CN112156444A - Blood oxygen characteristic detection method and system - Google Patents

Abstract

The utility model provides a blood oxygen characteristic detection's system, its characterized in that includes a plurality of wearing equipment, and one of them supplies the coach to use, and all the other training personnel that supply use, every wearing equipment use the same configuration, and this wearing equipment can satisfy at least and inserts triaxial motion sensor, gyroscope, question sensor and heart rate sensor, wearing equipment and agreement gateway signal connection, and the server carries out analysis processes to wearing equipment's sensing data. A method for detecting blood oxygen characteristics specifically comprises the following steps: the method comprises the following steps: the wearable equipment detects a coach and a trainer and generates sensing data; step two: the wearable device marks the sensing data according to the device number of the wearable device; step three: the marked sensing data is transmitted to a protocol gateway; step four: transmitting the marked sensing data to a server through a protocol gateway; step five: the server extracts the sensing data of the coach as a standard sample by identifying the equipment number of the coach; step six: and comparing and analyzing the data of the trainees with the sensing data of the trainees, calculating all difference values and counting one by one. The technical effect of the application can be based on the prior art, and provides a method and a system for detecting blood oxygen characteristics, which can analyze the difference between a trainer and a coach in real time, further judge the training effect, and can be effectively used as scientific reference basis.

Description

Blood oxygen characteristic detection method and system

Technical Field

The invention relates to the technical field of measurement, in particular to a method and a system for detecting blood oxygen characteristics.

Background

In the exercise training process, how to achieve precision and obtain sufficient training is always a key problem for examining the training results.

Currently, human body characteristics can be obtained by using a sensor, and a corresponding detection method and a corresponding detection system are not developed in combination with exercise training at present, among which, the detection of the characteristics of blood oxygen is particularly critical, and particularly, blood oxygen parameters under different exercise states can directly reflect the training results.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a method and a system for detecting blood oxygen characteristics,

first, a blood oxygen feature detection system includes several wearable devices, one for a trainer and the others for a trainer, each wearable device using the same configuration.

This wearing equipment adopts following integrated mode, and the chip interface of adoption can satisfy at least and inserts triaxial motion sensor, gyroscope, body temperature sensor and heart rate sensor. Usually, the bottom layer of the chip is a self-contained timer, and a corresponding needed rule is programmed when needed.

Wearing equipment and agreement gateway signal connection, can be the mode of WIFI or bluetooth, agreement gateway and server signal connection, the server carries out analysis processes to wearing equipment's sensing data.

Therefore, the following describes a method for detecting blood oxygen characteristics, which includes:

the method comprises the following steps: the wearable device detects coaches and trainers and generates sensing data.

Step two: the wearable device labels the sensing data with the device number of the wearable device.

Step three: and transmitting the marked sensing data to a protocol gateway.

Step four: and transmitting the marked sensing data to a server through a protocol gateway.

Step five: the server extracts the sensing data of the trainer as a standard sample by identifying the equipment number of the trainer.

It should be explained here that the device numbers of the trainer and the device numbers of the trainees are stored in the server in advance, and only relevant comparison is needed to judge whether different sensing data come from the trainees or the trainees.

Step six: and comparing and analyzing the data of the trainees with the sensing data of the trainees, calculating all difference values and counting one by one. Namely the detection values of the three-axis motion sensor, the gyroscope, the body temperature sensor and the heart rate sensor.

The method also comprises the seventh step: the server sets a threshold and an interval of the sensing data, and such a mode is commonly used in various scoring systems. This allows a quick analysis of the training difference between the trainer and the coach.

The technical effect of the application can be based on the prior art, and provides a method and a system for detecting blood oxygen characteristics, which can analyze the difference between a trainer and a coach in real time, further judge the training effect, and can be effectively used as scientific reference basis.

Drawings

Fig. 1 is a schematic diagram of a system for blood oxygen feature detection according to the present application.

Fig. 2 is a schematic view of an integration manner of the wearable device of the present application.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. 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.

As shown in fig. 1-2, first, a blood oxygen feature detection system includes several wearable devices, one of which is used by a trainer and the other of which is used by a trainer, and each wearable device uses the same configuration.

This wearing equipment adopts following integrated mode, and the chip interface of adoption can satisfy at least and inserts triaxial motion sensor, gyroscope, body temperature sensor and heart rate sensor. Usually, the bottom layer of the chip is a self-contained timer, and a corresponding needed rule is programmed when needed.

Wearing equipment and agreement gateway signal connection, can be the mode of WIFI or bluetooth, agreement gateway and server signal connection, the server carries out analysis processes to wearing equipment's sensing data.

Therefore, the following describes a method for detecting blood oxygen characteristics, which includes:

the method comprises the following steps: the wearable device detects coaches and trainers and generates sensing data.

Step two: the wearable device labels the sensing data with the device number of the wearable device.

Step three: and transmitting the marked sensing data to a protocol gateway.

Step four: and transmitting the marked sensing data to a server through a protocol gateway.

Step five: the server extracts the sensing data of the trainer as a standard sample by identifying the equipment number of the trainer.

It should be explained here that the device numbers of the trainer and the device numbers of the trainees are stored in the server in advance, and only relevant comparison is needed to judge whether different sensing data come from the trainees or the trainees.

Step six: and comparing and analyzing the data of the trainees with the sensing data of the trainees, calculating all difference values and counting one by one. Namely the detection values of the three-axis motion sensor, the gyroscope, the body temperature sensor and the heart rate sensor.

The method also comprises the seventh step: the server sets a threshold and an interval of the sensing data, and such a mode is commonly used in various scoring systems. This allows a quick analysis of the training difference between the trainer and the coach.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (3)

1. A blood oxygen characteristic detection system is characterized by comprising a plurality of wearing devices, wherein one wearing device is used by a coach, the other wearing devices are used by a trainer, each wearing device uses the same configuration,

this wearing equipment can satisfy at least and insert triaxial motion sensor, the gyroscope, ask for questions sensor and rhythm of the heart sensor, wearing equipment and agreement gateway signal connection, and the server carries out analysis processes to wearing equipment's sensing data.

2. The method for blood oxygen feature detection according to claim 1, comprising:

the method comprises the following steps: the wearable equipment detects a coach and a trainer and generates sensing data;

step two: the wearable device marks the sensing data according to the device number of the wearable device;

step three: the marked sensing data is transmitted to a protocol gateway;

step four: transmitting the marked sensing data to a server through a protocol gateway;

step five: the server extracts the sensing data of the coach as a standard sample by identifying the equipment number of the coach;

step six: and comparing and analyzing the data of the trainees with the sensing data of the trainees, calculating all difference values and counting one by one.

3. A method of blood oxygen signature detection as claimed in claim 2 wherein: the method also comprises the seventh step: the server is internally provided with a threshold value and an interval of sensing data, and the training difference between the training personnel and the trainer is analyzed.

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