CN106200786B - Information processing method and wearable electronic equipment - Google Patents

Abstract

The invention discloses an information processing method and wearable electronic equipment, wherein the method comprises the following steps: presenting the environment information in the display area, and establishing a first communication connection with the target electronic device through the first communication unit; determining a relative positional relationship between the target electronic device and the wearable electronic device through the first communication connection; determining position prompt information aiming at the target electronic equipment according to the relative position relation between the target electronic equipment and the wearable electronic equipment; displaying the location hint information for the target electronic device in the environmental information presented within the display area.

Description

Information processing method and wearable electronic equipment

Technical Field

The present invention relates to information processing technologies, and in particular, to an information processing method and a wearable electronic device.

Background

Wearable electronic devices, particularly devices such as smart glasses and smart watches, are increasingly being used by users. When using such wearable electronic devices, attention is often paid to interaction between a user and an application of the electronic device, such as a panoramic video experience and the like. However, wearable electronic devices, such as smart glasses, in addition to the above functions, should be able to provide a richer usage scenario and increase usage frequency for such wearable electronic devices while providing interactive processing with other smart electronic devices.

Disclosure of Invention

In view of the above, embodiments of the present invention provide an information processing method and a wearable electronic device, which can at least solve the above problems in the prior art.

The technical scheme of the embodiment of the invention is realized as follows:

the embodiment of the invention provides an information processing method, which comprises the following steps:

presenting the environment information in the display area, and establishing a first communication connection with the target electronic device through the first communication unit;

determining a relative positional relationship between the target electronic device and the wearable electronic device through the first communication connection;

determining position prompt information aiming at the target electronic equipment according to the relative position relation between the target electronic equipment and the wearable electronic equipment;

displaying the location hint information for the target electronic device in the environmental information presented within the display area.

An embodiment of the present invention further provides a wearable electronic device, including:

the output unit is used for presenting environment information in a display area and displaying the position prompt information aiming at the target electronic equipment in the environment information presented in the display area;

the first communication unit is used for establishing first communication connection with the target electronic equipment;

the processing unit is used for determining the relative position relation between the target electronic equipment and the wearable electronic equipment through the first communication connection; and determining position prompt information aiming at the target electronic equipment according to the relative position relation between the target electronic equipment and the wearable electronic equipment.

According to the information processing method and the wearable electronic device provided by the embodiment of the invention, the relative position relationship is obtained according to the communication connection established between the two electronic devices, and the position prompt information of the target electronic device is presented at the display area of the wearable electronic device based on the relative position relationship. Therefore, the target electronic equipment can be quickly found through the position prompt information output by the wearable electronic equipment, so that the finding efficiency of a user is improved, and richer use scenes and increased use frequency are provided for the wearable electronic equipment.

Drawings

FIG. 1 is a schematic flow chart illustrating an implementation of an information processing method according to an embodiment of the present invention;

fig. 2 is a first usage scenario of the wearable electronic device according to the embodiment of the present invention;

FIG. 3 is a second view of a usage scenario of the wearable electronic device according to the embodiment of the present invention;

fig. 4 is a third view of a usage scenario of the wearable electronic device according to the embodiment of the present invention;

FIG. 5 is a first view illustrating a scenario of outputting a prompt message according to an embodiment of the present invention;

FIG. 6 is a diagram illustrating a second scenario in which a prompt message is output according to an embodiment of the present invention;

FIG. 7 is a third schematic view of a scenario in which a prompt message is output according to an embodiment of the present invention;

FIG. 8 is a diagram illustrating a fourth scenario in which a prompt message is output according to an embodiment of the present invention;

fig. 9 is a schematic structural diagram of a wearable electronic device according to an embodiment of the invention.

Detailed Description

The invention is described in further detail below with reference to the figures and specific examples.

The first embodiment,

An embodiment of the present invention provides an information processing method, which is applied to a wearable electronic device, and as shown in fig. 1, the information processing method includes:

step 101: presenting the environment information in the display area, and establishing a first communication connection with the target electronic device through the first communication unit;

step 102: determining a relative positional relationship between the target electronic device and the wearable electronic device through the first communication connection;

step 103: determining position prompt information aiming at the target electronic equipment according to the relative position relation between the target electronic equipment and the wearable electronic equipment;

step 104: displaying the location hint information for the target electronic device in the environmental information presented within the display area.

Here, the wearable electronic device may be smart glasses.

The establishing of the first communication connection with the target electronic device through the first communication unit may be: and establishing communication connection with the target electronic equipment through the Bluetooth unit.

The target electronic equipment can be any electronic equipment provided with a Bluetooth unit; the electronic device equipped with the bluetooth unit may be an electronic device capable of providing power for the bluetooth unit, for example, a watch equipped with the bluetooth unit, a remote controller equipped with bluetooth, or any electronic device such as a wireless mouse equipped with bluetooth.

The determining, through the first communication connection, a relative positional relationship between the target electronic device and the wearable electronic device includes:

determining, through the first communication connection, a relative orientation and a relative distance between the target electronic device and the wearable electronic device; and taking the relative position and the relative distance as the relative position relation between the target electronic equipment and the wearable electronic equipment.

Referring to fig. 2, the smart glasses worn by the user may be in the form shown in the figure, and it should be understood that the smart glasses may also be in other forms, which are not exhaustive in this embodiment.

The environment information may be image information which can be presented in the lenses through the smart glasses and enables the user to see through the lenses, and the mode of acquiring the environment information may be pictures of the surrounding environment where the user is located, which are acquired through an image acquisition unit of the smart glasses. For example, as shown in fig. 3, assuming that the user is in the living room at home, the user sees a picture 31 of the surrounding environment through smart glasses.

Wherein, the determining the relative position and the relative distance between the target electronic device and the wearable electronic device through the first communication connection may be: the relative direction and the relative distance between the target electronic equipment and the intelligent glasses are determined through Bluetooth connection. The specific obtaining manner may be that the relative distance and the relative direction are determined by the signal strength obtained through the bluetooth communication connection. For example, referring to fig. 4, if the target electronic device is a smart watch, the smart glasses 41 first establish a communication connection with the smart watch 42 through a bluetooth connection, and then measure the strength of a bluetooth signal transmitted by the communication connection to determine a relative distance and a relative direction.

Displaying the location hint information for the target electronic device in the environmental information presented within the display area, including:

determining a presentation position of the target electronic device in the environment information;

and displaying the position prompt information aiming at the target electronic equipment based on the presentation position.

The determination method for determining the presentation position of the target electronic device in the environment information may be that, first, the angle information of the environment information is acquired according to the display area of the electronic device, an angle range included in the environment information that can be included in the display area is determined, and then, the presentation position in the environment information is determined according to the relative position relationship. For example, the environmental information can include an angle within 60 degrees to the left and right of a vertical line of the smart glasses; the relative position in the relative position relation is 25 degrees to the left of the vertical line of the intelligent glasses, and the relative position is 5 meters.

The horizontal position and the vertical position at which the position prompt information is presented may be determined by multiplying a ratio of the relative azimuth angle to a maximum angle that can be presented by the environment information by half of the length information, for example, 25/60 (28/2) is 5.8, and further, the horizontal coordinate may be obtained by subtracting the horizontal length from half of the length information, for example, 28/2-5.8 is 8.2. In addition, the vertical coordinate may be determined by calculating the vertical angle divided by the maximum vertical angle range multiplied by the vertical height, assuming that the detected relative orientation is 3 degrees, and the range of the vertical angle that can be acquired by the smart glasses is within 30 degrees above and below the horizontal line, for example, 3/30 × 18 is 1.8, and the vertical coordinate may be 1.8 cm.

A manner of displaying the location hint information for the target electronic device in the environment information presented in the display area is described in detail with respect to a first type of location hint information in this embodiment.

The display area may have at least two layers, where environment information of an environment where the user is located is displayed on a first layer, and the user shows prompt information corresponding to the relative position relationship on another layer, for example, referring to fig. 5, in the intelligent verification of the user, the environment information in layer a is displayed, and the position prompt information 51 corresponding to the relative position relationship is displayed in layer B, and the position prompt information 51 may be determined according to the horizontal coordinate (x) and the vertical coordinate (y) obtained by the previous calculation.

Further, the at least two layers are overlapped in the display area to obtain a final display result. For example, referring to fig. 6, the position hint information is displayed by overlaying layer B onto layer a.

Therefore, by adopting the scheme, the relative position relation can be obtained according to the communication connection established between the two electronic devices, and the position prompt information of the target electronic device is presented at the display area of the wearable electronic device based on the relative position relation. Therefore, the target electronic equipment can be quickly searched through the position prompt information output by the wearable electronic equipment, and therefore the searching efficiency of a user is improved.

Example II,

An embodiment of the present invention provides an information processing method, which is applied to a wearable electronic device, and as shown in fig. 1, the information processing method includes:

step 101: presenting the environment information in the display area, and establishing a first communication connection with the target electronic device through the first communication unit;

step 102: determining a relative positional relationship between the target electronic device and the wearable electronic device through the first communication connection;

step 103: determining position prompt information aiming at the target electronic equipment according to the relative position relation between the target electronic equipment and the wearable electronic equipment;

step 104: displaying the location hint information for the target electronic device in the environmental information presented within the display area.

Here, the wearable electronic device may be smart glasses.

The establishing of the first communication connection with the target electronic device through the first communication unit may be: and establishing communication connection with the target electronic equipment through the Bluetooth unit.

The target electronic equipment can be any electronic equipment provided with a Bluetooth unit; the electronic device equipped with the bluetooth unit may be an electronic device capable of providing power for the bluetooth unit, for example, a watch equipped with the bluetooth unit, a remote controller equipped with bluetooth, or any electronic device such as a wireless mouse equipped with bluetooth.

The determining, through the first communication connection, a relative positional relationship between the target electronic device and the wearable electronic device includes:

determining, through the first communication connection, a relative orientation and a relative distance between the target electronic device and the wearable electronic device; and taking the relative position and the relative distance as the relative position relation between the target electronic equipment and the wearable electronic equipment.

Referring to fig. 2, the smart glasses worn by the user may be in the form shown in the figure, and it should be understood that the smart glasses may also be in other forms, which are not exhaustive in this embodiment.

The environment information may be image information which can be presented in the lenses through the smart glasses and enables the user to see through the lenses, and the mode of acquiring the environment information may be pictures of the surrounding environment where the user is located, which are acquired through an image acquisition unit of the smart glasses. For example, as shown in fig. 3, assuming that the user is in the living room at home, the user sees a picture 31 of the surrounding environment through smart glasses.

Wherein, the determining the relative position and the relative distance between the target electronic device and the wearable electronic device through the first communication connection may be: the relative direction and the relative distance between the target electronic equipment and the intelligent glasses are determined through Bluetooth connection. The specific obtaining manner may be that the relative distance and the relative direction are determined by the signal strength obtained through the bluetooth communication connection. For example, referring to fig. 4, if the target electronic device is a smart watch, the smart glasses 41 first establish a communication connection with the smart watch 42 through a bluetooth connection, and then measure the strength of a bluetooth signal transmitted by the communication connection to determine a relative distance and a relative direction.

Displaying the location hint information for the target electronic device in the environmental information presented within the display area, including:

determining a presentation position of the target electronic device in the environment information;

and displaying the position prompt information aiming at the target electronic equipment based on the presentation position.

The determination method for determining the presentation position of the target electronic device in the environment information may be that, first, the angle information of the environment information is acquired according to the display area of the electronic device, an angle range included in the environment information that can be included in the display area is determined, and then, the presentation position in the environment information is determined according to the relative position relationship. For example, the environmental information can include an angle within 60 degrees to the left and right of a vertical line of the smart glasses; the relative position in the relative position relation is 25 degrees to the left of the vertical line of the intelligent glasses, and the relative position is 5 meters.

The horizontal position and the vertical position at which the position prompt information is presented may be determined by multiplying a ratio of the relative azimuth angle to a maximum angle that can be presented by the environment information by half of the length information, for example, 25/60 (28/2) is 5.8, and further, the horizontal coordinate may be obtained by subtracting the horizontal length from half of the length information, for example, 28/2-5.8 is 8.2. In addition, the vertical coordinate may be determined by calculating the vertical angle divided by the maximum vertical angle range multiplied by the vertical height, assuming that the detected relative orientation is 3 degrees, and the range of the vertical angle that can be acquired by the smart glasses is within 30 degrees above and below the horizontal line, for example, 3/30 × 18 is 1.8, and the vertical coordinate may be 1.8 cm.

A manner of displaying the location hint information for the target electronic device in the environment information presented in the display area is described in detail with respect to a first type of location hint information in this embodiment.

The display area may have at least two layers, where environment information of an environment where the user is located is displayed on a first layer, and the user shows prompt information corresponding to the relative position relationship on another layer, for example, referring to fig. 5, in the intelligent verification of the user, the environment information in layer a is displayed, and the position prompt information 51 corresponding to the relative position relationship is displayed in layer B, and the position prompt information 51 may be determined according to the horizontal coordinate (x) and the vertical coordinate (y) obtained by the previous calculation.

Further, the at least two layers are overlapped in the display area to obtain a final display result. For example, referring to fig. 6, the position hint information is displayed by overlaying layer B onto layer a.

On the basis of the above scenario, in the actual processing, it may occur that the detected relative position relationship of the target electronic device is within the range of the environment information that can be presented, or may be outside the range of the environment information that can be presented. Different processing modes can be provided for the two cases, and the following specific processing modes are provided:

the determining, according to the relative position relationship between the target electronic device and the wearable electronic device, position prompt information for the target electronic device includes:

determining whether the relative position of the target electronic equipment is in the environmental information presented by the wearable electronic equipment or not according to the relative position relationship between the target electronic equipment and the wearable electronic equipment;

when the display position is in the environment information, controlling to generate first type position prompt information aiming at the target electronic equipment; when the display position is not in the environment information, controlling to generate position prompt information of a second type;

wherein the first type of location hint information is used to display the relative location of the target electronic device within the environmental information; the second type of location hint information is used to display indication information for indicating the relative location of the target electronic device within the display area according to the relative location relationship.

Whether the target electronic device is located within the environmental information may be determined by determining whether the target electronic device is located within horizontal and vertical angle ranges of the environmental information according to the relative angle in the relative positional relationship, where the horizontal and vertical angle ranges of the environmental information may be as previously shown in this embodiment, the horizontal angle is within 60 degrees from the left to the right, and the vertical angle is within 30 degrees from the top to the bottom. Assuming that the relative angle in the detected relative positional relationship is 70 degrees from the center line in the horizontal angle, it can be determined that the relative positional relationship is outside the environmental information, and assuming that the detected horizontal angle is 10 degrees from the center line and the vertical angle is 5 degrees from the horizontal line, it can be determined that the relative positional relationship is within the environmental information.

The presenting manner of the first type of location hint information may be as shown in the foregoing embodiments provided in this embodiment, and details are not repeated here. The following description focuses on the manner in which the second type of location hint information is produced and presented:

when the display position is not in the environment information, controlling to generate a second type of position prompt information, including:

when the display position is not in the environment information, determining a sub-area matched with the relative position relation in the display area based on the relative position relation between the target electronic equipment and the wearable electronic equipment, and outputting the second type of position prompt information in the sub-area.

Wherein, the sub-area in the determined display area, which matches with the relative position relationship, may be: and determining the direction out of the environmental information according to the relative position relationship, determining the sub-region closest to the position represented by the relative position relationship according to the direction, and then outputting position prompt information in the sub-region.

Specifically, the second type of location hint information may be directional information capable of indicating the relative location of the target electronic device, for example, it may be assumed that the relative location 71 of the target electronic device falls outside the environmental information with reference to fig. 7, and then the relative area may be an area 72 closest to the relative location 71. On the basis of which the directivity information can be determined as an arrow 73 for pointing to the relative position.

Therefore, by adopting the scheme, the relative position relation can be obtained according to the communication connection established between the two electronic devices, and the position prompt information of the target electronic device is presented at the display area of the wearable electronic device based on the relative position relation. Therefore, the target electronic equipment can be quickly searched through the position prompt information output by the wearable electronic equipment, and therefore the searching efficiency of a user is improved.

Example III,

In the scenario provided in the first embodiment or the second embodiment, after the position prompt information is presented, the present embodiment may also prompt a distance change according to a distance change situation between the target electronic devices, which is specifically as follows:

after the showing of the location hint information for the target electronic device in the environmental information presented within the display area, the method further comprises:

determining a distance change value between a target electronic device and the wearable electronic device based on distance information between the target electronic device and the wearable electronic device;

and determining to generate and output distance prompt information according to the distance change value.

The obtaining mode for determining the distance change value between the target electronic device and the wearable electronic device may be that distance information is periodically detected, and the distance change value is calculated according to the distance information detected in two adjacent periods.

The outputting of the distance prompt information includes:

displaying prompt information in a preset format in the distance prompt information at a specified position in the display area, wherein the position prompt information is displayed;

and/or the presence of a gas in the gas,

and outputting the audio information in the distance prompt information through an audio output unit of the wearable electronic equipment.

Different ways of outputting the distance prompt information can be provided according to the increase or decrease of the distance change value, such as:

when the distance change value decreases, the prompt message in the predetermined format may be a prompt with the same shape as the position prompt message, which is added to the position prompt message and is larger than the display range of the position prompt message, for example, referring to fig. 8, a prompt displayed by adding the distance prompt message to the position prompt message is shown as 81 in the figure. Further, the position prompt information can be controlled to flash, and the frequency of flashing can be increased along with the decrease of the distance, namely, the frequency of flashing can correspond to the decrease of the distance.

When the distance change value is increased, the prompt message in the predetermined format may be to reduce the display range of the position prompt message, and the reduction amplitude may be controlled as the distance change increases, and the specific reduction amplitude may be proportional to the distance increase.

When the distance change value increases or decreases, the audio information in the distance prompt information may be a buzzer, and the frequency of the buzzer may correspond to the magnitude of the distance decrease.

Therefore, by adopting the scheme, the relative position relation can be obtained according to the communication connection established between the two electronic devices, and the position prompt information of the target electronic device is presented at the display area of the wearable electronic device based on the relative position relation. Therefore, the target electronic equipment can be quickly searched through the position prompt information output by the wearable electronic equipment, and therefore the searching efficiency of a user is improved.

Example four,

An embodiment of the present invention provides a wearable electronic device, as shown in fig. 9, including:

an output unit 91, configured to present environment information in a display area, and display the location hint information for the target electronic device in the environment information presented in the display area;

a first communication unit 92 for establishing a first communication connection with a target electronic device;

a processing unit 93, configured to determine, through the first communication connection, a relative position relationship between the target electronic device and the wearable electronic device; and determining position prompt information aiming at the target electronic equipment according to the relative position relation between the target electronic equipment and the wearable electronic equipment.

Here, the wearable electronic device may be smart glasses.

The establishing of the first communication connection with the target electronic device through the first communication unit may be: and establishing communication connection with the target electronic equipment through the Bluetooth unit.

The target electronic equipment can be any electronic equipment provided with a Bluetooth unit; the electronic device equipped with the bluetooth unit may be an electronic device capable of providing power for the bluetooth unit, for example, a watch equipped with the bluetooth unit, a remote controller equipped with bluetooth, or any electronic device such as a wireless mouse equipped with bluetooth.

The processing unit is used for determining a relative position and a relative distance between the target electronic equipment and the wearable electronic equipment through the first communication connection; and taking the relative position and the relative distance as the relative position relation between the target electronic equipment and the wearable electronic equipment.

Referring to fig. 2, the smart glasses worn by the user may be in the form shown in the figure, and it should be understood that the smart glasses may also be in other forms, which are not exhaustive in this embodiment.

The environment information may be image information which can be presented in the lenses through the smart glasses and enables the user to see through the lenses, and the mode of acquiring the environment information may be pictures of the surrounding environment where the user is located, which are acquired through an image acquisition unit of the smart glasses. For example, as shown in fig. 3, assuming that the user is in the living room at home, the user sees a picture 31 of the surrounding environment through smart glasses.

Wherein, the determining the relative position and the relative distance between the target electronic device and the wearable electronic device through the first communication connection may be: the relative direction and the relative distance between the target electronic equipment and the intelligent glasses are determined through Bluetooth connection. The specific obtaining manner may be that the relative distance and the relative direction are determined by the signal strength obtained through the bluetooth communication connection. For example, referring to fig. 4, if the target electronic device is a smart watch, the smart glasses 41 first establish a communication connection with the smart watch 42 through a bluetooth connection, and then measure the strength of a bluetooth signal transmitted by the communication connection to determine a relative distance and a relative direction.

The processing unit is used for determining the presenting position of the target electronic equipment in the environment information;

correspondingly, the output unit is configured to display the location hint information for the target electronic device based on the presentation location.

The determination method for determining the presentation position of the target electronic device in the environment information may be that, first, the angle information of the environment information is acquired according to the display area of the electronic device, an angle range included in the environment information that can be included in the display area is determined, and then, the presentation position in the environment information is determined according to the relative position relationship. For example, the environmental information can include an angle within 60 degrees to the left and right of a vertical line of the smart glasses; the relative position in the relative position relation is 25 degrees to the left of the vertical line of the intelligent glasses, and the relative position is 5 meters.

The horizontal position and the vertical position at which the position prompt information is presented may be determined by multiplying a ratio of the relative azimuth angle to a maximum angle that can be presented by the environment information by half of the length information, for example, 25/60 (28/2) is 5.8, and further, the horizontal coordinate may be obtained by subtracting the horizontal length from half of the length information, for example, 28/2-5.8 is 8.2. In addition, the vertical coordinate may be determined by calculating the vertical angle divided by the maximum vertical angle range multiplied by the vertical height, assuming that the detected relative orientation is 3 degrees, and the range of the vertical angle that can be acquired by the smart glasses is within 30 degrees above and below the horizontal line, for example, 3/30 × 18 is 1.8, and the vertical coordinate may be 1.8 cm.

A manner of displaying the location hint information for the target electronic device in the environment information presented in the display area is described in detail with respect to a first type of location hint information in this embodiment.

The display area may have at least two layers, where environment information of an environment where the user is located is displayed on a first layer, and the user shows prompt information corresponding to the relative position relationship on another layer, for example, referring to fig. 5, in the intelligent verification of the user, the environment information in layer a is displayed, and the position prompt information 51 corresponding to the relative position relationship is displayed in layer B, and the position prompt information 51 may be determined according to the horizontal coordinate (x) and the vertical coordinate (y) obtained by the previous calculation.

Further, the at least two layers are overlapped in the display area to obtain a final display result. For example, referring to fig. 6, the position hint information is displayed by overlaying layer B onto layer a.

On the basis of the above scenario, in the actual processing, it may occur that the detected relative position relationship of the target electronic device is within the range of the environment information that can be presented, or may be outside the range of the environment information that can be presented. Different processing modes can be provided for the two cases, and the following specific processing modes are provided:

the processing unit is used for determining whether the relative position of the target electronic equipment is in the environmental information presented by the wearable electronic equipment or not according to the relative position relationship between the target electronic equipment and the wearable electronic equipment;

when the display position is in the environment information, controlling to generate first type position prompt information aiming at the target electronic equipment; when the display position is not in the environment information, controlling to generate position prompt information of a second type;

wherein the first type of location hint information is used to display the relative location of the target electronic device within the environmental information; the second type of location hint information is used to display indication information for indicating the relative location of the target electronic device within the display area according to the relative location relationship.

Whether the target electronic device is located within the environmental information may be determined by determining whether the target electronic device is located within horizontal and vertical angle ranges of the environmental information according to the relative angle in the relative positional relationship, where the horizontal and vertical angle ranges of the environmental information may be as previously shown in this embodiment, the horizontal angle is within 60 degrees from the left to the right, and the vertical angle is within 30 degrees from the top to the bottom. Assuming that the relative angle in the detected relative positional relationship is 70 degrees from the center line in the horizontal angle, it can be determined that the relative positional relationship is outside the environmental information, and assuming that the detected horizontal angle is 10 degrees from the center line and the vertical angle is 5 degrees from the horizontal line, it can be determined that the relative positional relationship is within the environmental information.

The presenting manner of the first type of location hint information may be as shown in the foregoing embodiments provided in this embodiment, and details are not repeated here. The following description focuses on the manner in which the second type of location hint information is produced and presented:

the processing unit is configured to determine a sub-area in the display area that matches the relative positional relationship based on the relative positional relationship between the target electronic device and the wearable electronic device when the display position is not within the environment information, and output the second type of position prompt information in the sub-area.

Wherein, the sub-area in the determined display area, which matches with the relative position relationship, may be: and determining the direction out of the environmental information according to the relative position relationship, determining the sub-region closest to the position represented by the relative position relationship according to the direction, and then outputting position prompt information in the sub-region.

Specifically, the second type of location hint information may be directional information capable of indicating the relative location of the target electronic device, for example, it may be assumed that the relative location 71 of the target electronic device falls outside the environmental information with reference to fig. 7, and then the relative area may be an area 72 closest to the relative location 71. On the basis of which the directivity information can be determined as an arrow 73 for pointing to the relative position.

Therefore, by adopting the scheme, the relative position relation can be obtained according to the communication connection established between the two electronic devices, and the position prompt information of the target electronic device is presented at the display area of the wearable electronic device based on the relative position relation. Therefore, the target electronic equipment can be quickly searched through the position prompt information output by the wearable electronic equipment, and therefore the searching efficiency of a user is improved.

Example V,

In this embodiment, after the position prompt information is displayed, the distance change can be prompted according to the distance change condition between the target electronic devices, which is specifically as follows:

the processing unit is used for determining a distance change value between the target electronic equipment and the wearable electronic equipment based on distance information between the target electronic equipment and the wearable electronic equipment;

and determining to generate and output distance prompt information according to the distance change value.

The obtaining mode for determining the distance change value between the target electronic device and the wearable electronic device may be that distance information is periodically detected, and the distance change value is calculated according to the distance information detected in two adjacent periods.

The outputting of the distance prompt information includes:

the processing unit is used for controlling the output unit to display prompt information in a preset format in the distance prompt information at a specified position where the position prompt information is displayed in the display area;

and/or the presence of a gas in the gas,

and the processing unit is used for controlling the output unit to output the audio information in the distance prompt information.

Different ways of outputting the distance prompt information can be provided according to the increase or decrease of the distance change value, such as:

when the distance change value decreases, the prompt message in the predetermined format may be a prompt with the same shape as the position prompt message, which is added to the position prompt message and is larger than the display range of the position prompt message, for example, referring to fig. 8, a prompt displayed by adding the distance prompt message to the position prompt message is shown as 81 in the figure. Further, the position prompt information can be controlled to flash, and the frequency of flashing can be increased along with the decrease of the distance, namely, the frequency of flashing can correspond to the decrease of the distance.

When the distance change value is increased, the prompt message in the predetermined format may be to reduce the display range of the position prompt message, and the reduction amplitude may be controlled as the distance change increases, and the specific reduction amplitude may be proportional to the distance increase.

When the distance change value increases or decreases, the audio information in the distance prompt information may be a buzzer, and the frequency of the buzzer may correspond to the magnitude of the distance decrease.

Therefore, by adopting the scheme, the relative position relation can be obtained according to the communication connection established between the two electronic devices, and the position prompt information of the target electronic device is presented at the display area of the wearable electronic device based on the relative position relation. Therefore, the target electronic equipment can be quickly searched through the position prompt information output by the wearable electronic equipment, and therefore the searching efficiency of a user is improved.

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: a mobile storage device, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk or an optical disk, and other various media capable of storing program codes.

Alternatively, the integrated unit of the present invention may be stored in a computer-readable storage medium if it is implemented in the form of a software functional module and sold or used as a separate product. Based on such understanding, the technical solutions of the embodiments of the present invention may be essentially implemented or a part contributing to the prior art may be embodied in the form of a software product, which is stored in a storage medium and includes several instructions for causing a computer device (which may be a personal computer, a server, or a network device) to execute all or part of the methods described in the embodiments of the present invention. And the aforementioned storage medium includes: a removable storage device, a ROM, a RAM, a magnetic or optical disk, or various other media that can store program code.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and all the changes or substitutions should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the appended claims.

Claims (14)

1. An information processing method is applied to wearable electronic equipment and comprises the following steps:

presenting the environmental information in the display area, and establishing a first Bluetooth communication connection with the target electronic equipment through a first communication unit; the environment information is a picture of the surrounding environment where the user is located;

determining a relative position relationship between the target electronic device and the wearable electronic device through the first Bluetooth communication connection;

determining position prompt information aiming at the target electronic equipment according to the relative position relation between the target electronic equipment and the wearable electronic equipment;

displaying the position prompt information aiming at the target electronic equipment in the environment information presented in the display area; the display area at least comprises a first layer and a second layer, the environment information is displayed on the first layer, and the position prompt information is displayed on the second layer.

2. The method of claim 1, wherein the determining, via the first bluetooth communication connection, a relative positional relationship between the target electronic device and the wearable electronic device comprises:

determining a relative orientation and a relative distance between the target electronic device and the wearable electronic device through the first Bluetooth communication connection; and taking the relative position and the relative distance as the relative position relation between the target electronic equipment and the wearable electronic equipment.

3. The method of claim 1, wherein determining the location hint information for the target electronic device according to the relative location relationship between the target electronic device and the wearable electronic device comprises:

determining whether the relative position of the target electronic equipment is in the environmental information presented by the wearable electronic equipment or not according to the relative position relationship between the target electronic equipment and the wearable electronic equipment;

when the relative position is in the environment information, controlling to generate first type position prompt information aiming at the target electronic equipment; when the relative position is not in the environment information, controlling to generate position prompt information of a second type;

wherein the first type of location hint information is used to display the relative location of the target electronic device within the environmental information; the second type of location hint information is used to display indication information for indicating the relative location of the target electronic device within the display area according to the relative location relationship.

4. The method of claim 3, wherein controlling generation of a second type of location hint information when the relative location is not within the environmental information comprises:

when the relative position is not in the environment information, determining a sub-area matched with the relative position relation in the display area based on the relative position relation between the target electronic equipment and the wearable electronic equipment, and outputting the second type of position prompt information in the sub-area.

5. The method of claim 1, wherein presenting the location hint information for the target electronic device in the environmental information presented in the display area comprises:

determining a presentation position of the target electronic device in the environment information;

and displaying the position prompt information aiming at the target electronic equipment based on the presentation position.

6. The method of claim 1, wherein after the presentation of the location hint information for the target electronic device in the environmental information presented in the display area, the method further comprises:

determining a distance change value between a target electronic device and the wearable electronic device based on distance information between the target electronic device and the wearable electronic device;

and determining to generate and output distance prompt information according to the distance change value.

7. The method of claim 6, wherein outputting distance hint information comprises:

displaying prompt information in a preset format in the distance prompt information at a specified position in the display area, wherein the position prompt information is displayed;

and/or the presence of a gas in the gas,

and controlling to output the audio information in the distance prompt information.

8. A wearable electronic device, comprising:

the output unit is used for presenting environment information in a display area and displaying position prompt information aiming at the target electronic equipment in the environment information presented in the display area; the environment information is a picture of the surrounding environment where the user is located;

the first communication unit is used for establishing first Bluetooth communication connection with the target electronic equipment;

the processing unit is used for determining the relative position relation between the target electronic equipment and the wearable electronic equipment through the first Bluetooth communication connection; determining position prompt information aiming at the target electronic equipment according to the relative position relation between the target electronic equipment and the wearable electronic equipment; the display area at least comprises a first layer and a second layer, the environment information is displayed on the first layer, and the position prompt information is displayed on the second layer.

9. The wearable electronic device of claim 8, wherein the processing unit is configured to determine a relative orientation and a relative distance between the target electronic device and the wearable electronic device via the first bluetooth communication connection; and taking the relative position and the relative distance as the relative position relation between the target electronic equipment and the wearable electronic equipment.

10. The wearable electronic device of claim 8, wherein the processing unit is configured to determine whether the relative position of the target electronic device is within environmental information presented by the wearable electronic device according to a relative position relationship between the target electronic device and the wearable electronic device; when the relative position is in the environment information, controlling to generate first type position prompt information aiming at the target electronic equipment; when the relative position is not in the environment information, controlling to generate position prompt information of a second type;

wherein the first type of location hint information is used to display the relative location of the target electronic device within the environmental information; the second type of location hint information is used to display indication information for indicating the relative location of the target electronic device within the display area according to the relative location relationship.

11. The wearable electronic device according to claim 10, wherein the processing unit is configured to determine a sub-area of the display area that matches the relative positional relationship based on the relative positional relationship between the target electronic device and the wearable electronic device when the relative position is not within the environment information, and output the second type of position indication information in the sub-area.

12. The wearable electronic device of claim 8,

the processing unit is used for determining the presenting position of the target electronic equipment in the environment information;

correspondingly, the output unit is configured to display the location hint information for the target electronic device based on the presentation location.

13. The wearable electronic device of claim 8, wherein the processing unit is configured to determine a distance variation value between a target electronic device and the wearable electronic device based on distance information between the target electronic device and the wearable electronic device; and determining to generate and output distance prompt information according to the distance change value.

14. The wearable electronic device of claim 13,

the processing unit is used for controlling the output unit to display prompt information in a preset format in the distance prompt information at a specified position where the position prompt information is displayed in the display area;

and/or the presence of a gas in the gas,

and the processing unit is used for controlling the output unit to output the audio information in the distance prompt information.

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