra-long distance wireless transmission scheme based on a spread spectrum technology) device, and is used for reading a data packet sent by a tag card, wherein the data packet comprises ID information and electric quantity information, adding timestamp information after reading the ID information, and transmitting the timestamp information to the intelligent terminal through a network; if the electric quantity of the obtained tag card is low, the tag card can be replaced, so that the situation that the data transmission is influenced due to the fact that the signal of the tag card is too weak is avoided; the reader can also communicate with the carpet sensor or the intelligent terminal in other wireless communication modes,

and the wireless router is used for grouping the reader and the intelligent terminal into a communication network, so that data interaction between the reader and the intelligent terminal is facilitated.

The intelligent terminal has the functions of pre-checking and activating the tag card, establishing an association table of ID information of the tag card and athletes, timing with the reader, sending a starting command to the athletes and counting the scores of the athletes.

Example one

As shown in fig. 2, the present embodiment provides a running timing management method, including:

writing unique ID information in a tag card in advance, performing pre-check activation through an intelligent terminal before running, and entering a low-power consumption standby mode after the pre-check activation;

establishing a corresponding association relationship between the tag card and the athlete through an intelligent terminal;

when the athlete carries the tag card to a timing induction area on a runway in the running process, awakening the tag card through a carpet type inductor;

as shown in fig. 3, the timing sensing area on the runway

The tag card is awakened and then sends ID information to the reader;

the reader adds timestamp information after receiving the ID information of the tag card and transmits the timestamp information to the intelligent terminal through a network;

and the intelligent terminal performs lap counting according to the received ID information and the timestamp information of the tag card and then correspondingly stores the lap counting.

The preview activation specifically comprises two parts of preview and activation:

the pre-detection part refers to: the intelligent terminal opens a pre-detection function to perform pre-detection; acquiring and storing information of a tag card to be used by the running project; the label card which is pre-detected by the intelligent terminal is valid, and the label card which is not pre-detected is an invalid card; therefore, when other people outside the running project carry the tag card which is not subjected to the pre-detection to pass through the induction area, the data cannot be processed even if the tag card is identified.

The specific steps of the activation part comprise: the carpet type sensor sends a wake-up instruction to the tag card through an induction antenna, and the tag card is woken up from a low power consumption standby mode;

the label card returns ID information to the carpet type inductor;

the carpet type sensor receives the ID information and then forwards the ID information to the reader;

the reader carries out response operation after receiving the ID information, and response information returns to the tag card through the carpet type inductor;

and the tag card enters a low power consumption standby mode after receiving the response information.

During the pre-examination activation, the intelligent terminal also sets the starting point position of running according to the running distance, and sets the running circle number, the running circle minimum time consumption and the overtime time for finishing the project training or examination; the intelligent terminal sends a starting command to the athletes through voice after the timing process of the reader is finished, the starting time is recorded, and scores of the athletes are counted and uploaded to the cloud platform after the running is finished.

For example, a 400-meter runway is used for setting a 1000-meter project, a starting position and an ending position need to be reasonably set, and the ending position needs to facilitate equipment placement; the purpose of setting the timeout is to: if some people do not finish running within the specified time of the assessment, the training can be finished without continuously waiting when the overtime time is reached, and the assessment is conveniently finished.

The tag card sends ID information to the reader and also sends battery power information to the reader. The reader can judge whether the tag card can be normally used or not by reading the battery power information, and if the power is too low, the tag card is replaced.

The timing process specifically comprises the following steps: the method comprises the steps that a reader initiates a connection request to an intelligent terminal through a wireless router, the intelligent terminal gives a response connection success command, the reader sends a heartbeat command to the intelligent terminal after the connection is successful, the intelligent terminal sends a timing command to the reader, a link is kept in a connection state, the intelligent terminal sends the timing command to the reader before running starts, the reader returns a timing success message, and the timing process is finished. The time synchronization of the intelligent terminal and the reader can be ensured through the time correcting process, so that the score is more accurate. In order to ensure that the test result of each running training or competition can be accurate, the time can be calibrated before each test.

And after the carpet type sensor receives the ID information for the 1 st time, if the ID information of the corresponding tag card is not received within the following preset maximum interval time, sending a message that the tag card leaves to the reader, and recording that the received ID information is invalid information within the current time and the preset maximum interval time by the reader. Because the length of the carpet type sensor is not very long, usually, an athlete can pass through the carpet type sensor quickly, even if the tag card continuously and periodically sends the ID information to the carpet type sensor, the carpet type sensor can generally only receive the ID information for 1-2 times and forwards the ID information to the reader, the reader takes the time of receiving the ID information for the 1 st time as accurate timestamp information and sends the timestamp information to the intelligent terminal, then after the ID information is received within the maximum interval time, the current time of receiving the ID information is recorded as the time of informing the tag card to enter the low power consumption standby mode again, and then the ID information is set as invalid information. However, if the ID information of the corresponding tag card is not received within the maximum interval time, which indicates that the speed of the athlete is too fast, and the athlete has left the antenna range of the carpet sensor after sending the ID information only once, the carpet sensor sends a message that the tag card leaves to the reader, and the reader makes the tag card reenter the low power consumption standby mode.

Based on the same inventive concept, the application also provides a system corresponding to the method in the first embodiment, which is detailed in the second embodiment.

Example two

As shown in fig. 1, in the present embodiment, there is provided a running timing management system, characterized in that: the system comprises a tag card, an intelligent terminal, a carpet type sensor and a reader; the carpet type inductor is laid on the runway and is provided with an induction antenna, and a timing induction area can be formed through the induction antenna;

the method comprises the steps that unique ID information is written into a tag card in advance, pre-check activation is carried out through an intelligent terminal before running, and a low-power-consumption standby mode is entered after the pre-check activation;

establishing a corresponding association relationship between the tag card and the athlete through an intelligent terminal;

when the athlete carries the tag card to reach a timing induction area on a runway in the running process, the carpet type sensor wakes up the tag card and reads the ID information of the tag card and sends the ID information to a reader through a wireless network;

the reader adds timestamp information after receiving the ID information of the tag card and transmits the timestamp information to the intelligent terminal through a network;

and the intelligent terminal performs lap counting according to the received ID information and the timestamp information of the tag card and then correspondingly stores the lap counting.

The preview activation specifically comprises two parts of preview and activation:

the pre-detection part refers to: the intelligent terminal opens a pre-detection function to perform pre-detection; acquiring and storing information of a tag card to be used by the running project; the label card which is pre-detected by the intelligent terminal is valid, and the label card which is not pre-detected is an invalid card; therefore, when other people outside the running project carry the tag card which is not subjected to the pre-detection to pass through the induction area, the data cannot be processed even if the tag card is identified.

The specific steps of the activation part comprise: the carpet type sensor sends a wake-up instruction to the tag card through an induction antenna, and the tag card is woken up from a low-power-consumption standby mode;

the label card returns ID information to the carpet type inductor;

the carpet type sensor receives the ID information and then forwards the ID information to the reader;

the reader carries out response operation after receiving the ID information, and response information returns to the tag card through the carpet type inductor;

and the tag card enters a low power consumption standby mode after receiving the response information.

During the pre-examination activation, the intelligent terminal also sets the starting point position of running according to the running distance, and sets the running circle number, the running circle minimum time consumption and the overtime time for finishing the project training or examination; the intelligent terminal sends a starting command to the athletes through voice after the time correcting process of the intelligent terminal and the reader is finished, the starting time is recorded, and the scores of the athletes are counted and uploaded to the cloud platform after the running is finished;

the tag card sends ID information to the reader and also sends battery power information to the reader. The reader can judge whether the tag card can be normally used or not by reading the battery power information, and if the power is too low, the tag card is replaced.

The timing process specifically comprises the following steps: the method comprises the steps that a reader initiates a connection request to an intelligent terminal through a wireless router, the intelligent terminal gives a response connection success command, the reader sends a heartbeat command to the intelligent terminal after the connection is successful, the intelligent terminal sends a timing command to the reader, a link is kept in a connection state, the intelligent terminal sends the timing command to the reader before running starts, the reader returns a timing success message, and the timing process is finished. The time synchronization of the intelligent terminal and the reader can be ensured through the time correcting process, so that the score is more accurate. In order to ensure that the test result of each running training or competition can be accurate, the time can be calibrated before each test.

And after the carpet type sensor wakes up the tag card, the tag card continuously and periodically sends ID information to the carpet type sensor, the carpet type sensor does not receive the ID information of the corresponding tag card within the preset maximum interval time, then sends a message that the tag card leaves to the reader, and the reader records that the received ID information within the current time and the preset maximum interval time is invalid information. Because the length of the carpet type sensor is not very long, usually, an athlete can pass through the carpet type sensor quickly, even if the tag card continuously and periodically sends the ID information to the carpet type sensor, the carpet type sensor can generally only receive the ID information for 1-2 times and forwards the ID information to the reader, the reader takes the time of receiving the ID information for the 1 st time as accurate timestamp information and sends the timestamp information to the intelligent terminal, then after the ID information is received within the maximum interval time, the current time of receiving the ID information is recorded as the time of informing the tag card to enter the low power consumption standby mode again, and then the ID information is set as invalid information. However, if the ID information of the corresponding tag card is not received within the maximum interval time, which indicates that the speed of the athlete is too fast, and the athlete has left the antenna range of the carpet sensor after sending the ID information only once, the carpet sensor sends a message that the tag card leaves to the reader, and the reader makes the tag card reenter the low power consumption standby mode.

Since the system described in the second embodiment of the present invention is a system used for implementing the method of the first embodiment of the present invention, a person skilled in the art can understand the specific structure and the deformation of the device based on the method described in the first embodiment of the present invention, and thus the detailed description is omitted here. All the devices adopted in the method of the first embodiment of the present invention belong to the protection scope of the present invention.

The technical scheme provided in the embodiment of the application at least has the following technical effects or advantages: bind with the sportsman through the only ID information of writing in advance in the tag card to get into low-power consumption standby mode after going on the preliminary examination activation through intelligent terminal before running, awaken up through the carpet formula inductor that timing induction area set up on the runway the tag card, every time awaken up, the tag card just sends ID information and gives and reads the ware, add the time stamp information by reading the ware and send for intelligent terminal again, the time stamp information is accurate to the millisecond level, intelligent terminal just can accurately record and count sportsman's running time and number of turns, timing management when realizing the training at ordinary times of every sportsman or match, and get rid of the interference of human factor, the precision is high.

Although specific embodiments of the invention have been described above, it will be understood by those skilled in the art that the specific embodiments described are illustrative only and are not limiting upon the scope of the invention, and that equivalent modifications and variations can be made by those skilled in the art without departing from the spirit of the invention, which is to be limited only by the appended claims.

Claims (10)

1. A running timing management method is characterized by comprising the following steps: the method comprises the following steps:

writing unique ID information in a tag card in advance, performing pre-check activation through an intelligent terminal before running, and entering a low-power consumption standby mode after the pre-check activation;

establishing a corresponding association relationship between the tag card and the athlete through an intelligent terminal;

when the athlete carries the tag card to reach a timing induction area on a runway in the running process, the carpet type sensor wakes up the tag card and reads the ID information of the tag card and sends the ID information to a reader through a wireless network;

the reader adds timestamp information after receiving the ID information of the tag card and transmits the timestamp information to the intelligent terminal through a network;

and the intelligent terminal performs lap counting according to the received ID information and the timestamp information of the tag card and then correspondingly stores the lap counting.

2. A running timing management method according to claim 1, wherein: the pre-detection activation specifically comprises the following steps:

the intelligent terminal opens a pre-detection function, and acquires and stores information of the tag card used by the project;

the carpet type sensor sends a wake-up instruction to the tag card through an induction antenna, and the tag card is woken up from a low power consumption standby mode;

the label card returns ID information to the carpet type inductor;

the carpet type sensor receives the ID information and then forwards the ID information to the reader;

the reader carries out response operation after receiving the ID information, and response information returns to the tag card through the carpet type inductor;

and the tag card enters a low power consumption standby mode after receiving the response information.

3. A running timing management method according to claim 1, wherein: during the pre-examination activation, the intelligent terminal also sets the starting point position of running according to the running distance, and sets the running circle number, the running circle minimum time consumption and the overtime time for finishing the project training or examination; the intelligent terminal sends a starting command to the athletes through voice after the timing process of the reader is finished, the starting time is recorded, and scores of the athletes are counted and uploaded to the cloud platform after the running is finished.

The tag card sends ID information to the reader and also sends battery power information to the reader.

4. A running timing management method according to claim 3, wherein: the timing process specifically comprises the following steps: the method comprises the steps that a reader initiates a connection request to an intelligent terminal through a wireless router, the intelligent terminal gives a response connection success command, the reader sends a heartbeat command to the intelligent terminal after the connection is successful, the intelligent terminal sends a timing command to the reader, a link is kept in a connection state, the intelligent terminal sends the timing command to the reader before running starts, the reader returns a timing success message, and the timing process is finished.

5. A running timing management method according to claim 1, wherein: after the carpet type sensor wakes up the tag card, the tag card continuously and periodically sends ID information to the carpet type sensor, after the carpet type sensor receives the ID information for the 1 st time, the ID information of the corresponding tag card is not received in the subsequent maximum interval time, a message that the tag card leaves is sent to the reader, and the reader records that the ID information received in the current time and the preset maximum interval time is invalid information.

6. A running timing management system, comprising: the system comprises a tag card, an intelligent terminal, a carpet type sensor and a reader; the carpet type inductor is laid on the runway and is provided with an induction antenna, and a timing induction area can be formed through the induction antenna;

the tag card is pre-written with unique ID information, pre-check activation is carried out through the intelligent terminal before running, and a low-power consumption standby mode is entered after the pre-check activation;

establishing a corresponding association relationship between the tag card and the athlete through an intelligent terminal;

when the athlete carries the tag card to reach a timing induction area on a runway in the running process, the carpet type sensor wakes up the tag card and reads the ID information of the tag card and sends the ID information to a reader through a wireless network;

the reader adds timestamp information after receiving the ID information of the tag card and transmits the timestamp information to the intelligent terminal through a network;

and the intelligent terminal performs lap counting according to the received ID information and the timestamp information of the tag card and then correspondingly stores the lap counting.

7. A running timing management system as claimed in claim 6, wherein: the pre-detection activation specifically comprises the following steps:

the intelligent terminal opens a pre-check function, and information of the tag card used in the project is acquired and stored;

the carpet type sensor sends a wake-up instruction to the tag card through an induction antenna, and the tag card is woken up from a low power consumption standby mode;

the label card returns ID information to the carpet type sensor;

the carpet type sensor receives the ID information and then forwards the ID information to the reader;

the reader carries out response operation after receiving the ID information, and response information returns to the tag card through the carpet type inductor;

and the tag card enters a low power consumption standby mode after receiving the response information.

8. A running timing management system as claimed in claim 6, wherein: during the pre-examination activation, the intelligent terminal also sets the starting point position of running according to the running distance, and sets the running circle number, the running circle minimum time consumption and the overtime time for finishing the project training or examination; the intelligent terminal sends a starting command to the athletes through voice after the time correcting process of the intelligent terminal and the reader is finished, the starting time is recorded, and the scores of the athletes are counted and uploaded to the cloud platform after the running is finished;

the tag card sends ID information to the reader and also sends battery power information to the reader.

9. A running timing management system as claimed in claim 8, wherein: the timing process specifically comprises the following steps: the method comprises the steps that a reader initiates a connection request to an intelligent terminal through a wireless router, the intelligent terminal gives a response connection success command, the reader sends a heartbeat command to the intelligent terminal after the connection is successful, the intelligent terminal sends a timing command to the reader, a link is kept in a connection state, the intelligent terminal sends the timing command to the reader before running starts, the reader returns a timing success message, and the timing process is finished.

10. A running timing management system as claimed in claim 6, wherein: and after the carpet type sensor receives the ID information for the 1 st time, if the ID information of the corresponding tag card is not received in the subsequent maximum interval time, sending a message that the tag card leaves to the reader, and recording that the received ID information in the current time and the preset maximum interval time is invalid information by the reader.

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