CN112992330A - Signal processing method, massager, mobile terminal and display device - Google Patents

Abstract

The invention discloses a signal processing method, a massage instrument, a mobile terminal and a display device, wherein the signal processing method is applied to a wearable massage instrument, the massage instrument comprises an electrode component for outputting an electric pulse signal, and the method specifically comprises the following steps: acquiring a first electric pulse signal output by the massager in a current massage mode; converting the first electric pulse signal into a first waveform signal; and displaying a first waveform corresponding to the first waveform signal by using a display device. The invention can convert the low-frequency electric pulse signals generated when the massager operates into corresponding waveform signals and display the waveform signals, thereby realizing the visualization of the low-frequency electric pulse signals, facilitating the direct checking of a user, facilitating the learning of the current operating state of the massager and improving the use experience of the user.

Description

Signal processing method, massager, mobile terminal and display device

Technical Field

The invention relates to the technical field of massage equipment, in particular to a signal processing method, a massage instrument, a mobile terminal and a display device.

Background

Present massage equipment, like wearable low frequency massage appearance when the low-grade operation, because the electric pulse frequency of its output is lower, consequently, the vibrations that produce are amazing also slightly, this is very unfriendly to some special users, such as the higher user of skin tolerance degree, they can hardly feel massage effect, thereby mistake think that the massage appearance is not started up or breaks down, and the user can't directly learn the running state of massage appearance, lead to the user can adjust the massage appearance gear repeatedly, frequently lift off the massage appearance even and look over, this can greatly reduce user's use experience undoubtedly.

Disclosure of Invention

The present invention is directed to solving at least one of the problems of the prior art.

Therefore, an object of the present invention is to provide a signal processing method, which can convert the low-frequency electrical pulse signal generated when the massage apparatus operates into a corresponding waveform signal and display the waveform signal, thereby implementing visualization of the low-frequency electrical pulse signal, facilitating direct viewing by a user, facilitating learning of the current operating state of the massage apparatus, and improving the user experience.

To this end, a second object of the present invention is to provide a signal processing method.

Therefore, the third purpose of the invention is to provide a wearable massage apparatus.

To this end, a fourth object of the present invention is to provide a mobile terminal.

To this end, a fifth object of the present invention is to provide a control system for a massage machine.

Therefore, the sixth purpose of the invention is to provide a wearable massage apparatus.

To this end, a seventh object of the present invention is to provide a display device.

To this end, an eighth object of the present invention is to propose a computer-readable storage medium.

To this end, a ninth object of the invention is to propose a computer-readable storage medium.

In order to achieve the above object, a first aspect of the present invention discloses a signal processing method applied to a wearable massage apparatus, the massage apparatus including an electrode assembly for outputting an electrical pulse signal, the signal processing method including: acquiring a first electric pulse signal output by the massager in a current massage mode; converting the first electrical pulse signal into a first waveform signal; and displaying a first waveform corresponding to the first waveform signal by using a display device.

According to the signal processing method provided by the embodiment of the invention, a first electric pulse signal, namely a low-frequency electric pulse signal, output by a massager in a current massage mode is obtained; and converting the first electric pulse signal into a first waveform signal, and displaying a first waveform corresponding to the first waveform signal by using a display device for a user to view. Therefore, the low-frequency electric pulse signals generated when the massage instrument operates can be converted into corresponding waveform signals to be displayed, so that the visualization of the low-frequency electric pulse signals is realized, a user can directly check the low-frequency electric pulse signals, the current operating state of the massage instrument can be conveniently learned, and the use experience of the user is improved.

In addition, the signal processing method according to the above embodiment of the present invention may further include the following additional technical features:

in some examples, the display device is a display device of a mobile terminal, and the massage apparatus is in communication connection with the mobile terminal; the displaying, by the display device, a first waveform corresponding to the first waveform signal includes: and sending the first waveform signal to the mobile terminal so as to display a first waveform corresponding to the first waveform signal by using a display device of the mobile terminal.

In some examples, after displaying, by a display device of the mobile terminal, a first waveform corresponding to the first waveform signal, the method further includes: receiving a second waveform signal sent by the mobile terminal, wherein the second waveform signal is a signal generated by the waveform adjusted by the first waveform; converting the second waveform signal into a second electric pulse signal; and outputting the second electric pulse signal.

In some examples, the display device is a display screen of the massager.

In some examples, the method further comprises: receiving the adjustment operation of a user on the first waveform to obtain a third waveform; generating a third waveform signal according to the third waveform; converting the third waveform signal into a third electric pulse signal; and outputting the third electric pulse signal.

In some examples, prior to acquiring the first electrical pulse signal, the method further comprises: receiving a starting instruction for starting the current massage mode; and executing the starting instruction and outputting the first electric pulse signal.

In some examples, the method further comprises: receiving a fourth waveform signal sent by a preset terminal; generating a corresponding massage mode according to the fourth waveform signal; and saving the massage mode.

In some examples, the current massage mode is a massage mode corresponding to the fourth waveform signal.

In some examples, the method further comprises: sending a waveform acquisition request to the preset terminal; the receiving of the fourth waveform signal sent by the preset terminal includes: and receiving the fourth waveform signal returned by the preset terminal according to the waveform acquisition request.

In order to achieve the above object, a second embodiment of the present invention discloses a signal processing method applied to a display device, the signal processing method including: receiving a first waveform signal sent by a massager, wherein the first waveform signal is a waveform signal obtained by converting a first electric pulse signal output by the massager; and displaying a first waveform corresponding to the first waveform signal.

According to the signal processing method provided by the embodiment of the invention, the first waveform signal obtained by converting the first electric pulse signal output by the massager is received, and the first waveform corresponding to the first waveform signal is displayed for a user to check. Therefore, the low-frequency electric pulse signals generated when the massage instrument operates can be converted into corresponding waveform signals to be displayed, so that the visualization of the low-frequency electric pulse signals is realized, a user can directly check the low-frequency electric pulse signals, the current operating state of the massage instrument can be conveniently learned, and the use experience of the user is improved.

In addition, the signal processing method according to the above embodiment of the present invention may further include the following additional technical features:

in some examples, the display device is a display device of a mobile terminal, and the massage apparatus is in communication connection with the mobile terminal; the displaying a first waveform corresponding to the first waveform signal includes: and displaying a first waveform corresponding to the first waveform signal by using a display device of the mobile terminal.

In some examples, after displaying, by a display device of the mobile terminal, a first waveform corresponding to the first waveform signal, the method further includes: and sending a second waveform signal to the massager so that the massager converts the second waveform signal into a second electric pulse signal and then outputs the second electric pulse signal, wherein the second waveform signal is a signal generated by the waveform adjusted by the first waveform.

In some examples, the display device is a display screen of the massager.

In some examples, the method further comprises: receiving the adjustment operation of a user on the first waveform to obtain a third waveform; generating the third waveform signal according to the third waveform; and sending the third waveform signal to the massager, so that the massager converts the third waveform signal into a third electric pulse signal and then outputs the third electric pulse signal.

In order to achieve the above object, a third embodiment of the present invention discloses a wearable massage apparatus, including: an electrode assembly for outputting an electrical pulse signal; the acquisition module is used for acquiring a first electric pulse signal output by the massager in a current massage mode; the conversion module is used for converting the first electric pulse signal into a first waveform signal; and the first transmission module is used for sending the first waveform signal to a display device so as to display a first waveform corresponding to the first waveform signal by using the display device.

According to the wearable massage instrument provided by the embodiment of the invention, a first electric pulse signal, namely a low-frequency electric pulse signal, output by the massage instrument in a current massage mode is obtained; and converting the first electric pulse signal into a first waveform signal, and displaying a first waveform corresponding to the first waveform signal by using a display device for a user to view. Therefore, the low-frequency electric pulse signals generated when the massage instrument operates can be converted into corresponding waveform signals to be displayed, so that the visualization of the low-frequency electric pulse signals is realized, a user can directly check the low-frequency electric pulse signals, the current operating state of the massage instrument can be conveniently learned, and the use experience of the user is improved.

In order to achieve the above object, a fourth aspect of the present invention discloses a mobile terminal, including: the second transmission module is used for receiving a first waveform signal sent by a massager, wherein the first waveform signal is a waveform signal obtained by converting a first electric pulse signal output by the massager; and the display module is used for displaying a first waveform corresponding to the first waveform signal.

According to the mobile terminal provided by the embodiment of the invention, the first waveform signal obtained by converting the first electric pulse signal output by the massager is received, and the first waveform corresponding to the first waveform signal is displayed for a user to check. Therefore, the low-frequency electric pulse signals generated when the massage instrument operates can be converted into corresponding waveform signals to be displayed, so that the visualization of the low-frequency electric pulse signals is realized, a user can directly check the low-frequency electric pulse signals, the current operating state of the massage instrument can be conveniently learned, and the use experience of the user is improved.

In order to achieve the above object, a fifth aspect of the present invention discloses a massager control system, including: a wearable massage apparatus according to the third embodiment of the present invention; and a mobile terminal according to the fourth embodiment of the present invention.

According to the massage instrument control system provided by the embodiment of the invention, the massage instrument acquires a first electric pulse signal, namely a low-frequency electric pulse signal, output under the current massage mode of the massage instrument; converting the first electric pulse signal into a first waveform signal, and sending the first waveform signal to the mobile terminal; the mobile terminal displays a first waveform corresponding to the first waveform signal by using a display device of the mobile terminal so as to be viewed by a user. Therefore, the low-frequency electric pulse signals generated when the massage instrument operates can be converted into corresponding waveform signals to be displayed, so that the visualization of the low-frequency electric pulse signals is realized, a user can directly check the low-frequency electric pulse signals, the current operating state of the massage instrument can be conveniently learned, and the use experience of the user is improved.

In order to achieve the above object, a sixth aspect of the present invention discloses a wearable massage apparatus, which includes a processor, a memory, and a signal processing program stored in the memory and operable on the processor, and when executed by the processor, the signal processing program implements the signal processing method according to the first aspect of the present invention.

According to the massage instrument provided by the embodiment of the invention, a first electric pulse signal, namely a low-frequency electric pulse signal, output by the massage instrument in a current massage mode is obtained; and converting the first electric pulse signal into a first waveform signal, and displaying a first waveform corresponding to the first waveform signal by using a display device for a user to view. Therefore, the low-frequency electric pulse signals generated when the massage instrument operates can be converted into corresponding waveform signals to be displayed, so that the visualization of the low-frequency electric pulse signals is realized, a user can directly check the low-frequency electric pulse signals, the current operating state of the massage instrument can be conveniently learned, and the use experience of the user is improved.

In order to achieve the above object, a seventh embodiment of the present invention discloses a display device, which includes a processor, a memory, and a signal processing program stored in the memory and operable on the processor, and when executed by the processor, the signal processing program implements the signal processing method according to the second embodiment of the present invention.

According to the display device provided by the embodiment of the invention, the first waveform signal obtained by converting the first electric pulse signal output by the massage instrument is received, and the first waveform corresponding to the first waveform signal is displayed for a user to check. Therefore, the low-frequency electric pulse signals generated when the massage instrument operates can be converted into corresponding waveform signals to be displayed, so that the visualization of the low-frequency electric pulse signals is realized, a user can directly check the low-frequency electric pulse signals, the current operating state of the massage instrument can be conveniently learned, and the use experience of the user is improved.

To achieve the above object, an eighth aspect of the present invention discloses a computer-readable storage medium, on which a signal processing program is stored, and the signal processing program, when executed by a processor, implements the signal processing method according to the above first aspect of the present invention.

According to an embodiment of the present invention, a computer-readable storage medium stores a program that, when executed, acquires a first electric pulse signal, i.e., a low-frequency electric pulse signal, output by a massager in a current massage mode; and converting the first electric pulse signal into a first waveform signal, and displaying a first waveform corresponding to the first waveform signal by using a display device for a user to view. Therefore, the low-frequency electric pulse signals generated when the massage instrument operates can be converted into corresponding waveform signals to be displayed, so that the visualization of the low-frequency electric pulse signals is realized, a user can directly check the low-frequency electric pulse signals, the current operating state of the massage instrument can be conveniently learned, and the use experience of the user is improved.

To achieve the above object, a ninth aspect of the present invention discloses a computer-readable storage medium, on which a signal processing program is stored, and the signal processing program, when executed by a processor, implements a signal processing method according to the above second aspect of the present invention.

According to the embodiment of the invention, the stored program receives a first waveform signal obtained by converting a first electric pulse signal output by the massage instrument when being executed, and displays a first waveform corresponding to the first waveform signal for a user to view. Therefore, the low-frequency electric pulse signals generated when the massage instrument operates can be converted into corresponding waveform signals to be displayed, so that the visualization of the low-frequency electric pulse signals is realized, a user can directly check the low-frequency electric pulse signals, the current operating state of the massage instrument can be conveniently learned, and the use experience of the user is improved.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

FIG. 1 is a flow diagram of a signal processing method according to one embodiment of the invention;

FIG. 2 is a flow diagram of a signal processing method according to another embodiment of the invention;

fig. 3 is a block diagram of a wearable massage apparatus according to an embodiment of the present invention;

fig. 4 is a block diagram of a mobile terminal according to another embodiment of the present invention;

fig. 5 is a block diagram of a massage machine control system according to an embodiment of the present invention.

Detailed Description

Embodiments of the present invention will be described in detail below, the embodiments described with reference to the drawings being illustrative, and the embodiments of the present invention will be described in detail below.

A signal processing method, a massage apparatus, a mobile terminal, and a display device according to embodiments of the present invention are described below with reference to fig. 1 to 5.

Fig. 1 is a flow chart of a signal processing method according to an embodiment of the present invention. The signal processing method can be applied to a massage instrument. The massage apparatus is, for example, a wearable massage apparatus, such as a neck massage apparatus. The wearable massage apparatus comprises an electrode assembly for outputting electric pulse signals, wherein the electrode assembly comprises electrode plates, for example, the electrode plates output the electric pulse signals and act on the massage part of the human body to realize massage.

As shown in fig. 1, the signal processing method includes the following steps:

step S1: and acquiring a first electric pulse signal output by the massager in the current massage mode. The first electrical pulse signal is, for example, a low-frequency electrical pulse signal. When the massager works in the current massage mode, the first electric pulse signal is output, and the electrode assembly executes corresponding massage action according to the first electric pulse signal.

Step S2: the first electric pulse signal is converted into a first waveform signal.

Step S3: and displaying a first waveform corresponding to the first waveform signal by using a display device. Specifically, for example, the first waveform signal is transmitted to the display device so that the display device displays a first waveform corresponding to the first waveform signal.

Specifically, after the massager is started, the massager works in the current massage mode and outputs a first electric pulse signal, namely a low-frequency electric pulse signal. The first electrical pulse signal is obtained and converted into a corresponding first waveform signal. Send first waveform signal to display device, so that display device shows the first waveform that first waveform signal corresponds, thereby can convert the low frequency electric pulse signal of massage appearance during operation output into visual first waveform, realize the visualization of low frequency electric pulse signal, be convenient for the audio-visual running state who knows the massage appearance of user, if the massage appearance is operating, whether shut down etc. avoid the user to look over its running state's complicated operation and the bad impression that brings through picking the massage appearance, thereby improved user and used experience.

Therefore, the signal processing method acquires a first electric pulse signal, namely a low-frequency electric pulse signal, output by the massager in the current massage mode; and converting the first electric pulse signal into a first waveform signal, and displaying a first waveform corresponding to the first waveform signal by using a display device for a user to view. Therefore, the low-frequency electric pulse signals generated when the massage instrument operates can be converted into corresponding waveform signals to be displayed, so that the visualization of the low-frequency electric pulse signals is realized, a user can directly check the low-frequency electric pulse signals, the current operating state of the massage instrument can be conveniently learned, and the use experience of the user is improved.

In one embodiment of the invention, the display device may be a display device of the mobile terminal, such as a display screen. Therefore, the user can conveniently and visually check the displayed waveform, and the user can conveniently perform custom adjustment operation on the waveform.

The mobile terminal is, for example, an intelligent mobile terminal such as a mobile phone and a tablet computer. The massage instrument is in communication connection with the mobile terminal, such as wired communication connection or wireless communication connection.

In an embodiment, the step S3 of displaying the first waveform corresponding to the first waveform signal by using the display device includes: and sending the first waveform signal to the mobile terminal so as to display a first waveform corresponding to the first waveform signal by using a display device of the mobile terminal. Taking a mobile terminal as an example of a mobile phone, the first waveform signal is sent to the mobile phone, so that a display device of the mobile phone, such as a mobile phone display screen, is utilized to display a first waveform corresponding to the first waveform signal, thereby facilitating direct checking by a user, facilitating learning of the current running state of the massager, and improving the use experience of the user.

In an embodiment of the present invention, after displaying a first waveform corresponding to the first waveform signal by using a display device of the mobile terminal, the signal processing method further includes: receiving a second waveform signal sent by the mobile terminal, wherein the second waveform signal is a signal generated by the waveform adjusted by the first waveform; converting the second waveform signal into a second electric pulse signal; and outputting a second electric pulse signal.

In a specific embodiment, after the first waveform is displayed by the display device of the mobile terminal, the user may adjust the displayed first waveform by the display device of the mobile terminal, for example, adjust a peak, a trough, and the like of the first waveform to obtain a second waveform, the mobile terminal sends a second waveform signal corresponding to the second waveform to the massage apparatus, and after receiving the second waveform signal, the massage apparatus converts the second waveform signal into a second electrical pulse signal and outputs the second electrical pulse signal through the electrode assembly, that is, massages with the second electrical pulse. Therefore, the user can adjust the first waveform through the mobile terminal, and the waveform signal (namely, the second waveform signal) required by the user is sent to the massage instrument, so that the massage instrument can massage according to the second electric pulse signal corresponding to the second waveform signal, the massage requirement of the user is met, and the user experience is improved.

In a particular embodiment, the display device of the mobile terminal has, for example, an operable display screen, such as a touch display screen. The touch display screen may display the first waveform. The user can perform touch operation through the touch display screen to perform user-defined adjustment operation on the displayed first waveform, such as stretching the first waveform, shrinking the first waveform, changing the wave crest and the wave trough of the first waveform, and the like, to finally obtain a second waveform desired by the user, and generate a second waveform signal corresponding to the second waveform. And sending the second waveform signal to a massage instrument, converting the second waveform signal into a second electric pulse signal by the massage instrument, and outputting different electric pulse signals to realize different massage manipulations. Therefore, the user can independently create the visual waveform and generate a user-defined massage mode, the self massage requirement of the user is met, and meanwhile, the human-computer interaction pleasure and the use experience are improved.

In another embodiment of the present invention, the display device may be a display screen of the massage apparatus, that is, the display device is a display screen of the massage apparatus, that is, the display screen of the massage apparatus displays the first waveform corresponding to the first waveform signal. Therefore, the user can conveniently and visually check the displayed waveform, and the user can conveniently perform custom adjustment operation on the waveform.

In a specific implementation, the signal processing method further includes: receiving the adjustment operation of a user on the first waveform to obtain a third waveform; generating a third waveform signal according to the third waveform; converting the third waveform signal into a third electrical pulse signal; and outputting a third electric pulse signal.

Specifically, the user can perform an adjustment operation on the first waveform displayed on the display screen of the massage apparatus, for example, adjust the peaks, valleys, and the like of the first waveform to obtain a third waveform, generate a third waveform signal from the third waveform, convert the third waveform signal into a third electric pulse signal, and output the third electric pulse signal, thereby implementing different massage techniques by outputting different electric pulse signals. The user is adopted to independently create the visual waveform and generate a user-defined massage mode, the self massage requirement of the user is met, and meanwhile, the human-computer interaction pleasure and the use experience are improved.

In a specific embodiment, the display screen of the massage apparatus is, for example, a touch display screen. The touch display screen may display the first waveform. The user can perform touch operation through the touch display screen to perform user-defined adjustment operation on the displayed first waveform, such as stretching the first waveform, shrinking the first waveform, changing the wave crest and the wave trough of the first waveform, and the like, to finally obtain a third waveform desired by the user, and generate a third waveform signal corresponding to the third waveform. The massage instrument converts the third waveform signal into a third electric pulse signal, and different massage manipulations are realized by outputting different electric pulse signals. Therefore, the user can independently create the visual waveform and generate a user-defined massage mode, the self massage requirement of the user is met, and meanwhile, the human-computer interaction pleasure and the use experience are improved.

In an embodiment of the invention, before acquiring the first electrical pulse signal in step S1, the signal processing method further includes: receiving a starting instruction for starting the current massage mode; and executing a starting command and outputting a first electric pulse signal.

Specifically, for example, the user triggers a start switch of the massage apparatus, such as pressing a start button, at which time a start instruction is generated, and the massage apparatus receives the start instruction, starts the massage apparatus, and operates in the current massage mode. In the current massage mode, the first electric pulse signals are output, namely, the electrode component executes corresponding massage actions according to the first electric pulse signals.

In a specific embodiment, the current massage mode may be a preset massage mode, that is, a massage mode entered by default after each start of the massage apparatus; or a massage mode memorized when the massage instrument is powered off last time.

In one embodiment of the present invention, the signal processing method further includes: receiving a fourth waveform signal sent by a preset terminal; generating a corresponding massage mode according to the fourth waveform signal; the massage pattern is saved.

In one embodiment of the present invention, the signal processing method further includes: sending a waveform acquisition request to a preset terminal; the receiving of the fourth waveform signal sent by the preset terminal includes: and receiving a fourth waveform signal returned by the preset terminal according to the waveform acquisition request.

In a specific embodiment, the preset terminal is a terminal that can communicate with the massage apparatus. The preset terminal comprises but is not limited to a mobile terminal and a desktop terminal, the mobile terminal comprises a tablet personal computer, a mobile phone and a wearable intelligent device with a display interface, such as a smart watch, a smart bracelet and the like, the use is convenient, the carrying is convenient, and the mobile terminal can be the mobile terminal described in the foregoing and can also be other mobile terminals. The preset terminal is in communication connection with the massage instrument. The fourth waveform signal is, for example, an audio signal, such as a waveform signal corresponding to music, songs, sound effects, sounds, and the like.

Specifically, the fourth waveform signal may be a waveform signal customized by a user of the massage apparatus, and the waveform signal defined by the user may be shared with other users, for example, the defined waveform signal is sent to the sharing platform for downloading by other users, or the defined waveform signal may be directly shared with corresponding users. The fourth waveform signal can also be shared with the waveform signal of the user of the massage apparatus for other users, and can be directly shared with the user of the massage apparatus during sharing, namely, the fourth waveform signal is directly sent to the massage apparatus of the user, and can also be shared with a corresponding sharing platform, and the user can download the fourth waveform signal from the sharing platform. If the preset terminal stores audio signals, such as songs, corresponding waveform signals, namely fourth waveform signals, are correspondingly generated according to the songs, the fourth waveform signals are sent to the massage instrument through the preset terminal, the massage instrument receives the fourth waveform signals, the fourth waveform signals are converted into corresponding fourth electric pulse signals, corresponding massage modes when the fourth electric pulse signals are output serve as massage modes corresponding to the fourth waveform signals, and the massage modes are stored. Or the preset terminal receives the waveform signal of the massage instrument, so that when the massage is performed, a corresponding massage mode can be selected from a massage mode defined by a user and a massage mode preset in a factory. When the massage mode selected by the user to operate is the massage mode defined according to music and the like, the linkage of the music, sound effect and the like and the massage instrument can be realized, and the massage requirements of the user are met. It can be understood that some music or sound effect has a relaxed rhythm and an elegant rhythm, and is very suitable for relaxing the human body. Therefore, the music or the sound effect is converted into corresponding waveform signals and is transmitted to the massage instrument to realize linkage, so that the massage instrument executes massage action according to the rhythm or rule corresponding to the music and the sound effect, and is easier to be accepted by a human body, thereby being capable of quickly and effectively relieving human fatigue and the like, and further being capable of improving the massage effect.

In an embodiment of the invention, the current massage mode is, for example, a massage mode corresponding to the fourth waveform signal.

In an embodiment of the present invention, the saved massage mode generated according to the fourth wave signal may be used as the default massage mode, that is, after the massage apparatus is started, the massage apparatus operates with the massage mode generated according to the fourth wave signal as the current massage mode.

In a specific embodiment, for example, a user can generate a corresponding massage mode according to favorite music, songs and the like, and the massage mode is used as the current massage mode of the massage apparatus, so that after the massage apparatus is started, the massage apparatus operates in the massage mode, linkage of the music, the songs and the like and the massage apparatus is realized, the massage apparatus executes massage actions according to rhythm or rule corresponding to the music and sound effect, the massage apparatus is more easily accepted by a human body, fatigue of the human body can be quickly and effectively relieved, and the massage effect can be improved; meanwhile, the massage requirements of users are met, and the use experience is improved.

In one embodiment of the present invention, after saving the massage pattern, the signal processing method further includes: and pushing the massage mode to a preset user terminal or a preset massage instrument. Specifically, the massage mode (corresponding to the audio signal, such as the massage mode of music, song, etc.) generated according to the fourth waveform signal is pushed to a preset user terminal or a preset massage apparatus, that is, a user terminal or a preset massage apparatus designated by the user, such as a user terminal or a massage apparatus held by a friend, a family, etc., of the user, so as to implement the sharing function. Namely, the user can share the favorite massage mode with family and friends, so that the interaction experience is improved, and the interestingness is improved.

In a specific embodiment, when the massage instrument executes a massage action, the massage instrument is used for converting a received low-frequency electric pulse signal through the electric stimulation device and outputting a corresponding low-frequency electric pulse, and the low-frequency electric pulse acts on a human body through a massage head with an electrode assembly to realize the massage action.

As a specific embodiment, the signal processing method is exemplarily described by taking a display device as a display screen of a massage apparatus and a preset terminal as a mobile phone.

In this embodiment, after the massager is started, the massager is operated according to the current massage mode, and the massager generates a first electrical pulse signal, converts the first electrical pulse signal into a first waveform signal capable of being displayed, and then displays a first waveform corresponding to the first waveform signal through a display screen of the massager.

The user can adjust the first waveform on the display screen of the massager through touching the display screen to realize autonomous creation to obtain a third waveform, a third waveform signal corresponding to the third waveform is converted into a third low-frequency electric pulse signal, and the third low-frequency electric pulse signal is transmitted to the electrode assembly of the massager, so that the electrode assembly executes a massage action according to the third low-frequency electric pulse signal.

The massage instrument receives a fourth waveform signal which is sent by the mobile phone and generated by audio signals such as music, songs and the like, and the fourth waveform signal is converted into a corresponding fourth low-frequency electric pulse signal, so that a corresponding massage mode is generated and stored. Further, the user can also push the massage mode to other users to realize sharing.

Therefore, in the embodiment, the low-frequency electric pulse signals and the waveform signals can be mutually converted, the low-frequency electric pulse signals can be displayed on the display device, the low-frequency electric pulse signals are visualized, and a user can visually and conveniently check the running state of the massage instrument, such as whether the massage instrument works or not. In addition, after the low-frequency electric pulse signals are visualized, a user can independently create the visualized waveforms, namely, the user can independently define the waveforms, output the corresponding low-frequency electric pulse signals to the massage instrument and customize the unique massage mode of the user, so that the operability, the interactivity and the interestingness are enhanced. Further, the waveform signal that audio signal such as the audio during also can be with music, song, recreation corresponds is converted into corresponding low frequency electric pulse signal to export and massage to the massage appearance, and generate the massage mode that the user liked, and save this massage mode, directly transfer the use when making things convenient for the demand, thereby can realize music and massage appearance linkage, massage appearance and music reach the same frequency, the user can enjoy the feast of sense of touch and sense of hearing, improves massage effect. Furthermore, the user can share the favorite massage mode with other users, such as family members, friends and the like, so that interactivity and use experience are improved.

According to the signal processing method provided by the embodiment of the invention, a first electric pulse signal, namely a low-frequency electric pulse signal, output by a massager in a current massage mode is obtained; and converting the first electric pulse signal into a first waveform signal, and displaying a first waveform corresponding to the first waveform signal by using a display device for a user to view. Therefore, the low-frequency electric pulse signals generated when the massage instrument operates can be converted into corresponding waveform signals to be displayed, so that the visualization of the low-frequency electric pulse signals is realized, a user can directly check the low-frequency electric pulse signals, the current operating state of the massage instrument can be conveniently learned, and the use experience of the user is improved.

The invention further provides a signal processing method.

Fig. 2 is a flowchart of a signal processing method according to another embodiment of the present invention. The signal processing method can be applied to a display device.

As shown in fig. 2, the signal processing method includes the following steps:

step S10: and receiving a first waveform signal sent by the massager, wherein the first waveform signal is a waveform signal obtained by converting a first electric pulse signal output by the massager. The first electrical pulse signal is, for example, a low-frequency electrical pulse signal.

Step S20: and displaying a first waveform corresponding to the first waveform signal. Namely, after the display device receives the first waveform signal sent by the massage instrument, the first waveform corresponding to the first waveform signal is displayed.

Specifically, after the massager is started, the massager works in the current massage mode and outputs a first electric pulse signal, namely a low-frequency electric pulse signal. The massage instrument can execute corresponding massage action according to the first electric pulse signal. The massager obtains the first electric pulse signal, converts the first electric pulse signal to obtain a corresponding first waveform signal, and sends the first waveform signal to the display device. After display device received first waveform signal, show the first waveform that first waveform signal corresponds, thereby can convert the low frequency electric pulse signal of massage appearance during operation output into visual first waveform, realize the visualization of low frequency electric pulse signal, be convenient for the audio-visual running state of understanding the massage appearance of user, if the massage appearance is operating, whether shut down etc. avoid the user to look over its running state's complicated operation and the bad impression that brings through plucking the massage appearance, thereby improved user and used experience.

Therefore, the signal processing method receives a first waveform signal obtained by converting the first electric pulse signal output by the massager, and displays a first waveform corresponding to the first waveform signal for a user to view. Therefore, the low-frequency electric pulse signals generated when the massage instrument operates can be converted into corresponding waveform signals to be displayed, so that the visualization of the low-frequency electric pulse signals is realized, a user can directly check the low-frequency electric pulse signals, the current operating state of the massage instrument can be conveniently learned, and the use experience of the user is improved.

In one embodiment of the invention, the display device may be a display device of the mobile terminal, such as a display screen. Therefore, the user can conveniently and visually check the displayed waveform, and the user can conveniently perform custom adjustment operation on the waveform.

The mobile terminal is, for example, an intelligent mobile terminal such as a mobile phone and a tablet computer. The massage instrument is in communication connection with the mobile terminal, such as wired communication connection or wireless communication connection.

In an embodiment, in step S20, the displaying the first waveform corresponding to the first waveform signal includes: and displaying a first waveform corresponding to the first waveform signal by using a display device of the mobile terminal. Taking a mobile terminal as an example of a mobile phone, the first waveform signal is sent to the mobile phone, so that a display device of the mobile phone, such as a mobile phone display screen, is utilized to display a first waveform corresponding to the first waveform signal, thereby facilitating direct checking by a user, facilitating learning of the current running state of the massager, and improving the use experience of the user.

In an embodiment of the present invention, after displaying a first waveform corresponding to the first waveform signal by using a display device of the mobile terminal, the signal processing method further includes: and sending the second waveform signal to the massage instrument so that the massage instrument converts the second waveform signal into a second electric pulse signal and then outputs the second electric pulse signal, wherein the second waveform signal is a signal generated by the waveform adjusted by the first waveform.

In a specific embodiment, after the first waveform is displayed by the display device of the mobile terminal, the user may adjust the displayed first waveform by the display device of the mobile terminal, for example, adjust a peak, a trough, and the like of the first waveform to obtain a second waveform, the mobile terminal sends a second waveform signal corresponding to the second waveform to the massage apparatus, and after receiving the second waveform signal, the massage apparatus converts the second waveform signal into a second electrical pulse signal and outputs the second electrical pulse signal through the electrode assembly, that is, massages with the second electrical pulse. Therefore, the user can adjust the first waveform through the mobile terminal, and the waveform signal (namely, the second waveform signal) required by the user is sent to the massage instrument, so that the massage instrument can massage according to the second electric pulse signal corresponding to the second waveform signal, the massage requirement of the user is met, and the user experience is improved.

In a particular embodiment, the display device of the mobile terminal has, for example, an operable display screen, such as a touch display screen. The touch display screen may display the first waveform. The user can perform touch operation through the touch display screen to perform user-defined adjustment operation on the displayed first waveform, such as stretching the first waveform, shrinking the first waveform, changing the wave crest and the wave trough of the first waveform, and the like, to finally obtain a second waveform desired by the user, and generate a second waveform signal corresponding to the second waveform. And sending the second waveform signal to a massage instrument, converting the second waveform signal into a second electric pulse signal by the massage instrument, and outputting different electric pulse signals to realize different massage manipulations. Therefore, the user can independently create the visual waveform and generate a user-defined massage mode, the self massage requirement of the user is met, and meanwhile, the human-computer interaction pleasure and the use experience are improved.

In another embodiment of the present invention, the display device may be a display screen of the massage apparatus, that is, the display device is a display screen of the massage apparatus, that is, the display screen of the massage apparatus displays the first waveform corresponding to the first waveform signal. Therefore, the user can conveniently and visually check the displayed waveform, and the user can conveniently perform custom adjustment operation on the waveform.

In one embodiment of the present invention, the signal processing method further includes: receiving the adjustment operation of a user on the first waveform to obtain a third waveform; generating a third waveform signal according to the second waveform; and sending the third waveform signal to the massager so that the massager converts the third waveform signal into a third electric pulse signal and then outputs the third electric pulse signal.

Specifically, the user can perform an adjustment operation on the first waveform displayed on the display screen of the massage apparatus, for example, adjust the peaks, valleys, and the like of the first waveform to obtain a third waveform, generate a third waveform signal based on the third waveform, transmit the third waveform signal to the massage apparatus, convert the third waveform signal into a third electric pulse signal after receiving the third waveform signal, and output the third electric pulse signal, thereby implementing different massage techniques by outputting different electric pulse signals. The user is adopted to independently create the visual waveform and generate a user-defined massage mode, the self massage requirement of the user is met, and meanwhile, the human-computer interaction pleasure and the use experience are improved.

In a specific embodiment, the display screen of the massage apparatus is, for example, a touch display screen. The touch display screen may display the first waveform. The user can perform touch operation through the touch display screen to perform user-defined adjustment operation on the displayed first waveform, such as stretching the first waveform, shrinking the first waveform, changing the wave crest and the wave trough of the first waveform, and the like, to finally obtain a third waveform desired by the user, and generate a third waveform signal corresponding to the third waveform. And sending the third waveform signal to a massager, converting the third waveform signal into a third electric pulse signal by the massager, and outputting different electric pulse signals to realize different massage manipulations. Therefore, the user can independently create the visual waveform and generate a user-defined massage mode, the self massage requirement of the user is met, and meanwhile, the human-computer interaction pleasure and the use experience are improved.

For a detailed description of the display device, reference may be made to the description part related to the display device in the signal processing method for a wearable massage apparatus in any of the above embodiments, and details are not repeated here for reducing redundancy.

According to the signal processing method provided by the embodiment of the invention, the first waveform signal obtained by converting the first electric pulse signal output by the massager is received, and the first waveform corresponding to the first waveform signal is displayed for a user to check. Therefore, the low-frequency electric pulse signals generated when the massage instrument operates can be converted into corresponding waveform signals to be displayed, so that the visualization of the low-frequency electric pulse signals is realized, a user can directly check the low-frequency electric pulse signals, the current operating state of the massage instrument can be conveniently learned, and the use experience of the user is improved.

A further embodiment of the present invention provides a wearable massage apparatus, such as a neck massage apparatus.

Fig. 3 is a block diagram of a wearable massage apparatus according to an embodiment of the present invention.

As shown in fig. 3, the wearable massage apparatus 100 includes: electrode assembly 110, acquisition module 120, conversion module 130, and first transmission module 140.

Specifically, the electrode assembly 110 is configured to output an electrical pulse signal, and the electrode assembly 110 includes, for example, electrode pads that output the electrical pulse signal and act on a massage area of a human body to massage the massage area.

The obtaining module 120 is configured to obtain a first electrical pulse signal output by the massager in the current massage mode. The first electrical pulse signal is, for example, a low-frequency electrical pulse signal. When the massager works in the current massage mode, the first electric pulse signal is output, and the electrode assembly 110 executes corresponding massage action according to the first electric pulse signal.

A conversion module 130, configured to convert the first electrical pulse signal into a first waveform signal;

the first transmission module 140 is configured to send the first waveform signal to a display device, so that the display device displays a first waveform corresponding to the first waveform signal.

Specifically, after the massager is started, the massager works in the current massage mode and outputs a first electric pulse signal, namely a low-frequency electric pulse signal. The obtaining module 120 obtains the first electrical pulse signal, and the converting module 130 converts the first electrical pulse signal into a corresponding first waveform signal. First transmission module 140 sends first waveform signal to display device, so that display device shows the first waveform that first waveform signal corresponds, thereby can convert the low frequency electric pulse signal of massage appearance during operation output into visual first waveform, realize the visualization of low frequency electric pulse signal, the running state of the audio-visual understanding massage appearance of user of being convenient for, if the massage appearance is operating, whether shut down etc., avoid the user to look over its running state's complicated operation and the bad impression that brings through picking the massage appearance, thereby improved user and used experience.

Therefore, the wearable massage apparatus 100 obtains the first electrical pulse signal, i.e. the low-frequency electrical pulse signal, output by the massage apparatus in the current massage mode; and converting the first electric pulse signal into a first waveform signal, and displaying a first waveform corresponding to the first waveform signal by using a display device for a user to view. Therefore, the low-frequency electric pulse signals generated when the massage instrument operates can be converted into corresponding waveform signals to be displayed, so that the visualization of the low-frequency electric pulse signals is realized, a user can directly check the low-frequency electric pulse signals, the current operating state of the massage instrument can be conveniently learned, and the use experience of the user is improved.

In one embodiment of the invention, the display device may be a display device of the mobile terminal, such as a display screen. Therefore, the user can conveniently and visually check the displayed waveform, and the user can conveniently perform custom adjustment operation on the waveform.

The mobile terminal is, for example, an intelligent mobile terminal such as a mobile phone and a tablet computer. The massage instrument is in communication connection with the mobile terminal, such as wired communication connection or wireless communication connection.

In a specific embodiment, the process of displaying the first waveform corresponding to the first waveform signal by the first transmission module 140 using the display device includes: and sending the first waveform signal to the mobile terminal so as to display a first waveform corresponding to the first waveform signal by using a display device of the mobile terminal. Taking a mobile terminal as an example of a mobile phone, the first waveform signal is sent to the mobile phone, so that a display device of the mobile phone, such as a mobile phone display screen, is utilized to display a first waveform corresponding to the first waveform signal, thereby facilitating direct checking by a user, facilitating learning of the current running state of the massager, and improving the use experience of the user.

In an embodiment of the present invention, after the display device of the mobile terminal displays the first waveform corresponding to the first waveform signal, the first transmission module 140 is further configured to: and receiving a second waveform signal sent by the mobile terminal, wherein the second waveform signal is a signal generated by the waveform adjusted by the first waveform. A conversion module 130, further configured to: the second waveform signal is converted into a second electric pulse signal so that the electrode module 110 outputs the second electric pulse signal.

In a specific embodiment, after the first waveform is displayed by the display device of the mobile terminal, the user may adjust the displayed first waveform by the display device of the mobile terminal, for example, adjust a peak, a trough, and the like of the first waveform to obtain a second waveform, the mobile terminal sends a second waveform signal corresponding to the second waveform to the massage apparatus, and after receiving the second waveform signal, the massage apparatus converts the second waveform signal into a second electrical pulse signal and outputs the second electrical pulse signal through the electrode assembly, that is, massages with the second electrical pulse. Therefore, the user can adjust the first waveform through the mobile terminal, and the waveform signal (namely, the second waveform signal) required by the user is sent to the massage instrument, so that the massage instrument can massage according to the second electric pulse signal corresponding to the second waveform signal, the massage requirement of the user is met, and the user experience is improved.

In a particular embodiment, the display device of the mobile terminal has, for example, an operable display screen, such as a touch display screen. The touch display screen may display the first waveform. The user can perform touch operation through the touch display screen to perform user-defined adjustment operation on the displayed first waveform, such as stretching the first waveform, shrinking the first waveform, changing the wave crest and the wave trough of the first waveform, and the like, to finally obtain a second waveform desired by the user, and generate a second waveform signal corresponding to the second waveform. And sending the second waveform signal to a massage instrument, converting the second waveform signal into a second electric pulse signal by the massage instrument, and outputting different electric pulse signals to realize different massage manipulations. Therefore, the user can independently create the visual waveform and generate a user-defined massage mode, the self massage requirement of the user is met, and meanwhile, the human-computer interaction pleasure and the use experience are improved.

In another embodiment of the present invention, the display device may be a display screen of the massage apparatus, that is, the display device is a display screen of the massage apparatus, that is, the display screen of the massage apparatus displays the first waveform corresponding to the first waveform signal. Therefore, the user can conveniently and visually check the displayed waveform, and the user can conveniently perform custom adjustment operation on the waveform.

In a specific implementation, the first transmission module 140 is further configured to receive, through the display device, an adjustment operation of the first waveform by the user, so as to obtain a third waveform. The conversion module 130 is further configured to generate a second waveform signal according to the second waveform; the third waveform signal is converted into a third electric pulse signal so that the electrode module 110 outputs the third electric pulse signal.

Specifically, the user can perform an adjustment operation on the first waveform displayed on the display screen of the massage apparatus, for example, adjust the peaks, valleys, and the like of the first waveform to obtain a third waveform, generate a third waveform signal from the third waveform, convert the third waveform signal into a third electric pulse signal, and output the third electric pulse signal, thereby implementing different massage techniques by outputting different electric pulse signals. The user is adopted to independently create the visual waveform and generate a user-defined massage mode, the self massage requirement of the user is met, and meanwhile, the human-computer interaction pleasure and the use experience are improved.

In a specific embodiment, the display screen of the massage apparatus is, for example, a touch display screen. The touch display screen may display the first waveform. The user can perform touch operation through the touch display screen to perform user-defined adjustment operation on the displayed first waveform, such as stretching the first waveform, shrinking the first waveform, changing the wave crest and the wave trough of the first waveform, and the like, to finally obtain a third waveform desired by the user, and generate a third waveform signal corresponding to the third waveform. The massage instrument converts the third waveform signal into a third electric pulse signal, and different massage manipulations are realized by outputting different electric pulse signals. Therefore, the user can independently create the visual waveform and generate a user-defined massage mode, the self massage requirement of the user is met, and meanwhile, the human-computer interaction pleasure and the use experience are improved.

In an embodiment of the present invention, the first transmission module 140 is further configured to receive an activation instruction for activating the current massage mode. The electrode module 110 outputs a first electric pulse signal according to the start command.

Specifically, for example, the user triggers a start switch of the massage apparatus, such as pressing a start button, at which time a start instruction is generated, and the massage apparatus receives the start instruction, starts the massage apparatus, and operates in the current massage mode. In the current massage mode, the first electric pulse signals are output, i.e., the electrode assembly 110 performs the corresponding massage actions according to the first electric pulse signals.

In a specific embodiment, the current massage mode may be a preset massage mode, that is, a massage mode entered by default after each start of the massage apparatus; or a massage mode memorized when the massage instrument is powered off last time.

In an embodiment of the present invention, the first transmission module 140 is further configured to receive a fourth waveform signal sent by the predetermined terminal. The wearable massager 100 further comprises a pattern generation module (not shown) and a storage module (not shown). The mode generating module is used for generating a corresponding massage mode according to the fourth waveform signal; the storage module is used for storing massage modes.

In an embodiment of the present invention, the first transmission module 140 is specifically configured to: and sending a waveform acquisition request to the preset terminal, and receiving a fourth waveform signal returned by the preset terminal according to the waveform acquisition request.

In a specific embodiment, the preset terminal is a terminal that can communicate with the massage apparatus. The preset terminal comprises but is not limited to a mobile terminal and a desktop terminal, the mobile terminal comprises a tablet personal computer, a mobile phone and a wearable intelligent device with a display interface, such as a smart watch, a smart bracelet and the like, the use is convenient, the carrying is convenient, and the mobile terminal can be the mobile terminal described in the foregoing and can also be other mobile terminals. . The preset terminal is in communication connection with the massage instrument. The fourth waveform signal is, for example, an audio signal, such as a waveform signal corresponding to music, songs, sound effects, sounds, and the like.

Specifically, the fourth waveform signal may be a waveform signal customized by a user of the massage apparatus, and the waveform signal defined by the user may be shared with other users, for example, the defined waveform signal is sent to the sharing platform for downloading by other users, or the defined waveform signal may be directly shared with corresponding users. The fourth waveform signal can also be shared with the waveform signal of the user of the massage apparatus for other users, and can be directly shared with the user of the massage apparatus during sharing, namely, the fourth waveform signal is directly sent to the massage apparatus of the user, and can also be shared with a corresponding sharing platform, and the user can download the fourth waveform signal from the sharing platform. If the preset terminal stores audio signals, such as songs, corresponding waveform signals, namely fourth waveform signals, are correspondingly generated according to the songs, the fourth waveform signals are sent to the massage instrument through the preset terminal, the massage instrument receives the fourth waveform signals, the fourth waveform signals are converted into corresponding fourth electric pulse signals, corresponding massage modes when the fourth electric pulse signals are output serve as massage modes corresponding to the fourth waveform signals, and the massage modes are stored. Or the preset terminal receives the waveform signal of the massage instrument, so that when the massage is performed, a corresponding massage mode can be selected from a massage mode defined by a user and a massage mode preset in a factory. When the massage mode selected by the user to operate is the massage mode defined according to music and the like, the linkage of the music, sound effect and the like and the massage instrument can be realized, and the massage requirements of the user are met. It can be understood that some music or sound effect has a relaxed rhythm and an elegant rhythm, and is very suitable for relaxing the human body. Therefore, the music or the sound effect is converted into corresponding waveform signals and is transmitted to the massage instrument to realize linkage, so that the massage instrument executes massage action according to the rhythm or rule corresponding to the music and the sound effect, and is easier to be accepted by a human body, thereby being capable of quickly and effectively relieving human fatigue and the like, and further being capable of improving the massage effect.

In an embodiment of the invention, the current massage mode is, for example, a massage mode corresponding to the fourth waveform signal.

In an embodiment of the present invention, the saved massage mode generated according to the fourth wave signal may be used as the default massage mode, that is, after the massage apparatus is started, the massage apparatus operates with the massage mode generated according to the fourth wave signal as the current massage mode.

In a specific embodiment, for example, a user can generate a corresponding massage mode according to favorite music, songs and the like, and the massage mode is used as the current massage mode of the massage apparatus, so that after the massage apparatus is started, the massage apparatus operates in the massage mode, linkage of the music, the songs and the like and the massage apparatus is realized, the massage apparatus executes massage actions according to rhythm or rule corresponding to the music and sound effect, the massage apparatus is more easily accepted by a human body, fatigue of the human body can be quickly and effectively relieved, and the massage effect can be improved; meanwhile, the massage requirements of users are met, and the use experience is improved.

In an embodiment of the present invention, the wearable massage apparatus 100 further includes a pushing module (not shown in the figure) for pushing the massage mode stored in the storage module to a preset user terminal or a preset massage apparatus. Specifically, the massage mode (corresponding to the audio signal, such as the massage mode of music, song, etc.) generated according to the fourth waveform signal is pushed to a preset user terminal or a preset massage apparatus, that is, a user terminal or a preset massage apparatus designated by the user, such as a user terminal or a massage apparatus held by a friend, a family, etc., of the user, so as to implement the sharing function. Namely, the user can share the favorite massage mode with family and friends, so that the interaction experience is improved, and the interestingness is improved.

In a specific embodiment, the massage apparatus is configured to convert the received low-frequency electrical pulse signal by the electrical stimulation device thereof and output a corresponding low-frequency electrical pulse when performing a massage action, and the low-frequency electrical pulse acts on a human body through the massage head with the electrode assembly 110 to implement the massage action.

As a specific embodiment, the wearable massage apparatus 100 is exemplarily described by taking a display device as a display screen of the massage apparatus and a preset terminal as a mobile phone.

In this embodiment, after the massage apparatus is started, the obtaining module 120 obtains a first electrical pulse signal generated by the massage apparatus according to the current massage mode, the converting module 130 converts the first electrical pulse signal into a displayable first waveform signal, and then transmits the displayable first waveform signal to the display device through the first transmitting module 140, and the display device displays a first waveform corresponding to the first waveform signal.

The user can adjust the first waveform on the display screen of the massager through touching the display screen to realize autonomous creation to obtain a third waveform, convert a third waveform signal corresponding to the third waveform into a third low-frequency electric pulse signal, and transmit the third low-frequency electric pulse signal to the electrode assembly 110 of the massager, so that the electrode assembly 110 executes a massage action according to the third low-frequency electric pulse signal.

The massage instrument receives a fourth waveform signal which is sent by the mobile phone and generated by audio signals such as music, songs and the like, and the fourth waveform signal is converted into a corresponding fourth low-frequency electric pulse signal, so that a corresponding massage mode is generated and stored. Further, the user can also push the massage mode to other users to realize sharing.

Therefore, in the embodiment, the low-frequency electric pulse signals and the waveform signals can be mutually converted, the low-frequency electric pulse signals can be displayed on the display device, the low-frequency electric pulse signals are visualized, and a user can visually and conveniently check the running state of the massage instrument, such as whether the massage instrument works or not. In addition, after the low-frequency electric pulse signals are visualized, a user can independently create the visualized waveforms, namely, the user can independently define the waveforms, output the corresponding low-frequency electric pulse signals to the massage instrument and customize the unique massage mode of the user, so that the operability, the interactivity and the interestingness are enhanced. Further, the waveform signal that audio signal such as the audio during also can be with music, song, recreation corresponds is converted into corresponding low frequency electric pulse signal to export and massage to the massage appearance, and generate the massage mode that the user liked, and save this massage mode, directly transfer the use when making things convenient for the demand, thereby can realize music and massage appearance linkage, massage appearance and music reach the same frequency, the user can enjoy the feast of sense of touch and sense of hearing, improves massage effect. Furthermore, the user can share the favorite massage mode with other users, such as family members, friends and the like, so that interactivity and use experience are improved.

According to the wearable massage apparatus 100 of the embodiment of the invention, a first electric pulse signal, namely a low-frequency electric pulse signal, output by the massage apparatus in a current massage mode is obtained; and converting the first electric pulse signal into a first waveform signal, and displaying a first waveform corresponding to the first waveform signal by using a display device for a user to view. Therefore, the low-frequency electric pulse signals generated when the massage instrument operates can be converted into corresponding waveform signals to be displayed, so that the visualization of the low-frequency electric pulse signals is realized, a user can directly check the low-frequency electric pulse signals, the current operating state of the massage instrument can be conveniently learned, and the use experience of the user is improved.

A further embodiment of the present invention proposes a mobile terminal.

Fig. 4 is a block diagram of a mobile terminal according to another embodiment of the present invention.

As shown in fig. 4, the mobile terminal 200 includes: a second transmission module 210 and a display module 220.

Specifically, the second transmission module 210 is configured to receive a first waveform signal sent by the massage apparatus, where the first waveform signal is a waveform signal obtained by converting a first electrical pulse signal output by the massage apparatus. The first electrical pulse signal is, for example, a low-frequency electrical pulse signal.

The display module 220 is configured to display a first waveform corresponding to the first waveform signal.

Specifically, after the massager is started, the massager works in the current massage mode and outputs a first electric pulse signal, namely a low-frequency electric pulse signal. The massage instrument can execute corresponding massage action according to the first electric pulse signal. The massager acquires the first electric pulse signal, converts the first electric pulse signal to obtain a corresponding first waveform signal and sends the first waveform signal. Second transmission module 210 receives first waveform signal back, show the first waveform that first waveform signal corresponds through display module 220, thereby can convert the low frequency electric pulse signal of massage appearance during operation output into visual first waveform, realize the visualization of low frequency electric pulse signal, the audio-visual running state who knows the massage appearance of the user of being convenient for, if the massage appearance is operating, whether shut down etc., avoid the user to look over its running state's complicated operation and the bad impression that brings through picking the massage appearance, thereby user use experience has been improved.

Therefore, the mobile terminal 200 receives the first waveform signal obtained by converting the first electric pulse signal output by the massager, and displays the first waveform corresponding to the first waveform signal for the user to view. Therefore, the low-frequency electric pulse signals generated when the massage instrument operates can be converted into corresponding waveform signals to be displayed, so that the visualization of the low-frequency electric pulse signals is realized, a user can directly check the low-frequency electric pulse signals, the current operating state of the massage instrument can be conveniently learned, and the use experience of the user is improved.

In an embodiment of the present invention, the display module 220 may be a display device, such as a display screen, of the mobile terminal. Therefore, the user can conveniently and visually check the displayed waveform, and the user can conveniently perform custom adjustment operation on the waveform.

The mobile terminal is, for example, an intelligent mobile terminal such as a mobile phone and a tablet computer. The massage instrument is in communication connection with the mobile terminal, such as wired communication connection or wireless communication connection.

In a specific embodiment, the process of displaying the first waveform corresponding to the first waveform signal by the display module 220 includes: and displaying a first waveform corresponding to the first waveform signal by using a display device of the mobile terminal. Taking a mobile terminal as an example of a mobile phone, the first waveform signal is sent to the mobile phone, so that a display device of the mobile phone, such as a mobile phone display screen, is utilized to display a first waveform corresponding to the first waveform signal, thereby facilitating direct checking by a user, facilitating learning of the current running state of the massager, and improving the use experience of the user.

In an embodiment of the present invention, after the display device of the mobile terminal displays the first waveform corresponding to the first waveform signal, the second transmission module 210 is further configured to: and sending the second waveform signal to the massage instrument so that the massage instrument converts the second waveform signal into a second electric pulse signal and then outputs the second electric pulse signal, wherein the second waveform signal is a signal generated by the waveform adjusted by the first waveform.

In a specific embodiment, after the first waveform is displayed by the display device of the mobile terminal, the user may adjust the displayed first waveform by the display device of the mobile terminal, for example, adjust a peak, a trough, and the like of the first waveform to obtain a second waveform, the mobile terminal sends a second waveform signal corresponding to the second waveform to the massage apparatus, and after receiving the second waveform signal, the massage apparatus converts the second waveform signal into a second electrical pulse signal and outputs the second electrical pulse signal through the electrode assembly, that is, massages with the second electrical pulse. Therefore, the user can adjust the first waveform through the mobile terminal, and the waveform signal (namely, the second waveform signal) required by the user is sent to the massage instrument, so that the massage instrument can massage according to the second electric pulse signal corresponding to the second waveform signal, the massage requirement of the user is met, and the user experience is improved.

In a particular embodiment, the display device of the mobile terminal has, for example, an operable display screen, such as a touch display screen. The touch display screen may display the first waveform. The user can perform touch operation through the touch display screen to perform user-defined adjustment operation on the displayed first waveform, such as stretching the first waveform, shrinking the first waveform, changing the wave crest and the wave trough of the first waveform, and the like, to finally obtain a second waveform desired by the user, and generate a second waveform signal corresponding to the second waveform. And sending the second waveform signal to a massage instrument, converting the second waveform signal into a second electric pulse signal by the massage instrument, and outputting different electric pulse signals to realize different massage manipulations. Therefore, the user can independently create the visual waveform and generate a user-defined massage mode, the self massage requirement of the user is met, and meanwhile, the human-computer interaction pleasure and the use experience are improved.

According to the mobile terminal provided by the embodiment of the invention, the first waveform signal obtained by converting the first electric pulse signal output by the massager is received, and the first waveform corresponding to the first waveform signal is displayed for a user to check. Therefore, the low-frequency electric pulse signals generated when the massage instrument operates can be converted into corresponding waveform signals to be displayed, so that the visualization of the low-frequency electric pulse signals is realized, a user can directly check the low-frequency electric pulse signals, the current operating state of the massage instrument can be conveniently learned, and the use experience of the user is improved.

A further embodiment of the present invention is directed to a massager control system.

Fig. 5 is a block diagram of a massage machine control system according to an embodiment of the present invention. As shown in fig. 5, the massage machine control system 1000 includes: a wearable massage apparatus 100 as described in any of the above embodiments of the invention, and a mobile terminal 200 as described in any of the above embodiments of the invention. Therefore, for a detailed implementation and a detailed description of the massage apparatus control system 1000 according to the embodiment of the present invention, please refer to the description portions of the wearable massage apparatus 100 and the mobile terminal 200 described above, and details are not repeated herein in order to reduce redundancy.

According to the massage instrument control system provided by the embodiment of the invention, the massage instrument acquires a first electric pulse signal, namely a low-frequency electric pulse signal, output under the current massage mode of the massage instrument; converting the first electric pulse signal into a first waveform signal, and sending the first waveform signal to the mobile terminal; the mobile terminal displays a first waveform corresponding to the first waveform signal by using a display device of the mobile terminal so as to be viewed by a user. Therefore, the low-frequency electric pulse signals generated when the massage instrument operates can be converted into corresponding waveform signals to be displayed, so that the visualization of the low-frequency electric pulse signals is realized, a user can directly check the low-frequency electric pulse signals, the current operating state of the massage instrument can be conveniently learned, and the use experience of the user is improved.

A further embodiment of the present invention provides a wearable massage apparatus, which includes a processor, a memory, and a signal processing program stored on the memory and operable on the processor, and when executed by the processor, implements the signal processing method applicable to the massage apparatus as described in any one of the above embodiments of the present invention.

In a particular embodiment, the wearable massager is, for example, a neck massager or the like.

According to the massage instrument provided by the embodiment of the invention, a first electric pulse signal, namely a low-frequency electric pulse signal, output by the massage instrument in a current massage mode is obtained; and converting the first electric pulse signal into a first waveform signal, and displaying a first waveform corresponding to the first waveform signal by using a display device for a user to view. Therefore, the low-frequency electric pulse signals generated when the massage instrument operates can be converted into corresponding waveform signals to be displayed, so that the visualization of the low-frequency electric pulse signals is realized, a user can directly check the low-frequency electric pulse signals, the current operating state of the massage instrument can be conveniently learned, and the use experience of the user is improved.

A further embodiment of the present invention provides a display apparatus including a processor, a memory, and a signal processing program stored on the memory and executable on the processor, the signal processing program, when executed by the processor, implementing a signal processing method applicable to the display apparatus as described in any one of the above-described embodiments of the present invention.

In a specific embodiment, the display device is, for example, a display device of an intelligent mobile terminal such as a mobile phone, and may also be a display screen of a massage apparatus.

According to the display device provided by the embodiment of the invention, the first waveform signal obtained by converting the first electric pulse signal output by the massage instrument is received, and the first waveform corresponding to the first waveform signal is displayed for a user to check. Therefore, the low-frequency electric pulse signals generated when the massage instrument operates can be converted into corresponding waveform signals to be displayed, so that the visualization of the low-frequency electric pulse signals is realized, a user can directly check the low-frequency electric pulse signals, the current operating state of the massage instrument can be conveniently learned, and the use experience of the user is improved.

A further embodiment of the present invention proposes a computer-readable storage medium having stored thereon a signal processing program which, when executed by a processor, implements a signal processing method applicable to a massage machine as described in any one of the above-mentioned embodiments of the present invention.

According to an embodiment of the present invention, a computer-readable storage medium stores a program that, when executed, acquires a first electric pulse signal, i.e., a low-frequency electric pulse signal, output by a massager in a current massage mode; and converting the first electric pulse signal into a first waveform signal, and displaying a first waveform corresponding to the first waveform signal by using a display device for a user to view. Therefore, the low-frequency electric pulse signals generated when the massage instrument operates can be converted into corresponding waveform signals to be displayed, so that the visualization of the low-frequency electric pulse signals is realized, a user can directly check the low-frequency electric pulse signals, the current operating state of the massage instrument can be conveniently learned, and the use experience of the user is improved.

A further embodiment of the present invention proposes a computer-readable storage medium having stored thereon a signal processing program that, when executed by a processor, implements a signal processing method applicable to a display device as described in any one of the above-described embodiments of the present invention.

According to the embodiment of the invention, the stored program receives a first waveform signal obtained by converting a first electric pulse signal output by the massage instrument when being executed, and displays a first waveform corresponding to the first waveform signal for a user to view. Therefore, the low-frequency electric pulse signals generated when the massage instrument operates can be converted into corresponding waveform signals to be displayed, so that the visualization of the low-frequency electric pulse signals is realized, a user can directly check the low-frequency electric pulse signals, the current operating state of the massage instrument can be conveniently learned, and the use experience of the user is improved.

In the description of the present invention, it is to be understood that the terms "central," "longitudinal," "lateral," "length," "width," "thickness," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "clockwise," "counterclockwise," "axial," "radial," "circumferential," and the like are used in the orientations and positional relationships indicated in the drawings for convenience in describing the invention and to simplify the description, and are not intended to indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and are not to be considered limiting of the invention.

In the description of the present invention, "a plurality" means two or more.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an illustrative embodiment," "an example," "a specific example," or "some examples" or the like mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example.

While embodiments of the invention have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.

Claims (21)

1. A signal processing method, applied to a wearable massage apparatus including an electrode assembly for outputting an electrical pulse signal, the method comprising:

acquiring a first electric pulse signal output by the massager in a current massage mode;

converting the first electrical pulse signal into a first waveform signal;

and displaying a first waveform corresponding to the first waveform signal by using a display device.

2. The method of claim 1, wherein the display device is a display device of a mobile terminal, and the massage apparatus is in communication with the mobile terminal;

the displaying, by the display device, a first waveform corresponding to the first waveform signal includes:

and sending the first waveform signal to the mobile terminal so as to display a first waveform corresponding to the first waveform signal by using a display device of the mobile terminal.

3. The method according to claim 2, wherein after displaying the first waveform corresponding to the first waveform signal by using a display device of the mobile terminal, the method further comprises:

receiving a second waveform signal sent by the mobile terminal, wherein the second waveform signal is a signal generated by the waveform adjusted by the first waveform;

converting the second waveform signal into a second electric pulse signal;

and outputting the second electric pulse signal.

4. The method of claim 1, wherein the display device is a display screen of the massager.

5. The method of claim 4, further comprising:

receiving the adjustment operation of a user on the first waveform to obtain a third waveform;

generating a third waveform signal according to the third waveform;

converting the third waveform signal into a third electric pulse signal;

and outputting the third electric pulse signal.

6. The method of claim 1, wherein prior to acquiring the first electrical pulse signal, the method further comprises:

receiving a starting instruction for starting the current massage mode;

and executing the starting instruction and outputting the first electric pulse signal.

7. The method according to any one of claims 1-6, further comprising:

receiving a fourth waveform signal sent by a preset terminal;

generating a corresponding massage mode according to the fourth waveform signal;

and saving the massage mode.

8. The method of claim 7, wherein the current massage mode is a massage mode corresponding to the fourth waveform signal.

9. The method of claim 7, further comprising:

sending a waveform acquisition request to the preset terminal;

the receiving of the fourth waveform signal sent by the preset terminal includes: and receiving the fourth waveform signal returned by the preset terminal according to the waveform acquisition request.

10. A signal processing method, applied to a display device, the method comprising:

receiving a first waveform signal sent by a massager, wherein the first waveform signal is a waveform signal obtained by converting a first electric pulse signal output by the massager;

and displaying a first waveform corresponding to the first waveform signal.

11. The method of claim 10, wherein the display device is a display device of a mobile terminal, and the massage apparatus is in communication with the mobile terminal;

the displaying a first waveform corresponding to the first waveform signal includes:

and displaying a first waveform corresponding to the first waveform signal by using a display device of the mobile terminal.

12. The method according to claim 11, further comprising, after displaying the first waveform corresponding to the first waveform signal by using a display device of the mobile terminal:

and sending a second waveform signal to the massager so that the massager converts the second waveform signal into a second electric pulse signal and then outputs the second electric pulse signal, wherein the second waveform signal is a signal generated by the waveform adjusted by the first waveform.

13. The method of claim 10, wherein the display device is a display screen of the massager.

14. The method of claim 13, further comprising:

receiving the adjustment operation of a user on the first waveform to obtain a third waveform;

generating a third waveform signal according to the third waveform;

and sending the third waveform signal to the massager, so that the massager converts the third waveform signal into a third electric pulse signal and then outputs the third electric pulse signal.

15. A wearable massager, characterized in that the massager comprises:

an electrode assembly for outputting an electrical pulse signal;

the acquisition module is used for acquiring a first electric pulse signal output by the massager in a current massage mode;

the conversion module is used for converting the first electric pulse signal into a first waveform signal;

and the first transmission module is used for sending the first waveform signal to a display device so as to display a first waveform corresponding to the first waveform signal by using the display device.

16. A mobile terminal, characterized in that the mobile terminal comprises:

the second transmission module is used for receiving a first waveform signal sent by a massager, wherein the first waveform signal is a waveform signal obtained by converting a first electric pulse signal output by the massager;

and the display module is used for displaying a first waveform corresponding to the first waveform signal.

17. A massager control system, comprising:

the wearable massager of claim 15; and

the mobile terminal of claim 16.

18. A wearable massage apparatus, comprising a processor, a memory, and a signal processing program stored on the memory and executable on the processor, the signal processing program, when executed by the processor, implementing the signal processing method of any one of claims 1-9.

19. A display device, characterized in that the display device comprises a processor, a memory and a signal processing program stored on the memory and executable on the processor, the signal processing program, when executed by the processor, implementing the signal processing method according to any one of claims 10-14.

20. A computer-readable storage medium, having stored thereon a signal processing program which, when executed by a processor, implements the signal processing method according to any one of claims 1 to 9.

21. A computer-readable storage medium, having stored thereon a signal processing program which, when executed by a processor, implements the signal processing method according to any one of claims 10 to 14.

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