CN104998397A - Rope skipping monitoring method and system - Google Patents

Abstract

The invention provides a rope skipping monitoring method and system. The rope skipping monitoring method and system of the invention can be applied to a wearable wristband, a wrist watch and the like. Acceleration on three axes can be detected through a gravity sensor arranged on the wearable wristband and the wrist watch, motion data such as the cumulative number of times and the acceleration of a body on the three axes can be accurately recorded in the rope skipping process of a user; and in subsequent stages, the motion data can be analyzed, and information such as consumed calories can be obtained according to the weight and height of the user, and therefore, references can be provided for the user.

Description

Rope skipping monitoring method and system

Technical field

The present invention relates to a kind of rope skipping monitoring method and system.

Background technology

Along with modern life Quality advance, more and more people starts to focus on the healthy of oneself, and increasing meter step scheduling algorithm is applied in all kinds of mobile terminal.But, existing monitoring method can only simply record such as walk or running step number etc. simple, the peculair motion of rope skipping can not be monitored.

Summary of the invention

The object of the present invention is to provide a kind of rope skipping monitoring method and system, can the rope skipping number of times of precise monitoring user.

For solving the problem, the invention provides a kind of rope skipping monitoring method, comprising:

Step one, monitors the acceleration of health respectively on three axles of the user that to skip rope each time in the first preset times;

Step 2, according in the first preset times each time the acceleration of health respectively on three axles judge rope skipping whether start, if judge rope skipping start, forward step 3 to, if judge rope skipping do not start, again monitor at the beginning from step;

Step 3, using the first preset times as cumulative number, to monitor in each second preset times the acceleration of health respectively on three axles each time;

Step 4, according in each second preset times each time the acceleration of user's body respectively on three axles judge rope skipping whether terminate, forward step 5 to if do not terminate, if terminate, forward step 6 to;

Step 5, is added current second preset times after new cumulative number with described cumulative number, forwards step 4 to; Step 6, exports final cumulative number according to described new cumulative number.

Further, in the above-mentioned methods, while step 6, also comprise:

To export in observation process the acceleration of health respectively on three axles each time.

Further, in the above-mentioned methods, step 6 comprises:

Judge to have in described new cumulative number the some or multiple 5th to preset the duration of a read-around ratio whether in preset time range,

If so, described new cumulative number is exported as final cumulative number;

If not, described new cumulative number is deducted the number of times after all the 5th default read-around ratios not in preset time range, as final cumulative number.

Further, in the above-mentioned methods, step 6 comprises:

Final cumulative number is exported according to described new cumulative number and different user.

Further, in the above-mentioned methods, step 2 comprises:

Judge whether to have in the first preset times the 3rd to preset a number of times, and the 3rd to preset in a number of times each time the acceleration of health respectively on three axles in preset threshold range;

If so, to skip rope beginning;

If not, rope skipping does not start.

Further, in the above-mentioned methods, step 2 comprises:

Whether have the 3rd to preset a number of times in disconnected first preset times, the 3rd presets in a number of times each time that the acceleration of health respectively on three axles is in preset threshold range, and the 3rd presets increasing progressively to successively decrease and presenting periodic change of three axle speed in a number of times;

If so, to skip rope beginning;

If not, rope skipping does not start.

Further, in the above-mentioned methods, step 4 comprises:

Judge whether to have in the second preset times the 4th to preset a number of times, and the 4th to preset in a number of times each time the acceleration of health respectively on three axles in preset threshold range;

If so, skip rope and do not terminate;

If not, rope skipping terminates.

Further, in the above-mentioned methods, step 4 comprises:

Judge in the second preset times, whether have the 4th to preset a number of times, 4th to preset in number of times each time that the acceleration of health respectively on three axles is in preset threshold range, and the 4th presets increasing progressively to successively decrease and presenting periodic change of three axle speed in a number of times;

If so, skip rope and do not terminate;

If not, rope skipping terminates.

According to another side of the present invention, a kind of rope skipping monitoring system is provided, comprises:

First monitoring modular, for monitoring the acceleration of health respectively on three axles of the user that to skip rope each time in the first preset times;

First judge module, for according in the first preset times each time the acceleration of health respectively on three axles judge rope skipping whether start, if judge rope skipping start, forward the second monitoring modular to, if judge rope skipping do not start, forward the first monitoring modular to;

Second monitoring modular, for using the first preset times as cumulative number, to monitor in each second preset times the acceleration of health respectively on three axles each time;

Second judge module, for according in each second preset times each time the acceleration of user's body respectively on three axles judge rope skipping whether terminate, forward accumulation module to if do not terminate, if terminate, forward output module to;

Accumulation module, for current second preset times being added after new cumulative number with described cumulative number, forwards the second judge module to;

Output module, for exporting final cumulative number according to described new cumulative number.

Further, in said system, described output module, also for exporting in observation process the acceleration of health respectively on three axles each time.

Further, in said system, described output module, presets the duration of a read-around ratio whether in preset time range for judging to have in described new cumulative number the some or multiple 5th, if so, described new cumulative number is exported as final cumulative number; If not, described new cumulative number is deducted the number of times after all the 5th default read-around ratios not in preset time range, as final cumulative number.

Further, in said system, described output module, for exporting final cumulative number according to described new cumulative number and different user.

Further, in said system, described first judge module, the 3rd whether is had to preset a number of times in first preset times for judging, and the 3rd to preset in number of times each time the acceleration of health respectively on three axles in preset threshold range, beginning of if so, skipping rope; If not, rope skipping does not start.

Further, in said system, described first judge module, the 3rd whether is had to preset a number of times in first preset times for judging, 3rd to preset in number of times each time the acceleration of health respectively on three axles in preset threshold range, and the 3rd presets increasing progressively to successively decrease and presenting periodic change, beginning of if so, skipping rope of three axle speed in number of times; If not, rope skipping does not start.

Further, in said system, described second judge module, the 4th whether is had to preset a number of times in second preset times for judging, and the 4th to preset in number of times acceleration of health respectively on three axles each time and, in preset threshold range, if so, skips rope and do not terminate; If not, rope skipping terminates.

Further, in said system, described second judge module, the 4th whether is had to preset a number of times in second preset times for judging, 4th to preset in number of times each time the acceleration of health respectively on three axles in preset threshold range, and the 4th presets increasing progressively to successively decrease and presenting periodic change of three axle speed in number of times, if so, skips rope and does not terminate; If not, rope skipping terminates.

Compared with prior art, the present invention can be applicable to Wearable bracelet, wrist-watch etc., by being arranged at Wearable bracelet, the gravity sensor of wrist-watch can detect acceleration on three axles, exercise data in accurate recording user rope skipping process is the acceleration on three axles as cumulative number and health, follow-uply also can to obtain consuming the information such as calorie according to user's height and weight to exercise data analysis, for reference.

Accompanying drawing explanation

Fig. 1 is the flow chart of the rope skipping monitoring method of one embodiment of the invention;

Fig. 2 is the module map of the rope skipping monitoring system of one embodiment of the invention.

Detailed description of the invention

For enabling above-mentioned purpose of the present invention, feature and advantage become apparent more, and below in conjunction with the drawings and specific embodiments, the present invention is further detailed explanation.

Embodiment one

As shown in Figure 1, the invention provides a kind of rope skipping monitoring method, comprising:

Step S1, monitors the acceleration of health respectively on three axles of the user that to skip rope each time in the first preset times; At this, in the process of rope skipping, the arm of people is the course of action continuing to draw a circle, and be divided into spring, rise, arrive high point, fall, several process of contacting to earth, by being arranged at Wearable bracelet, the gravity sensor of wrist-watch monitors acceleration on three axles;

Step S2, according in the first preset times each time the acceleration of health respectively on three axles judge rope skipping whether start, if judge rope skipping start, forward step S3 to, if judge rope skipping do not start, forward step S1 to;

Step S3, using the first preset times as cumulative number, to monitor in each second preset times the acceleration of health respectively on three axles each time;

Step S4, according in each second preset times each time the acceleration of user's body respectively on three axles judge rope skipping whether terminate, if do not terminate, forward step S5 to, if terminate, forward step S6 to;

Step S5, is added current second preset times after new cumulative number with described cumulative number, forwards step S4 to; Step S6, exports final cumulative number according to described new cumulative number.

The present embodiment can cumulative number precisely in recording user rope skipping process and the acceleration of health on three axles, and follow-up to cumulative number and health, the acceleration on three axles, user's height and weight carry out analysis and obtain consuming the information such as calorie.

Preferably, step S6, while exporting final cumulative number, also comprises according to described new cumulative number: to export in observation process the acceleration of health respectively on three axles each time, be convenient to the follow-up moving situation to user and analyze.

Preferably, step S6, exports final cumulative number according to described new cumulative number, comprising:

Judge to have in described new cumulative number the some or multiple 5th to preset the duration of a read-around ratio whether in preset time range,

If so, described new cumulative number is exported as final cumulative number;

If not, described new cumulative number is deducted the number of times after all the 5th default read-around ratios not in preset time range, as final cumulative number.At this, for rejecting the interference being mistaken for rope skipping or some other activity, we understand joining day judgement, show that our monitoring unit that is 5 times (the 5th presets a read-around ratio) time of rope skipping should between 2s and 5s by lot of experimental data, the data not within this time we will cast out.

Preferably, step S6, exports final cumulative number according to described new cumulative number, comprising:

Final cumulative number is exported according to described new cumulative number and different user.At this, we also add adaptive algorithm, new cumulative number as being recorded to is 4 times, can increase on new cumulative number basis according to different user or reduce several number of times and export as final cumulative number, as several number of times can be reduced for the elderly user, as juvenile user can increase several number of times, thus reach the object of more accurate recording.

Preferably, step S2, according in the first preset times each time the acceleration of health respectively on three axles judge rope skipping whether start, comprising:

Judge whether to have in the first preset times the 3rd to preset a number of times, and the 3rd to preset in a number of times each time the acceleration of health respectively on three axles in preset threshold range;

If so, to skip rope beginning;

If not, rope skipping does not start.Such as, first monitor the acceleration in beginning 10 times (the first preset times) each time on three axles, if have the quadratic sum of 6 times (the 3rd preset a number of times) 3-axis acceleration each time in 10 times (the first preset times) all in threshold value a a to a1, because the quadratic sum that gravity sensor presses 3-axis acceleration each time in the words 6 times of the track swing of circle should be substantially identical, namely all in threshold value a a to a1, so can judge that rope skipping starts, otherwise judge that rope skipping does not start.

Preferably, step S2, according in the first preset times each time the acceleration of health respectively on three axles judge rope skipping whether start, comprising:

Judge in the first preset times, whether have the 3rd to preset a number of times, 3rd to preset in number of times each time that the acceleration of health respectively on three axles is in preset threshold range, and the 3rd presets increasing progressively to successively decrease and presenting periodic change of three axle speed in a number of times;

If so, to skip rope beginning;

If not, rope skipping does not start.Such as, first monitor the acceleration in beginning 10 times (the first preset times) each time on three axles, if have the quadratic sum of 6 times (the 3rd preset a number of times) 3-axis acceleration each time in 10 times (the first preset times) all in threshold value a a to a1, because the quadratic sum that gravity sensor presses 3-axis acceleration each time in the words 6 times of the track swing of circle should be substantially identical, namely all in threshold value a a to a1, and the increasing progressively to successively decrease and present periodic change of three axle speed in these 6 times, wherein, increasing progressively and successively decreasing of three axle speed is once one-period, so can judge that rope skipping starts, otherwise judge that rope skipping does not start.

Preferably, step S4, according in each second preset times each time the acceleration of user's body respectively on three axles judge rope skipping whether terminate, comprising:

Judge whether to have in the second preset times the 4th to preset a number of times, and the 4th to preset in a number of times each time the acceleration of health respectively on three axles in preset threshold range;

If so, skip rope and do not terminate;

If not, rope skipping terminates.Such as, a monitoring unit is changed to 5 3-axis accelerations, in having data of 3 times (the 4th preset a number of times) to meet in 5 times if (the second preset times) each time the acceleration of health respectively on three axles in preset threshold range, then judge that rope skipping does not terminate, this is added to the cumulative number of rope skipping for 5 times, as do not met, then judge that rope skipping terminates, then cast out these 5 times.

Preferably, step S4, according in each second preset times each time the acceleration of user's body respectively on three axles judge rope skipping whether terminate, comprising:

Judge in the second preset times, whether have the 4th to preset a number of times, 4th to preset in number of times each time that the acceleration of health respectively on three axles is in preset threshold range, and the 4th presets increasing progressively to successively decrease and presenting periodic change of three axle speed in a number of times;

If so, skip rope and do not terminate;

If not, rope skipping terminates.Such as, a monitoring unit is changed to 5 3-axis accelerations, in having data of 3 times (the 4th preset a number of times) to meet in 5 times if (the second preset times) each time the acceleration of health respectively on three axles in preset threshold range, and the 4th presets increasing progressively to successively decrease and presenting periodic change of three axle speed in number of times, wherein, increasing progressively and successively decreasing of three axle speed is once one-period, then judge that rope skipping does not terminate, this is added to the cumulative number of rope skipping for 5 times, as do not met, then judge that rope skipping terminates, then cast out these 5 times, follow-uply add up rope skipping number of times and end time.

The rope skipping monitoring algorithm of the present embodiment can be applicable to Wearable bracelet, wrist-watch etc., by being arranged at Wearable bracelet, the gravity sensor of wrist-watch can detect acceleration on three axles, exercise data in accurate recording user rope skipping process is the acceleration on three axles as cumulative number and health, follow-uply also can to obtain consuming the information such as calorie according to user's height and weight to exercise data analysis, for reference.

Embodiment two

As shown in Figure 2, the present invention also provides another kind of rope skipping monitoring system, comprising:

First monitoring modular 1, for monitoring the acceleration of health respectively on three axles of the user that to skip rope each time in the first preset times;

First judge module 2, for according in the first preset times each time the acceleration of health respectively on three axles judge rope skipping whether start, if judge rope skipping start, forward the second monitoring modular to, if judge rope skipping do not start, forward the first monitoring modular to; Second monitoring modular 3, for using the first preset times as cumulative number, to monitor in each second preset times the acceleration of health respectively on three axles each time;

Second judge module 4, for according in each second preset times each time the acceleration of user's body respectively on three axles judge rope skipping whether terminate, forward accumulation module 5 to if do not terminate, if terminate, forward output module 6 to;

Accumulation module 5, for current second preset times being added after new cumulative number with described cumulative number, forwards the second judge module to;

Output module 6, for exporting final cumulative number according to described new cumulative number.

Preferably, described output module 6, also for exporting in observation process the acceleration of health respectively on three axles each time.

Preferably, described output module 6, for judging to have in described new cumulative number the some or multiple 5th to preset the duration of a read-around ratio whether in preset time range, if so, exports described new cumulative number as final cumulative number; If not, described new cumulative number is deducted the number of times after all the 5th default read-around ratios not in preset time range, as final cumulative number.

Preferably, described output module 6, for exporting final cumulative number according to described new cumulative number and different user.

Preferably, described first judge module 2, for judging whether to have in the first preset times the 3rd to preset a number of times, and the 3rd to preset in a number of times each time the acceleration of health respectively on three axles in preset threshold range, beginning of if so, skipping rope; If not, rope skipping does not start.

Preferably, described first judge module 2, the 3rd whether is had to preset a number of times in first preset times for judging, 3rd to preset in number of times each time the acceleration of health respectively on three axles in preset threshold range, and the 3rd presets increasing progressively to successively decrease and presenting periodic change of three axle speed in number of times, if so, to skip rope beginning; If not, rope skipping does not start.

Preferably, described second judge module 4, whether for judging to have in the second preset times the 4th to preset a number of times, and the 4th presets in a number of times acceleration of health respectively on three axles each time and, in preset threshold range, if so, skips rope and do not terminate; If not, rope skipping terminates.

Preferably, described second judge module 4, the 4th whether is had to preset a number of times in second preset times for judging, 4th to preset in number of times each time the acceleration of health respectively on three axles in preset threshold range, and the 4th presets increasing progressively to successively decrease and presenting periodic change of three axle speed in number of times, if so, skip rope and do not terminate; If not, rope skipping terminates.

Other detailed content of embodiment two specifically see the appropriate section of embodiment one, can not repeat them here.

The rope skipping monitoring system of the present embodiment can be applicable to Wearable bracelet, wrist-watch etc., by being arranged at Wearable bracelet, the gravity sensor of wrist-watch can detect acceleration on three axles, exercise data in accurate recording user rope skipping process is the acceleration on three axles as cumulative number and health, follow-uply also can to obtain consuming the information such as calorie according to user's height and weight to exercise data analysis, for reference.

In this description, each embodiment adopts the mode of going forward one by one to describe, and what each embodiment stressed is the difference with other embodiments, between each embodiment identical similar portion mutually see.

Professional can also recognize further, in conjunction with unit and the algorithm steps of each example of embodiment disclosed herein description, can realize with electronic hardware, computer software or the combination of the two, in order to the interchangeability of hardware and software is clearly described, generally describe composition and the step of each example in the above description according to function.These functions perform with hardware or software mode actually, depend on application-specific and the design constraint of technical scheme.Professional and technical personnel can use distinct methods to realize described function to each specifically should being used for, but this realization should not thought and exceeds scope of the present invention.

Obviously, those skilled in the art can carry out various change and modification to invention and not depart from the spirit and scope of the present invention.Like this, if these amendments of the present invention and modification belong within the scope of the claims in the present invention and equivalent technologies thereof, then the present invention is also intended to comprise these change and modification.

Claims (16)

1. a rope skipping monitoring method, is characterized in that, comprising:

Step one, monitors the acceleration of health respectively on three axles of the user that to skip rope each time in the first preset times;

Step 2, according in the first preset times each time the acceleration of health respectively on three axles judge rope skipping whether start, if judge rope skipping start, forward step 3 to, if judge rope skipping do not start, again monitor at the beginning from step;

Step 3, using the first preset times as cumulative number, to monitor in each second preset times the acceleration of health respectively on three axles each time;

Step 4, according in each second preset times each time the acceleration of user's body respectively on three axles judge rope skipping whether terminate, forward step 5 to if do not terminate, if terminate, forward step 6 to;

Step 5, is added current second preset times after new cumulative number with described cumulative number, forwards step 4 to;

Step 6, exports final cumulative number according to described new cumulative number.

2. to skip rope as claimed in claim 1 monitoring method, it is characterized in that, while step 6, also comprise:

To export in observation process the acceleration of health respectively on three axles each time.

3. skip rope as claimed in claim 1 or 2 monitoring method, it is characterized in that, step 6 comprises:

Judge to have in described new cumulative number the some or multiple 5th to preset the duration of a read-around ratio whether in preset time range,

If so, described new cumulative number is exported as final cumulative number;

If not, described new cumulative number is deducted the number of times after all the 5th default read-around ratios not in preset time range, as final cumulative number.

4. skip rope as claimed in claim 1 or 2 monitoring method, it is characterized in that, step 6 comprises:

Final cumulative number is exported according to described new cumulative number and different user.

5. skip rope as claimed in claim 1 monitoring method, it is characterized in that, step 2 comprises:

Judge whether to have in the first preset times the 3rd to preset a number of times, and the 3rd to preset in a number of times each time the acceleration of health respectively on three axles in preset threshold range;

If so, to skip rope beginning;

If not, rope skipping does not start.

6. skip rope as claimed in claim 1 monitoring method, it is characterized in that, step 2 comprises:

Whether have the 3rd to preset a number of times in disconnected first preset times, the 3rd presets in a number of times each time that the acceleration of health respectively on three axles is in preset threshold range, and the 3rd presets increasing progressively to successively decrease and presenting periodic change of three axle speed in a number of times;

If so, to skip rope beginning;

If not, rope skipping does not start.

7. skip rope as claimed in claim 1 monitoring method, it is characterized in that, step 4 comprises:

Judge whether to have in the second preset times the 4th to preset a number of times, and the 4th to preset in a number of times each time the acceleration of health respectively on three axles in preset threshold range;

If so, skip rope and do not terminate;

If not, rope skipping terminates.

8. skip rope as claimed in claim 1 monitoring method, it is characterized in that, step 4 comprises:

Judge in the second preset times, whether have the 4th to preset a number of times, 4th to preset in number of times each time that the acceleration of health respectively on three axles is in preset threshold range, and the 4th presets increasing progressively to successively decrease and presenting periodic change of three axle speed in a number of times;

If so, skip rope and do not terminate;

If not, rope skipping terminates.

9. a rope skipping monitoring system, is characterized in that, comprising:

First monitoring modular, for monitoring the acceleration of health respectively on three axles of the user that to skip rope each time in the first preset times;

First judge module, for according in the first preset times each time the acceleration of health respectively on three axles judge rope skipping whether start, if judge rope skipping start, forward the second monitoring modular to, if judge rope skipping do not start, forward the first monitoring modular to; Second monitoring modular, for using the first preset times as cumulative number, to monitor in each second preset times the acceleration of health respectively on three axles each time;

Second judge module, for according in each second preset times each time the acceleration of user's body respectively on three axles judge rope skipping whether terminate, forward accumulation module to if do not terminate, if terminate, forward output module to;

Accumulation module, for current second preset times being added after new cumulative number with described cumulative number, forwards the second judge module to;

Output module, for exporting final cumulative number according to described new cumulative number.

10. to skip rope as claimed in claim 9 monitoring system, it is characterized in that, described output module, also for exporting in observation process the acceleration of health respectively on three axles each time.

11. rope skipping monitoring systems as described in claim 9 or 10, it is characterized in that, described output module, the duration of a read-around ratio is preset whether in preset time range for judging to have in described new cumulative number the some or multiple 5th, if so, described new cumulative number is exported as final cumulative number; If not, described new cumulative number is deducted the number of times after all the 5th default read-around ratios not in preset time range, as final cumulative number.

12. rope skipping monitoring systems as described in claim 9 or 10, is characterized in that, described output module, for exporting final cumulative number according to described new cumulative number and different user.

13. skip rope monitoring system as claimed in claim 9, it is characterized in that, described first judge module, the 3rd whether is had to preset a number of times in first preset times for judging, and the 3rd to preset in number of times each time the acceleration of health respectively on three axles in preset threshold range, if so, to skip rope beginning; If not, rope skipping does not start.

14. skip rope monitoring system as claimed in claim 9, it is characterized in that, described first judge module, the 3rd whether is had to preset a number of times in first preset times for judging, 3rd to preset in number of times each time the acceleration of health respectively on three axles in preset threshold range, and the 3rd presets increasing progressively to successively decrease and presenting periodic change, beginning of if so, skipping rope of three axle speed in number of times; If not, rope skipping does not start.

15. skip rope monitoring system as claimed in claim 9, it is characterized in that, described second judge module, the 4th whether is had to preset a number of times in second preset times for judging, and the 4th to preset in number of times each time the acceleration of health respectively on three axles in preset threshold range, if so, skip rope and do not terminate; If not, rope skipping terminates.

16. skip rope monitoring system as claimed in claim 9, it is characterized in that, described second judge module, the 4th whether is had to preset a number of times in second preset times for judging, 4th to preset in number of times each time the acceleration of health respectively on three axles in preset threshold range, and the 4th presets increasing progressively to successively decrease and presenting periodic change of three axle speed in number of times, if so, skips rope and does not terminate; If not, rope skipping terminates.