CN111617384B - Electronic device, wearable device, fitness system, and computer-readable medium - Google Patents

Abstract

Embodiments of the present application provide an electronic device, a wearable device, a fitness device, and a computer readable medium. The electronic device includes: a processor, a memory, and a computer program stored in the memory and executable on the processor, the processor implementing the steps when executing the computer program of: according to the training program, training data is obtained, one channel corresponds to one position, and compared with a single training control method, in the method, training messages are generated according to training intensity of at least one channel in the training data, the training messages are sent to training equipment to control the training equipment to perform stimulation training on the position corresponding to the channel, in the stimulation training process, when training data such as training intensity is changed, training data after the training intensity is changed can be timely generated into training messages, and the training equipment can train the position of a target object according to the training intensity after the channel is changed, so that a better training effect is achieved.

Description

Electronic device, wearable device, fitness system, and computer-readable medium

Technical Field

The embodiment of the application relates to the technical field of electronic information, in particular to electronic equipment, wearing equipment, a body-building system and a computer readable medium.

Background

EMS (Electrical Muscle Stimulation) technology has been continuously studied and perfected and is widely used in various fields, for example, in the aerospace field for training astronauts to prevent muscle atrophy of astronauts in the long-term gravity-free condition. By using EMS technology, under the stimulation of current to muscle, the muscle can be contracted passively, and training action is performed, so that the passive contraction and the actively moving muscle form 'antagonism', the blood and lymph circulation is effectively promoted, and the purpose of developing muscle strength is achieved. However, the existing EMS training apparatus generally adopts a single training control method, so that a better training effect cannot be achieved, and the existing EMS training apparatus cannot effectively adapt to diversified fitness training requirements of users.

Disclosure of Invention

Accordingly, one of the technical problems to be solved by the embodiments of the present invention is to provide an electronic device, a wearable device, a fitness system and a computer readable medium for solving and alleviating the problems existing in the prior art.

In a first aspect, an embodiment of the present application provides an electronic device, including: a processor, a memory, and a computer program stored in the memory and executable on the processor, the processor implementing the steps when executing the computer program of:

Acquiring training data according to a training program, wherein the training data comprises training intensity of at least one channel, the channel is used for indicating a transmission path of a stimulation signal when a part of a target object is trained, one channel corresponds to one part, and the training intensity is used for indicating the intensity of the stimulation signal when the part of the target object is trained;

generating a training message according to the training data;

and sending the training message to training equipment so as to control the training equipment to train the part corresponding to the channel.

Optionally, in an embodiment of the present application, the processor performs a step of generating a training message according to the training data, including:

determining the training intensity of the channel according to a single-channel intensity rate, a single-channel attenuation rate and a main-channel intensity rate, wherein the single-channel intensity rate is used for indicating and controlling the intensity percentage of the channel, the single-channel attenuation rate is used for indicating and controlling the intensity attenuation percentage of the channel, and the main-channel intensity rate is used for controlling the intensity percentage of the training intensity in all the channels;

and generating the training message according to the training intensity.

Optionally, in an embodiment of the present application, the processor further implements the following steps when executing the computer program:

adjusting the intensity rate of the main channel to control the training intensity of all the channels;

and adjusting the single-channel intensity rate to control the training intensity of the channel corresponding to the single-channel intensity rate.

Optionally, in one embodiment of the present application, the training data includes training pattern data, and the processor performs a step of generating a training message according to the training data, including:

generating the training mode data according to the total training duration of the channel and the bar training data of at least one training bar, wherein the training program comprises at least one training bar; generating the training message according to the training intensity and the training mode data; the section training data comprises at least one of training duration, training position information and section information of the training section, the training mode data is used for indicating configuration data of the training section, and the training mode data comprises rising time, holding time, falling time, resting time, medium frequency intensity, frequency and low frequency intensity of the stimulation signal.

Optionally, in an embodiment of the present application, the training data includes lateral configuration data and/or cross configuration data, and the processor performs the step of acquiring training data according to a training program, including:

acquiring transverse configuration data and/or cross configuration data between at least two channels according to the training items; the processor executes a step of generating a training message according to the training data, including: and generating the training message according to the training intensity, the transverse configuration data and/or the cross configuration data.

Optionally, in one embodiment of the present application, the training data includes conversion configuration data, and the processor performs the step of acquiring the training data according to a training program, including:

acquiring conversion configuration data between at least two training subsections according to the training program, wherein the training program comprises at least one training subsection, and the conversion configuration data comprises conversion training duration and conversion training intensity; the processor executes a step of generating a training message according to the training data, including: and generating the training message according to the training intensity and the conversion configuration data.

Optionally, in an embodiment of the present application, the processor further implements the following steps when executing the computer program:

acquiring operation data in the training equipment, wherein the operation data are used for indicating data generated when the training equipment uses the channel to perform stimulation training on the part; and generating and displaying a simulation waveform chart according to the running time in the running data, wherein the waveform of the simulation waveform chart is consistent with a stimulation signal used for performing stimulation training on the target object, and the simulation waveform chart comprises rising time, holding time, falling time and rest time of the stimulation signal.

Optionally, in an embodiment of the present application, the processor further implements the following steps when executing the computer program:

receiving channel data transmitted by the training equipment, wherein the channel data comprises the current value generated by performing stimulation training on the part of the target object according to the total training intensity and the training intensity of the channel; generating training information according to the current value corresponding to the channel, the training intensity of the channel and the total training intensity; and determining the on state of the channel, training index value and calorie consumption of the target object according to the training information.

Optionally, in one embodiment of the present application, the processor performs the step of determining the on state of the channel according to the training data, including:

when the training intensity is larger than the intensity threshold value and the current value corresponding to the channel displayed by the waveform on the simulated waveform diagram is smaller than the current threshold value within the preset times, displaying an error mark on the color block corresponding to the channel on the simulated human diagram, wherein the error mark is used for indicating that the channel is not communicated with the part of the target object; when the current value corresponding to the channel is larger than the current threshold, simulating normal display of a color block corresponding to the channel on a human body diagram, wherein the normal display is used for indicating that the channel is communicated with the part of the target object.

In a second aspect, embodiments of the present application further provide a wearable device, including: the electronic equipment comprises a wearing main body, wherein the wearing main body is worn on the body of a target object, and a stimulation training component is arranged in the wearing main body and used for receiving the control of any one of the electronic equipment to perform stimulation training on the target object.

In a third aspect, embodiments of the present application also provide an exercise system, comprising: the electronic device of any one of the above and the above wearable device; the electronic equipment is electrically connected with the wearable equipment and used for controlling the wearable equipment to perform stimulation training on the target object.

In a fourth aspect, embodiments of the present application further provide a computer readable medium storing a computer program stored in an electronic device according to any one of the above.

In the technical solution of the embodiment of the application, an electronic device includes: the system comprises a processor, a memory and a computer program stored in the memory and capable of running on the processor, wherein when the processor executes the computer program, training data are acquired according to a training program, the training data comprise training intensity of at least one channel, the channel is used for indicating a transmission path of a stimulation signal when a part of a target object is trained, one channel corresponds to one part, and the training intensity is used for indicating the intensity of the stimulation signal when the part of the target object is trained; the training data comprises training intensity of at least one channel, and compared with a single training control method, the training information is generated according to the training intensity of at least one channel, the training information is sent to training equipment to control the training equipment to perform stimulation training on a part corresponding to the channel, and in the stimulation training process of the part, when the training data such as the training intensity is changed, the training data with the changed training intensity can be timely generated into the training information, so that the training equipment can train the part of a target object according to the training intensity after the channel is changed, and a better training effect is achieved.

Drawings

Some specific embodiments of the present application will be described in detail below by way of example and not by way of limitation with reference to the accompanying drawings. The same reference numbers will be used throughout the drawings to refer to the same or like parts or portions. It will be appreciated by those skilled in the art that the drawings are not necessarily drawn to scale. In the accompanying drawings:

FIG. 1 is a flowchart of a fitness training method implemented by a processor of an electronic device executing a computer program according to an embodiment of the present application;

fig. 2 is an application scenario diagram provided in an embodiment of the present application;

FIG. 3 is a schematic diagram of training intensity of a channel according to an embodiment of the present disclosure;

fig. 4 is a block diagram of an electronic device according to an embodiment of the present application;

fig. 5 is a structural diagram of a wearable device provided in an embodiment of the present application;

FIG. 6 is a block diagram of an exercise system according to an embodiment of the present application;

fig. 7 is a hardware configuration diagram of an electronic device according to an embodiment of the present application.

Detailed Description

The implementation of the embodiments of the present invention will be further described below with reference to the accompanying drawings.

It is not necessary for any of the embodiments of the present application to be practiced with all of the advantages described above.

In order to make the present invention better understood by those skilled in the art, the following description will clearly and completely describe the technical solutions in the embodiments of the present invention with reference to the accompanying drawings, and it is apparent that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

It should be noted that, the purpose of the present application is to represent the singular concept only, and not to be limited to the singular, for example, the object refers to one object, and may be any object; at least one of the present application may be one or a plurality of the channels, for example, at least one of the channels may be one channel or two or more channels.

Example 1

An embodiment of the present application provides a fitness training method implemented when a processor of an electronic device executes a computer program, and fig. 1 is a flowchart of the fitness training method implemented when the processor of the electronic device executes the computer program, as shown in fig. 1, where the fitness training method includes the following steps:

And 101, acquiring training data according to the training items.

The training data comprises training intensity of at least one channel, the channel is used for indicating a transmission path of the stimulation signal when the part of the target object is trained, one channel corresponds to one part, and the training intensity is used for indicating the intensity of the stimulation signal when the part of the target object is trained.

The training items in the embodiment of the application can be stored in a training database, one or a plurality of training items in the training database can be provided, and the training items can be added to the training database at any time according to the needs so as to adapt to the continuously-changing training requirements. The training program is used for indicating training information when a target object performs body-building training, and the target object is a user who performs body-building training by using training equipment. In this embodiment of the present application, each user is an independent individual, and because of the differences of the individuals, such as the differences of height, weight, gender, age, health level, etc., the training intensity that different users can bear is different, different users in this embodiment of the present application can select training items according to their own actual needs, and after the user selects a training item, training data related to the training item can be obtained from the selected training item.

Here, an illustration of a scenario where the training method may be applied is shown in fig. 2, where fig. 2 is an application scenario diagram provided in the embodiment of the present application, including, but not limited to, an electronic device 10, a training device 20, and a target object 30, a training portion 41 of the target object, where the electronic device 10 may be, but not limited to, a mobile phone, a tablet computer, a mobile computer, and other user-side devices, so long as the electronic device capable of executing the training method is within the protection range of the present application, the target object 30 may be any user, and the electronic device 10 is connected with the training device 20 through bluetooth before training, and after the connection is successful, a training item may be selected through the electronic device. In one implementation manner, when a training item is selected, a relevant training item is recommended to a user according to a record after the user performs the last training, in another implementation manner, before the user starts the training, body related information can be input into an electronic device through a specific WeChat applet or an APP for training, etc., the electronic device recommends a suitable training item to the user according to the input body related information or specific requirements of the user, and the body related information of the user can include, but is not limited to, height, weight, gender, age, health level, etc., so that the embodiment of the application is not limited. The electronic device 10 and the training device 20 may communicate via bluetooth, and may also communicate via other wireless communication means, such as infrared, wifi, NB-IoT (Narrow Band Internet of Things ), etc. The electronic device 10 in fig. 2 generates a training message from channel-related data in the training program, sends the training message to the training device 20, and connects the training device 20 with the portion 40 of the target object 30 through a connection line to transmit a stimulus signal, where the connection portion 40 in fig. 2 is shown as a waist, it is understood that the connection portion may also be a portion of the chest, buttocks, legs, arms, abdomen, back, a special portion, etc., the special portion may be any portion of the human body, the connection portion 40 in fig. 2 is merely an exemplary illustration, and the training device 20 transmits the stimulus signal to the waist of the human body through the channel to perform the stimulus training on the waist of the target object 30. The training intensity of the channel is used for indicating the intensity of the stimulus signal when the part 40 of the target object 30 is trained, in the training process, the target object 30 can make the stimulus training reach the self-required degree by adjusting the training intensity of the channel, if the intensity of the channel is changed, the electronic device 10 forms a training message with the changed intensity, sends the training message to the training device 20 through bluetooth, the training device 20 stimulates the waist of the human body, and returns the information generated after the stimulation training to the electronic device 10.

In order to achieve diversified training targets, training data in the embodiment of the present application includes training intensity of at least one channel, one channel corresponds to a human body part, the training intensity in the channel represents intensity of a stimulus signal when training the part of a target object, the embodiment of the present application includes 8 channels, and the 8 channels are 7 parts of chest, back, abdomen, arm, waist, hip and leg according to main muscle groups of a human body, and 8 th channels of a crowd for coping with special training targets, and stimulus training can be performed on different parts of the target object through the 8 channels, so as to achieve comprehensive and diversified training of the target object. In one possible implementation manner, the chest of the target object may be stimulated and trained through a channel corresponding to the chest, which is described herein by taking the chest as an example, or may be back, abdomen, arm, waist, buttocks, legs, etc., or any part of the target object may be stimulated and trained solely through the 8 th channel, for example, the target object may be contacted with a part of a human body by using a plurality of different modes such as a binding band, a waistband, a patch, etc., so as to perform stimulation and training solely on the part; in another implementation manner, the channels can be flexibly configured and combined through the custom channel configuration items according to different target objects and different training targets, for example, the channels corresponding to the legs and the channels corresponding to the breasts are selected to perform stimulation training on the legs and the breasts of the human body at the same time, so that diversified training effects are realized; in still another implementation manner, a lower limb training mode may be predefined in the electronic device, where the lower limb training mode is used to indicate relevant data of 2 channels corresponding to buttocks and legs of the human body, and when the lower limb training mode is selected, stimulation training may be performed on the chest, back, abdomen and waist of the human body at the same time, so as to achieve diversified training effects; in still another implementation manner, an upper limb training mode may be predefined in the electronic device, where the upper limb training mode is used to indicate relevant data of 4 channels corresponding to the chest, back, abdomen and waist of the human body, and when the upper limb training mode is selected, stimulation training may be performed on the chest, back, abdomen and waist of the human body at the same time, so as to achieve a diversified training effect; in another implementation manner, the user performs custom configuration according to the utilization condition of the channel, and performs stimulation training on the corresponding part of the human body by using the unoccupied channel, so that the flexibility of the stimulation training is realized.

Step 102, generating a training message according to the training data.

The training data includes training intensity of at least one channel, and in the embodiment of the present application, a training message is generated according to the training intensity of at least one channel. For example, when the training device performs stimulus training on the leg through the channel corresponding to the leg, when the user feels that the stimulus intensity of the leg is too high, the stimulus intensity can be reduced by adjusting the training intensity of the channel corresponding to the leg.

Optionally, in an embodiment of the present application, the training intensity of the channel is determined according to a single channel intensity rate, a single channel attenuation rate, and a main channel intensity rate, where the single channel intensity rate is used to indicate an intensity percentage of the control channel, the single channel attenuation rate is used to indicate an intensity attenuation percentage of the control channel, and the main channel intensity rate is used to control the intensity percentages of the training intensities in all channels; and generating a training message according to the training intensity.

It should be noted that, in this embodiment of the present application, a single channel refers to a channel, taking a training portion as an example to describe at the chest, the channel corresponding to the chest is just a single channel, both the single channel intensity rate and the single channel attenuation rate refer to the training intensity percentage for controlling the channel corresponding to the chest, the single channel intensity rate is used for increasing the training intensity of the channel, and the single channel attenuation rate is used for reducing the training intensity of the channel. As shown in fig. 3, fig. 3 is a schematic diagram of training intensity of a channel provided in an embodiment of the present application, where the left side in fig. 3 is a front view of a human body, 4 training sites including a chest, an abdomen, an arm, and a leg are on the front view of the human body, each of the chest, the abdomen, the arm, and the leg includes an upward arrow, and a single channel training intensity percentage corresponding to the 4 training sites and a downward arrow are displayed on the left side in the front view of the human body, where the percentage is used to display the current training intensity percentage of the channel to a user, for example, the percentage is, from top to bottom, in order, that the chest training intensity percentage is 90%, the abdomen training intensity percentage is 50%, the arm training intensity percentage is 30%, and the leg training intensity percentage is 90%, so that the user has an intuitive visual effect, and can know the training intensity of the training site corresponding to the channel; the right side of the figure 3 is a human back diagram, 3 training parts are arranged on the human back diagram, the human back diagram comprises a back, a waist and a hip, upward arrows are contained in the back, the waist and the hip, the right side of the human back diagram is provided with a single channel training intensity percentage corresponding to the 3 training parts and downward arrows, for example, the percentage is from top to bottom, and the back training intensity percentage is 80%, the waist training intensity percentage is 10% and the hip training intensity percentage is 0%; in addition, the lower right corner of fig. 3 further includes a training intensity percentage of the 8 th channel and a downward arrow, for example, the eighth channel training intensity percentage is 60%, any part of the human body can be stimulated and trained through the 8 th channel, and the training part corresponding to the 8 th channel is not shown on the human body diagram; the middle position of fig. 3 has a main channel training intensity percentage for controlling the magnitude of all channel training intensities, e.g., a main channel training intensity percentage of 40%; the upward arrow in fig. 3 indicates increasing the single channel intensity rate of the corresponding channel, and the downward arrow indicates decreasing the single channel intensity rate of the corresponding channel, which can be increased or decreased when the user clicks the upward or downward arrow; the upward arrow in the main channel intensity rate in fig. 3 indicates increasing the training intensity of all channels, and the downward arrow indicates decreasing the training intensity of all channels.

Optionally, in an embodiment of the present application, the training intensity of the channel is determined according to a single channel intensity rate, a single channel attenuation rate, and a main channel intensity rate, a minimum value of the training intensity is 0, and a maximum value of the training intensity is 255.

In the embodiment of the application, the overall training intensity can be adjusted by adjusting the intensity rate of the main channel in the training process, and the local training intensity can be adjusted by adjusting the intensity rate of the single channel and/or the attenuation rate of the single channel, for example, the intensity rate of the single channel can be adjusted according to human body feeling in the training process, so that the training intensity of the single channel is more suitable for the feeling of a specific part of a human body; the single-channel attenuation rate can be set according to actual conditions before training, namely, the single-channel attenuation rate of the channel is unchanged; the single-channel attenuation rate can be adjusted according to human body feeling in the training process, so that the training intensity of the single channel is more suitable for the feeling of a specific part of a human body, and the embodiment of the application is not limited.

In one implementation, the single channel attenuation rate is set before the stimulation training is started, the size of the channel training intensity is adjusted by adjusting the main channel intensity rate and the single channel intensity rate, and in another implementation, the size of the channel training intensity is adjusted by adjusting the main channel intensity rate, the single channel intensity rate and the single channel attenuation rate, so that the embodiment of the application is not limited.

Alternatively, the training intensity of the channel may be calculated using the following equation one.

Training intensity=255×single channel intensity rate/100× (100-single channel decay rate)/100×main channel intensity rate/100, equation one

In the formula I, the single-channel intensity rate takes on a value of 0 to 100, and the single-channel intensity rate/100 represents the single-channel intensity percentage, and the single-channel intensity rate takes on a value of 0 to 1; the main channel intensity rate takes on a value of 0 to 100, and the main channel intensity rate/100 represents the main channel intensity percentage, and takes on a value of 0 to 1; the single-channel attenuation rate is 0 to 100, the single-channel attenuation rate/100 represents the single-channel attenuation percentage, and the (100-single-channel attenuation rate)/100 is 0 to 1; the training intensity in the training message ranges from 0 to 255. In the description of the formula one, a single channel intensity rate of the channel corresponding to the leg is set to 80, a single channel attenuation rate of the channel corresponding to the leg is set to 10, and a main channel intensity rate is set to 50 in a certain stimulation training of the leg, and training intensity=255×80/100× (100-10)/100×50/100 corresponding to the leg is described.

Optionally, in one embodiment of the present application, the main channel intensity rate is adjusted to control the training intensity of all channels; the single-channel intensity rate is adjusted to control the training intensity of the channel corresponding to the single-channel intensity rate.

In the whole stimulation training process, the user can increase or decrease the training intensity of all channels by adjusting the intensity rate of the main channel, and can also adjust the single channel intensity rate of the channel corresponding to the training part, so that the training intensity of the channel is increased, and can also adjust the single channel attenuation rate of the channel corresponding to the training part, so that the training intensity of the channel is reduced, and any combination of the above modes is also possible, so that the training intensity of the channel corresponding to the part is adjusted to a proper intensity, and the embodiment of the application is not limited.

According to the embodiment of the application, the training intensity is adjusted by adjusting the voltage of the stimulation signal, and the overall training intensity in all channels is adjusted by adjusting the total voltage in all channels, wherein the total training intensity is used for indicating and controlling the total training intensity of all training channels; the local training intensity in the single channel is adjusted by adjusting the voltage in the single channel, for example, the local training intensity of the leg can be adjusted by adjusting the voltage of the channel corresponding to the leg, and the local training intensity of the stimulation training of the parts except the waist, the abdomen, the leg, the arm, the chest, the back and the hip can be adjusted by adjusting the voltage of the 8 th channel. According to the method, the training intensity of the channel is determined according to the single-channel intensity rate and the single-channel attenuation rate, the local control of the channel training intensity is realized, the training intensity of the channel is determined according to the main channel intensity rate, the overall control of the channel training intensity is realized, the training intensity control method of the training equipment is richer, the better training effect is achieved, and the method is effectively applicable to diversified body-building training requirements.

Optionally, in an embodiment of the present application, the training data includes training pattern data, and generating the training message according to the training data includes: generating training mode data according to the total training duration of the channel and the section training data of at least one training section, wherein the training program comprises at least one training section; generating a training message according to the training intensity and the training mode data; the bar training data comprises at least one of training duration, training position information and bar information of a training bar, the training mode data is used for indicating configuration data of the training bar, and the training mode data comprises rising time, holding time, falling time, rest time, medium frequency intensity, frequency and low frequency intensity of a stimulation signal.

The training program comprises at least one training section, the training time length, the training position and the like of the target object can be the same or different from one another by different training sections, and the training strength, the training time length, the training position and the like of the at least one training section can be flexibly configured according to the actual condition during training.

The section training data is used to represent training content of the training section, such as training duration, training position information, section information, and the like. In the embodiment of the application, the target object is mainly stimulated and trained by the medium-frequency and low-frequency stimulation signals, and under the condition of the same voltage, the medium-frequency stimulation signals have higher training intensity and better training effect than the low-frequency stimulation signals, and when the single low-frequency stimulation signals are used for stimulating and training, the voltage (more than 60V) of the stimulation signals far exceeds the safety voltage of a human body, so that the better training effect can be achieved; by combining the medium-frequency stimulation signal and the low-frequency stimulation signal, the target object can have better training effect and is safer during the stimulation training on the premise that the voltage (not more than 36V) of the stimulation signal accords with the safety voltage of the human body. The training time and the training intensity of the medium frequency and the low frequency are defined by the section training data when the target object performs the stimulation training; in the section training data, the section information defines the action times of the medium-frequency and low-frequency stimulation signals when the stimulation training is carried out on the part of the target object every minute. The section information may be calculated by the following formula two:

lmp=60/(rise time+hold time+fall time+rest time), equation two

The lmp represents the action times of the medium-frequency and low-frequency stimulation signals in each minute when the target object is stimulated and trained, and the rising time, the holding time, the falling time and the rest time are the effective information of the stimulation signals in the current training section when the target object is stimulated and trained.

In the application, training mode data is generated according to the total training duration of the channel and the bar training data of at least one training bar, wherein the training mode data is used for indicating configuration data of the training bar, and the training mode data comprises various effective information of a stimulation signal when a target object is stimulated and trained, such as rising time, holding time, falling time, resting time, medium-frequency intensity, frequency, low-frequency intensity and the like. In the training process of the target object, the target object is stimulated and trained according to various effective information of the stimulation signals, so that the best training effect can be achieved for the stimulation and training of the position of the target object.

In this application, in the training process of target object, can carry out the stimulation training to different positions according to the training mode data in training the festival for the training process is more nimble, and generates training message according to training intensity and training mode data, makes in the stimulation training process, training equipment according to the training intensity of training channel in training the festival of training message control, with this better training effect that reaches, effectively is applicable to diversified body-building training demand.

Optionally, in an embodiment of the present application, the training data includes lateral configuration data and/or cross configuration data, and acquiring the training data according to the training program includes: acquiring transverse configuration data and/or cross configuration data between at least two channels according to the training items; generating a training message according to training data, including: and generating a training message according to the training intensity, the transverse configuration data and/or the cross configuration data.

In this embodiment of the present application, in the stimulation training process of the target object, transverse configuration data is further configured, and the transverse configuration data is used to represent the current flow direction relationship of the two electrodes, and the description is given by taking the example that the training site is two muscle groups of the back waist, and the two electrodes corresponding to the waist are opened through the transverse configuration, and the stimulation training can be performed on the site where the left and right muscle intensities are inconsistent through the transverse configuration data, so that the left and right muscle intensities of the target object are finally consistent through continuous stimulation training. The transverse configuration data can be pre-stored in a training program, the target object selects according to the training requirement, a training message is generated according to the training intensity and the transverse configuration data included in the training data, and the training equipment stimulates the parts with inconsistent left and right muscle intensities according to the training message.

In the embodiment of the present application, in the stimulation training process of the target object, cross configuration data is configured, the cross configuration is used to represent the current flow direction relationship of the two electrodes, and taking the training position as two muscle groups of the waist and the back as an example for explanation, the two electrodes corresponding to the waist and the back are opened through the cross configuration, and more muscle groups of the target object can be trained through the cross configuration data. The cross configuration data can be pre-stored in a training program, the target object selects according to the training requirement, a training message is generated according to the training intensity and the cross configuration data included in the training data, and the training equipment stimulates different parts with inconsistent muscle intensity of the target object according to the training message.

In the embodiment of the application, in the process of stimulating training, the target object acquires transverse configuration data and/or cross configuration data between at least two channels according to training items, generates training messages by configuring the transverse configuration data and/or the cross configuration data and the training intensity of the channels, and carries out differential training on different parts of the target object according to the training messages by training equipment, so that the diversity of muscle group training of the target object is realized, and the purpose of diversified training is achieved.

Optionally, in an embodiment of the present application, the training data includes conversion configuration data, and acquiring the training data according to the training item includes: acquiring conversion configuration data between at least two training subsections according to a training program, wherein the training program comprises at least one training subsection, and the conversion configuration data comprises conversion training duration and conversion training intensity; generating a training message according to training data, including: and generating a training message according to the training intensity and the conversion configuration data.

In order to make the target object more comfortable to complete transition training between different training subsections in the training process, conversion configuration data is usually further arranged between different training subsections, and the conversion configuration data comprises conversion training duration and conversion training intensity of stimulation training between the ith training subsection and the (i+1) th training subsection, wherein i is a positive integer.

Illustratively, the transition training period represents the time for which the stimulus training is performed when transitioning from the ith training section to the (i+1) th training section. Generally, the transition training duration may be divided into three levels according to actual training requirements, with a maximum transition training duration of 20 seconds, a standard transition training duration of 10 seconds, and a minimum transition training duration of 5 seconds. In a specific example, the transition training duration is distributed equally between the ith training section and the (i+1) th training section, for example, the standard transition training duration is 10 seconds, then, at the last 5 seconds of the ith training section, the stimulation training is started according to the transition training configuration data, the training intensity of the ith training section is gradually reduced to the transition training intensity, and the stimulation training of the ith training section is completed; gradually enhancing the conversion training intensity to the training intensity of the (i+1) th training section in the first 5 seconds of the (i+1) th training section, ending the stimulation training according to the conversion training configuration data in the 5 seconds of the (i+1) th training section, and starting the stimulation training according to the training configuration data of the (i+1) th training section.

For example, the training intensity of the stimulus training is obtained according to the training intensity of the stimulus training and a preset conversion rate, wherein the conversion rate represents the change rate of the training intensity when the ith training section is converted to the (i+1) th training section. The conversion rate can be set in a self-defined manner during the stimulation training so as to make the target object feel comfortable, and is set to be 10% in general, that is, the conversion training intensity is 10% of the training intensity of the current stimulation training, and is continuously adjusted according to the change of the training intensity of the current stimulation training.

According to the training method and device, training messages are generated according to training intensity and conversion configuration data, and training equipment stimulates the positions of the target object according to the training messages, so that the target object can more comfortably complete transition training among different training sections in the training process, and better training effect is achieved.

Further, in an embodiment of the present application, training data is obtained according to a training program, where the training data includes at least one of training intensity of at least one channel, lateral configuration data between any two channels, cross configuration data between any two channels, training pattern data of a training bar, and conversion configuration data between at least two training bars, and the target object is enabled to implement stimulation training of at least one different location, different muscle strength, and the like through mutual coordination configuration between the training intensity of the channels, and/or the training pattern data, and/or the lateral configuration data, and/or the cross configuration data.

Step 103, sending the training message to training equipment so as to control the training equipment to train the part corresponding to the channel.

The electronic equipment and the training equipment are communicated with each other, the generated training message is sent to the training equipment, the training equipment trains the part corresponding to the channel, and the training equipment returns the operation data generated in the training process to the electronic equipment. In one embodiment of the application, the communication time interval between the electronic device and the training device is set to 3 seconds, namely, every 3 seconds, and data interaction is performed between the electronic device and the training device. Of course, the communication time interval can be set according to the actual situation, and also can be set to be real-time communication, so that no lag or delay is caused in the data interaction between the electronic equipment and the training equipment.

Optionally, in an embodiment of the present application, the training method further includes: acquiring operation data in the training equipment, wherein the operation data are used for indicating data generated when the training equipment uses the channel to perform stimulation training on the part; and generating and displaying a simulation waveform diagram according to the running time in the running data, wherein the waveform of the simulation waveform diagram is consistent with a stimulation signal used for performing stimulation training on the target object, and the simulation waveform diagram comprises rising time, holding time, falling time and rest time of the stimulation signal.

The electronic equipment sends the training message to the training equipment, the training equipment completes training configuration according to the training message, stimulates the part of the target object according to the training configuration to generate operation data, the operation data are returned to the electronic equipment by the training equipment, the electronic equipment receives the operation data fed back by the training equipment, and the animation effect of the simulated waveform graph can be generated according to the operation time in the operation data and is displayed. The simulated waveform diagram is a diagram of waveform change simulated according to rising time, holding time, falling time and rest time set in the current training section, and the position of the simulated waveform diagram is adjusted according to equipment running time returned by training equipment during each communication, so that the waveform of the simulated waveform diagram is consistent with training waveform generated by the training equipment. According to the waveform state of the stimulus signal, the rise of the training intensity change, the hold when the training intensity is maximum, the fall of the training intensity decay change, and the suspension of the training intensity (i.e., the rest of the training intensity) can be intuitively displayed in the analog waveform diagram.

Optionally, in an embodiment of the present application, the training method further includes: receiving channel data transmitted by training equipment, wherein the channel data comprises current values generated by performing stimulation training on the part of a target object according to the total training intensity and the training intensity of the channel; generating training information according to the current value corresponding to the channel, the training intensity of the channel and the total training intensity; the on state of the channel, the training index value, and the calorie consumption of the target subject are determined based on the training information.

The training intensity of the channel is determined according to the total training intensity and the corresponding single channel training intensity of the channel, and the total training intensity is controlled by adjusting the intensity rate of the main channel, wherein the total training intensity is used for controlling the training intensity of all channels, for example, the embodiment of the application comprises 8 channels, and the total training intensity is used for controlling the training intensity of the 8 channels; the training intensity of the channel is controlled by adjusting the single-channel intensity rate and the single-channel attenuation rate, for example, the intensity of the stimulation signal of the leg is controlled by controlling the single-channel intensity rate and the single-channel attenuation rate of the channel corresponding to the leg. The training device performs stimulation training on three parts of the chest, the shoulder and the hip of the target object according to the training message, the stimulation signal can be a voltage signal, the human body is an electric conductor, the current value can be generated after the pressure is applied to the training part, the training device returns the current value of the channels corresponding to the three parts of the chest, the shoulder and the hip to the electronic device, and optionally, the current value returned by the channels can be obtained by converting the output power of the channels. According to the embodiment of the application, training information is generated according to the current value corresponding to the channel, the training intensity of the channel and the total training intensity; the on state of the channel is determined according to the training information, so that a user can know the on condition of the channel, and the channel is more visual; the training index value and the calorie consumption of the target object are determined according to the training information, and the training index value and the calorie consumption are used for showing the training effect of the stimulation training to the user, so that the user can know the energy generated by the stimulation training conveniently, the interactivity between the electronic equipment and the user is improved, and the better training effect is achieved.

Optionally, in an embodiment of the present application, determining the on state of the channel according to the training data includes: when the training intensity is larger than the intensity threshold value and the current value corresponding to the channel displayed by the waveform on the simulated waveform diagram is smaller than the current threshold value within the preset times, the color block corresponding to the channel on the simulated human body diagram displays an error mark, and the error mark is used for indicating that the channel is not connected with the part of the target object; when the current value corresponding to the channel is larger than the current threshold, the color block corresponding to the channel on the simulated human body diagram is normally displayed, and the normal display is used for indicating that the channel is communicated with the position of the target object.

In this embodiment of the present application, whether the corresponding channel is connected may be further determined according to the intensity of the current value of each channel in the electronic device, and meanwhile, the electronic device may display a corresponding connection condition, for example, in 20 communications between the electronic device and the training device, if in a certain channel, the training intensity is greater than 20% and the analog waveform chart is displayed as being maintained, and when the current value is less than 5 milliamperes, it indicates that the channel is not connected, and at this time, the color block corresponding to the channel on the analog human chart displays an error mark; if the training intensity is greater than 20%, and the current value is greater than 5 milliamperes, the channel is indicated to be already connected, at this time, the color block corresponding to the channel on the simulated human body diagram is normally displayed, in one possible implementation manner, the color block corresponding to the channel on the simulated human body diagram can be set to different colors, the connection condition of the channel can be distinguished through the difference of the colors in the display interface, further, the depth of the color can represent the connection degree of the channel, the connection degree of the channel also represents the magnitude of the current value of the channel, the greater the current value of the channel is, the darker the color in the color block corresponding to the channel is, the better the connection of the channel is indicated, the smaller the current value of the channel is, and the color in the color block corresponding to the channel is indicated to be less than completely connected, so that the user can judge the connection condition of the channel according to the color of the color block, the interaction between the electronic device and the user is more visual, and the better training effect is achieved.

Further, in an embodiment of the present application, in a stimulus training process of a target object, at least one of training intensity, training mode data, transverse configuration data, and cross configuration data of a channel may be changed according to an actual condition of stimulus training of the target object, at least one of the changed training intensity, training mode data, and/or transverse configuration data of the channel, and/or cross configuration data may form a new training message, the generated new training message is sent to a training device, and the training device trains a portion corresponding to the channel according to the new training message.

Further, in an embodiment of the present application, during a process of performing stimulus training on a target object, when the stimulus training is suspended, training intensity data of a channel in the electronic device is changed to zero, a training suspension message is formed, the suspension training message is sent to the training device through communication modes such as bluetooth, wifi, infrared, NB-IoT (Narrow Band Internet of Things ) and the like, and the training device performs training suspension configuration according to the suspension training message; and after the electronic equipment receives the information of successful training suspension configuration fed back by the training equipment, suspending the stimulation training until the stimulation training is started again. And after the stimulation training of the target object is completed, the stimulation training is exited according to the training completion information fed back by the training equipment.

Embodiment II,

An embodiment of the present application provides an electronic device 400, as shown in fig. 4, fig. 4 is a structural diagram of the electronic device provided in the embodiment of the present application, where the electronic device 400 includes:

the acquisition module 401 is configured to acquire training data according to a training program, where the training data includes training intensity of at least one channel, the channel is used to indicate a transmission path of a stimulus signal when training a part of a target object, one channel corresponds to one part, and the training intensity is used to indicate intensity of the stimulus signal when training the part of the target object;

the generating module 402 is configured to generate a training message according to the training data;

and the sending module 403 is configured to send the training message to the training device, so as to control the training device to train the portion corresponding to the channel.

Optionally, the generating module 402 is further configured to determine the training intensity of the channel according to a single channel intensity rate, a single channel attenuation rate, and a main channel intensity rate, where the single channel intensity rate is used to indicate an intensity percentage of the control channel, the single channel attenuation rate is used to indicate an intensity attenuation percentage of the control channel, and the main channel intensity rate is used to control an intensity percentage of the training intensity in all channels; and generating a training message according to the training intensity.

Optionally, the electronic device 400 further includes an adjusting module, which is configured to adjust the intensity rate of the main channel, so as to control the training intensities of all channels; the single-channel intensity rate is adjusted to control the training intensity of the channel corresponding to the single-channel intensity rate.

Optionally, the training data includes training pattern data, and the generating module 402 is further configured to generate the training pattern data according to a total training duration of the channel and the measure training data of the at least one training measure, where the training item includes the at least one training measure; generating a training message according to the training intensity and the training mode data; the bar training data comprises at least one of training duration, training position information and bar information of a training bar, the training mode data is used for indicating configuration data of the training bar, and the training mode data comprises rising time, holding time, falling time, rest time, medium frequency intensity, frequency and low frequency intensity of a stimulation signal.

Optionally, the training data includes transverse configuration data and/or cross configuration data, and the obtaining module 401 is further configured to obtain the transverse configuration data and/or cross configuration data between at least two channels according to the training item; the generating module 402 is further configured to generate a training message according to the training strength, the lateral configuration data, and/or the cross configuration data.

Optionally, the training data includes conversion configuration data, and the obtaining module 401 is further configured to obtain conversion configuration data between at least two training subsections according to a training item, where the training item includes at least one training subsection, and the conversion configuration data includes a conversion training duration and a conversion training intensity; the generating module 402 is further configured to generate a training message according to the training strength and the conversion configuration data.

Optionally, the electronic module is further configured to obtain operation data in the training device, where the operation data is used to instruct the training device to perform stimulation training on the part by using the channel; and generating and displaying a simulation waveform diagram according to the running time in the running data, wherein the waveform of the simulation waveform diagram is consistent with a stimulation signal used for performing stimulation training on the target object, and the simulation waveform diagram comprises rising time, holding time, falling time and rest time of the stimulation signal.

Optionally, the electronic module is further configured to receive channel data transmitted by the training device, where the channel data includes a current value generated by performing stimulation training on a portion of the target object according to the total training intensity and the training intensity of the channel; generating training information according to the current value corresponding to the channel, the training intensity of the channel and the total training intensity; the on state of the channel, the training index value, and the calorie consumption of the target subject are determined based on the training information.

Optionally, when the training intensity is greater than the intensity threshold and the current value corresponding to the channel displayed by the waveform on the simulated waveform chart is less than the current threshold within the preset times, the color block corresponding to the channel on the simulated human chart displays an error mark, and the error mark is used for indicating that the channel is not connected with the part of the target object; when the current value corresponding to the channel is larger than the current threshold, the color block corresponding to the channel on the simulated human body diagram is normally displayed, and the normal display is used for indicating that the channel is communicated with the position of the target object.

Third embodiment,

The embodiment of the application also provides a wearing device, as shown in fig. 5, fig. 5 is a structural diagram of the wearing device provided in the embodiment of the application, and the wearing device includes: the wearing body 501, the wearing body 501 is worn on the body of the target object, and a stimulus training member is provided in the wearing body 501, and is used for performing stimulus training on the target object under the control of the electronic device according to any of the above embodiments.

Optionally, the wearable device may further include: binding member 502, binding member 502 is used for making wearing body 501 tighten target portion of target object.

Optionally, the wearing body 501 includes: the upper garment is worn on the upper body of the target object and used for performing stimulation training on the chest, the back, the buttocks and the abdomen of the target object; and/or, wearing shorts for wearing on the lower body of the target object to perform stimulation training on the legs and buttocks of the target object; and/or wearing a bandage for being tightly attached to a target training position of a target object to perform stimulation training on the target training position.

The wearable device in this embodiment receives the control of the electronic device in the first embodiment, and performs the stimulation training on the target object, and specific operation execution is not described here in detail.

Fourth embodiment,

The embodiment of the application also provides a body-building system, as shown in fig. 6, fig. 6 is a structural diagram of the body-building system provided in the embodiment of the application, and the system includes: the electronic device 601, the training device 602, and the wearable device 603 shown in any of the above embodiments; the electronic device 601 is connected with the training device 602, the training device 602 is electrically connected with the wearing device 603, and the training device 602 is used for controlling the wearing device 603 to perform stimulation training on the target object.

In the exercise system of the present embodiment, specific operation execution of the electronic device 601, the training device 602, and the wearable device 603 may refer to any one of the above embodiments, and specific operation execution is not described herein in detail.

Fifth embodiment (V),

Fig. 7 is a hardware configuration diagram of an electronic device according to a fifth embodiment of the present application; as shown in fig. 7, the electronic device includes: a processor 701, a memory 703 and a computer program stored in the memory 703 and executable on a computer,

The processor 701 and the memory 703 communicate with each other via a communication bus 704.

Optionally, the electronic device further includes: communication interface 702. Communication interface 702 is an interface of a communication module, such as an interface of a GSM module.

The processor 701 may be specifically configured to perform the exercise training method of any of the embodiments described above. The memory 703 may be internal storage of the electronic device or external storage of the electronic device.

The processor 701 may be a general-purpose processor, including a central processing unit (Central Processing Unit, CPU for short), a network processor (Network Processor, NP for short), and the like; but may also be a Digital Signal Processor (DSP), application Specific Integrated Circuit (ASIC), an off-the-shelf programmable gate array (FPGA) or other programmable logic device, discrete gate or transistor logic device, discrete hardware components. The disclosed methods, steps, and logic blocks in the embodiments of the present application may be implemented or performed. A general purpose processor may be a microprocessor or the processor may be any conventional processor or the like.

The electronic device of the embodiments of the present application exist in a variety of forms including, but not limited to:

(1) A mobile communication device: such devices are characterized by mobile communication capabilities and are primarily aimed at providing voice, data communications. Such terminals include: smart phones (e.g., iPhone), multimedia phones, functional phones, and low-end phones, etc.

(2) Ultra mobile personal computer device: such devices are in the category of personal computers, having computing and processing functions, and generally also having mobile internet access characteristics. Such terminals include: PDA, MID, and UMPC devices, etc., such as iPad.

(3) Portable entertainment device: such devices may display and play multimedia content. The device comprises: audio, video players (e.g., iPod), palm game consoles, electronic books, and smart toys and portable car navigation devices.

(4) And (3) a server: the configuration of the server including the processor 810, the hard disk, the memory, the system bus, etc. is similar to that of a general-purpose computer architecture, but since highly reliable services need to be provided, there are high demands in terms of processing power, stability, reliability, security, scalability, manageability, etc.

(5) Other electronic devices with data interaction function.

It should be noted that, in the present specification, each embodiment is described in a progressive manner, and identical and similar parts of each embodiment are all referred to each other, and each embodiment is mainly described in a different point from other embodiments. In particular, for the apparatus and system embodiments, since they are substantially similar to the method embodiments, the description is relatively simple, with reference to the description of the method embodiments in part. The above-described apparatus and system embodiments are merely illustrative, in which elements illustrated as separate elements may or may not be physically separate, and elements illustrated as elements may or may not be physical elements, may be located in one place, or may be distributed over a plurality of network elements. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of this embodiment. Those of ordinary skill in the art will understand and implement the present invention without undue burden.

The foregoing is merely one specific embodiment of the present application, but the protection scope of the present application is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present application should be covered in the protection scope of the present application. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.

Claims (10)

1. An electronic device, comprising: a processor, a memory, and a computer program stored in the memory and executable on the processor, the processor implementing the steps when executing the computer program of:

acquiring training data according to a training program, wherein the training data comprises training intensity of at least one channel, the channel is used for indicating a transmission path of a stimulation signal when a part of a target object is trained, one channel corresponds to one part, and the training intensity is used for indicating the intensity of the stimulation signal when the part of the target object is trained;

generating a training message according to the training data;

the training message is sent to training equipment so as to control the training equipment to train the part corresponding to the channel;

Wherein the processor executes a step of generating a training message according to the training data, comprising:

determining the training intensity of the channel according to a single-channel intensity rate, a single-channel attenuation rate and a main-channel intensity rate, wherein the single-channel intensity rate is used for indicating and controlling the intensity percentage of the channel, the single-channel attenuation rate is used for indicating and controlling the intensity attenuation percentage of the channel, and the main-channel intensity rate is used for controlling the intensity percentage of the training intensity in all the channels;

and generating the training message according to the training intensity.

2. The electronic device of claim 1, wherein the processor when executing the computer program further performs the steps of:

adjusting the intensity rate of the main channel to control the training intensity of all the channels;

and adjusting the single-channel intensity rate to control the training intensity of the channel corresponding to the single-channel intensity rate.

3. The electronic device of claim 1, wherein the training data comprises training pattern data, and wherein the processor performs the step of generating training messages based on the training data, comprising:

Generating the training mode data according to the total training duration of the channel and the bar training data of at least one training bar, wherein the training program comprises at least one training bar;

generating the training message according to the training intensity and the training mode data;

the section training data comprises at least one of training duration, training position information and section information of the training section, the training mode data is used for indicating configuration data of the training section, and the training mode data comprises rising time, holding time, falling time, resting time, medium frequency intensity, frequency and low frequency intensity of the stimulation signal.

4. The electronic device of claim 1, wherein the training data comprises lateral configuration data and/or cross configuration data, and wherein the processor performs the step of obtaining training data from a training program, comprising:

acquiring transverse configuration data and/or cross configuration data between at least two channels according to the training items;

the processor executes a step of generating a training message according to the training data, including:

and generating the training message according to the training intensity, the transverse configuration data and/or the cross configuration data.

5. The electronic device of claim 1, wherein the training data comprises conversion configuration data, and wherein the processor performs the step of obtaining training data from a training program, comprising:

acquiring conversion configuration data between at least two training subsections according to the training program, wherein the training program comprises at least one training subsection, and the conversion configuration data comprises conversion training duration and conversion training intensity;

the processor executes a step of generating a training message according to the training data, including:

and generating the training message according to the training intensity and the conversion configuration data.

6. The electronic device of claim 1, wherein the processor when executing the computer program further performs the steps of:

acquiring operation data in the training equipment, wherein the operation data are used for indicating data generated when the training equipment uses the channel to perform stimulation training on the part;

and generating and displaying a simulation waveform chart according to the running time in the running data, wherein the waveform of the simulation waveform chart is consistent with a stimulation signal used for performing stimulation training on the target object, and the simulation waveform chart comprises rising time, holding time, falling time and rest time of the stimulation signal.

7. The electronic device of claim 1, wherein the processor when executing the computer program further performs the steps of:

receiving channel data transmitted by the training equipment, wherein the channel data comprises a current value generated by performing stimulation training on the part of the target object according to the total training intensity and the training intensity of the channel;

generating training information according to the current value corresponding to the channel, the training intensity of the channel and the total training intensity;

and determining the on state of the channel, training index value and calorie consumption of the target object according to the training information.

8. The electronic device of claim 7, wherein the processor performs the step of determining the on-state of the channel based on the training data, comprising:

when the training intensity is larger than the intensity threshold value and the current value corresponding to the channel displayed by the waveform on the simulated waveform diagram is smaller than the current threshold value within the preset times, displaying an error mark on the color block corresponding to the channel on the simulated human diagram, wherein the error mark is used for indicating that the channel is not communicated with the part of the target object;

When the current value corresponding to the channel is larger than the current threshold, simulating normal display of a color block corresponding to the channel on a human body diagram, wherein the normal display is used for indicating that the channel is communicated with the part of the target object.

9. A wearable device, comprising: a wearing body to be worn on a body of a target object, in which a stimulus training member is provided for performing stimulus training on the target object under control of the electronic device according to any one of claims 1 to 8.

10. A fitness system, comprising: the electronic device of any one of claims 1-8, the training device, and the wearable device of claim 9; the electronic equipment is electrically connected with the training equipment, the training equipment is electrically connected with the wearing equipment, and the training equipment is used for controlling the wearing equipment to perform stimulation training on the target object.