CN116020104A - Method for assisting body building and related device - Google Patents

Abstract

The invention discloses a method for assisting body building and a related device. The method for assisting body building is applied to an electronic device with a display screen, wherein video displayed by the electronic device comprises a first motion segment, and the method comprises the following steps: acquiring the completion information of the action configured by the user on the first motion segment; and selecting one of the inheritance segments of the first motion segment as the content to be displayed after the first motion segment is displayed in the video according to the completion information. The invention can improve the interest of body building, thereby reducing the possibility that a user gives up body building due to boring and boring.

Description

Method for assisting body building and related device

Technical Field

The invention relates to the technical field of body building, in particular to a method for assisting body building and a related device.

Background

Body building, which is an activity of enhancing physical constitution of a person, has become an indispensable part of life of people today. Body building at home is an important component of this activity. Compared with gym, at home, exercise lacks supervision of coaches and partner accompanies, so that exercise atmosphere is weaker. For at-home fitness, users with unstable mind are very easy to keep warm for three minutes and cannot stay on for a long time.

Disclosure of Invention

In view of the foregoing, the present invention provides a method and related apparatus for assisting exercise, which aims to increase the interest of exercise, thereby reducing the possibility that the user gives up exercise due to boring and boring.

According to an aspect of the present invention, there is provided a method of assisting in exercise, applied to an electronic device having a display screen, the video displayed by the electronic device including a first motion segment, the method comprising:

acquiring the completion information of the action configured by the user on the first motion segment;

and selecting one from a plurality of inheritance fragments of the first motion fragment according to the completion information as the content to be displayed after the first motion fragment is displayed in the video.

Optionally, the completion information is used for indicating that the completion degree of the action configured by the user on the first motion segment is one of two preset degrees, and one preset degree is associated with one inherited segment;

selecting one of the inheritance segments of the first motion segment as the content to be displayed after the first motion segment is displayed in the video according to the completion information, wherein the content to be displayed comprises the following components: and determining the inheritance segment related to the preset degree indicated by the completion information as the content to be displayed after the first motion segment is displayed in the video.

Optionally, the first motion segment is a segment of a scenario piece;

the inheritance segment is also one segment of a scenario piece, and receives the first motion segment on the scenario;

and the two preset degrees are associated with two inherited fragments, and the dramas of the two inherited fragments are different.

Optionally, the two preset degrees include a first preset degree and a second preset degree, where the first preset degree is that the user completes the action configured by the first motion segment, and the second preset degree is that the user does not complete the action configured by the first motion segment;

the method further comprises the steps of: and acquiring interest information of the user, and associating one of the two inherited fragments which is more interested by the user to the first preset degree according to the interest information.

Optionally, the first exercise section is a section of a training course;

the inheritance segment is also a segment of the training course;

and the two preset degrees are associated with two inheritance fragments, and training contents of the two inheritance fragments are different.

Optionally, the two preset degrees include a first preset degree and a second preset degree, where the first preset degree is that the user completes the action configured by the first motion segment, and the second preset degree is that the user does not complete the action configured by the first motion segment;

and the activity consumption of the training content of the inheritance fragments related to the first preset degree is less than that of the inheritance fragments related to the second preset degree.

Optionally, the inheritance segment associated with the first preset degree is a target segment;

the inheritance segments related to the second preset degree are synthesized by the training regulation segments and the target segments;

the target segment is a segment which is adjacent to the first motion segment and is positioned behind the first motion segment in a training course where the first motion segment is positioned.

Optionally, the body part trained by the training regulatory segment is different from the body part trained by the target segment.

Optionally, obtaining the completion information of the action configured by the user on the first motion segment includes:

acquiring motion data of a user at different moments in the first motion segment display period to obtain a plurality of motion data;

determining the duty ratio of target data in the plurality of motion data, wherein the target data is motion data representing that the user action reaches the standard;

and determining the completion information according to the size relation between the duty ratio and the preset ratio.

Optionally, each of the plurality of motion data is acquired in real time, and the method further comprises: and when the motion data is acquired, displaying the statistical information of the current moment, wherein the statistical information indicates the completion condition of the user action at the current moment.

Optionally, the statistical information is any one of the following:

the number of the target data acquired at the current moment is cut off;

a current ratio, wherein the current ratio is a ratio of the number of the target data acquired at the current moment and a preset number, and the preset number is a total number of the preset plurality of motion data;

and ratio information of the current ratio to the preset ratio.

Optionally, the first motion segment configures the motion by indicating a motion category or displaying a motion image in the segment content.

Optionally, the video displayed by the electronic device further includes a second motion segment, where the second motion segment is also a segment of the scenario and the segment content includes a plurality of association information, where the association information is information associated between the inherited segment and the control action;

the method further comprises the steps of: and after the second motion segment is displayed, identifying control actions made by the user based on a plurality of pieces of association information, and taking the inherited segments associated with the identified control actions as contents to be displayed after the second motion segment is displayed in the video.

Optionally, identifying a control action performed by the user based on a plurality of the association information includes:

judging whether the action made by the user is a preset action in a control action or not;

a monitoring step of monitoring the duration of the action performed by the user under the condition that the action performed by the user is a preset action in a control action;

and determining, namely determining that the user performs the control action when the duration of the action performed by the user reaches the preset duration of the control action.

Optionally, identifying a control action performed by the user based on a plurality of the association information further includes: and when the duration of the action performed by the user does not reach the preset duration of the control action, if the action performed by the user is not the preset action in the control action, returning to the judging step.

Optionally, the method further comprises: and displaying the duration information of the current moment when the monitoring step is executed, wherein the duration information indicates the difference between the duration of the action performed by the user at the current moment and the preset duration of the control action.

According to two aspects of the present invention, there is provided an electronic apparatus including:

a memory for storing computer executable code;

a processor for executing the computer executable code to implement any of the methods of the first aspect;

and the display screen is used for displaying the video.

According to a third aspect of the present invention there is provided a system for assisting in exercise comprising: the electronic device and the wearable device in communication connection with the electronic device according to the first aspect, wherein the wearable device is configured to collect motion data of a user at different moments in the first motion segment display period, and send the collected motion data to the electronic device so that the electronic device can obtain the completion information.

Optionally, an accelerometer is disposed in the wearable device, and the accelerometer is configured to collect acceleration data generated by a user, where the acceleration data is the motion data.

According to a fourth aspect of the present invention there is provided a computer readable medium comprising computer executable code which when executed by a processor implements any of the methods of the first aspect.

According to the method for assisting body building, one piece of the to-be-displayed content which is displayed by the first motion segment in the video is selected from a plurality of inherited segments of the first motion segment according to the completion information of the action configured by the user on the first motion segment. Therefore, the exercise of the user and the video are organically combined, and the user performs the exercise with interaction, so that the interest of body building is improved, and the possibility that the user abandons body building due to boring and boring is reduced.

Drawings

The above and other objects, features and advantages of the present invention will become more apparent from the following description of embodiments of the present invention with reference to the accompanying drawings, in which:

FIG. 1 illustrates a system for assisting in exercise according to an embodiment of the present invention;

FIG. 2 illustrates a wearable device according to an embodiment of the invention;

FIG. 3 illustrates a flow chart of a method of assisting in exercise according to an embodiment of the invention;

FIG. 4 shows a schematic diagram of a relationship between a first motion segment and a successive play segment according to an embodiment of the invention;

FIG. 5 illustrates a flowchart for obtaining completion information for a user configured action for a first motion segment in accordance with an embodiment of the present invention;

FIG. 6 illustrates a display of an exemplary second motion segment according to an embodiment of the present invention;

FIG. 7 illustrates a flow chart of a method of identifying control actions taken by a user based on a plurality of associated information, in accordance with an embodiment of the present invention;

fig. 8 shows a schematic of an exemplary video play schedule for assisting in exercise.

Detailed Description

Various embodiments of the present invention will be described in more detail below with reference to the accompanying drawings. The same reference numbers will be used throughout the drawings to refer to the same or like parts. For clarity, the various features of the drawings are not drawn to scale. Furthermore, some well-known portions may not be shown in the drawings.

The following describes in further detail the embodiments of the present invention with reference to the drawings and examples. Numerous specific details of the invention, such as construction, materials, dimensions, processing techniques and technologies, may be set forth in the following description in order to provide a thorough understanding of the invention. However, as will be understood by those skilled in the art, the present invention may be practiced without these specific details.

Figure 1 shows a system for assisting in exercise. Referring to fig. 1, the exercise assisting system 100 includes an electronic device 110 and a wearable device 120 communicatively connected to the electronic device 110.

The electronic device 110 comprises a memory 111, a processor 112 and a display screen 113, wherein the memory 111 is for storing computer executable code; the processor 112 is configured to execute computer executable code to implement the method of assisting in exercise provided by embodiments of the present invention; and a display screen 113 for displaying video for assisting the exercise. Illustratively, the electronic device 110 is a cell phone, tablet computer, or notebook computer. Of course, electronic device 110 may also be a display integrated with memory 111 and processor 112, the display including display screen 113 and including display screen 113 having a larger size, which facilitates the user's viewing of videos used for assisting in exercise.

The video used to assist in the exercise includes a first motion segment. In the embodiment of the invention, the motion segment is distinguished from a common segment, the common segment is a video segment with only one inherited segment, and the motion segment is a video segment with a plurality of inherited segments; the inherited segment of a certain segment Q refers to a segment to be displayed after the segment Q is displayed. The improvement points of the embodiment of the invention mainly lie in that: according to the completion information of the actions configured by the user on the first motion segment, one of the inherited segments of the first motion segment is selected to serve as the content to be displayed after the first motion segment is displayed in the video, so that the motion of the user and the video are organically combined, the user performs interactive exercise, the interestingness of exercise is improved, and the possibility that the user gives up exercise due to boring and boring is reduced.

Based on the above, the wearable device 120 is configured to collect motion data of the user at different moments in the first motion segment display period, and send the collected motion data to the electronic device 110, so that the electronic device 110 obtains the completion information of the user on the action configured by the first motion segment. The wearable device 120 is, for example, a sports bracelet or other device that is wearable on the user, and can collect movement data of the user by monitoring movement of the device as the device moves with the user when the device is worn on the user. Taking a sports bracelet as an example. The moving bracelet can move along with the wrist movement of the user after being worn on the wrist of the user, and can also move along with the user when the user walks left and right and back or jumps up and down, so that the moving bracelet can collect the movement data of the user more comprehensively.

In one embodiment, the wearable device 120 is provided with an accelerometer for collecting user generated acceleration data as the above-mentioned motion data.

Referring to fig. 2, a coordinate system XYZ (coordinate system XYZ conforms to right rule, Z axis is not shown in the figure) is established on the wearable device 120 (a motion bracelet is shown in the figure), wherein the origin of coordinates is located on the wearable device 120 and directions of X axis, Y axis and Z axis are fixed. When the wearable device 120 is worn on the user and the user stands still, the accelerometer measures: the acceleration of the X axis is G (gravity acceleration), and the accelerations of the Y axis and the Z axis are 0 respectively; if the user moves, at least one of the accelerations measured by the accelerometer in the X-axis, Y-axis and Z-axis changes relative to the value when the user is standing still. To summarize, the larger the change of the acceleration of each axis at the present moment, the more intense the user movement, and the smaller the change of the acceleration of each axis at the present moment, the more gentle the user movement, compared with the previous moment.

If the acceleration of X axis, Y axis and Z axis at the moment is respectively a _X 、a _Y And a _Z And the accelerations of the X axis, the Y axis and the Z axis at the current moment are respectively a _X '、a _Y ' and a _Z ' then: the change in acceleration at the present time compared to the previous time can be represented by the acceleration variance S shown in the formula (1).

S＝[(a _X '-a _X ) ² +(a _Y '-a _Y ) ² +(a _X '-a _X ) ² ]/3 (1)

In this embodiment, since the acceleration variance S can well determine the movement consumption amount of the user, the acceleration data can be used as movement data to monitor the movement of the user.

Fig. 3 is a flowchart of an auxiliary exercise method according to an embodiment of the present invention. Referring to fig. 3, the exercise assisting method is applied to the electronic device 110, and includes:

step S110, obtaining the completion information of the action configured by the user on the first motion segment.

Step S120, selecting one of the inheritance segments of the first motion segment as the content to be displayed after the first motion segment is displayed in the auxiliary body-building video according to the completion information.

The method of assisting the exercise will be described in detail.

In an optional embodiment, the completion information is used to indicate that the degree of completion of the action configured by the user on the first motion segment is one of two preset degrees, and the two preset degrees can be distinguished by a demarcation information. The two preset degrees include a preset degree a (hereinafter also referred to as a first preset degree) and a preset degree B (hereinafter also referred to as a second preset degree), each of which is associated with one inheritance segment. Step S120, selecting one to-be-displayed content displayed as the first motion segment in the video from a plurality of inheritance segments of the first motion segment according to the completion information, including: and determining the inheritance segments related to the preset degree indicated by the completion information as the content to be displayed after the first motion segment in the video is displayed. In this embodiment, the number of preset levels is two, the two preset levels allow for greater differentiation,

referring to fig. 4, assuming that the first motion segment is an nth segment in the video used for assisting the exercise, after the nth segment is played on the electronic device 110, an (n+1) th segment of the video used for assisting the exercise is determined by the completion information, where if the completion information indicates that the completion degree of the action configured by the first motion segment by the user is a preset degree a, the (n+1) th segment is an inherited segment associated with the preset degree a; if the completion information indicates that the completion degree of the action configured by the user on the first motion segment is a preset degree B, the (n+1) th segment is an inherited segment associated with the preset degree B.

In some examples, the first motion segment is a segment of a scenario piece; the inheritance segment is also one segment of the scenario, and receives the first motion segment on the scenario; and the inheritance segments associated with the first preset degree and the inheritance segments associated with the second preset degree have different scenarios. Therefore, the user can exercise and watch the scenario sheets at the same time; and the user's own motion situation also decides the plot trend in the plot, so that the body-building and plot trend have interacted. Thus, the user's exercise is no longer boring. It should be noted that, the scenario may be video such as movie and television, or micro-movie, short video, etc., and the embodiment of the present invention does not limit the form of scenario.

Further, the first preset degree is that the user completes the action configured by the first motion segment, and the second preset degree is that the user does not complete the action configured by the first motion segment; the method of assisting body-building further comprises: the interest information of the user is acquired, and one of the two inherited fragments which is more interested by the user is related to a first preset degree according to the interest information, so that the user can be stimulated to complete the action configured by the first motion fragment as far as possible. In particular, the information of interest of the user is obtained from historical behavior generated by the user on the electronic device 100, including but not limited to the user entering search terms in a search engine or clicking on short videos in short video software.

In other examples, the first athletic segment is a segment of a workout; the inheritance segment is also a segment of the training course; and the inheritance segments associated with the first preset degree and the inheritance segments associated with the second preset degree have different training contents. Therefore, the user can scientifically exercise under the guidance of the video course; and the exercise condition of the user also determines the exercise content, so that the exercise and the exercise content interact, and the exercise of the user is not boring.

Further, the first preset degree is that the user completes the action configured by the first motion segment, and the second preset degree is that the user does not complete the action configured by the first motion segment; the first preset degree related inheritance segments have less activity consumption of training content than the second preset degree related inheritance segments, so that the training course can automatically ensure that a user achieves certain activity consumption.

Further, the inheritance segment associated with the first preset degree is a target segment; the inheritance segments associated with the second preset degree are synthesized by the training regulation segments and the target segments; the target segment is a segment which is adjacent to the first motion segment and is positioned behind the first motion segment in the training course where the first motion segment is positioned, namely, if the user completes the action configured by the first motion segment, training of the training course is normally performed; if the user does not complete the action configured by the first movement section, other movement sections are supplemented on the basis of the training course, and the user is guided to train the other movement sections through the training adjustment section.

Further, the body part trained by the training adjustment section is different from the body part trained by the target section, so that the user reaches a predetermined consumption through the training of other body parts when the body part trained by the target section is fatigued, which gives the user who just starts to exercise a progressive space, so that a certain body part of the user is not painful due to sudden over training, and the like.

FIG. 5 is a flow chart illustrating the process of obtaining information about the completion of a user configured action for a first motion segment. Referring to fig. 5, in an alternative embodiment, step S110, obtaining information about completion of the action configured by the user on the first motion segment includes:

step S111, obtaining motion data of a user at different moments in a first motion segment display period, and obtaining a plurality of motion data.

Step S112, determining the duty ratio of target data in the plurality of motion data, wherein the target data is the motion data which indicates that the user action reaches the standard.

Step S113, determining the completion information according to the size relation between the duty ratio and the preset ratio.

Specifically, in the case where the motion data is acceleration data, the target data is acceleration data whose acceleration variance satisfies the criterion. The standard conditions herein vary from exercise program to exercise program.

If the exercise item of the flat support is taken as an example, because the more stable the arm motion in the flat support is, the better the arm motion is, the acceleration variance is required to meet the standard-reaching condition being about equal to 0, and in practice, whether the motion of the flat support of the user meets the standard is determined by using a first preset value with the acceleration variance smaller than a smaller positive value, wherein the first preset value can be a default value or a value set by the user based on the requirement of the user. And under the condition that the acceleration variance is smaller than a first preset value, determining that the flat plate supporting action of the user meets the standard, otherwise, determining that the flat plate supporting action of the user does not meet the standard.

If the motion item of the opening and closing jump is taken as an example, because the larger the arm motion is, the better the opening and closing jump is, the acceleration variance needs to meet the standard reaching condition of much larger than 0, and in practice, whether the opening and closing jump motion of the user reaches the standard is determined by the acceleration variance being larger than a second preset value (the second preset value is larger than the first preset value). Also, the second preset value may be a default value or a value set by the user based on the requirement of the user. And under the condition that the acceleration variance is larger than a second preset value, determining that the opening and closing jumping of the user meets the standard, and otherwise, determining that the opening and closing jumping of the user does not meet the standard.

It should be noted that, certain motion data indicates that the user motion is up to standard, but indicates whether the motion of the user at the time of collecting the motion data is up to standard with respect to the previous time of collecting. If the completion information of the action configured by the user on the first motion segment is determined, the embodiment of the invention needs a plurality of motion data of the user at different moments in the display period of the first motion segment, so that the completion information of the action configured by the user on the first motion segment is more accurately obtained.

To the extent that the above-mentioned preset degree is two, the preset ratio is one, where the preset ratio is the aforementioned boundary information. Under the situation, if the duty ratio of the target data in the plurality of motion data is larger than the preset ratio, the user is considered to complete the action configured by the first motion segment; and if the duty ratio of the target data in the plurality of motion data is not greater than the preset ratio, the user is considered to not complete the action configured by the first motion segment.

Of course, the number of preset degrees may be greater than two, in which case the preset ratio P needs to be plural. The number of the preset degrees is recorded as W (W>2) The number of preset ratios P is (W-1) and the preset ratios P of (W-1) are sequentially increased, wherein 0 to P ₁ (i.e. not less than 0 and not more than P ₁ ) Determining a preset degree, P _i To P _i+1 (i.e. greater than P _i And is not greater than P _i+1 ) (1. Ltoreq.i. Ltoreq.W-2) determining a preset degree, P _W-1 To 1 (i.e. greater than P _W-1 And not less than 1) determining a preset degree, and determining a preset degree to which the completion information is based on the duty ratio of the target data in the plurality of motion data.

The plurality of motion data may be acquired at fixed intervals of acquisition time. Taking the above-mentioned flat panel support as an example, if the user performs the flat panel support action for 30s, acceleration data may be collected every 1s, and if the preset degree is two and the preset ratio is 5/6, the post-30 s statistics action is performed: and if the variance of the acceleration of more than 25 actions is smaller than a first preset value, determining that the user completes the action of the flat plate support configured by the first motion segment, otherwise, determining that the user does not complete the action of the flat plate support configured by the first motion segment. Taking the above-mentioned opening and closing jump as an example, if the user performs the opening and closing jump action for 30s, acceleration data is collected every 1s, and if the preset degree is two and the preset ratio is 5/6, the post-statistics action is performed for 30 s: and if the variance of the acceleration of the actions is larger than a second preset value, determining that the user completes the action of the opening and closing jump configured by the first motion segment, otherwise, determining that the user does not complete the action of the opening and closing jump configured by the first motion segment.

Further, each of the plurality of athletic data is acquired in real-time, and the method of assisting in exercise further comprises: when the exercise data is obtained, the statistical information of the current moment is displayed, and the statistical information indicates the completion condition of the user action at the current moment, so that the user can know the exercise state of the user as soon as possible and make corresponding adjustment according to the exercise state. Specifically, the statistical information may be any one of the following: (1) The number of the target data acquired at the current moment is cut off, so that a user can intuitively know the effective body-building duration of the user at the current moment in the body-building process; (2) The current ratio is the ratio of the number of target data acquired at the current moment to the preset number, and the preset number is the total number of the preset plurality of exercise data, so that a user can intuitively know the difference between the effective exercise time length at the current moment and the total time length required to be exercised in the exercise process; (3) The ratio information of the current ratio and the preset ratio can be visually known by a user in the body building process.

In an alternative embodiment, the first motion segment indicates the type of motion or displays the motion image to implement configuration of motion, so that the user can learn the motion to be performed in real time by watching the first motion segment, which is beneficial to promoting the compactness of the interaction between the user and the video used for assisting in body building. Specifically, the first motion segment may indicate the motion category by displaying motion category information or motion images in the corner area, for example, displaying information of "open and close skip" in the upper right corner or displaying an image of "coach open and close skip" to set the motion of the first motion segment configuration as open and close skip, and displaying the motion category information or motion images in the corner area does not affect the user's viewing of the first motion segment.

In an alternative embodiment, the video displayed by the electronic device 110 (i.e. the video used for assisting the exercise) further includes a second motion segment, where the second motion segment is also a segment of the scenario and the segment content includes a plurality of associated information, where the associated information is information associated between the inherited segment and the control action, and the control actions in different associated information are different and the inherited segment is also different; the method of assisting body-building further comprises: and after the second motion segment is displayed, identifying the control action which is performed by the user based on the plurality of associated information, and taking the inherited segment which is associated with the identified control action as the content to be displayed after the second motion segment is displayed in the video.

Fig. 6 is a display of an exemplary second motion segment, wherein inherited segments of associated information are indicated by storyline information and control actions of the associated information are indicated by images. Referring to fig. 6, the segment content of the second motion segment includes two association relations, one association relation is used for controlling the brake to be as 'palm forward, arm vertical placement', and the story line of the inherited segment is 'thinking of the deceased person', so that a few tears are avoided; in the other association relationship, the control action is palm down, arm flat, and the inherited story line of the segment is reminiscent of evodia, hero and cherish. As shown in fig. 6, the story line of the second motion segment may be such that a person in the storyline brings up a question, such that the second motion segment has a plurality of inherited segments due to a plurality of answers to the question. Of course, the storyline of the second motion segment may also be an action in the storyline, such that the second motion segment has multiple inherited segments due to multiple outcomes of the action.

In this embodiment, the control action performed by the user based on the plurality of pieces of associated information plays a role in scenario promotion. The control action in the associated information in the second motion segment is an instant action that enables the user to quickly select the storyline trend of the storyline compared to the action performed by the user during the play period of the first motion segment.

Further, as shown in fig. 7, identifying a control action performed by the user based on the plurality of association information includes:

in the determining step S601, it is determined whether the action performed by the user is a preset action in one control action.

Specifically, whether the action performed by the user is a preset action in one control action may be determined by judging whether the acceleration data of the user satisfies a preset condition. The preset conditions are different according to the preset actions in the control actions.

Taking the wearable device 120 as the exercise bracelet shown in fig. 2 and the preset motion being "palm forward, arm upright" shown in fig. 6, the preset condition should be "X-axis acceleration absolute value is about G, Y, Z-axis acceleration absolute value is about 0". Taking the wearable device 120 as the exercise bracelet shown in fig. 2 and the preset motion being "palm down, arm flat" shown in fig. 6, the preset condition should be "the absolute value of the Z-axis acceleration is about G, and the absolute value of the X, Y-axis acceleration is about 0". Of course, in the above two examples, the arm performing the preset motion should be the right hand arm of the user wearing the exercise bracelet as shown in fig. 6, and the XYZ coordinate system is established on the exercise bracelet as shown in fig. 2, so that the right hand of the user penetrates into the bracelet along the positive direction of the X axis.

If the action performed by the user is a preset action in one control action, the monitoring step S602 is executed, otherwise, after the user corrects the action, whether the action performed by the user is a preset action in one control action is continuously determined.

In the monitoring step S602, the duration of the action performed by the user is monitored.

Acceleration data of the user may be continuously collected to determine the duration of the action performed by the user. Step S603 is executed when the duration of the action performed by the user reaches the preset duration of the control action; continuing to execute the monitoring step S602 when the duration of the action performed by the user does not reach the preset duration of the control action; when the duration of the action performed by the user does not reach the preset duration of the control action, if the action performed by the user is not the preset action in the control action, returning to the judgment step S601, namely interrupting the timing and recalculating the duration of the control action of the user. The monitoring that the action performed by the user is no longer a preset action in the control action can be that the acceleration data which does not meet the preset condition is monitored.

It should be noted that the preset time period is a shorter time period, for example, 2s. The control action duration is required to reach the preset duration in this embodiment to ensure that the electronic device 110 accurately recognizes the control action.

A determining step S603 determines that the user has made the control action.

Further, the method of assisting exercise further comprises: when the monitoring step S602 is performed, duration information of the current time is displayed, where the duration information indicates a gap between a duration of the action performed by the user at the current time and a preset duration of the control action. The duration information is given by way of example by a progress bar in the form of a ring around the associated information as shown in fig. 6, but the duration information may be given by other means such as text. The provision of the duration information is beneficial for the user to accurately complete the control action.

Fig. 8 is a schematic view showing the progress of playing of a video for assisting exercise according to an exemplary embodiment of the present invention. Referring to fig. 8, the exercise-assisting video starts to be played on the electronic device 110, and the 1 st clip is a normal clip, thus successively playing the preset 2 nd clip; the 2 nd segment is also a common segment, so that the preset 3 rd segment is played successively; the 3 rd segment is the first motion segment, so that the 4 th segment is determined to be an inherited segment associated with a preset degree A instead of an inherited segment associated with a preset degree B (the number of preset degrees is two) based on the completion information of the action configured by the first motion segment; the 4 th segment is also a common segment, so that the 4 th segment is played and then the preset 5 th segment is played successively; the 5 th segment is a second motion segment, and thus the 6 th segment is determined to be an inherited segment associated with the identified control action instead of an inherited segment associated with a non-identified control action based on the identified control action (the second motion segment gives two association information); and then continue the playback of the subsequent clip.

As can be seen from fig. 8, the video for assisting in exercise is divided into a plurality of segments, and the user exercise and video playing are fully interacted, so that the user's attention can be attracted, the interest of the user exercise is increased, the user is helped to stay on exercise more permanently, and the possibility that the user gives up exercise due to boring exercise is effectively reduced. Based on the foregoing, the exercise assisting video used in the present invention may also be referred to as an interactive exercise program.

It should be appreciated that the exercise assisting video may include a plurality of first motion segments and a plurality of second motion segments, where the principle of determining the successive play segments after each first motion segment is identical and the principle of determining the successive play segments after each second motion segment is identical.

Those of ordinary skill in the art will appreciate that all or a portion of the steps of the various methods of the above embodiments may be performed by instructions or by controlling associated hardware, which may be stored in a computer-readable storage medium and loaded and executed by a processor. To this end, embodiments of the present invention also provide a computer readable storage medium having stored thereon a computer program or instructions which, when executed by a processor, perform the processes of the embodiments of the above-described exercise assisting method. Among them, the computer readable storage medium is a medium such as a usb disk, a removable hard disk, a Read-Only Memory (ROM), a random access Memory (Random Access Memory, RAM), a magnetic disk or an optical disk, etc., which can store program codes.

Because the instructions stored in the readable storage medium can execute the steps in any of the exercise assisting methods provided in the embodiments of the present invention, the beneficial effects that any of the exercise assisting methods provided in the embodiments of the present invention can be achieved, and detailed descriptions of the foregoing embodiments are omitted. The specific implementation of each operation performed by the instructions stored in the readable storage medium may be referred to in the foregoing embodiments, and will not be described herein.

In describing the embodiments, the differences from other embodiments will be explained, and the same or similar parts between the embodiments may be understood by referring to each other. For system embodiments, reference may be made to the description of the method embodiment section for the relevance of the system embodiments as they are substantially similar to the method embodiments.

Furthermore, it should be noted that in the apparatus and method of the present invention, it is apparent that the components or steps may be disassembled and/or assembled. Such decomposition and/or recombination should be considered as equivalent aspects of the present invention. Also, the steps of performing the series of processes described above may naturally be performed in chronological order in the order of description, but are not necessarily performed in chronological order, and some steps may be performed in parallel or independently of each other.

Finally, it should be noted that: it is apparent that the above examples are only illustrative of the present invention and are not limiting of the embodiments. Other variations or modifications of the above teachings will be apparent to those of ordinary skill in the art. It is not necessary here nor is it exhaustive of all embodiments. And obvious variations or modifications thereof are contemplated as falling within the scope of the present invention.

Claims (20)

1. A method of assisting in exercise applied to an electronic device having a display screen, wherein video displayed by the electronic device includes a first motion segment, the method comprising:

acquiring the completion information of the action configured by the user on the first motion segment;

and selecting one from a plurality of inheritance fragments of the first motion fragment according to the completion information as the content to be displayed after the first motion fragment is displayed in the video.

2. The method of claim 1, wherein the step of determining the position of the substrate comprises,

the completion information is used for indicating that the completion degree of the action configured by the user on the first motion segment is one of two preset degrees, and one of the preset degrees is associated with one of the inherited segments;

selecting one of the inheritance segments of the first motion segment as the content to be displayed after the first motion segment is displayed in the video according to the completion information, wherein the content to be displayed comprises the following components: and determining the inheritance segment related to the preset degree indicated by the completion information as the content to be displayed after the first motion segment is displayed in the video.

3. The method of claim 2, wherein the step of determining the position of the substrate comprises,

the first motion segment is a segment of a scenario piece;

the inheritance segment is also one segment of a scenario piece, and receives the first motion segment on the scenario;

and the two preset degrees are associated with two inherited fragments, and the dramas of the two inherited fragments are different.

4. The method of claim 3, wherein the step of,

the two preset degrees comprise a first preset degree and a second preset degree, wherein the first preset degree is that a user completes the action configured by the first motion segment, and the second preset degree is that the user does not complete the action configured by the first motion segment;

the method further comprises the steps of: and acquiring interest information of the user, and associating one of the two inherited fragments which is more interested by the user to the first preset degree according to the interest information.

5. The method of claim 2, wherein the step of determining the position of the substrate comprises,

the first exercise section is a section of a training course;

the inheritance segment is also a segment of the training course;

and the two preset degrees are associated with two inheritance fragments, and training contents of the two inheritance fragments are different.

6. The method of claim 5, wherein the step of determining the position of the probe is performed,

the two preset degrees comprise a first preset degree and a second preset degree, wherein the first preset degree is that a user completes the action configured by the first motion segment, and the second preset degree is that the user does not complete the action configured by the first motion segment;

and the activity consumption of the training content of the inheritance fragments related to the first preset degree is less than that of the inheritance fragments related to the second preset degree.

7. The method of claim 6, wherein the step of providing the first layer comprises,

the inheritance segment associated with the first preset degree is a target segment;

the inheritance segments related to the second preset degree are synthesized by the training regulation segments and the target segments;

the target segment is a segment which is adjacent to the first motion segment and is positioned behind the first motion segment in a training course where the first motion segment is positioned.

8. The method of claim 7, wherein the body part trained by the training regulatory segment is different from the body part trained by the target segment.

9. The method of claim 1, wherein obtaining completion information of the user's configured action for the first motion segment comprises:

acquiring motion data of a user at different moments in the first motion segment display period to obtain a plurality of motion data;

determining the duty ratio of target data in the plurality of motion data, wherein the target data is motion data representing that the user action reaches the standard;

and determining the completion information according to the size relation between the duty ratio and the preset ratio.

10. The method of claim 9, wherein each of the plurality of motion data is acquired in real-time, the method further comprising: and when the motion data is acquired, displaying the statistical information of the current moment, wherein the statistical information indicates the completion condition of the user action at the current moment.

11. The method of claim 10, wherein the statistical information is any one of:

the number of the target data acquired at the current moment is cut off;

a current ratio, wherein the current ratio is a ratio of the number of the target data acquired at the current moment and a preset number, and the preset number is a total number of the preset plurality of motion data;

and ratio information of the current ratio to the preset ratio.

12. The method of claim 1, wherein the first motion segment enables configuration of motion by indicating a type of motion or displaying a motion image in the segment content.

13. The method of claim 1, wherein the step of determining the position of the substrate comprises,

the video displayed by the electronic equipment further comprises a second motion segment, the second motion segment is also a segment of a scenario, the segment content comprises a plurality of associated information, and the associated information is information associated between the inherited segment and the control action;

the method further comprises the steps of: and after the second motion segment is displayed, identifying control actions made by the user based on a plurality of pieces of association information, and taking the inherited segments associated with the identified control actions as contents to be displayed after the second motion segment is displayed in the video.

14. The method of claim 13, wherein identifying a control action by a user based on a plurality of the association information comprises:

judging whether the action made by the user is a preset action in a control action or not;

a monitoring step of monitoring the duration of the action performed by the user under the condition that the action performed by the user is a preset action in a control action;

and determining, namely determining that the user performs the control action when the duration of the action performed by the user reaches the preset duration of the control action.

15. The method of claim 14, wherein identifying a control action by a user based on a plurality of the association information further comprises: and when the duration of the action performed by the user does not reach the preset duration of the control action, if the action performed by the user is not the preset action in the control action, returning to the judging step.

16. The method as recited in claim 14, further comprising: and displaying the duration information of the current moment when the monitoring step is executed, wherein the duration information indicates the difference between the duration of the action performed by the user at the current moment and the preset duration of the control action.

17. An electronic device, comprising:

a memory for storing computer executable code;

a processor for executing the computer executable code to implement the method of any one of claims 1-16;

and the display screen is used for displaying the video.

18. A system for assisting in exercise, comprising: the electronic device and wearable device communicatively connected to the electronic device of claim 17, wherein the wearable device is configured to collect movement data of a user at different times within the first movement section display period and send the collected movement data to the electronic device for the electronic device to obtain the completion information.

19. The system of claim 18, wherein an accelerometer is disposed in the wearable device, the accelerometer configured to collect acceleration data generated by a user, the acceleration data being the motion data.

20. A computer readable medium comprising computer executable code which when executed by a processor implements the method of any of claims 1-16.

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