CN112057828A - Golf swing motion parameter comprehensive acquisition method, device, computer equipment and storage medium - Google Patents

Abstract

The application relates to a golf swing motion parameter comprehensive acquisition method, a device, computer equipment and a storage medium, which comprises an activation step for responding to grip information input from the outside and activating a motion sensing medium and a heart rate sensing medium; a preliminary step for adjusting the detection frequency of the heart rate sensing medium in response to the motion information sent by the motion sensing medium; a point recording step for responding the motion information sent by the motion sensing medium, storing the corresponding motion information and the heart rate information generated by the heart rate sensing medium, and generating single motion information; a relieving step for responding the motion information sent by the motion sensing medium and adjusting the detection frequency of the heart rate sensing medium; and a segment recording step for responding to the rod releasing information input from the outside, calling the holding rod information to all single movement information in the rod releasing information interval, and generating stage movement information. The present application has the effect of high engagement data acquisition for golf club actions.

Description

Golf swing motion parameter comprehensive acquisition method, device, computer equipment and storage medium

Technical Field

The present application relates to the field of motion monitoring, and more particularly, to a method, an apparatus, a computer device, and a storage medium for comprehensively collecting parameters of a golf swing.

Background

At present, along with the development of science and technology, the collection and analysis of various body parameters in a sports state are more perfect and comprehensive, and on the basis, in the sports training, how to utilize modern scientific and technical means to collect the state of the sports ability of an athlete as truly as possible is very important for scientifically guiding the sports training and improving the sports technical level. The performance state of the athletic ability of the athlete in the athletic environment (the athletic environment state may affect the performance level of the athletic ability) can be qualitatively and quantitatively described by the correctness of the athletic technical action form completed by the athlete, the instant physical state, various dynamic physical data generated by the relevant positions of the human body in the athletic process and the relevant athletic environment data. In modern competitive sports scientific training, a comprehensive acquisition method and a comprehensive acquisition system for golf swing motion parameters are urgently needed to be researched, so that the sport technical motion form of a human body, the instant physical state occurring simultaneously with the sport technical motion, various dynamic physical data generated at relevant positions of the human body in the sport process and the sport environment data relevant to the dynamic physical data are synchronously and comprehensively acquired, and the sport capability state of an athlete can be visually, qualitatively and quantitatively described.

The prior art may refer to chinese patent with publication number CN102274028B, which discloses a method for comprehensively collecting golf swing parameters, comprising a plurality of video image collecting devices connected to an information processing server, and a collecting system of a wireless sensor network, the method comprising: starting and entering a self-detection program; waiting for receiving the acquired signals, and if the acquired signals are not completely received within the set self-checking time, stopping the system to return to a standby state; determining collected data parameters; and synchronously receiving the video data and the data signals of the sensor nodes. The invention realizes the acquisition of simultaneous motion video images, various human body motions and human body constitution dynamic data by a comprehensive synchronization method; and playing the collected motion image video, various human body motion and human body constitution dynamic data in real-time live broadcast and playback modes.

In view of the above-mentioned related art, the inventor believes that the defect that the motion acquisition intensity is not matched with the motion rule of the golf game is existed in the motion process.

Disclosure of Invention

In order to achieve high-fitness data acquisition of golf club swing, the present application provides a method, apparatus, computer device and storage medium for integrated acquisition of golf swing parameters.

In a first aspect, the present application provides a method for comprehensively acquiring golf swing parameters, which adopts the following technical solutions:

a method for comprehensively collecting parameters of a golf swing comprises the following steps:

an activation step for activating the motion sensing medium and the heart rate sensing medium in response to the externally input holding rod information;

a preliminary step for adjusting the detection frequency of the heart rate sensing medium in response to the motion information sent by the motion sensing medium;

a point recording step for responding the motion information sent by the motion sensing medium, storing the corresponding motion information and the heart rate information generated by the heart rate sensing medium, and generating single motion information;

a relieving step for responding the motion information sent by the motion sensing medium and adjusting the detection frequency of the heart rate sensing medium;

and a segment recording step for responding to the rod releasing information input from the outside, calling the holding rod information to all single movement information in the rod releasing information interval, and generating stage movement information.

Through adopting above-mentioned technical scheme, when the sportsman holds the pole, activation motion induction media and heart rate induction media, begin to carry out the record of heart rate and motion state, in the record process, the cooperation golf swing the time quantum, exert oneself rapid characteristics, when the sportsman begins to wave the preparation of waving, the detection frequency of adjustment heart rate induction media, thereby more effectual record heart rate and motion state in the twinkling of an eye to waving the pole, and detect the frequency with the heart rate and reduce to initial condition after the pole is waved and end, save detection resource and power resource, the cooperation golf waves many times and accomplishes the characteristic of a complete motion, finally become stage motion information with the single motion information integration of many times record, show heart rate state and motion state in the complete motion process.

Preferably, the activating step specifically performs the following operations:

responding to external input holding information, wherein the holding information comprises holding time and at least one pressure signal;

counting the number of pressure signals in the holding rod information and judging the conditions, wherein the judgment condition is whether the number of the pressure signals is more than or equal to two,

if the judgment result is yes, outputting activation information;

responding to the activation information, activating a motion sensing medium, and periodically collecting motion information sent by the motion sensing medium, wherein the motion sensing medium is worn on a human body and comprises a plurality of position sensing media and a plurality of muscle pressure sensing media, the position sensing media are respectively worn on the shoulders, elbows and hands of the human body, the muscle pressure sensing media are worn on the positions of the upper arms and the lower arms of the human body, and the motion information comprises position information of each position sensing medium and muscle pressure information sent by all the muscle pressure sensing media;

and responding to the activation information, activating the heart rate sensing medium, and periodically collecting the heart rate information sent by the heart rate sensing medium, wherein the heart rate sensing medium comprises a heart rate sensor used for contacting with the skin of the human body to detect the heart rate.

Through adopting above-mentioned technical scheme, through judging the holding rod information, when pressure signal quantity is greater than two, can be more effectual judge whether the sportsman holds the both hands, prepare to swing the pole, thereby, the calibration begins to carry out the time point of rhythm of the heart response media and motion response media, thereby effectively reduce unnecessary power consumption, when carrying out the motion response, it is shoulder, elbow, the wrist rotates to match golf motion mainly, the characteristic of arm forearm strength, carry out motion information acquisition, more accurate and effectual data that can conveniently gather.

Preferably, the preparation step specifically performs the following operations:

calling motion information sent by the motion sensing medium, carrying out condition judgment on the motion information, judging whether the position information sent by the position sensing medium worn on the wrist position of the human body moves around an arc line in a reciprocating manner in a short time or not, and sending preparation information if the judgment result is yes;

responding to the preparation information, and shortening the period of collecting the motion information sent by the motion sensing medium;

responding to the preparation information, and shortening the period of collecting the heart rate information sent by the heart rate sensing media;

starting to call the positions of all the position sensing media to draw a position schematic diagram;

and starting to call the heart rate information sent by the heart rate sensing media to draw a heart rate schematic diagram.

Through adopting above-mentioned technical scheme, when carrying out the preparation of waving the pole, the sportsman can the horizontal hunting club come to find the angle of waving accurately, at this moment, the position of the position response media of wrist department can be reciprocating motion, through this motion law, send the prepared information, shorten the cycle of the motion information of collecting the motion response media and the cycle of the heart rate information of collecting the heart rate response media and sending, can ensure the record motion state and the heart rate state of exerting oneself rapidly at the swing in-process as accurate as possible, and through position schematic diagram and heart rate schematic diagram, carry out the expression directly perceived to the position change of position response media and sportsman's heart rate change rule.

Preferably, the dot recording step specifically performs the following operations:

responding to motion information sent by the motion sensing media, carrying out condition judgment on the motion information, wherein the judgment condition is that whether the muscle pressure sensing media detect muscle pressure change or not, if the judgment result is yes, picking up detection data of all the muscle pressure sensing media, recording the detection data as muscle information, judging whether the position of the position sensing media moves or not, and if the judgment result is yes, storing displacement information of the position sensing media with displacement, and recording the displacement information as motion information;

and calling muscle information and action information, calling a heart rate schematic diagram and a position schematic diagram, and generating single-movement information.

Through adopting above-mentioned technical scheme, the logical law of cooperation muscle drive motion carries out muscle power preferentially and judges, carries out position change judgement afterwards, judges through twice, and the accurate pole of waving is in the twinkling of an eye confirmed to will wave the muscle, position and the heart rate condition at the pole of waving action in the twinkling of an eye and gather the record.

Preferably, the mitigating step specifically performs the following operations:

responding to the motion information sent by the motion sensing media, judging the motion information, and if the judgment condition is that all the muscle pressure sensing media do not detect the muscle pressure change, outputting relief information;

responding to the release information, and prolonging the period of collecting the motion information sent by the motion sensing media;

responding the remission information, and prolonging the period of collecting the heart rate information sent by the heart rate induction medium;

and drawing a pause heart rate schematic diagram and a position schematic diagram.

Through adopting above-mentioned technical scheme, after accomplishing the action of waving the pole, sportsman's muscle can relax, and at this moment, with the detection cycle extension of motion information and heart rate information, can avoid invalid data to be recorded, can save the electric energy of response media simultaneously.

Preferably, the segment recording step specifically performs the following operations:

responding to the rod releasing information input from the outside, wherein the rod releasing information at least comprises rod releasing time;

calling all single movement information generated between the holding time and the releasing time to generate stage movement information

Calling a heart rate schematic diagram from holding time to releasing time, selecting three heart rate information with the highest heart rate from the heart rate schematic diagram, screening single movement information corresponding to the three heart rate information, and generating an attention information group;

and outputting the stage motion information and the attention information group.

By adopting the technical scheme, when the rod-releasing information is received, the motion of one stage is completed, at the moment, all single motion information is called to generate stage motion information, the motion state of the stage can be completely displayed, and meanwhile, the most strenuous motion or most nervous time can be conveniently and prominently displayed by extracting the three single motion information with the highest heart rate.

Preferably, the segment recording step further comprises the following steps:

a comparison step for comparing the muscle information, wherein the comparison step specifically executes the following operations;

calling stage motion information, picking up all muscle information, and dividing the muscle information into a plurality of comparison groups according to muscle pressure sensing media corresponding to the muscle information;

sequentially traversing each comparison group, screening out the muscle information with the maximum muscle pressure value in each comparison group, and recording the muscle information as peak value information;

calling an attention information group, comparing the acquisition time of the center rate information of the attention information group with the acquisition time of all peak value information, selecting three muscle information with the acquisition time closest to the acquisition time of the center rate information of the attention information group, judging the condition of whether at least two of the three muscle information come from the same comparison group,

if yes, marking the muscle pressure sensing medium corresponding to the comparison group as a main medium, and marking all muscle information corresponding to the main medium as main information.

Through adopting above-mentioned technical scheme, after accomplishing the motion information collection of one stage, through muscle application of force intensity and the relation that heart rate intensity matches, can find the most main application of force position to, can conveniently move the adjustment and correct, in the motion, explain mental stress and motion amplitude the biggest when the heart rate is the highest, at this moment, the position that muscle pressure numerical value is the highest then explains is the main application of force position of motion, through the judgement to main application of force position, can make things convenient for the sportsman to confirm whether move the standard or whether the application of force is reasonable.

In a second aspect, the present application provides a golf swing motion parameter comprehensive acquisition device, which adopts the following technical solutions:

a golf swing motion parameter comprehensive acquisition device comprises a golf club, an intelligent terminal, a plurality of muscle pressure sensing media connected with the intelligent terminal through wireless signals, a plurality of position sensing media connected with the intelligent terminal through wireless signals and a heart rate sensor connected with the intelligent terminal through wireless signals;

the club is provided with an induction module, the induction module is connected with the intelligent terminal through a wireless signal, and the induction module comprises a plurality of holding pressure sensors fixedly connected to the outer side of the club sleeve and a falling pressure sensor fixedly connected to one end of the club handle, which is far away from the club head;

when at least one holding pressure sensor senses pressure, the sensing module sends out holding rod information;

when the rod falling pressure sensor senses pressure, the sensing module sends rod releasing information;

the intelligent terminal comprises the following modules,

the activation module is used for responding to external input holding rod information and activating the motion sensing media and the heart rate sensing media;

the preparation module is used for responding to the motion information sent by the motion sensing medium and adjusting the detection frequency of the heart rate sensing medium;

the point recording module is used for responding to the motion information sent by the motion sensing media, storing the corresponding motion information and the heart rate information generated by the heart rate sensing media and generating single motion information;

the release module is used for responding to the motion information sent by the motion sensing media and adjusting the detection frequency of the heart rate sensing media;

the segment recording module is used for responding to the rod releasing information input from the outside, calling all single movement information from the holding rod information to the rod releasing information interval and generating stage movement information;

and the comparison module is used for comparing the muscle information.

By adopting the technical scheme, when an athlete holds a club, the holding pressure sensor on the club is pressed to send holding information, the motion sensing medium and the heart rate sensing medium are activated to start recording the heart rate and the motion state, in the recording process, the detection frequency of the heart rate sensing medium is adjusted when the athlete starts to swing the club for preparation by matching with the characteristics of the golf swing time period and rapid exertion, so that the heart rate and the motion state at the moment of swinging the club are recorded more effectively, the heart rate detection frequency is reduced to the initial state after the swing is finished, the detection resources and the power resources are saved, the characteristics of one complete motion of multiple golf swing are matched, when the athlete releases the club, the falling pressure sensor touches the ground or supports the bottom surface of the club bag to be pressed, and the system finally integrates the single motion information recorded for multiple times into stage motion information, displaying the heart rate state and the motion state in the complete motion process; after accomplishing the motion information collection in one stage, through muscle application of force intensity and the relation that heart rate intensity matches, can find the most main application of force position to, can conveniently move the adjustment and correct, in the motion, explain mental stress and motion amplitude the biggest when the heart rate is the highest, at this moment, the position that muscle pressure numerical value is the highest then explains the main application of force position of motion, through the judgement to main application of force position, can make things convenient for the sportsman to confirm whether move the standard or whether the application of force is reasonable.

In a third aspect, the present application provides a computer device, which adopts the following technical solution:

a computer device comprising a memory and a processor, the memory storing a computer program, the processor implementing the following steps when executing the computer program:

an activation step for activating the motion sensing medium and the heart rate sensing medium in response to the externally input holding rod information;

a preliminary step for adjusting the detection frequency of the heart rate sensing medium in response to the motion information sent by the motion sensing medium;

a point recording step for responding the motion information sent by the motion sensing medium, storing the corresponding motion information and the heart rate information generated by the heart rate sensing medium, and generating single motion information;

a relieving step for responding the motion information sent by the motion sensing medium and adjusting the detection frequency of the heart rate sensing medium;

a segment recording step for responding to the external input rod releasing information, calling all single movement information from the holding rod information to the rod releasing information interval and generating stage movement information;

and (3) an alignment step for comparing muscle information.

In a fourth aspect, the present application provides a computer-readable storage medium, which adopts the following technical solutions:

a computer-readable storage medium, on which a computer program is stored which, when executed by a processor, carries out the steps of:

an activation step for activating the motion sensing medium and the heart rate sensing medium in response to the externally input holding rod information;

a preliminary step for adjusting the detection frequency of the heart rate sensing medium in response to the motion information sent by the motion sensing medium;

a point recording step for responding the motion information sent by the motion sensing medium, storing the corresponding motion information and the heart rate information generated by the heart rate sensing medium, and generating single motion information;

a relieving step for responding the motion information sent by the motion sensing medium and adjusting the detection frequency of the heart rate sensing medium;

a segment recording step for responding to the external input rod releasing information, calling all single movement information from the holding rod information to the rod releasing information interval and generating stage movement information;

and (3) an alignment step for comparing muscle information.

In summary, the present application includes at least one of the following beneficial technical effects:

1. heart rate and motion data in the swing process can be monitored in time;

2. the data collection can be slowed down when the rod is not pushed, so that invalid data collection is reduced, and the power application efficiency of the induction medium is improved;

3. the preliminary analysis can be carried out to the data of gathering to the supplementary is gone on.

Drawings

FIG. 1 is an overall logic flow diagram of an embodiment.

Fig. 2 is an internal structural diagram of a computer device in the embodiment.

Description of reference numerals: 1. an activation step; 2. a preparation step; 3. a point recording step; 4. a relieving step; 5. a segment recording step; 6. and (5) comparing.

Detailed Description

The present application is described in further detail below with reference to figures 1-2.

The embodiment of the application discloses a method for comprehensively acquiring golf swing motion parameters, and with reference to fig. 1, the method comprises the following steps:

activation step 1: and responding to the externally input holding rod information to activate the motion sensing medium and the heart rate sensing medium.

The activation step 1 specifically performs the following operations:

responding to the external input holding rod information;

counting the number of pressure signals in the holding rod information and judging the conditions, wherein the judgment condition is whether the number of the pressure signals is more than or equal to two,

if the judgment result is yes, outputting activation information;

and if the judgment result is negative, no response is made.

And responding to the activation information, activating the motion sensing medium, and periodically collecting the motion information sent by the motion sensing medium by taking 10 seconds as a period.

And responding to the activation information, activating the heart rate sensing medium, and periodically collecting the heart rate information sent by the heart rate sensing medium by taking 10 seconds as a period.

The holding information comprises holding time and at least one pressure signal.

The motion sensing media are worn on a human body and comprise a plurality of position sensing media which are respectively worn on the shoulders, the elbows and the hands of the human body and a plurality of muscle pressure sensing media which are worn on the positions of the big arms and the small arms of the human body, and the motion information comprises position information of each position sensing media and muscle pressure information sent by all the muscle pressure sensing media. The muscle pressure sensing medium and the position sensing medium are respectively arranged on the wearing parts through numbers, and the numbers of the pressure sensors can be divided by using product numbers and can also be formed by combining non-repetitive primary and secondary and digital arrangements input by responding to the outside. The muscle pressure sensing medium uses a prior art sheet-type pressure sensor or the like, and the position sensing medium uses a prior art motion capture device. The heart rate sensing medium comprises a heart rate sensor for detecting the heart rate by contacting with the skin of the human body.

The motion information comprises information sent by the muscle pressure sensing medium and used for representing pressure change and information sent by the position sensing medium and used for representing position change.

A preparation step 2: and responding to the motion information sent by the motion sensing medium, and accelerating the detection frequency of the heart rate sensing medium.

The preparation step 2 specifically executes the following operations:

calling motion information sent by the motion sensing medium, carrying out condition judgment on the motion information, judging whether the position information sent by the position sensing medium worn on the wrist position of the human body moves around an arc line in a reciprocating manner in a short time or not, and sending preparation information if the judgment result is yes;

responding to the preparation information, and shortening the period of collecting the motion information sent by the motion sensing medium to 1 second;

responding to the preparation information, and shortening the period of collecting the heart rate information sent by the heart rate induction medium to 1 second;

starting to call the positions of all the position sensing media to draw a position schematic diagram;

and starting to call the heart rate information sent by the heart rate sensing media to draw a heart rate schematic diagram.

A dot recording step 3: responding to the motion information sent by the motion sensing media, storing the corresponding motion information and the heart rate information generated by the heart rate sensing media, and generating single motion information.

The point recording step 3 specifically executes the following operations:

responding to motion information sent by the motion sensing media, carrying out condition judgment on the motion information, wherein the judgment condition is that whether the muscle pressure sensing media detect muscle pressure change or not, if the judgment result is yes, picking up detection data of all the muscle pressure sensing media, recording the detection data as muscle information, judging whether the position of the position sensing media moves or not, and if the judgment result is yes, storing displacement information of the position sensing media with displacement, and recording the displacement information as motion information;

and calling muscle information and action information, calling a heart rate schematic diagram and a position schematic diagram, and generating single-movement information.

Therefore, by judging the muscle pressure change and the position change of the position sensing media, the swing action can be accurately judged, and the relevant action information and the heart rate information of the swing action are recorded, so that the single swing can be accurately recorded, and each sensing media can be kept in a low energy consumption state when the swing is not performed.

And a relieving step 4: and slowing down the detection frequency of the heart rate sensing medium in response to the motion information sent by the motion sensing medium.

The relieving step 4 specifically executes the following operations:

responding to the motion information sent by the motion sensing media, judging the motion information, and if the judgment condition is that all the muscle pressure sensing media do not detect the muscle pressure change, outputting relief information;

responding to the release information, and prolonging the period of collecting the motion information sent by the motion sensing media;

responding the remission information, and prolonging the period of collecting the heart rate information sent by the heart rate induction medium;

and drawing a pause heart rate schematic diagram and a position schematic diagram.

Segment recording step 5: and responding to the external input club release information, calling the holding information to all single movement information in the club release information interval, and generating stage movement information.

The segment recording step 5 specifically performs the following operations:

responding to the rod releasing information input from the outside, wherein the rod releasing information at least comprises rod releasing time;

calling all single movement information generated between the holding time and the releasing time to generate stage movement information

Calling a heart rate schematic diagram from holding time to releasing time, selecting three heart rate information with the highest heart rate from the heart rate schematic diagram, screening single movement information corresponding to the three heart rate information, and generating an attention information group;

and outputting the stage motion information and the attention information group.

So far, when the rod-releasing information is received, the motion of one stage is completed, at the moment, all single motion information is called to generate stage motion information, the motion state of the stage can be completely displayed, and meanwhile, the most strenuous motion or the most nervous time can be conveniently and prominently displayed through extracting the three single motion information with the highest heart rate.

And 6, comparison step: muscle information comparison was performed.

The comparison step specifically executes the following operations;

calling stage motion information, picking up all muscle information, and dividing the muscle information into a plurality of comparison groups according to muscle pressure sensing media corresponding to the muscle information;

sequentially traversing each comparison group, screening out the muscle information with the maximum muscle pressure value in each comparison group, and recording the muscle information as peak value information;

calling an attention information group, comparing the acquisition time of the center rate information of the attention information group with the acquisition time of all peak value information, selecting three muscle information with the acquisition time closest to the acquisition time of the center rate information of the attention information group, judging the condition of whether at least two of the three muscle information come from the same comparison group,

if yes, marking the muscle pressure sensing medium corresponding to the comparison group as a main medium, and marking all muscle information corresponding to the main medium as main information.

The implementation principle of the comprehensive golf swing motion parameter acquisition method provided by the embodiment of the application is as follows: when a holding motion is carried out, data collection is started, wherein the data capable of being collected comprises data used for confirming muscle pressure conditions, data used for representing displacement conditions of each joint and heart rate data, before the swing motion, the data collection is carried out in a short period through preparation motions of an athlete, therefore, in the swing process, accurate relevant data can be obtained, comprehensive data collection work is carried out on the swing motion, after the swing is released, the data of all swing processes in the front can be analyzed, on one hand, a plurality of positions with the highest heart rate are found, therefore, the athlete can visually see own motion trend and peak conditions conveniently, in addition, the muscle with the highest matching degree with the heart rate is found in a contrast mode, and the athlete can conveniently confirm the muscle with main force application.

The embodiment provides a golf swing motion parameter comprehensive acquisition device which is characterized by comprising a golf club, an intelligent terminal, a plurality of muscle pressure sensing media connected with the intelligent terminal through wireless signals, a plurality of position sensing media connected with the intelligent terminal through wireless signals and a heart rate sensor connected with the intelligent terminal through wireless signals;

the club is provided with an induction module, the induction module is connected with the intelligent terminal through a wireless signal, and the induction module comprises a plurality of holding pressure sensors fixedly connected to the outer side of the club sleeve and a falling pressure sensor fixedly connected to one end of the club handle, which is far away from the club head;

when at least one holding pressure sensor senses pressure, the sensing module sends out holding rod information;

when the rod falling pressure sensor senses pressure, the sensing module sends rod releasing information;

the intelligent terminal comprises the following modules,

the activation module is used for responding to external input holding rod information and activating the motion sensing media and the heart rate sensing media;

the preparation module is used for responding to the motion information sent by the motion sensing medium and adjusting the detection frequency of the heart rate sensing medium;

the point recording module is used for responding to the motion information sent by the motion sensing media, storing the corresponding motion information and the heart rate information generated by the heart rate sensing media and generating single motion information;

the release module is used for responding to the motion information sent by the motion sensing media and adjusting the detection frequency of the heart rate sensing media;

the segment recording module is used for responding to the rod releasing information input from the outside, calling all single movement information from the holding rod information to the rod releasing information interval and generating stage movement information;

and the comparison module is used for comparing the muscle information.

For the specific definition of the integrated golf swing parameter acquisition device, reference may be made to the above definition of the integrated golf swing parameter acquisition method, which is not described herein again. The various modules of the golf swing parameter integrated device described above may be implemented in whole or in part by software, hardware, and combinations thereof. The modules can be embedded in a hardware form or independent from a processor in the computer device, and can also be stored in a memory in the computer device in a software form, so that the processor can call and execute operations corresponding to the modules.

The embodiment provides a computer device, which may be a server, and the internal structure diagram of the computer device may be as shown in fig. 2. The computer device includes a processor, a memory, and a network interface connected by a system bus. Wherein the processor of the computer device is configured to provide computing and control capabilities. The memory of the computer device comprises a nonvolatile storage medium and an internal memory. The non-volatile storage medium stores an operating system, a computer program, and a database. The internal memory provides an environment for the operation of an operating system and computer programs in the non-volatile storage medium. The database of the computer device is used for storing data such as service requests, service data and the like. The network interface of the computer device is used for communicating with an external terminal through a network connection. The computer program is executed by a processor to implement a data processing method.

Those skilled in the art will appreciate that the architecture shown in fig. 2 is merely a block diagram of some of the structures associated with the disclosed aspects and is not intended to limit the computing devices to which the disclosed aspects apply, as particular computing devices may include more or less components than those shown, or may combine certain components, or have a different arrangement of components.

The computer device comprises a memory in which a computer program is stored and a processor which, when executing the computer program, carries out the steps in the above-described method embodiments.

The present embodiment provides a computer-readable storage medium, in which a computer program is stored, which computer program, when being executed by a processor, realizes the steps of the above-mentioned method embodiments.

It will be understood by those skilled in the art that all or part of the processes of the methods of the embodiments described above can be implemented by hardware instructions of a computer program, which can be stored in a non-volatile computer-readable storage medium, and when executed, can include the processes of the embodiments of the methods described above. Any reference to memory, storage, database or other medium used in the embodiments provided herein can include at least one of non-volatile and volatile memory. Non-volatile Memory may include Read-Only Memory (ROM), magnetic tape, floppy disk, flash Memory, optical storage, or the like. Volatile Memory can include Random Access Memory (RAM) or external cache Memory. By way of illustration and not limitation, RAM can take many forms, such as Static Random Access Memory (SRAM) or Dynamic Random Access Memory (DRAM), among others.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. A method for integrated acquisition of parameters of a golf swing, comprising:

an activation step (1) for activating the motion sensing medium and the heart rate sensing medium in response to externally input grip information;

a preliminary step (2) for adjusting the detection frequency of the heart rate sensing medium in response to the motion information sent by the motion sensing medium;

a point recording step (3) for responding the motion information sent by the motion sensing medium, storing the corresponding motion information and the heart rate information generated by the heart rate sensing medium, and generating single motion information;

a relieving step (4) for responding the motion information sent by the motion sensing medium and adjusting the detection frequency of the heart rate sensing medium;

and a segment recording step (5) for responding to the external input putting information, calling the holding rod information to all single movement information in the putting information interval and generating stage movement information.

2. A method for integrated acquisition of parameters of a golf swing according to claim 1, wherein the activation step (1) is specifically performed by:

responding to external input holding information, wherein the holding information comprises holding time and at least one pressure signal;

counting the number of pressure signals in the holding rod information and judging the conditions, wherein the judgment condition is whether the number of the pressure signals is more than or equal to two,

if the judgment result is yes, outputting activation information;

responding to the activation information, activating a motion sensing medium, and periodically collecting motion information sent by the motion sensing medium, wherein the motion sensing medium is worn on a human body and comprises a plurality of position sensing media and a plurality of muscle pressure sensing media, the position sensing media are respectively worn on the shoulders, elbows and hands of the human body, the muscle pressure sensing media are worn on the positions of the upper arms and the lower arms of the human body, and the motion information comprises position information of each position sensing medium and muscle pressure information sent by all the muscle pressure sensing media;

and responding to the activation information, activating the heart rate sensing medium, and periodically collecting the heart rate information sent by the heart rate sensing medium, wherein the heart rate sensing medium comprises a heart rate sensor used for contacting with the skin of the human body to detect the heart rate.

3. A method of integrated golf swing parameter acquisition as claimed in claim 2, wherein: the preparation step (2) specifically executes the following operations:

calling motion information sent by the motion sensing medium, carrying out condition judgment on the motion information, judging whether the position information sent by the position sensing medium worn on the wrist position of the human body moves around an arc line in a reciprocating manner in a short time or not, and sending preparation information if the judgment result is yes;

responding to the preparation information, and shortening the period of collecting the motion information sent by the motion sensing medium;

responding to the preparation information, and shortening the period of collecting the heart rate information sent by the heart rate sensing media;

starting to call the positions of all the position sensing media to draw a position schematic diagram;

and starting to call the heart rate information sent by the heart rate sensing media to draw a heart rate schematic diagram.

4. A method for integrated acquisition of parameters of a golf swing according to claim 3, wherein the point recording step (3) is performed by:

responding to motion information sent by the motion sensing media, carrying out condition judgment on the motion information, wherein the judgment condition is that whether the muscle pressure sensing media detect muscle pressure change or not, if the judgment result is yes, picking up detection data of all the muscle pressure sensing media, recording the detection data as muscle information, judging whether the position of the position sensing media moves or not, and if the judgment result is yes, storing displacement information of the position sensing media with displacement, and recording the displacement information as motion information;

and calling muscle information and action information, calling a heart rate schematic diagram and a position schematic diagram, and generating single-movement information.

5. A method for integrated acquisition of parameters of a golf swing according to claim 3, wherein the relieving step (4) is performed by:

responding to the motion information sent by the motion sensing media, judging the motion information, and if the judgment condition is that all the muscle pressure sensing media do not detect the muscle pressure change, outputting relief information;

responding to the release information, and prolonging the period of collecting the motion information sent by the motion sensing media;

responding the remission information, and prolonging the period of collecting the heart rate information sent by the heart rate induction medium;

and drawing a pause heart rate schematic diagram and a position schematic diagram.

6. A method for integrated acquisition of parameters of a golf swing according to claim 5, wherein the segment recording step (5) is embodied by the following operations:

responding to the rod releasing information input from the outside, wherein the rod releasing information at least comprises rod releasing time;

calling all single movement information generated between the holding time and the releasing time to generate stage movement information

Calling a heart rate schematic diagram from holding time to releasing time, selecting three heart rate information with the highest heart rate from the heart rate schematic diagram, screening single movement information corresponding to the three heart rate information, and generating an attention information group;

and outputting the stage motion information and the attention information group.

7. A method for integrated acquisition of parameters of a golf swing according to claim 6, further comprising the step of, after the step of segment recording (5):

a comparison step for comparing the muscle information, wherein the comparison step specifically executes the following operations;

calling stage motion information, picking up all muscle information, and dividing the muscle information into a plurality of comparison groups according to muscle pressure sensing media corresponding to the muscle information;

sequentially traversing each comparison group, screening out the muscle information with the maximum muscle pressure value in each comparison group, and recording the muscle information as peak value information;

calling an attention information group, comparing the acquisition time of the center rate information of the attention information group with the acquisition time of all peak value information, selecting three muscle information with the acquisition time closest to the acquisition time of the center rate information of the attention information group, judging the condition of whether at least two of the three muscle information come from the same comparison group,

if yes, marking the muscle pressure sensing medium corresponding to the comparison group as a main medium, and marking all muscle information corresponding to the main medium as main information.

8. A golf swing motion parameter comprehensive acquisition device is characterized by comprising a golf club, an intelligent terminal, a plurality of muscle pressure sensing media connected with the intelligent terminal through wireless signals, a plurality of position sensing media connected with the intelligent terminal through wireless signals and a heart rate sensor connected with the intelligent terminal through wireless signals;

the club is provided with an induction module, the induction module is connected with the intelligent terminal through a wireless signal, and the induction module comprises a plurality of holding pressure sensors fixedly connected to the outer side of the club sleeve and a falling pressure sensor fixedly connected to one end of the club handle, which is far away from the club head;

when at least one holding pressure sensor senses pressure, the sensing module sends out holding rod information;

when the rod falling pressure sensor senses pressure, the sensing module sends rod releasing information;

the intelligent terminal comprises the following modules,

the activation module is used for responding to external input holding rod information and activating the motion sensing media and the heart rate sensing media;

the preparation module is used for responding to the motion information sent by the motion sensing medium and adjusting the detection frequency of the heart rate sensing medium;

the point recording module is used for responding to the motion information sent by the motion sensing media, storing the corresponding motion information and the heart rate information generated by the heart rate sensing media and generating single motion information;

the release module is used for responding to the motion information sent by the motion sensing media and adjusting the detection frequency of the heart rate sensing media;

the segment recording module is used for responding to the rod releasing information input from the outside, calling all single movement information from the holding rod information to the rod releasing information interval and generating stage movement information;

and the comparison module is used for comparing the muscle information.

9. A computer device comprising a memory and a processor, the memory storing a computer program, characterized in that: the processor, when executing the computer program, realizes the steps of the method of any one of claims 1 to 7.

10. A computer-readable storage medium storing a computer program, characterized in that: the computer program, when executed by a processor, implementing the steps of the method of any one of claims 1 to 7.

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