CN108549485B - Information processing method and wearable electronic equipment - Google Patents

Abstract

The application discloses information processing method and wearable electronic equipment, the wearable electronic equipment can be worn on at least a first body part or a second body part of a user, and the method comprises the following steps: detecting a first motion parameter of the wearable electronic device; judging whether the wearable electronic equipment is worn on the first body part or the second body part based on the first motion parameter to obtain a first judgment result; when the first judgment result shows that the wearable electronic equipment is worn on the first body part, determining that the use mode of the wearable electronic equipment is a first use mode; when the first judgment result shows that the wearable electronic device is worn on the second body part, determining that the use mode of the wearable electronic device is a second use mode different from the first use mode.

Description

Information processing method and wearable electronic equipment

Technical Field

The present disclosure relates to the field of electronic technologies, and in particular, to an information processing method and a wearable electronic device.

Background

Along with the rapid development of electronic technology, the functions of various wearable electronic devices are more and more abundant and more humanized, so that a user has better experience degree in the process of using the wearable electronic device. At present, intelligent wearable handheld wearable electronic devices gradually become a trend, for example, many handheld devices similar to wrist watches are in the world, and users can wear the devices on hands, so that the devices are convenient to use;

however, in the process of implementing the technical solution of the invention in the embodiments of the present application, the inventors of the present application find that the above-mentioned technology has at least the following technical problems:

because current handheld wearable electronic equipment can't automated inspection dress at user's left hand or right hand, after the user trades handheld equipment in another hand, needs the operating condition of manual adjustment equipment, for example, the interface of clock, so, current handheld wearable electronic equipment exists because can't automated inspection dress at user's left hand or right hand, thereby leads to can not correspond the technical problem who switches the user mode according to the switching of user's left and right hand.

Disclosure of Invention

The embodiment of the application provides an information processing method and wearable electronic equipment, and aims to solve the technical problem that the existing handheld wearable electronic equipment cannot correspondingly switch the use mode according to the switching of the left hand and the right hand of a user due to the fact that the handheld wearable electronic equipment cannot automatically detect whether the handheld wearable electronic equipment is worn on the left hand or the right hand of the user.

In one aspect, an embodiment of the present application provides an information processing method applied to a wearable electronic device, where the wearable electronic device is capable of being worn on at least a first body part or a second body part of a user, and the method includes:

detecting a first motion parameter of the wearable electronic device; judging whether the wearable electronic equipment is worn on the first body part or the second body part based on the first motion parameter to obtain a first judgment result; when the first judgment result shows that the wearable electronic equipment is worn on the first body part, determining that the use mode of the wearable electronic equipment is a first use mode; when the first judgment result shows that the wearable electronic device is worn on the second body part, determining that the use mode of the wearable electronic device is a second use mode different from the first use mode.

Optionally, the first body part and the second body part are bilaterally symmetrical body parts.

Optionally, after determining that the usage mode of the wearable electronic device is the first usage mode, the method further includes: determining a display mode of the wearable electronic equipment as a first display mode; after the determining that the usage mode of the wearable electronic device is the second usage mode, the method further comprises: and determining the display mode of the wearable electronic equipment as a second display mode different from the first display mode.

Optionally, the detecting a first motion parameter of the wearable electronic device specifically includes:

when the wearable electronic equipment is worn on a body part of the user to be determined, establishing a spatial coordinate system for the body part to be determined; detecting a first motion parameter generated when the body part to be determined moves in the space coordinate system within a preset time period, wherein the first motion parameter is a direction vector in the space coordinate system; and extracting the left movement times of the body part to be determined horizontally to the left and the right movement times of the body part to be determined horizontally to the right from the first movement parameters.

Optionally, the determining, based on the first motion parameter, whether the wearable electronic device is worn on the first body part or the second body part to obtain a first determination result includes: judging the ratio of the leftward movement times to the rightward movement times to obtain a second judgment result; judging whether the body part to be determined is the right body part or the left body part of the user based on the second judgment result to obtain a first judgment result; wherein, when the second judgment result shows that the ratio is greater than a first preset value, the first judgment result shows that the body part to be determined is the right body part; when the second judgment result shows that the ratio is smaller than a second preset value, the first judgment result shows that the body part to be determined is the left body part, the first preset value and the second preset value may be equal to each other or may not be equal to each other, and when the first preset value and the second preset value are equal to each other, the first preset value and the second preset value are 1.

Optionally, when the first determination result indicates that the wearable electronic device is worn on the first body part, it is determined that the usage mode of the wearable electronic device is a first usage mode, specifically: when the first judgment result shows that the wearable electronic device is worn on the left body part, determining the current use mode of the wearable electronic device as a first use mode corresponding to the left body part, so that the user can use the wearable electronic device in the first use mode.

Optionally, when the first determination result indicates that the wearable electronic device is worn on the second body part, it is determined that the usage mode of the wearable electronic device is a second usage mode, specifically: when the first judgment result shows that the wearable electronic device is worn on the right body part, determining the current use mode of the wearable electronic device as a second use mode corresponding to the right body part, so that the user can use the wearable electronic device in the second use mode.

On the other hand, this application embodiment still provides a wearable electronic equipment, wearable electronic equipment can be dressed and be used for a user's first body part or second body part at least, wearable electronic equipment includes:

the detection unit is used for detecting a first motion parameter of the wearable electronic equipment; the judging unit is used for judging whether the wearable electronic equipment is worn on the first body part or the second body part based on the first motion parameter to obtain a first judgment result; a first determining unit, configured to determine, when the first determination result indicates that the wearable electronic device is worn on the first body part, that a usage mode of the wearable electronic device is a first usage mode; a second determining unit, configured to determine, when the first determination result indicates that the wearable electronic device is worn on the second body part, that a usage mode of the wearable electronic device is a second usage mode different from the first usage mode.

Optionally, the first body part and the second body part are bilaterally symmetrical body parts.

Optionally, the first determining unit is further configured to: after the usage mode of the wearable electronic device is determined to be the first usage mode, determining the display mode of the wearable electronic device to be the first display mode; the second determining unit is further configured to: after the usage mode of the wearable electronic device is determined to be the second usage mode, determining the display mode of the wearable electronic device to be the second display mode different from the first display mode.

Optionally, the detection unit specifically includes:

the coordinate system establishing unit is used for establishing a spatial coordinate system for a body part to be determined of the user when the wearable electronic equipment is worn on the body part to be determined of the user; the detection subunit is configured to detect, within a preset time period, a first motion parameter generated when the body part to be determined moves in the spatial coordinate system, where the first motion parameter is specifically a direction vector in the spatial coordinate system; and the extraction unit is used for extracting the left movement times of the body part to be determined horizontally to the left and the right movement times horizontally to the right from the first movement parameters.

Optionally, the determining unit specifically includes: the first judgment subunit is configured to judge a size of a ratio of the leftward movement frequency to the rightward movement frequency, and obtain a second judgment result; a second judging subunit, configured to judge, based on the second judgment result, whether the body part to be determined is a right body part or a left body part of the user, and obtain a first judgment result; wherein, when the second judgment result shows that the ratio is greater than a first preset value, the first judgment result shows that the body part to be determined is the right body part; when the second judgment result shows that the ratio is smaller than a second preset value, the first judgment result shows that the body part to be determined is the left body part, the first preset value and the second preset value may be equal to each other or may not be equal to each other, and when the first preset value and the second preset value are equal to each other, the first preset value and the second preset value are 1.

Optionally, the first determining unit is specifically configured to: when the first judgment result shows that the wearable electronic device is worn on the left body part, determining the current use mode of the wearable electronic device as a first use mode corresponding to the left body part, so that the user can use the wearable electronic device in the first use mode.

Optionally, the second determining unit is specifically configured to: when the first judgment result shows that the wearable electronic device is worn on the right body part, determining the current use mode of the wearable electronic device as a second use mode corresponding to the right body part, so that the user can use the wearable electronic device in the second use mode.

One or more technical solutions provided in the embodiments of the present application have at least the following technical effects or advantages:

(1) according to the embodiment of the application, when the wearable electronic device is worn on the first body part or the second body part of the user for use, the technical means that whether the wearable electronic device is worn on the first body part or the second body part of the user is detected, and the use mode of the wearable electronic device is determined to be the mode corresponding to the first body part or the second body part according to the detection result is adopted, so that the technical problem that the use mode cannot be correspondingly switched according to the switching of the left hand and the right hand of the user due to the fact that the existing handheld wearable electronic device cannot automatically detect whether the wearable electronic device is worn on the left hand or the right hand of the user is solved, and the technical effect that the use mode of the wearable electronic device can be correspondingly adjusted according to the body part switched by the user is achieved.

(2) In the embodiment of the application, the technical means of detecting the motion parameters of the body part to be determined by establishing the virtual space coordinate system for the body part to be determined is adopted, so that the technical effect of judging whether the body part to be determined is the first body part or the second body part specifically according to the motion action of the body part to be determined is achieved.

Drawings

Fig. 1 is a flowchart of an information processing method according to an embodiment of the present application;

FIG. 2 is a schematic diagram of establishing a spatial coordinate system according to an embodiment of the present application;

fig. 3 is a schematic structural diagram of a wearable electronic device according to an embodiment of the present application.

Detailed Description

The embodiment of the application provides an information processing method and wearable electronic equipment, and solves the technical problem that the existing handheld wearable electronic equipment cannot correspondingly switch the use mode according to the switching of the left hand and the right hand of a user due to the fact that the left hand or the right hand of the user cannot be automatically detected.

In order to solve the above problems, the technical solution in the embodiment of the present application has the following general idea:

an information processing method is provided, which is applied to a wearable electronic device, wherein the wearable electronic device can be worn on at least a first body part or a second body part of a user, and the method comprises the following steps:

detecting a first motion parameter of the wearable electronic device; judging whether the wearable electronic equipment is worn on the first body part or the second body part based on the first motion parameter to obtain a first judgment result; when the first judgment result shows that the wearable electronic equipment is worn on the first body part, determining that the use mode of the wearable electronic equipment is a first use mode; when the first judgment result shows that the wearable electronic device is worn on the second body part, determining that the use mode of the wearable electronic device is a second use mode different from the first use mode.

It can be seen that, according to the embodiment of the application, when the wearable electronic device is worn on the first body part or the second body part of the user for use, it is detected whether the wearable electronic device is worn on the first body part or the second body part of the user, and according to the detection result, the use mode of the wearable electronic device is determined to be the mode corresponding to the first body part or the second body part, so that the technical problem that the use mode cannot be correspondingly switched according to the switching of the left hand and the right hand of the user due to the fact that the existing handheld wearable electronic device cannot automatically detect whether the wearable electronic device is worn on the left hand or the right hand of the user is solved, and the technical effect that the use mode of the wearable electronic device can be correspondingly adjusted according to the body part to which the user switches is achieved.

In order to better understand the technical solutions, the technical solutions will be described in detail below with reference to the drawings and the specific embodiments of the specification, and it should be understood that the specific features in the examples and the examples of the present application are detailed descriptions of the technical solutions of the present application, but not limitations of the technical solutions of the present application, and the technical features in the examples and the examples of the present application may be combined with each other without conflict.

The wearable electronic device to which the method provided in the embodiment of the present application is applied mainly refers to a wearable electronic device, for example, a currently common handheld wearable electronic device that can be worn on the wrist like a wristwatch, such as a wearable mobile phone designed to be light and small, MP3, etc., can be worn on the wrist of a user like a watch, or can be worn on other body parts of the user, such as symmetric body parts of the hand, leg, eye, ear, etc.

As shown in fig. 1, the method for processing information provided in the embodiment of the present application specifically includes the steps of:

s1: detecting a first motion parameter of the wearable electronic device;

further, the first body part and the second body part are bilaterally symmetrical body parts.

Further, after the determining that the usage mode of the wearable electronic device is the first usage mode, the method further includes: determining a display mode of the wearable electronic equipment as a first display mode; after the determining that the usage mode of the wearable electronic device is the second usage mode, the method further comprises: and determining the display mode of the wearable electronic equipment as a second display mode different from the first display mode.

The wearable electronic device in the embodiment of the present application mainly refers to symmetrical parts on the body of the user, but is not limited to this, and the various embodiments are described below with the body part as the hand of the user.

In a specific implementation process, a wearable electronic device capable of being worn on a hand is taken as an example, when a first body part is a left hand of a user, a second body part is a right hand of the user, and the wearable electronic device is worn on one hand between the left hand and the right hand for use, a system of the wearable electronic device detects a motion condition of the hand of the user to determine whether the hand is the left hand or the right hand.

Further, step S1 specifically includes:

when the wearable electronic equipment is worn on a body part of the user to be determined, establishing a spatial coordinate system for the body part to be determined; detecting a first motion parameter generated when the body part to be determined moves in the space coordinate system within a preset time period, wherein the first motion parameter is a direction vector in the space coordinate system; and extracting the left movement times of the body part to be determined horizontally to the left and the right movement times of the body part to be determined horizontally to the right from the first movement parameters.

In the specific implementation process, when the wearable electronic device is a handheld wearable electronic device worn on a hand of a user, the system detects and determines the specific implementation of the left hand and the right hand as follows: judging whether the wearable electronic equipment is positioned on the left hand or the right hand by detecting the action direction of the arm of the user to obtain a first motion parameter of the hand to be confirmed wearing the wearable electronic equipment, in the embodiment of the present application, a virtual space coordinate system is established for the hand to be determined to obtain a first motion parameter, which specifically refers to a motion direction vector of the hand to be determined in the space coordinate system within a preset time period, according to the motion direction vector, the system can extract a horizontal leftward component and a horizontal rightward component from the motion direction vector, finally count the motion times of the hand to be determined moving horizontally leftward within a preset time period, and the number of movements of the horizontal rightward movement, for example, within half an hour of each acquisition of the system, the movement parameters of the hand to be determined, and then acquiring the number of times of leftward movement and the number of times of rightward movement of the hand to be determined within half an hour according to the movement parameters. In practical application, the first motion parameters of the hand to be determined wearing the wearable electronic device may be obtained through a three-axis acceleration sensor or a gyroscope, and which sensor is specifically used to obtain the parameters is not limited in the embodiment of the present application.

Continuing to take the example of the hand as an example, as shown in fig. 2, in the drawing, a refers to a direction vector of the left waving of the hand to be determined, i.e. a first motion parameter of the left movement of the hand to be determined, B refers to a direction vector of the right waving of the hand to be determined, i.e. a first motion parameter of the right movement of the hand to be determined, a horizontal leftward component a can be analyzed and extracted from the vector a, and similarly, a horizontal rightward component B can be analyzed and extracted from the vector B, and then the system can count the number of times of the left movement and the number of times of the right movement of the hand to be determined according to the number of the components a and B, for example, if there are 10 horizontal leftward components a and 5 horizontal rightward components B, the system can count the number of the left movement and the number of times of the right movement of the hand to be determined is.

Therefore, in the embodiment of the application, by adopting the technical means of detecting the motion parameters of the body part to be determined by establishing the virtual space coordinate system for the body part to be determined, the technical effect of judging whether the body part to be determined is the first body part or the second body part specifically according to the motion action of the body part to be determined is achieved.

S2: judging whether the wearable electronic equipment is worn on the first body part or the second body part based on the first motion parameter to obtain a first judgment result;

further, the step S2 is specifically: judging the ratio of the leftward movement times to the rightward movement times to obtain a second judgment result;

judging whether the body part to be determined is the right body part or the left body part of the user based on the second judgment result to obtain a first judgment result;

wherein, when the second judgment result shows that the ratio is greater than a first preset value, the first judgment result shows that the body part to be determined is the right body part; when the second judgment result shows that the ratio is smaller than a second preset value, the first judgment result shows that the body part to be determined is the left body part, the first preset value and the second preset value may be equal to each other or may not be equal to each other, and when the first preset value and the second preset value are equal to each other, the first preset value and the second preset value are 1.

Continuing with the left-hand and right-hand as an example, after the left and right movement times of the hand to be determined within the preset time period are obtained through step S1, step S2 is executed to detect whether the wearable electronic device is worn on the left hand or the right hand, so as to obtain a first determination result, in a specific implementation process, after the system obtains the left movement times and the right movement times of the hand to be determined within the preset time period, a determination is made on the hand where the wearable electronic device is located based on these parameters, so as to determine whether the hand is the left hand or the right hand, and the specific determination method may be: in the component of the direction of each movement in the horizontal direction during the movement of the hand to be determined, whether the ratio of the left movement frequency to the right movement frequency is greater than a first preset value, for example, 2, indicates that the left movement frequency of the hand to be determined is greater than 2 times of the right movement frequency, and indicates that the left movement frequency of the hand to be determined is more frequent than the right movement frequency, at this time, the system may determine that the hand to be determined is the right hand of the user, otherwise, if the ratio of the left movement frequency to the right movement frequency is less than a second preset value, for example, 1/2, indicates that the left movement frequency of the hand to be determined is less than half of the right movement frequency, and indicates that the hand to be determined is more frequent to the right movement, at this time, the system may determine that. In a specific application, the first preset value and the second preset value can be set by a user according to requirements, but when the first preset value and the second preset value are equal, both the first preset value and the second preset value are 1.

In a specific application, a technician in the field can further distinguish the left hand and the right hand of the user through other detection modes, for example, a camera is arranged in the wearable electronic device, the camera is used for shooting an image about the user, and whether the wearable electronic device is located in the left hand or the right hand of the user is judged according to the position of the body feature of the user in the image.

S3: when the first judgment result shows that the wearable electronic equipment is worn on the first body part, determining that the use mode of the wearable electronic equipment is a first use mode;

further, when the first determination result indicates that the wearable electronic device is worn on the left body part, the current usage mode of the wearable electronic device is determined as a first usage mode corresponding to the left body part, so that the user can use the wearable electronic device in the first usage mode.

S4: when the first judgment result shows that the wearable electronic device is worn on the second body part, determining that the use mode of the wearable electronic device is a second use mode different from the first use mode.

Further, when the first determination result indicates that the wearable electronic device is worn on the right body part, the current usage mode of the wearable electronic device is determined as a second usage mode corresponding to the right body part, so that the user can use the wearable electronic device in the second usage mode.

In a specific implementation process, when the wearable electronic device is detected to be worn on one of a pair of mutually symmetrical body parts of a user, the usage mode of the wearable electronic device is automatically adjusted to a usage mode adapted to the body part according to the detection result, for example, when the detection result indicates that the wearable electronic device is worn on the left hand of the user, the system determines the user interface of the wearable electronic device to be a left-hand usage mode so that the user can use the wearable electronic device in the left-hand mode, and when the detection result indicates that the electronic device is worn on the right hand of the user, the system determines the user interface of the wearable electronic device to be a right-hand mode so that the user can use the wearable electronic device in the right-hand mode. Of course, different usage modes of the wearable electronic device can be preset according to actual conditions. For example, the usage mode corresponding to the left hand preset by the user is the mode in which the operation identifier and the operation interface of the user are convenient for the right hand to use, the usage mode corresponding to the right hand is the mode in which the operation identifier and the operation interface of the user are convenient for the left hand to use, and when the system determines that the electronic device is worn on the left hand or the right hand, the usage mode is automatically adjusted to the corresponding usage mode.

The following describes the detection method when the body part is the ear of the user:

in a specific implementation process, when the wearable electronic device is a wearable electronic device suitable for ears, the embodiments provided in the examples of the present application are: assuming that the first body part is the left ear of the user and the second body part is the right ear of the user, when the wearable electronic device is worn by the user on either the left ear or the right ear, or after switching from one ear to the other, the system will adjust the respective mode of operation by detecting in which ear the wearable electronic device is worn, due to the symmetry of the structure of the left and right ear, therefore, the structure of the wearable electronic equipment to be presented when the wearable electronic equipment is worn on the left ear and the right ear is also symmetrical, and the characteristic can be used for judging whether the wearable electronic equipment is worn on the left ear or the right ear, when the system detects that the first structure of the deformation structure of the wearable electronic equipment is the structure corresponding to the left ear direction, the wearable electronic equipment is worn on the left ear at the moment, when the second structure of the deformation structure of the wearable electronic device is the structure corresponding to the right ear, it indicates that the wearable electronic device is worn on the right ear at this time.

The above embodiments of the present application provide that, after the wearable electronic device is worn on the hand or ear of the user, the usage mode of the wearable electronic device is adjusted by detecting the left hand or the right hand or the left ear, which is only a preferred example provided in the embodiments of the present application, it is not limited to which body part of the user the first body part and the second body part are, and the detection modes according to different body parts may be slightly different, but a person skilled in the art can implement the method according to a conventional detection means, for example, when the wearable electronic device is worn on the left eye or the right eye of the user, an image can be obtained by the image capturing device, and the comparison between the images of the user in the image, for example, the image features of the user captured from the left eye direction or the right eye direction downwards, the position of the nose in the picture is deviated to the right or left, so that whether the wearable electronic device is worn on the left eye or the right eye can be detected.

Based on the same inventive concept, an embodiment of the present application further provides a wearable electronic device, where the wearable electronic device can be worn on a first body part or a second body part of a user, as shown in fig. 3, the wearable electronic device specifically includes:

the detection unit 10 is used for detecting a first motion parameter of the wearable electronic device;

a determining unit 20, configured to determine, based on the first motion parameter, whether the wearable electronic device is worn on the first body part or the second body part, and obtain a first determination result;

a first determining unit 30, configured to determine, when the first determination result indicates that the wearable electronic device is worn on the first body part, that a usage mode of the wearable electronic device is a first usage mode;

a second determining unit 40, configured to determine, when the first determination result indicates that the wearable electronic device is worn on the second body part, that a usage mode of the wearable electronic device is a second usage mode different from the first usage mode.

Further, the first body part and the second body part are bilaterally symmetrical body parts.

Further, the first determining unit 30 is further configured to: after the usage mode of the wearable electronic device is determined to be the first usage mode, determining the display mode of the wearable electronic device to be the first display mode;

the second determining unit 40 is further configured to: after the usage mode of the wearable electronic device is determined to be the second usage mode, determining the display mode of the wearable electronic device to be the second display mode different from the first display mode.

Further, the detecting unit 10 specifically includes:

the coordinate system establishing unit is used for establishing a spatial coordinate system for a body part to be determined of the user when the wearable electronic equipment is worn on the body part to be determined of the user;

the detection subunit is configured to detect, within a preset time period, a first motion parameter generated when the body part to be determined moves in the spatial coordinate system, where the first motion parameter is specifically a direction vector in the spatial coordinate system;

and the extraction unit is used for extracting the left movement times of the body part to be determined horizontally to the left and the right movement times horizontally to the right from the first movement parameters.

Further, the determining unit 20 specifically includes:

the first judgment subunit is configured to judge a size of a ratio of the leftward movement frequency to the rightward movement frequency, and obtain a second judgment result;

a second judging subunit, configured to judge, based on the second judgment result, whether the body part to be determined is a right body part or a left body part of the user, and obtain a first judgment result;

wherein, when the second judgment result shows that the ratio is greater than a first preset value, the first judgment result shows that the body part to be determined is the right body part; when the second judgment result shows that the ratio is smaller than a second preset value, the first judgment result shows that the body part to be determined is the left body part, the first preset value and the second preset value may be equal to each other or may not be equal to each other, and when the first preset value and the second preset value are equal to each other, the first preset value and the second preset value are 1.

Further, the first determining unit 30 is specifically configured to:

when the first judgment result shows that the wearable electronic device is worn on the left body part, determining the current use mode of the wearable electronic device as a first use mode corresponding to the left body part, so that the user can use the wearable electronic device in the first use mode.

Further, the second determining unit 40 is specifically configured to:

when the first judgment result shows that the wearable electronic device is worn on the right body part, determining the current use mode of the wearable electronic device as a second use mode corresponding to the right body part, so that the user can use the wearable electronic device in the second use mode.

One or more technical solutions provided in the embodiments of the present application have at least the following technical effects or advantages:

(1) according to the embodiment of the application, when the wearable electronic device is worn on the first body part or the second body part of the user for use, the technical means that whether the wearable electronic device is worn on the first body part or the second body part of the user is detected, and the use mode of the wearable electronic device is determined to be the mode corresponding to the first body part or the second body part according to the detection result is adopted, so that the technical problem that the use mode cannot be correspondingly switched according to the switching of the left hand and the right hand of the user due to the fact that the existing handheld wearable electronic device cannot automatically detect whether the wearable electronic device is worn on the left hand or the right hand of the user is solved, and the technical effect that the use mode of the wearable electronic device can be correspondingly adjusted according to the body part switched by the user is achieved.

(2) In the embodiment of the application, the technical means of detecting the motion parameters of the body part to be determined by establishing the virtual space coordinate system for the body part to be determined is adopted, so that the technical effect of judging whether the body part to be determined is the first body part or the second body part specifically according to the motion action of the body part to be determined is achieved.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (6)

1. An information processing method is applied to wearable electronic equipment, and the wearable electronic equipment can be worn on at least a first body part or a second body part of a user, wherein the first body part is the left hand of the user, and the second body part is the right hand of the user; the method comprises the following steps:

detecting a first motion parameter of the wearable electronic equipment, wherein the first motion parameter of a body part to be determined, which is worn with the wearable electronic equipment, is obtained by detecting the action direction of the arm of a user;

determining whether the wearable electronic device is worn on the first body part or the second body part based on the first motion parameter, and obtaining a first determination result, including;

judging the ratio of the leftward movement times to the rightward movement times to obtain a second judgment result;

judging whether the body part to be determined is the right hand or the left hand of the user based on the second judgment result to obtain a first judgment result;

when the second judgment result shows that the ratio is greater than a first preset value, the first judgment result shows that the body part to be determined is a right hand; when the second judgment result shows that the ratio is smaller than a second preset value, the first judgment result shows that the body part to be determined is a left hand, the first preset value and the second preset value may be equal to or unequal to each other, and when the first preset value and the second preset value are equal to each other, the first preset value and the second preset value are 1;

when the first judgment result shows that the wearable electronic device is worn on the first body part, determining that the usage mode of the wearable electronic device is a first usage mode, specifically:

when the first judgment result shows that the wearable electronic equipment is worn on the left hand, determining the current use mode of the wearable electronic equipment as a first use mode corresponding to the left hand, so that the user can use the wearable electronic equipment in the first use mode;

when the first determination result indicates that the wearable electronic device is worn on the second body part, determining that the usage mode of the wearable electronic device is a second usage mode different from the first usage mode, specifically:

when the first judgment result shows that the wearable electronic equipment is worn on the right hand, the current use mode of the wearable electronic equipment is determined to be a second use mode corresponding to the right hand, so that the user can use the wearable electronic equipment in the second use mode.

2. The method of claim 1,

after the determining that the usage mode of the wearable electronic device is the first usage mode, the method further comprises: determining a display mode of the wearable electronic equipment as a first display mode;

after the determining that the usage mode of the wearable electronic device is the second usage mode, the method further comprises: and determining the display mode of the wearable electronic equipment as a second display mode different from the first display mode.

3. The method of claim 1, wherein the detecting the first motion parameter of the wearable electronic device specifically comprises:

when the wearable electronic equipment is worn on a body part of the user to be determined, establishing a spatial coordinate system for the body part to be determined;

detecting a first motion parameter generated when the body part to be determined moves in the space coordinate system within a preset time period, wherein the first motion parameter is a direction vector in the space coordinate system;

and extracting the left movement times of the body part to be determined horizontally to the left and the right movement times of the body part to be determined horizontally to the right from the first movement parameters.

4. A wearable electronic device that can be worn on a first body part or a second body part of a user, wherein the first body part is the left hand of the user and the second body part is the right hand of the user; the wearable electronic device includes:

the detection unit is used for detecting a first motion parameter of the wearable electronic equipment, and comprises a step of obtaining a first motion parameter of a body part to be determined, wearing the wearable electronic equipment, by detecting the motion direction of the arms of a user and obtaining the first motion parameter of the body part to be determined, wearing the wearable electronic equipment, by detecting the motion direction of the arms of the user;

the determining unit is configured to determine, based on the first motion parameter, whether the wearable electronic device is worn on the first body part or the second body part, and obtain a first determination result, where the determining unit specifically includes:

the first judgment subunit is used for judging the ratio of the left movement times to the right movement times to obtain a second judgment result;

a second judging subunit, configured to judge, based on the second judgment result, whether the body part to be determined is a right hand or a left hand of the user, and obtain a first judgment result;

when the second judgment result shows that the ratio is greater than a first preset value, the first judgment result shows that the body part to be determined is a right hand; when the second judgment result shows that the ratio is smaller than a second preset value, the first judgment result shows that the body part to be determined is a left hand, the first preset value and the second preset value may be equal to or unequal to each other, and when the first preset value and the second preset value are equal to each other, the first preset value and the second preset value are 1;

a first determining unit, configured to determine, when the first determination result indicates that the wearable electronic device is worn on the first body part, that a usage mode of the wearable electronic device is a first usage mode, specifically:

when the first judgment result shows that the wearable electronic equipment is worn on the left hand, determining the current use mode of the wearable electronic equipment as a first use mode corresponding to the left hand, so that the user can use the wearable electronic equipment in the first use mode;

a second determining unit, configured to determine, when the first determination result indicates that the wearable electronic device is worn on the second body part, that a usage mode of the wearable electronic device is a second usage mode different from the first usage mode, specifically:

when the first judgment result shows that the wearable electronic equipment is worn on the right hand, the current use mode of the wearable electronic equipment is determined to be a second use mode corresponding to the right hand, so that the user can use the wearable electronic equipment in the second use mode.

5. The wearable electronic device of claim 4,

the first determining unit is further configured to: after the usage mode of the wearable electronic device is determined to be the first usage mode, determining the display mode of the wearable electronic device to be the first display mode;

the second determining unit is further configured to: after the usage mode of the wearable electronic device is determined to be the second usage mode, determining the display mode of the wearable electronic device to be the second display mode different from the first display mode.

6. The wearable electronic device of claim 4, wherein the detection unit specifically comprises:

the coordinate system establishing unit is used for establishing a spatial coordinate system for a body part to be determined of the user when the wearable electronic equipment is worn on the body part to be determined of the user;

the detection subunit is configured to detect, within a preset time period, a first motion parameter generated when the body part to be determined moves in the spatial coordinate system, where the first motion parameter is specifically a direction vector in the spatial coordinate system;

and the extraction unit is used for extracting the left movement times of the body part to be determined horizontally to the left and the right movement times horizontally to the right from the first movement parameters.

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