CN113341677B - Watch wearing state detection method and device - Google Patents

Abstract

The embodiment of the application provides a method and a device for detecting a watch wearing state, wherein the method comprises the following steps: receiving first indication information, wherein the first indication information is used for indicating a user to trigger a first function of the watch; acquiring pressure parameters acquired by a watch; and determining whether the current wearing state of the watch meets the wearing state of the watch when the first function is executed or not according to the pressure parameter. Through the mode, the wearing state of the watch can be ensured to meet the standard when the first function is executed, so that the data collected by the watch is more accurate when the first function is executed.

Description

Watch wearing state detection method and device

Technical Field

The invention relates to the technical field of wearable equipment, in particular to a method and a device for detecting a watch wearing state.

Background

After the wrist-watch on the existing market is worn and is accomplished, the elasticity degree is just fixed unchangeable, if the user feels to wear uncomfortable, for example feels to wear too tightly or wears the pine, just needs wearing of user manual regulation watchband once more, and the wrist-watch can not the automatically regulated wrist-watch wear the elasticity degree.

In the related art, the watch may be provided with a magnetic attraction function and an electric locking mechanism. When the user wears the watch, the two watchbands can automatically wrap the wrist tightly due to the magnetic attraction function and are adsorbed together. After the watchband adsorbs, the gear of electronic locking mechanism also buckles simultaneously and links to finish, and the elasticity degree of wearing of wrist-watch can be adjusted automatically through electronic locking mechanism to the wrist-watch.

When a certain function (such as heart rate detection) of the watch is executed, part of users can adjust the wearing state of the watch through the electric locking mechanism for wearing comfort, the watch is worn too loosely, a gap is formed between the watch and the wrist, the wearing state of the watch does not meet the wearing specification required by the function, and therefore detection data is inaccurate when the watch executes the function.

Disclosure of Invention

The embodiment of the application provides a method and a device for detecting a wearing state of a watch, and aims to solve the technical problem that in the prior art, the wearing state of the watch does not meet the standard, so that the watch detection data is inaccurate.

In a first aspect, an embodiment of the present application provides a method for detecting a wearing state of a watch, where the method includes:

receiving first indication information, wherein the first indication information is used for indicating a user to trigger a first function of a watch;

acquiring pressure parameters acquired by the watch;

and determining whether the current wearing state of the watch meets the wearing state of the watch when the first function is executed according to the pressure parameter.

In an alternative embodiment, the wearing state of the wristwatch includes a wearing position of the wristwatch and a degree of tightness of a band of the wristwatch.

In an optional embodiment, the determining whether the current wearing state of the watch satisfies the wearing state of the watch when the first function is executed includes:

determining whether the current wearing position of the watch meets the requirement for executing the first function or not according to whether the pressure parameter meets a first pressure condition corresponding to the wearing position of the watch when the first function is executed or not;

and determining whether the current tightness degree of the watchband of the watch meets the requirement for executing the first function according to whether the pressure parameter meets a second pressure condition corresponding to the tightness degree of the watchband when the first function is executed.

In an alternative embodiment, the pressure parameters include: the pressure parameter of the bottom of the watch face, the pressure parameter of the first watchband, the pressure parameter of the second watchband and the pressure parameter of the locking mechanism of the watch.

In an alternative embodiment, the first pressure condition comprises: the ratio of the fluctuation range of the pressure parameter at the bottom of the dial plate to the mean value of the pressure parameter at the bottom of the dial plate is smaller than a first threshold value, the ratio of the pressure parameter at the bottom of the dial plate to the pressure parameter of the locking mechanism of the watch is larger than a second threshold value, the ratio of the pressure parameter at the bottom of the dial plate to the pressure parameter of the first watchband is larger than a third threshold value, the ratio of the pressure parameter at the bottom of the dial plate to the pressure parameter of the second watchband is larger than a third threshold value, and the ratio of the pressure parameter of the first watchband to the pressure parameter of the second watchband is larger than a fourth threshold value and smaller than a fifth threshold value.

In an alternative embodiment, the second pressure condition comprises: the pressure parameter of the dial bottom is larger than a sixth threshold, the pressure parameter of the first watchband and the pressure parameter of the second watchband are both larger than a seventh threshold, and the ratio of the pressure parameter of the first watchband to the pressure parameter of the second watchband is larger than an eighth threshold and smaller than a ninth threshold.

In an optional embodiment, after the determining whether the current wearing state of the watch satisfies the wearing state of the watch when the first function is executed, the method further includes:

and if the current wearing state of the watch does not meet the wearing state of the watch when the first function is executed, controlling an electric locking mechanism of the watch to adjust the wearing state of the watch.

In an optional embodiment, after the determining whether the current wearing state of the watch satisfies the wearing state of the watch when the first function is executed, the method further includes:

and if the current wearing state of the watch meets the wearing state of the watch when the first function is executed, starting the first function.

In a second aspect, an embodiment of the present application provides a device for detecting a wearing state of a watch, where the device includes:

the receiving module is used for receiving first indication information, and the first indication information is used for indicating a user to trigger a first function of the watch;

the processing module is used for acquiring the pressure parameters acquired by the watch; and determining whether the current wearing state of the watch meets the wearing state of the watch when the first function is executed according to the pressure parameter.

In an alternative embodiment, the wearing state of the wristwatch includes a wearing position of the wristwatch and a degree of tightness of a band of the wristwatch.

In an optional implementation manner, the processing module is specifically configured to determine whether a current wearing position of the watch meets a requirement for executing the first function according to whether the pressure parameter meets a first pressure condition corresponding to a wearing position of the watch when the first function is executed; and determining whether the current tightness degree of the watchband of the watch meets the requirement for executing the first function according to whether the pressure parameter meets a second pressure condition corresponding to the tightness degree of the watchband when the first function is executed.

In an alternative embodiment, the pressure parameters include: the pressure parameter of the bottom of the watch face, the pressure parameter of the first watchband, the pressure parameter of the second watchband and the pressure parameter of the locking mechanism of the watch.

In an alternative embodiment, the first pressure condition comprises: the ratio of the fluctuation range of the pressure parameter at the bottom of the dial plate to the mean value of the pressure parameter at the bottom of the dial plate is smaller than a first threshold value, the ratio of the pressure parameter at the bottom of the dial plate to the pressure parameter of the locking mechanism of the watch is larger than a second threshold value, the ratio of the pressure parameter at the bottom of the dial plate to the pressure parameter of the first watchband is larger than a third threshold value, the ratio of the pressure parameter at the bottom of the dial plate to the pressure parameter of the second watchband is larger than a third threshold value, and the ratio of the pressure parameter of the first watchband to the pressure parameter of the second watchband is larger than a fourth threshold value and smaller than a fifth threshold value.

In an alternative embodiment, the second pressure condition comprises: the pressure parameter of the dial bottom is larger than a sixth threshold, the pressure parameter of the first watchband and the pressure parameter of the second watchband are both larger than a seventh threshold, and the ratio of the pressure parameter of the first watchband to the pressure parameter of the second watchband is larger than an eighth threshold and smaller than a ninth threshold.

In an optional implementation manner, the processing module is further configured to control an electric locking mechanism of the watch to adjust the wearing state of the watch if the current wearing state of the watch does not satisfy the wearing state of the watch when the first function is executed.

In an optional implementation manner, the processing module is further configured to start the first function if the current wearing state of the watch satisfies the wearing state of the watch when the first function is executed.

In a third aspect, the present application further provides an electronic device, including:

a processor; and

a memory for storing a computer program for the processor;

wherein the processor is configured to implement any one of the possible methods of the first aspect by executing the computer program.

In a fourth aspect, the present application also provides a computer program product comprising a computer program that, when executed by a processor, performs the method of any of the first aspects.

In a fifth aspect, the present invention also provides a non-transitory computer readable storage medium having stored thereon a computer program of instructions for implementing any one of the possible methods of the first aspect when executed by a processor.

According to the method and the device for detecting the wearing state of the watch, first indication information is received, and the first indication information is used for indicating a user to trigger a first function of the watch. And then, acquiring pressure parameters acquired by the watch, and determining whether the current wearing state of the watch meets the wearing state of the watch when the first function is executed according to the pressure parameters. Through the mode, the wearing state of the watch can be ensured to meet the standard when the first function is executed, so that the data collected by the watch is more accurate when the first function is executed.

Drawings

In order to more clearly illustrate the technical solutions of the present invention or the prior art, the following briefly introduces the drawings needed to be used in the description of the embodiments or the prior art, and obviously, the drawings in the following description are some embodiments of the present invention, and those skilled in the art can obtain other drawings according to the drawings without inventive labor.

Fig. 1 is a schematic structural diagram of a watch according to an embodiment of the present application;

fig. 2 is a schematic flowchart of a method for detecting a wearing state of a watch according to an embodiment of the present application;

fig. 3 is a schematic flowchart of another method for detecting a wearing state of a watch according to an embodiment of the present application;

fig. 4 is a schematic flowchart of a method for detecting a wearing state of a watch according to an embodiment of the present application;

fig. 5 is a schematic structural diagram of a device for detecting a wearing state of a watch according to an embodiment of the present application;

fig. 6 is a schematic structural diagram of an electronic device according to an embodiment of the present application.

Reference numerals:

101-a dial plate;

102-an electric locking mechanism;

103-magnetic attraction;

104-a first watchband;

105-a second watchband;

106-a first pressure sensor;

107-a second pressure sensor;

108-a third pressure sensor;

109-fourth pressure sensor.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some embodiments of the present application, but not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

After the wrist-watch on the existing market is worn and is accomplished, the elasticity degree is just fixed unchangeable, if the user feels to wear uncomfortable, for example feels to wear too tightly or wears the pine, just needs wearing of user manual regulation watchband once more, and the wrist-watch can not the automatically regulated wrist-watch wear the elasticity degree.

In the related art, the watch may be provided with a magnetic attraction function and an electric locking mechanism. When the user wears the watch, the two watchbands can automatically wrap the wrist tightly due to the magnetic attraction function and are adsorbed together. After the watchband adsorbs, the gear of electronic locking mechanism also buckles simultaneously and links to finish, and the elasticity degree of wearing of wrist-watch can be adjusted automatically through electronic locking mechanism to the wrist-watch.

When a certain function (such as heart rate detection) of the watch is executed, part of users can adjust the wearing state of the watch through the electric locking mechanism for wearing comfort, the watch is worn too loosely, a gap is formed between the watch and the wrist, the wearing state of the watch does not meet the wearing specification required by the function, and therefore detection data is inaccurate when the watch executes the function.

In order to solve the above problem, embodiments of the present application provide a method and an apparatus for detecting a wearing state of a watch, which ensure that the wearing state of the watch meets a specification when a first function is executed by obtaining a pressure parameter acquired by the watch and determining whether a current wearing state of the watch meets the wearing state of the watch when the first function is executed according to the pressure parameter, so that vital sign data of a user detected by the watch when the first function is executed is more accurate.

Next, a wristwatch according to an embodiment of the present application will be described.

Fig. 1 is a schematic structural diagram of a watch according to an embodiment of the present application. As shown in fig. 1, the watch includes a watch face 101 and two watchbands, wherein the two watchbands are provided with electric locking mechanisms 102, and magnetic attraction 103 are arranged on two sides of the two watchbands near to the locking mechanisms of the watch. When a user wears the watch, the magnetic attraction 103 on the two sides of the two watchbands can be attracted together to automatically wrap the wrist tightly. Subsequently, the gears of the electric locking mechanism 102 are completely buckled and automatically adjusted to be worn by the watch.

It should be understood that, in the embodiment of the present application, how to adjust the tightness degree of the watch wearing by the electric locking mechanism 102 is not limited, and may be specifically set according to actual situations.

For example, different degrees of tightness of fit may be provided when the user is stationary, sleeping or moving. When the user is static or sleeps, can control the watchband and wear more loosely, prevent to tightly wear the oppression of wrist skin for a long time. When the user moves, the watchband can be controlled to be worn tightly, and the watch slides when the user moves in a reverse direction.

Exemplarily, a user can be allowed to set a comfortable wearing mode of the watch, and the degree of tightness of the watch wearing can be automatically adjusted by the electric locking mechanism according to the degree of tightness corresponding to different scenes set by the user.

Illustratively, the tightness of the watch strap is adjusted at intervals according to the wearing time of the user, so that the watch strap is more comfortable for the user to wear for a long time.

In some embodiments, a sensor may be provided on the watch to acquire pressure parameters. Illustratively, as shown in FIG. 1, four pressure sensors may be provided on the watch. The first pressure sensor 106 is provided with the bottom of the dial plate 101 to acquire pressure parameters at the bottom of the dial plate 101; the second pressure sensor 107 is provided on the first band 104 to acquire the pressure of the first band 104; a third pressure sensor 108 is provided on the second band 105 to acquire the pressure of the second band 105; the fourth pressure sensor 109 is disposed on the magnet 103 in close proximity to the wrist to collect pressure parameters of the latch mechanism of the watch.

It can be understood that the method for detecting the wearing state of the watch provided in the embodiment of the present application may be implemented by the device for detecting the wearing state of the watch provided in the embodiment of the present application, and the device for detecting the wearing state of the watch may be a part or all of certain equipment, for example, the processor in the watch or the watch.

The following takes a processor integrated or installed with relevant execution codes as an example, and details the technical solution of the embodiments of the present application with specific embodiments. The following several specific embodiments may be combined with each other, and details of the same or similar concepts or processes may not be repeated in some embodiments.

Fig. 2 is a schematic flow chart of a method for detecting a wearing state of a watch according to an embodiment of the present application, and the embodiment relates to a process of how to detect the wearing state of the watch. As shown in fig. 2, the method includes:

s201, receiving first indication information, wherein the first indication information is used for indicating a user to trigger a first function of the watch.

In the application, when a user tries to open the first function by clicking or by voice indication or the like, the processor of the watch may receive the first indication information so as to detect the wearing state of the watch.

The first function may be any function requiring data acquisition. For example, the first function may be a heart rate detection function, and the watch may collect heart rate data of the user while performing the first function. Illustratively, the first function may be a blood oxygen detection function, and the watch may collect blood oxygen data of the user while performing the first function. Illustratively, the first function may be a motion detection function, and the watch may collect step count data of the user while performing the first function.

S202, acquiring pressure parameters collected by the watch.

In this step, after the processor receives the first indication information, the processor may obtain the pressure parameters collected by the watch from the pressure sensors installed at various positions of the watch.

It should be understood that the pressure parameter collected by the meter may be one or more, and the embodiment of the present application does not limit this. The embodiment of the application does not limit the position of the pressure parameter acquired by the watch, and can be specifically set according to actual conditions.

In some embodiments, the pressure parameters may include: the pressure parameters of the bottom of the watch face, the pressure parameters of the first watchband, the pressure parameters of the second watchband and the pressure parameters of the locking mechanism of the watch.

S203, determining whether the current wearing state of the watch meets the wearing state of the watch when the first function is executed according to the pressure parameter.

In this step, after the processor acquires the pressure parameter acquired by the watch, whether the current wearing state of the watch meets the wearing state of the watch when the first function is executed or not can be determined according to the pressure parameter.

The wearing state of the watch is not limited, and the watch can be specifically set according to the first function. In some embodiments, the wearing state of the watch may include a wearing position of the watch and a tightness of a band of the watch. Correspondingly, the processor needs to determine whether the current wearing position of the watch meets the requirement for executing the first function according to whether the pressure parameter meets the first pressure condition corresponding to the wearing position of the watch when the first function is executed. Meanwhile, whether the current wearing position of the watch meets the requirement for executing the first function or not needs to be determined according to whether the pressure parameter meets the first pressure condition corresponding to the wearing position of the watch when the first function is executed or not. Only the tightness degree of the watchband of wearing position and wrist-watch all satisfies the requirement, the state of wearing of wrist-watch just accords with the standard when carrying out first function.

It should be noted that, in this embodiment of the application, the first pressure condition and the second pressure condition may correspond to corresponding algorithms, and the processor may introduce the pressure parameter into the algorithms corresponding to the first pressure condition and the second pressure condition, and determine whether the current wearing state of the watch satisfies the wearing state of the watch when the first function is executed according to a result output by the algorithms.

Wherein the first pressure condition comprises: the ratio of the fluctuation range of the pressure parameters at the bottom of the dial plate to the mean value of the pressure parameters at the bottom of the dial plate is smaller than a first threshold value, the ratio of the pressure parameters at the bottom of the dial plate to the pressure parameters of the locking mechanism of the watch is larger than a second threshold value, the ratio of the pressure parameters at the bottom of the dial plate to the pressure parameters of the first watchband is larger than a third threshold value, the ratio of the pressure parameters at the bottom of the dial plate to the pressure parameters of the second watchband is larger than a third threshold value, and the ratio of the pressure parameters of the first watchband to the pressure parameters of the second watchband is larger than a fourth threshold value and smaller than a fifth threshold value.

It should be understood that, in the embodiment of the present application, no limitation is imposed on the threshold in the first pressure condition, and the threshold may be specifically set according to actual situations. Illustratively, if the ratio of the fluctuation range of the continuously collected pressure parameters of the ten dial bottoms to the mean value of the pressure parameters of the ten dial bottoms is less than 0.1, the ratio of the pressure parameters of the dial bottoms to the pressure parameters of the locking mechanisms of the watch is greater than 0.9, the ratio of the pressure parameters of the dial bottoms to the pressure parameters of the first watchband is greater than 0.8, the ratio of the pressure parameters of the dial bottoms to the pressure parameters of the second watchband is greater than 0.8, and the ratio of the pressure parameters of the first watchband to the pressure parameters of the second watchband is greater than 0.9 and less than 1.1, the current wearing position of the watch meets the requirement for executing the first function.

Wherein the second pressure condition comprises: the pressure parameter of the bottom of the dial plate is larger than a sixth threshold value, the pressure parameter of the first watchband and the pressure parameter of the second watchband are both larger than a seventh threshold value, and the ratio of the pressure parameter of the first watchband to the pressure parameter of the second watchband is larger than an eighth threshold value and smaller than a ninth threshold value.

It should be understood that, in the embodiment of the present application, no limitation is imposed on the threshold in the second pressure condition, and the threshold may be specifically set according to actual situations. Illustratively, if the pressure parameters of the bottoms of the ten dials which are continuously collected are all larger than X, the pressure parameters of the first watchband and the pressure parameters of the second watchband are all larger than Y, and the ratio of the pressure parameters of the first watchband to the pressure parameters of the second watchband is larger than 0.9 and smaller than 1.1. Wherein the thresholds X and Y may be preset according to the first function.

In some embodiments, the processor controls the electric locking mechanism of the watch to adjust the wearing state of the watch if the current wearing state of the watch does not satisfy the wearing state of the watch when the first function is executed. And if the current wearing state of the watch meets the wearing state of the watch when the first function is executed, starting the first function by the processor.

It should be understood that, in the embodiments of the present application, how to control the electric locking mechanism of the watch to adjust the wearing state of the watch is not limited, and in some embodiments, if the degree of tightness of the watch wearing is not standardized, the degree of tightness of the watch wearing may be relaxed or tightened by controlling the electric locking mechanism of the watch until the new pressure parameter acquired by the watch meets the second pressure condition. In other embodiments, if the watch wearing position is not standard, the watch wearing position can be adjusted by controlling the electric locking mechanism of the watch to firstly loosen the watchband and then re-tighten the watchband until the new pressure parameter acquired by the watch meets the first pressure condition.

According to the method for detecting the wearing state of the watch, first indication information is received, and the first indication information is used for indicating a user to trigger a first function of the watch. And then, acquiring pressure parameters acquired by the watch, and determining whether the current wearing state of the watch meets the wearing state of the watch when the first function is executed according to the pressure parameters. Through the mode, the wearing state of the watch can be ensured to meet the standard when the first function is executed, so that the data collected by the watch is more accurate when the first function is executed.

On the basis of the above-described embodiment, the following describes the execution process of the first function. Fig. 3 is a schematic flow chart of another method for detecting a wearing state of a watch according to an embodiment of the present application, and as shown in fig. 3, the method includes:

s301, receiving first indication information, wherein the first indication information is used for indicating a user to trigger a first function of the watch.

S302, acquiring pressure parameters collected by the watch.

S303, determining whether the current wearing state of the watch meets the wearing state of the watch when the first function is executed or not according to the pressure parameter.

If yes, step S304 is executed, and if no, step S305 is executed.

S304, starting the first function.

And S305, controlling an electric locking mechanism of the watch to adjust the wearing state of the watch.

The technical terms, technical effects, technical features, and alternative embodiments of S301 to S305 can be understood with reference to S201 to S203 shown in fig. 2, and repeated descriptions thereof will not be repeated here.

On the basis of the above embodiment, the following provides a completed process for performing the first function, taking the first function as heart rate detection as an example. Fig. 4 is a schematic flow chart of a method for detecting a wearing state of a watch according to an embodiment of the present application, where as shown in fig. 4, the method includes:

s401, monitoring that a user triggers a heart rate detection function.

S402, acquiring pressure parameters collected by the watch.

And S403, introducing the pressure parameters into a first algorithm and a second algorithm, and determining whether the pressure parameters meet the judgment standards of the first algorithm and the second algorithm at the same time, wherein the first algorithm is used for determining whether the watch deviates, and the second algorithm is used for determining whether the tightness degree of a watchband of the watch meets the requirement.

If yes, go to step S404, otherwise go to step S405.

Wherein, the judgment criterion of the first algorithm comprises: the ratio of the fluctuation range of the continuously collected pressure parameters of the ten dial bottoms to the mean value of the pressure parameters of the ten dial bottoms is less than 0.1, the ratio of the pressure parameters of the dial bottoms to the pressure parameters of the locking mechanism of the watch is greater than 0.9, the ratio of the pressure parameters of the dial bottoms to the pressure parameters of the first watchband is greater than 0.8, the ratio of the pressure parameters of the dial bottoms to the pressure parameters of the second watchband is greater than 0.8, and the ratio of the pressure parameters of the first watchband to the pressure parameters of the second watchband is greater than 0.9 and less than 1.1.

The judgment criteria of the second algorithm include: the continuously collected pressure parameters at the bottoms of the ten dials are all larger than X, the pressure parameters of the first watchband and the pressure parameters of the second watchband are all larger than Y, and the ratio of the pressure parameters of the first watchband to the pressure parameters of the second watchband is larger than 0.9 and smaller than 1.1. Wherein the thresholds X and Y may be preset according to the first function.

S404, determining that the wearing state of the watch meets the requirement, and starting to execute a heart rate detection function.

S405, determining that the wearing state of the watch does not meet the requirement, and adjusting the watchband.

After step S405, step S402 is executed.

According to the method for detecting the wearing state of the watch, first indication information is received, and the first indication information is used for indicating a user to trigger a first function of the watch. And then, acquiring pressure parameters acquired by the watch, and determining whether the current wearing state of the watch meets the wearing state of the watch when the first function is executed according to the pressure parameters. Through the mode, the wearing state of the watch can be ensured to meet the standard when the first function is executed, so that the data collected by the watch is more accurate when the first function is executed.

Those of ordinary skill in the art will understand that: all or part of the steps for implementing the method embodiments may be implemented by hardware related to program instructions, and the program may be stored in a computer readable storage medium, and when executed, the program performs the steps including the method embodiments; and the aforementioned storage medium includes: various media that can store program codes, such as ROM, RAM, magnetic or optical disks.

Fig. 5 is a schematic structural diagram of a device for detecting a wearing state of a watch according to an embodiment of the present application. The device for detecting the wearing state of the watch may be implemented by software, hardware, or a combination of the two, and may be, for example, a processor in the above embodiment, to execute the method for detecting the wearing state of the watch in the above embodiment. As shown in fig. 5, the control apparatus 500 of the audio device includes:

a receiving module 501, configured to receive first indication information, where the first indication information is used to indicate a user to trigger a first function of a watch;

a processing module 502, configured to obtain a pressure parameter acquired by a watch; and determining whether the current wearing state of the watch meets the wearing state of the watch when the first function is executed or not according to the pressure parameter.

In an alternative embodiment, the wearing state of the watch includes a wearing position of the watch and a degree of tightness of a band of the watch.

In an optional implementation manner, the processing module 502 is specifically configured to determine whether a current wearing position of the watch meets a requirement for executing the first function according to whether the pressure parameter meets a first pressure condition corresponding to a wearing position of the watch when the first function is executed; and determining whether the current tightness degree of the watchband of the watch meets the requirement for executing the first function according to whether the pressure parameter meets a second pressure condition corresponding to the tightness degree of the watchband when the first function is executed.

In an alternative embodiment, the pressure parameters include: the pressure parameters of the bottom of the watch face, the pressure parameters of the first watchband, the pressure parameters of the second watchband and the pressure parameters of the locking mechanism of the watch.

In an alternative embodiment, the first pressure condition comprises: the ratio of the fluctuation range of the pressure parameters at the bottom of the dial plate to the mean value of the pressure parameters at the bottom of the dial plate is smaller than a first threshold value, the ratio of the pressure parameters at the bottom of the dial plate to the pressure parameters of the locking mechanism of the watch is larger than a second threshold value, the ratio of the pressure parameters at the bottom of the dial plate to the pressure parameters of the first watchband is larger than a third threshold value, the ratio of the pressure parameters at the bottom of the dial plate to the pressure parameters of the second watchband is larger than a third threshold value, and the ratio of the pressure parameters of the first watchband to the pressure parameters of the second watchband is larger than a fourth threshold value and smaller than a fifth threshold value.

In an alternative embodiment, the second pressure condition comprises: the pressure parameter of the bottom of the dial plate is larger than a sixth threshold value, the pressure parameter of the first watchband and the pressure parameter of the second watchband are both larger than a seventh threshold value, and the ratio of the pressure parameter of the first watchband to the pressure parameter of the second watchband is larger than an eighth threshold value and smaller than a ninth threshold value.

In an optional implementation, the processing module 502 is further configured to control an electric locking mechanism of the watch to adjust the wearing state of the watch if the current wearing state of the watch does not satisfy the wearing state of the watch when the first function is executed.

In an optional implementation manner, the processing module 502 is further configured to start the first function if the current wearing state of the watch satisfies the wearing state of the watch when the first function is executed.

It should be noted that the detection apparatus for detecting the wearing state of the watch provided in the embodiment shown in fig. 5 may be used to execute the method provided in any of the above embodiments, and the specific implementation manner and the technical effect are similar, and are not described again here.

Fig. 6 is a schematic structural diagram of an electronic device according to an embodiment of the present application. As shown in fig. 6, the electronic device may include: at least one processor 601 and memory 602. Fig. 6 shows an electronic device as an example of a processor.

A memory 602 for storing programs. In particular, the program may include program code including computer operating instructions.

The memory 602 may comprise high-speed RAM memory, and may also include non-volatile memory (non-volatile memory), such as at least one disk memory.

The processor 601 is used for executing computer execution instructions stored in the memory 602 to implement the method for detecting the wearing state of the watch;

the processor 601 may be a Central Processing Unit (CPU), an Application Specific Integrated Circuit (ASIC), or one or more Integrated circuits configured to implement the embodiments of the present Application.

Alternatively, in a specific implementation, if the communication interface, the memory 602 and the processor 601 are implemented independently, the communication interface, the memory 602 and the processor 601 may be connected to each other through a bus and perform communication with each other. The bus may be an Industry Standard Architecture (ISA) bus, a Peripheral Component Interconnect (PCI) bus, an Extended ISA (EISA) bus, or the like. Buses may be classified as address buses, data buses, control buses, etc., but do not represent only one bus or type of bus.

Alternatively, in a specific implementation, if the communication interface, the memory 602 and the processor 601 are integrated into a chip, the communication interface, the memory 602 and the processor 601 may complete communication through an internal interface.

The embodiment of the application also provides a chip which comprises a processor and an interface. Wherein the interface is used for inputting and outputting data or instructions processed by the processor. The processor is configured to perform the methods provided in the above method embodiments. The chip can be applied to a device for detecting the wearing state of the watch.

The present application also provides a computer-readable storage medium, which may include: various media capable of storing program codes, such as a usb disk, a removable hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk or an optical disk, are specifically, the computer-readable storage medium stores program information, and the program information is used for the method for detecting the wearing state of the watch.

The embodiment of the present application further provides a program, which is used to execute the method for detecting the wearing state of the watch provided in the above method embodiment when the program is executed by a processor.

The embodiment of the present application further provides a program product, such as a computer-readable storage medium, where instructions are stored in the program product, and when the program product runs on a computer, the program product causes the computer to execute the method for detecting the wearing state of a watch provided in the above method embodiment.

In the above embodiments, the implementation may be wholly or partially realized by software, hardware, firmware, or any combination thereof. When implemented in software, may be implemented in whole or in part in the form of a computer program product. The computer program product includes one or more computer instructions. The procedures or functions according to the embodiments of the invention are brought about in whole or in part when the computer program instructions are loaded and executed on a computer. The computer may be a general purpose computer, a special purpose computer, a network of computers, or other programmable device. The computer instructions may be stored in a computer readable storage medium or transmitted from one computer readable storage medium to another, for example, the computer instructions may be transmitted from one website, computer, server, or data center to another website, computer, server, or data center by wire (e.g., coaxial cable, fiber optic, Digital Subscriber Line (DSL)) or wirelessly (e.g., infrared, wireless, microwave, etc.). The computer-readable storage medium can be any available medium that can be accessed by a computer or a data storage device, such as a server, a data center, etc., that incorporates one or more of the available media. The usable medium may be a magnetic medium (e.g., floppy Disk, hard Disk, magnetic tape), an optical medium (e.g., DVD), or a semiconductor medium (e.g., Solid State Disk (SSD)), among others.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims (11)

1. A method for detecting a wearing state of a watch, the method comprising:

receiving first indication information, wherein the first indication information is used for indicating a user to trigger a first function of a watch;

acquiring pressure parameters acquired by the watch;

determining whether the current wearing position of the watch meets the requirement for executing the first function or not according to whether the pressure parameter meets a first pressure condition corresponding to the wearing position of the watch when the first function is executed or not;

determining whether the current tightness degree of the watchband of the watch meets the requirement for executing the first function according to whether the pressure parameter meets a second pressure condition corresponding to the tightness degree of the watchband when the first function is executed;

wherein the pressure parameters include: the pressure parameter of the bottom of the watch dial, the pressure parameter of the first watchband, the pressure parameter of the second watchband and the pressure parameter of the locking mechanism of the watch;

the first pressure condition includes: the ratio of the fluctuation amplitude of the pressure parameter at the bottom of the dial plate to the mean value of the pressure parameter at the bottom of the dial plate is smaller than a first threshold value, the ratio of the pressure parameter at the bottom of the dial plate to the pressure parameter of the locking mechanism of the watch is larger than a second threshold value, the ratio of the pressure parameter at the bottom of the dial plate to the pressure parameter of the first watchband is larger than a third threshold value, the ratio of the pressure parameter at the bottom of the dial plate to the pressure parameter of the second watchband is larger than a third threshold value, and the ratio of the pressure parameter of the first watchband to the pressure parameter of the second watchband is larger than a fourth threshold value and smaller than a fifth threshold value;

the second pressure condition includes: the pressure parameter of the dial bottom is larger than a sixth threshold, the pressure parameter of the first watchband and the pressure parameter of the second watchband are both larger than a seventh threshold, and the ratio of the pressure parameter of the first watchband to the pressure parameter of the second watchband is larger than an eighth threshold and smaller than a ninth threshold.

2. The method according to claim 1, wherein the wearing state of the watch comprises a wearing position of the watch and a tightness of a band of the watch.

3. The method of claim 1, wherein after said determining whether the current wearing state of the watch satisfies the wearing state of the watch when performing the first function, the method further comprises:

and if the current wearing state of the watch does not meet the wearing state of the watch when the first function is executed, controlling an electric locking mechanism of the watch to adjust the wearing state of the watch.

4. The method of claim 3, wherein after said determining whether the current wearing state of the watch satisfies the wearing state of the watch when performing the first function, the method further comprises:

and if the current wearing state of the watch meets the wearing state of the watch when the first function is executed, starting the first function.

5. A device for detecting the wearing state of a wristwatch, said device comprising:

the receiving module is used for receiving first indication information, and the first indication information is used for indicating a user to trigger a first function of the watch;

the processing module is used for acquiring the pressure parameters acquired by the watch; determining whether the current wearing position of the watch meets the requirement for executing the first function or not according to whether the pressure parameter meets a first pressure condition corresponding to the wearing position of the watch when the first function is executed or not; determining whether the current tightness degree of the watchband of the watch meets the requirement for executing the first function according to whether the pressure parameter meets a second pressure condition corresponding to the tightness degree of the watchband when the first function is executed;

wherein the pressure parameters include: the pressure parameter of the bottom of the watch dial, the pressure parameter of the first watchband, the pressure parameter of the second watchband and the pressure parameter of the locking mechanism of the watch;

the first pressure condition includes: the ratio of the fluctuation amplitude of the pressure parameter at the bottom of the dial plate to the mean value of the pressure parameter at the bottom of the dial plate is smaller than a first threshold value, the ratio of the pressure parameter at the bottom of the dial plate to the pressure parameter of the locking mechanism of the watch is larger than a second threshold value, the ratio of the pressure parameter at the bottom of the dial plate to the pressure parameter of the first watchband is larger than a third threshold value, the ratio of the pressure parameter at the bottom of the dial plate to the pressure parameter of the second watchband is larger than a third threshold value, and the ratio of the pressure parameter of the first watchband to the pressure parameter of the second watchband is larger than a fourth threshold value and smaller than a fifth threshold value;

the second pressure condition includes: the pressure parameter of the dial bottom is larger than a sixth threshold, the pressure parameter of the first watchband and the pressure parameter of the second watchband are both larger than a seventh threshold, and the ratio of the pressure parameter of the first watchband to the pressure parameter of the second watchband is larger than an eighth threshold and smaller than a ninth threshold.

6. The device according to claim 5, characterized in that the wearing state of the watch comprises the wearing position of the watch and the tightness of the band of the watch.

7. The device according to claim 5, wherein the processing module is further configured to control an electric locking mechanism of the watch to adjust the wearing state of the watch if the current wearing state of the watch does not satisfy the wearing state of the watch when the first function is executed.

8. The apparatus of claim 7, wherein the processing module is further configured to start the first function if a current wearing status of the watch satisfies a wearing status of the watch when the first function is executed.

9. A computer program product comprising a computer program, characterized in that the computer program realizes the method of any of claims 1-4 when executed by a processor.

10. A computer storage medium, characterized in that it stores a plurality of instructions adapted to be loaded by a processor and to perform the method steps according to any of claims 1-4.

11. An electronic device, comprising: a processor and a memory; wherein the memory stores a computer program adapted to be loaded by the processor and to perform the method according to any of claims 1-4.

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