CN114745013A - Wearable device control method and system, wearable device and storage medium - Google Patents

Abstract

The application discloses a wearable device control method, a wearable device control system, a wearable device and a storage medium, wherein the method comprises the following steps: acquiring a starting instruction, and starting real-time signal receiving; judging whether the signal is a valid signal or not based on the received signal; when the received signal is an effective signal, acquiring a control instruction corresponding to the signal; based on control command, carry out corresponding control, through this application scheme, when needs are opened, open the wearable equipment of instruction control and open real-time signal and receive through opening to can get rid of invalid signal, carry out corresponding control based on valid signal, improve control accuracy, and based on signal control, reduce the touch operation to wearable equipment, improve equipment life.

Description

Wearable device control method and system, wearable device and storage medium

Technical Field

The present application relates to the field of wearable devices, and in particular, to a method and a system for controlling a wearable device, and a storage medium.

Background

More and more applications of wearable equipment of intelligence are in people's life, including bluetooth headset, intelligent wrist-watch etc, current bluetooth headset, intelligent wrist-watch etc, to the control of these wearable equipment, still carry out corresponding control through touching wearable equipment, but carry out touch command control to wearable equipment, in long-term use, can lead to wearable surface to have the greasy dirt or scratch, both influence the use of wearable equipment, influence pleasing to the eye again, can carry out corresponding operation when the touch simultaneously promptly, easy because the mistake touches, influence user normal use.

Therefore, the prior art has yet to be improved based on the above problems.

Disclosure of Invention

The purpose of this application is to reduce the touching of wearable equipment, improves wearable equipment's control efficiency.

The technical purpose of the application is realized by the following technical scheme:

in a first aspect of the present application, a method for controlling a wearable device is disclosed, wherein the method includes:

acquiring a starting instruction, and starting real-time signal receiving;

judging whether the signal is a valid signal or not based on the received signal;

when the received signal is an effective signal, acquiring a control instruction corresponding to the signal;

and executing corresponding control based on the control instruction.

According to the scheme, the real-time signal receiving is started after the starting instruction is obtained, whether the signal is effective or not is judged based on the received signal, the corresponding control instruction is obtained based on the effective signal to execute corresponding control, the signal can be started when needed, interference of invalid signals is reduced, the control efficiency is improved, and meanwhile corresponding control is achieved through the obtained signal.

Optionally, in the wearable device control method, the step of obtaining a start instruction and starting the real-time signal reception includes:

and establishing communication connection with the wearable device to be adjusted through other wearable devices, and starting real-time signal receiving of the wearable device to be adjusted.

According to the scheme, the communication connection can be established with the wearable device to be adjusted through other wearable devices, the real-time signal receiving of the wearable device is started, the wearable device to be adjusted can be controlled through other wearable devices, and the application range is widened.

Optionally, in the wearable device control method, the step of obtaining a start instruction and starting the real-time signal reception includes:

acquiring whether a mechanical wave signal is sent in a preset area;

and when the mechanical wave signal is sent in the preset area, starting the real-time signal receiving of the wearable equipment.

According to the scheme, whether mechanical wave signal transmission exists in the preset area or not is judged, real-time signal receiving of the wearable device is started when the mechanical wave signal is transmitted, and quick opening can be achieved.

Optionally, the wearable device control method, wherein the step of determining whether the signal is a valid signal based on the received signal includes:

acquiring the vibration frequency of mechanical waves sent by a preset area;

and when the vibration frequency of the mechanical wave is within a preset range, judging the received signal as an effective signal.

According to the scheme, whether the mechanical wave signal is an effective signal or not is judged by obtaining the vibration frequency of the mechanical wave sent by the preset area, and when the vibration frequency of the mechanical wave is not within the preset range, the signal is judged to be an invalid signal, and the control instruction is not executed.

Optionally, the wearable device control method further includes:

different mechanical wave signals and corresponding control instructions based on wearable device control or corresponding invalid instructions are stored in advance.

According to the scheme, the mechanical wave signals and the corresponding instruction types are stored in advance, so that corresponding control is executed or no response is made when the mechanical wave signals are received.

In another aspect of the present application, a wearable device control system is disclosed, which includes:

the real-time signal receiving and starting module is used for acquiring a starting instruction and starting real-time signal receiving;

the effective signal judging module is used for judging whether the signal is an effective signal or not based on the received signal;

the instruction acquisition module is used for acquiring a control instruction corresponding to the signal when the received signal is an effective signal;

and the control module is used for executing corresponding control based on the control instruction.

According to the scheme, the real-time signal receiving is started after the starting instruction is obtained, whether the signal is effective or not is judged based on the received signal, the corresponding control instruction is obtained based on the effective signal to execute corresponding control, the signal can be started when needed, interference of invalid signals is reduced, and the control efficiency is improved.

Optionally, the wearable device control system, wherein the valid signal determining module includes:

the vibration frequency acquisition unit is used for acquiring the vibration frequency of the mechanical waves sent by the preset area;

and the judging unit is used for judging the received signal as an effective signal when the vibration frequency of the mechanical wave is within a preset range.

According to the scheme, whether the mechanical wave signal is an effective signal or not is judged by obtaining the vibration frequency of the mechanical wave sent by the preset area, and when the vibration frequency of the mechanical wave is not within the preset range, the signal is judged to be an invalid signal, and the control instruction is not executed.

Optionally, the wearable device control system further includes:

the pre-storage module is used for pre-storing different mechanical wave signals and corresponding control instructions based on wearable equipment control or corresponding invalid instructions.

According to the scheme, the mechanical wave signals and the corresponding instruction types are stored in advance, so that corresponding control is executed or no response is made when the mechanical wave signals are received.

In another aspect of the present application, a wearable device is disclosed, in which a memory and a processor are installed, the memory storing a computer program that can be loaded by the processor and execute the wearable device control method as described above.

In another aspect of the present application, a storage medium is disclosed, in which a computer program capable of being loaded by a processor and executing the wearable device control method as described above is stored.

In summary, the present application discloses a wearable device control method, a wearable device control system, a wearable device, and a storage medium, wherein the method includes: acquiring a starting instruction, and starting real-time signal receiving; judging whether the signal is a valid signal or not based on the received signal; when the received signal is an effective signal, acquiring a control instruction corresponding to the signal; based on control command, carry out corresponding control, through this application scheme, when needs are opened, open the wearable equipment of instruction control and open real-time signal and receive through opening to can get rid of invalid signal, carry out corresponding control based on valid signal, improve control accuracy, and based on signal control, reduce the touch operation to wearable equipment, improve equipment life.

Drawings

Fig. 1 is a flowchart illustrating steps of a method for controlling a wearable device according to an embodiment of the present application.

Fig. 2 is a schematic view of another wearable device, which is a ring according to an embodiment of the present application.

Fig. 3 is a block diagram of a wearable device control system according to an embodiment of the present application.

Detailed Description

The present application is described in further detail below with reference to the attached drawings.

In order to implement corresponding control, for example, volume adjustment and music switching, of an existing wearable device, such as a watch or a bluetooth headset, it is necessary to touch a screen of the headset or the watch and execute corresponding operations, and in order to improve control efficiency, in the embodiment of the present application, a wearable device control method is disclosed, which is a flowchart of steps of the method with reference to fig. 1, where the method includes:

s1, acquiring a starting instruction and starting real-time signal receiving;

s2, judging whether the signal is an effective signal or not based on the received signal;

s3, when the received signal is an effective signal, acquiring a control instruction corresponding to the signal;

and S4, executing corresponding control based on the control instruction.

In the embodiment of the application, in order to realize accurate control, and simultaneously, also reduce the interference that the maloperation brought, wearable device's signal reception is not real-time open, only when receiving the opening instruction, just can open real-time signal reception, when wearable device receives the opening instruction, open real-time signal reception, then, wearable device can real-time signal reception, the signal of receipt includes the signal that corresponds to control instruction, certainly also can include invalid signal, or interference signal etc. in order to realize accurate control, can judge the signal of receipt, judge whether effective signal, when received signal is effective signal, again based on the signal that acquires, acquire the control instruction that corresponds with effective signal, carry out corresponding control to wearable device.

When the wearable device is in specific implementation, if the real-time signal reception is always started, when a user does not need to execute control of the wearable device, a lot of interference signals can be received, on one hand, the wearable device needs to consume electric quantity for signal judgment, similarly, the interference signals are too much, when the user needs to execute control, the judgment of effective signals can also be influenced by the too much interference signals, therefore, the control accuracy of the user can be improved by starting the real-time signal acquisition of the wearable device through a starting instruction.

In the foregoing embodiment of the present application, it is mentioned that, when acquiring an opening instruction, the opening real-time signal reception is started, and when specifically implementing, based on different wearable devices and different user requirements, the opening instruction may correspond to different opening instructions, in the embodiment of the present application, the wearable device control method, wherein, in the step of acquiring the opening instruction, and starting the real-time signal reception, the opening instruction includes:

and establishing communication connection with the wearable equipment to be adjusted through other wearable equipment, and starting real-time signal receiving of the wearable equipment to be adjusted.

In this application, open the instruction and establish communication connection through other wearable equipment and the wearable equipment of treating the regulation, specifically, in this application embodiment, other wearable equipment are preferably the ring, refer to fig. 2, for the schematic diagram of ring, based on people's user custom, can rotate the ring and decompress, in this application, be equipped with communication module in the ring, can establish communication connection with wearable equipment, for example wrist-watch or bluetooth headset, opened wrist-watch or bluetooth headset's communication connection promptly. Use bluetooth headset as an example, after bluetooth headset and ring establish communication connection, can receive the control signal of ring, carry out corresponding control command, in the embodiment of the application, the ring can be along the rotation in a circumferential direction of ring, realize the switching of music, can set up the sensor in the ring, turn into control signal with the rotation signal, through the rotation in a circumferential direction ring, send the control command to bluetooth headset who switches the music, carry out corresponding control to bluetooth headset, it is preferred, the ring can also send the instruction of adjusting the volume, be equipped with the knob on the ring, through rotatory knob, can send corresponding volume to rise, volume reduction adjustment command to bluetooth headset, carry out corresponding operation to bluetooth headset. Of course, as an embodiment of the present application, the ring is used as an auxiliary description for controlling other wearable devices and the wearable device to be adjusted, and the other wearable devices may also realize the control of the wearable device to be adjusted.

In this embodiment of the application, in addition to the adjustment of the wearable device to be adjusted based on other wearable devices, the adjustment may also be performed based on a gesture, and specifically, in the wearable device control method, the step of obtaining the start instruction, and starting the real-time signal reception includes:

acquiring whether a mechanical wave signal is sent in a preset area;

and when the mechanical wave signal is sent in the preset area, starting the real-time signal receiving of the wearable equipment.

In the embodiment of the application, when the wearable device needs to be adjusted, in general, the volume is increased and decreased, the wearable device can slide or slide down on a corresponding area through a finger, music can be switched by double-click and triple-click, and can be clicked when being suspended, and the like, similarly, when the wearable device is adjusted based on gestures, an opening instruction needs to be sent to the wearable device to control the wearable device to open real-time signal receiving, unnecessary signal acquisition is reduced, when a user clicks or slides the skin, a vibration wave can be generated on the surface of the skin, a sensor and an accelerator are arranged in the wearable device, whether the vibration wave exists or not is sensed through the sensor, the frequency of the vibration wave can be obtained based on the accelerator, in order to realize the real-time signal receiving and opening of the wearable device, meanwhile, misoperation or clutter interference of the user is reduced, in the embodiment of the application, a preset area is preferred, in presetting the region, the user clicks or slides the skin, at this moment, it can produce the vibration wave to predetermine regional skin, wearable device's inductor and accelerator can acquire the vibration wave signal, based on the vibration wave signal, can judge, judge the emergence source of vibration wave signal, if the emergence source is in predetermineeing the within range, then show that this vibration wave signal is the instruction that real-time signal reception of controlling wearable device opened, consequently, can be based on the vibration wave signal, correspond the real-time signal reception of opening wearable device, can acquire the vibration wave signal in real time, and based on the vibration wave signal, carry out corresponding control.

In the foregoing embodiment, it is mentioned that the wearable device to be adjusted may be controlled by establishing a communication connection with the wearable device to be adjusted through another wearable device and directly controlling the wearable device to be adjusted, and the opening of the real-time signal reception of the wearable device may also be controlled based on a mechanical wave, when the wearable device is controlled by another wearable device, the foregoing embodiment has been described in detail, and when the real-time signal reception of the wearable device is determined to be opened or not in a mechanical wave manner, and after the real-time signal reception of the opening signal is performed, the corresponding execution instruction needs to be obtained based on the mechanical wave, therefore, in this embodiment of the present application, in order to improve the control accuracy, the wearable device control method includes the step of determining whether the signal is a valid signal based on the received signal:

acquiring the vibration frequency of mechanical waves sent by a preset area;

and when the vibration frequency of the mechanical wave is within a preset range, judging the received signal as an effective signal.

In the embodiment of the application, after the wearable device is controlled to receive and start a real-time signal in a vibration wave manner, the wearable device needs to be controlled based on a mechanical wave, in order to reduce interference signals, for example, when the wearable device is a bluetooth headset, the mechanical wave sent by a preset area may include situations that a person chews food, or the user grabs itch, touches ears, and the like, besides a gesture operation of the user, and after specific data analysis, it can be obtained that, in the interference signals, the person chews or touches ears to itch, the vibration frequency of the mechanical wave is faster, and the user slides or clicks, because purposefully, corresponding control needs to be performed, so a certain vibration frequency range can be preset, and the gesture operation of the user ensures that the vibration frequency is within the preset range, i.e. accurate control, a specific vibration frequency range can be ensured, the method comprises the steps of obtaining the habit of touching ears and the chewing habit of a user based on machine learning, obtaining the frequency range of corresponding mechanical waves, obtaining the frequency of the mechanical waves corresponding to the gesture operation of the control instruction of the user, obtaining the optimal vibration frequency range, and judging whether signals received by the wearable device are effective signals or not based on the vibration frequency of the mechanical waves in the subsequent specific implementation process. Interference is conveniently skimmed, and the control precision of the wearable equipment is improved.

In the foregoing embodiment, it is mentioned that other wearable devices may interact with the wearable device to be adjusted to achieve corresponding control, and after the other wearable devices establish communication connection with the wearable device to be adjusted, in addition to the ring mentioned in the foregoing embodiment, the other wearable devices may also use a vibration wave manner, for example, the wearable device to be adjusted is a bluetooth headset, the other wearable devices are rings, except that the control of the bluetooth headset may be executed by sliding or clicking the skin in a preset area near the ear, the control of the bluetooth headset may also be performed by using an active ring, in addition to the above two control manners, the ring itself may also input a control instruction to the ring by touching the skin in the preset area around the ring by using a built-in sensor and an accelerator, the control instruction is sent to the Bluetooth headset through the ring, so that the control of the Bluetooth headset is achieved.

In the foregoing embodiment, it is mentioned that different mechanical wave frequencies may include corresponding execution control instructions and may also be interference signals, and therefore, in order to improve the determination accuracy, in this embodiment of the application, the wearable device control method further includes:

different mechanical wave signals and corresponding control instructions based on wearable device control or corresponding invalid instructions are stored in advance.

In the embodiment of the application, control instructions corresponding to different mechanical wave signals are stored in advance, in a specific implementation process, a signal of a mechanical wave is obtained and compared with a preset mechanical wave signal correspondingly, when an error is within an acceptable range, a closest control instruction is obtained, corresponding control is executed, specifically, for example, a pause control is a click instruction, a skin is clicked in a preset area, a mechanical wave based on a click gesture is generated, at the moment, because the generation of the mechanical wave is realized through clicking, the mechanical wave is gradually reduced without redundant mechanical waves, when a user double-clicks music, two mechanical waves are equivalently transmitted in the preset area, the generation interval of the two mechanical waves is the interval when the user fingers click the skin, at the moment, a mechanical wave model corresponding to the operation of the user double-clicking the skin, and when the mechanical wave obtained by the wearable device is a double-click operation, the error of the mechanical wave model is small, the music switching command is executed, and other operations can set corresponding mechanical wave signals to improve the overall control precision.

In another embodiment of the present application, a wearable device control system is disclosed, referring to fig. 3, which is a structural block diagram of the system, wherein the wearable device control system includes:

a real-time signal receiving and starting module 100, configured to obtain a starting instruction and start real-time signal receiving;

a valid signal judgment module 200 for judging whether the signal is a valid signal based on the received signal;

the instruction obtaining module 300 is configured to obtain a control instruction corresponding to a signal when the received signal is an effective signal;

and the control module 400 is used for executing corresponding control based on the control instruction.

In the embodiment of the application, in order to realize accurate control, and simultaneously, also reduce the interference that the maloperation brought, wearable device's signal reception is not real-time open, only when receiving the opening instruction, just can open real-time signal reception, when wearable device receives the opening instruction, open real-time signal reception, then, wearable device can real-time signal reception, the signal of receipt includes the signal that corresponds to control instruction, certainly also can include invalid signal, or interference signal etc. in order to realize accurate control, can judge the signal of receipt, judge whether effective signal, when received signal is effective signal, again based on the signal that acquires, acquire the control instruction that corresponds with effective signal, carry out corresponding control to wearable device.

In the embodiment of the present application, the functions and specific implementations of the above modules are described in detail in the method steps, and therefore are not described herein again.

Further, in the wearable device control system, in the real-time signal reception enabling module 100, enabling the wearable device to receive the real-time signal may be:

establishing communication connection with the wearable device to be adjusted through other wearable devices, and starting real-time signal receiving of the wearable device to be adjusted;

the method can also be as follows:

acquiring whether a mechanical wave signal is sent in a preset area;

and when the mechanical wave signal is sent in the preset area, starting the real-time signal receiving of the wearable equipment.

Specifically, how to start the system is described in detail in the method steps, and therefore, the detailed description is omitted here.

Further, the wearable device control system, wherein the valid signal determining module 200 includes:

the vibration frequency acquisition unit is used for acquiring the vibration frequency of the mechanical waves sent by the preset area;

and the judging unit is used for judging the received signal as an effective signal when the vibration frequency of the mechanical wave is within a preset range.

In the embodiments of the present application, the functions and specific implementations of the above units have been described in detail in the method steps, and therefore are not described herein again.

Optionally, the wearable device control system further includes:

the pre-storage module is used for pre-storing different mechanical wave signals and corresponding control instructions based on wearable equipment control or corresponding invalid instructions.

In the embodiment of the present application, the functions and specific implementations of the above modules are described in detail in the method steps, and therefore are not described herein again.

In another embodiment of the present application, a wearable device is disclosed, wherein a memory and a processor are installed, and the memory stores a computer program that can be loaded by the processor and execute the wearable device control method as described above.

In this embodiment of the application, the wearable device may be a watch, a bluetooth headset, a ring, or the like in the foregoing method embodiments, and the functions that can be realized by the wearable device are described in detail in the method steps, which is not described herein again.

In another embodiment of the present application, a storage medium is disclosed, in which a computer program is stored, the computer program being capable of being loaded by a processor and performing the following method:

acquiring a starting instruction, and starting real-time signal receiving;

judging whether the signal is a valid signal or not based on the received signal;

when the received signal is an effective signal, acquiring a control instruction corresponding to the signal;

and executing corresponding control based on the control instruction.

And establishing communication connection with the wearable device to be adjusted through other wearable devices, and starting real-time signal receiving of the wearable device to be adjusted.

Acquiring whether a mechanical wave signal is sent in a preset area;

when a mechanical wave signal is sent in the preset area, starting real-time signal receiving of the wearable device.

Acquiring the vibration frequency of mechanical waves sent by a preset area;

and when the vibration frequency of the mechanical wave is within a preset range, judging the received signal as an effective signal.

Different mechanical wave signals and corresponding control instructions based on wearable device control or corresponding invalid instructions are stored in advance.

The same or similar parts between the embodiments are referred to each other.

Those of skill would further appreciate that the various illustrative elements and algorithm steps described in connection with the embodiments disclosed herein may be implemented as electronic hardware, computer software, or combinations of both, and that the various illustrative components and steps have been described above generally in terms of their functionality in order to clearly illustrate this interchangeability of hardware and software. Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the implementation. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present application.

The steps of a method or algorithm described in connection with the embodiments disclosed herein may be embodied directly in hardware, in a software module executed by a processor, or in a combination of the two. A software module may reside in Random Access Memory (RAM), memory, Read Only Memory (ROM), electrically programmable ROM, electrically erasable programmable ROM, registers, hard disk, a removable disk, a CD-ROM, or any other form of storage medium known in the art.

The embodiments of the present invention are preferred embodiments of the present application, and the scope of protection of the present application is not limited by the embodiments, so: equivalent changes made according to the structure and principles of the present application should be covered by the protection scope of the present application.

Claims (10)

1. A wearable device control method, comprising:

acquiring a starting instruction, and starting real-time signal receiving;

judging whether the signal is a valid signal or not based on the received signal;

when the received signal is an effective signal, acquiring a control instruction corresponding to the signal;

and executing corresponding control based on the control instruction.

2. The wearable device control method of claim 1, wherein the step of obtaining a turn-on command, and turning on the real-time signal reception, the turn-on command comprises:

and establishing communication connection with the wearable device to be adjusted through other wearable devices, and starting real-time signal receiving of the wearable device to be adjusted.

3. The wearable device control method of claim 1, wherein the step of obtaining a turn-on command, and turning on the real-time signal reception, the turn-on command comprises:

acquiring whether a mechanical wave signal is sent in a preset area;

and when the mechanical wave signal is sent in the preset area, starting the real-time signal receiving of the wearable equipment.

4. The wearable device control method of claim 3, wherein determining whether the signal is a valid signal based on the received signal comprises:

acquiring the vibration frequency of mechanical waves sent by a preset area;

and when the vibration frequency of the mechanical wave is within a preset range, judging the received signal as an effective signal.

5. The wearable device control method of claim 1, further comprising:

different mechanical wave signals and corresponding control instructions based on wearable device control or corresponding invalid instructions are stored in advance.

6. A wearable device control system, comprising:

the real-time signal receiving and starting module is used for acquiring a starting instruction and starting real-time signal receiving;

the effective signal judging module is used for judging whether the signal is an effective signal or not based on the received signal;

the instruction acquisition module is used for acquiring a control instruction corresponding to the signal when the received signal is an effective signal;

and the control module is used for executing corresponding control based on the control instruction.

7. The wearable device control system of claim 6, wherein the valid signal determination module comprises:

the vibration frequency acquisition unit is used for acquiring the vibration frequency of the mechanical waves sent by the preset area;

and the judging unit is used for judging the received signal as an effective signal when the vibration frequency of the mechanical wave is within a preset range.

8. The wearable device control system of claim 6, further comprising:

the pre-storage module is used for pre-storing different mechanical wave signals and corresponding control instructions based on wearable equipment control or corresponding invalid instructions.

9. A wearable device, characterized by being equipped with a memory and a processor, the memory storing a computer program that can be loaded by the processor and that executes the wearable device control method according to any of claims 1-5.

10. A storage medium storing a computer program that can be loaded by a processor and that executes the wearable device control method according to any one of claims 1 to 5.

Images