CN108366206B

CN108366206B - Shooting method and system based on rotary camera and intelligent glasses

Info

Publication number: CN108366206B
Application number: CN201810214696.6A
Authority: CN
Inventors: 张强
Original assignee: Guangdong Oppo Mobile Telecommunications Corp Ltd
Current assignee: Guangdong Oppo Mobile Telecommunications Corp Ltd
Priority date: 2015-06-11
Filing date: 2015-06-11
Publication date: 2020-08-18
Anticipated expiration: 2035-06-11
Also published as: CN108366206A; CN105187707A; CN105187707B

Abstract

The embodiment of the invention relates to the technical field of communication, and discloses a shooting method and a shooting system based on a rotary camera and intelligent glasses. The method comprises the following steps: the user terminal acquires the visual direction of the intelligent glasses; the user terminal judges whether an intersection exists between the visual direction of the intelligent glasses and the visual direction of a rotary camera of the user terminal, and if the intersection exists, the rotary camera is controlled to rotate to a target visual direction which does not exist the intersection with the visual direction of the intelligent glasses; the user terminal controls the rotary camera to shoot a target image in the target visual direction; the user terminal sends the target image to the intelligent glasses; and after receiving the target image, the intelligent glasses display the target image in the appointed display area of the intelligent glasses. By implementing the embodiment of the invention, the efficiency of observing scenes with different visual directions can be improved.

Description

Shooting method and system based on rotary camera and intelligent glasses

Technical Field

The invention relates to the technical field of communication, in particular to a shooting method and a shooting system based on a rotary camera and intelligent glasses.

Background

The intelligent glasses are also called as intelligent glasses, and refer to a general name of glasses which are provided with an independent operating system like an intelligent mobile phone, can be provided with programs provided by software service providers such as software and games by a user, can complete functions of adding schedules, map navigation, interacting with friends, taking photos and videos, developing video calls with friends and the like through voice or action control, and can realize wireless network access through a mobile communication network. In practice, it is found that although the various functions can be realized by using the intelligent glasses under the condition of liberating the two hands of the user, the visual directions of the intelligent glasses are usually required to be adjusted by rotating the body after the user wears the intelligent glasses due to the limited visual angles of the intelligent glasses, so that the scenes in different visual directions can be observed conveniently, and the efficiency of observing the scenes in different visual directions can be reduced by the method.

Disclosure of Invention

The embodiment of the invention discloses a shooting method and a shooting system based on a rotary camera and intelligent glasses, which can improve the efficiency of observing scenes with different visual directions.

The first aspect of the embodiment of the invention discloses a shooting method based on a rotary camera and intelligent glasses, which comprises the following steps:

the user terminal acquires the visual direction of the intelligent glasses;

the user terminal judges whether an intersection exists between the visual direction of the intelligent glasses and the visual direction of a rotary camera of the user terminal, and if the intersection exists, the rotary camera is controlled to rotate to a target visual direction which does not exist the intersection with the visual direction of the intelligent glasses;

the user terminal controls the rotary camera to shoot a target image in the target visual direction;

the user terminal sends the target image to the intelligent glasses;

and after receiving the target image, the intelligent glasses display the target image in the appointed display area of the intelligent glasses.

The second aspect of the embodiment of the present invention discloses a shooting system based on a rotary camera and smart glasses, including:

the user terminal is used for acquiring the visual direction of the intelligent glasses;

the user terminal is further used for judging whether an intersection exists between the visual direction of the intelligent glasses and the visual direction of the rotary camera of the user terminal, and if the intersection exists, the rotary camera is controlled to rotate to a target visual direction which does not exist the intersection with the visual direction of the intelligent glasses;

the user terminal is also used for controlling the rotary camera to shoot a target image in the target visual direction;

the user terminal is further used for sending the target image to the intelligent glasses;

the intelligent glasses are used for displaying the target image in the appointed display area of the intelligent glasses after receiving the target image.

A third aspect of the embodiments of the present invention discloses a computer-readable storage medium, in which program instructions are stored, and the program instructions are used for a computer to call and then execute a shooting method based on a rotating camera and smart glasses, and the method includes: the user terminal acquires the visual direction of the intelligent glasses; the user terminal judges whether an intersection exists between the visual direction of the intelligent glasses and the visual direction of a rotary camera of the user terminal, and if the intersection exists, the rotary camera is controlled to rotate to a target visual direction which does not exist the intersection with the visual direction of the intelligent glasses; the user terminal controls the rotary camera to shoot a target image in the target visual direction; the user terminal sends the target image to the intelligent glasses; and after receiving the target image, the intelligent glasses display the target image in the appointed display area of the intelligent glasses.

Compared with the prior art, the embodiment of the invention has the following beneficial effects:

in the embodiment of the invention, when the user terminal acquires and judges that the visual direction of the intelligent glasses is intersected with the visual direction of the rotary camera of the user terminal, the rotary camera can be controlled to rotate to the target visual direction which is not intersected with the visual direction of the intelligent glasses, the rotary camera is controlled to shoot the target image in the target visual direction and send the target image to the intelligent glasses, and the intelligent glasses can display the target image in the appointed display area of the intelligent glasses, so that the user can conveniently observe scenes in different visual directions without rotating the body to adjust the visual direction of the intelligent glasses after wearing the intelligent glasses, and the efficiency of observing the scenes in different visual directions is improved.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic diagram of a network architecture according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of another network architecture disclosed in the embodiments of the present invention;

FIG. 3 is a schematic diagram of another network architecture disclosed in the embodiments of the present invention;

fig. 4 is a schematic flowchart of a photographing method based on a rotary camera and smart glasses according to an embodiment of the present invention;

fig. 5 is a schematic flow chart of another shooting based on a rotary camera and smart glasses according to the embodiment of the present invention;

fig. 6 is a schematic flowchart of another photographing method based on a rotary camera and smart glasses according to an embodiment of the present disclosure;

fig. 7 is a schematic flowchart of another photographing method based on a rotary camera and smart glasses according to an embodiment of the present disclosure;

fig. 8 is a schematic flow chart of another shooting based on a rotary camera and smart glasses according to the embodiment of the present invention;

fig. 9 is a schematic flow chart of another photographing based on a rotary camera and smart glasses according to the embodiment of the present invention;

fig. 10 is a schematic structural diagram of a photographing system based on a rotary camera and smart glasses according to an embodiment of the present invention;

fig. 11 is a schematic structural diagram of another photographing system based on a rotary camera and smart glasses according to an embodiment of the disclosure;

fig. 12 is a schematic structural diagram of another photographing system based on a rotary camera and smart glasses according to an embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The embodiment of the invention discloses a shooting method and a shooting system based on a rotary camera and intelligent glasses, which can enable a user to conveniently observe scenes in different visual directions without adjusting the visual directions of the intelligent glasses by rotating the body after wearing the intelligent glasses, thereby improving the efficiency of observing the scenes in different visual directions. The detailed description is as follows.

In order to better understand the shooting method and system based on the rotary camera and the smart glasses disclosed in the embodiments of the present invention, a network architecture applicable to the embodiments of the present invention is first described below. Referring to fig. 1 to fig. 3, fig. 1 is a schematic diagram of a network architecture according to an embodiment of the present invention, fig. 2 is a schematic diagram of another network architecture according to an embodiment of the present invention, and fig. 3 is a schematic diagram of another network architecture according to an embodiment of the present invention. In the network architecture shown in fig. 1, the network architecture may include smart glasses and a user terminal, where the smart glasses may maintain communication connection with the user terminal in a wireless manner such as bluetooth or WIFI. And in the network architecture shown in fig. 2, the network architecture may include smart glasses, a user terminal and a server, where the smart glasses may be in communication connection with the user terminal in a wireless manner such as bluetooth or WIFI, and the user terminal may be in communication connection with the server through the internet. And in the network architecture shown in fig. 3, the network architecture may include smart glasses, a user terminal, and a server, where the smart glasses may maintain communication connection with the user terminal through wireless modes such as bluetooth and WIFI, and the smart glasses may communicate connection with the server through the internet. In the network architectures shown in fig. 1 to 3, after the user wears the smart glasses, the user can observe scenes in different visual directions conveniently and quickly without adjusting the visual directions of the smart glasses by rotating the body, thereby improving the efficiency of observing scenes in different visual directions.

Based on the network architecture shown in fig. 1, the embodiment of the invention discloses a shooting method based on a rotary camera and intelligent glasses. As shown in fig. 4, a photographing method based on a rotary camera and smart glasses according to an embodiment of the present invention may include the following steps.

401. The user terminal obtains the visual direction of the intelligent glasses.

In the embodiment of the invention, the user terminal can comprise a user terminal with a rotary camera, such as a smart phone, a digital camera, a mobile internet device and the like. Wherein, the rotary camera of the user terminal can rotate 360 degrees.

In the embodiment of the present invention, the visual orientations of the smart glasses may include basic visual orientations such as east, south, west, and north, may further include intermediate visual orientations such as northeast, southeast, northwest, and southwest, and may further include specific visual orientations such as 30 ° to 70 ° to northwest, 60 ° to 50 ° to southeast, 45 ° to southwest, and 45 ° to northwest, which is not limited in the embodiment of the present invention.

In the embodiment of the invention, the user terminal can periodically send the visual direction acquisition request to the intelligent glasses and receive the visual direction sent by the intelligent glasses in a wireless mode.

In the embodiment of the invention, when the intelligent glasses detect that the visual direction of the intelligent glasses changes, the intelligent glasses can actively send the visual direction of the intelligent glasses to the user terminal in a wireless mode.

402. The user terminal judges whether the visual orientation of the intelligent glasses and the visual orientation of the rotary camera of the user terminal have an intersection or not, and if the intersection exists, the step 403 is executed; if there is no intersection, proceed to step 401.

403. The user terminal controls the rotary camera to rotate to a target visual direction which does not have intersection with the visual direction of the intelligent glasses.

In the embodiment of the present invention, for example, the user terminal determines that the visual orientation of the smart glasses and the visual orientation of the rotating camera of the user terminal have an intersection, and the visual orientation of the rotating camera of the user terminal is east, so that the user terminal may control the rotating camera to rotate to a target visual orientation, such as any one or more of south, west, and north, where the visual orientation of the rotating camera of the user terminal does not have an intersection with the visual orientation of the smart glasses.

For another example, if the user terminal determines that the visual orientation of the smart glasses intersects with the visual orientation of the rotary camera of the user terminal, and the visual orientation of the rotary camera of the user terminal is 30 ° to 70 ° north, the user terminal may control the rotary camera to rotate to a target visual orientation that does not intersect with the visual orientation of the smart glasses, for example, 45 ° south to 45 °, 45 ° south to 45 ° west to north.

404. And the user terminal controls the rotary camera to shoot a target image in the target visual direction.

In the embodiment of the invention, the user terminal can perform optimization processing such as brightness adjustment on the target image.

405. And the user terminal sends the target image to the intelligent glasses.

In the embodiment of the invention, the user terminal can send prompt information to the intelligent glasses for prompting whether the target image is allowed to be received or not; correspondingly, after receiving the prompt message, the intelligent glasses can output the prompt message in a text or voice mode, and when receiving a target image receiving permission instruction input by a user, the intelligent glasses can inform the user terminal of allowing the target image to be received; accordingly, the user terminal may transmit the target image to the smart glasses according to the notification of the smart glasses.

406. And after receiving the target image, the intelligent glasses display the target image in the appointed display area of the intelligent glasses.

In the method described in fig. 4, before the user terminal acquires the visual orientation of the smart glasses, the user terminal may establish a wireless communication connection with the smart glasses. Specifically, the manner in which the user terminal establishes the wireless communication connection with the smart glasses may include the following steps:

1) and the user terminal detects a wireless communication connection establishing instruction sent by the intelligent glasses.

2) And the user terminal responds to the wireless communication connection instruction and outputs prompt information, wherein the prompt information is used for prompting the input of information to be verified.

3) And the user terminal receives the information to be verified which responds to the prompt information input.

4) The user terminal verifies whether the information to be verified is consistent with preset verification information, and if so, the step 5) is executed; if not, the user terminal is informed that the identity is illegal, and the wireless communication connection is failed to be established.

5) And the user terminal establishes wireless communication connection with the intelligent glasses.

In the embodiment of the present invention, the information to be verified may include, but is not limited to, any one or combination of a password to be verified, fingerprint information to be verified, face information to be verified, iris information to be verified, retina information to be verified, and voiceprint information to be verified.

In the embodiment of the present invention, the preset verification information may include, but is not limited to, any one or combination of a preset verification password, preset verification fingerprint information, preset verification face information, preset verification iris information, preset verification retina information, and preset verification voiceprint information.

In this embodiment, the preset verification information may include fingerprint string information and an input time corresponding to each fingerprint; accordingly, verifying whether the information to be verified is consistent with the preset verification information may include the steps of:

verifying whether the fingerprint string included in the information to be verified is the same as the fingerprint string included in the preset verification information and whether the difference value of the input time of the same fingerprint is smaller than the preset value, and if the fingerprint string included in the information to be verified is the same as the fingerprint string included in the preset verification information and the difference value of the input time of the same fingerprint is smaller than the preset value, verifying that the information to be verified is consistent with the preset verification information; and otherwise, verifying that the information to be verified is inconsistent with the preset verification information. By implementing the embodiment, the wireless communication connection between the user terminal and the intelligent glasses can be prevented from being controlled by an illegal user.

By implementing the method described in fig. 4, when the user terminal obtains and judges that the visual direction of the smart glasses and the visual direction of the rotary camera of the user terminal have an intersection, the rotary camera can be controlled to rotate to a target visual direction which does not have an intersection with the visual direction of the smart glasses, the rotary camera is controlled to shoot a target image in the target visual direction and send the target image to the smart glasses, and the smart glasses can display the target image in a specified display area of the smart glasses, so that after the user wears the smart glasses, under the condition that the visual direction of the smart glasses is not adjusted by rotating the body, scenes in different visual directions can be observed conveniently, and the efficiency of observing the scenes in different visual directions is improved.

Based on the network architecture shown in fig. 1, the embodiment of the invention discloses another shooting method based on a rotary camera and intelligent glasses. As shown in fig. 5, another photographing method based on a rotary camera and smart glasses disclosed in the embodiment of the present invention may include the following steps.

501. The user terminal obtains the visual direction of the intelligent glasses.

502. The user terminal judges whether the visual orientation of the intelligent glasses and the visual orientation of the rotary camera of the user terminal have an intersection or not, and if the visual orientation of the intelligent glasses and the visual orientation of the rotary camera of the user terminal have the intersection, the step 503 is executed; if there is no intersection, proceed to step 501.

503. The user terminal controls the rotary camera to rotate to a target visual direction which does not have intersection with the visual direction of the intelligent glasses.

504. And the user terminal controls the rotary camera to shoot a target image in the target visual direction.

505. And the user terminal sends the target image to the intelligent glasses.

506. And after receiving the target image, the intelligent glasses display the target image in the appointed display area of the intelligent glasses.

507. The intelligent glasses detect the input photographing synthesis instruction.

In the embodiment of the invention, the intelligent glasses can detect the photographing synthesis instruction input by the user in a voice mode.

508. The intelligent glasses respond to the photographing synthesis instruction and photograph images in the visual direction of the intelligent glasses.

In the embodiment of the invention, the intelligent glasses can display the shot image of the intelligent glasses in the visual direction in the appointed display area.

509. The intelligent glasses splice the shot image of the intelligent glasses in the visual direction with the target image to obtain a composite image.

In the embodiment of the invention, the intelligent glasses can display the composite image in the designated display area. Still further, the smart glasses may also store the composite image.

In the method described in fig. 5, before the user terminal acquires the visual orientation of the smart glasses, the user terminal may establish a wireless communication connection with the smart glasses. Specifically, the manner in which the user terminal establishes the wireless communication connection with the smart glasses may include the following steps:

By implementing the method described in fig. 5, when the user terminal obtains and judges that the visual direction of the smart glasses and the visual direction of the rotary camera of the user terminal have an intersection, the rotary camera can be controlled to rotate to a target visual direction which does not have an intersection with the visual direction of the smart glasses, the rotary camera is controlled to shoot a target image in the target visual direction and send the target image to the smart glasses, and the smart glasses can display the target image in a specified display area of the smart glasses, so that after the user wears the smart glasses, under the condition that the visual direction of the smart glasses is not adjusted by rotating the body, scenes in different visual directions can be observed conveniently, and the efficiency of observing the scenes in different visual directions is improved. Further, the method described in fig. 5 can also realize the synthesis of the image in the visual orientation of the smart glasses and the target image, so that the synthesized image can be obtained efficiently.

Based on the network architecture shown in fig. 2, the embodiment of the invention discloses another shooting method based on a rotary camera and intelligent glasses. As shown in fig. 6, another photographing method based on a rotary camera and smart glasses disclosed in the embodiment of the present invention may include the following steps.

601. The user terminal obtains the visual direction of the intelligent glasses.

602. The user terminal judges whether the visual orientation of the intelligent glasses and the visual orientation of the rotary camera of the user terminal have an intersection or not, and if the visual orientation of the intelligent glasses and the visual orientation of the rotary camera of the user terminal have the intersection, the step 603 is executed; if there is no intersection, proceed to step 601.

603. The user terminal controls the rotary camera to rotate to a target visual direction which does not have intersection with the visual direction of the intelligent glasses.

604. And the user terminal controls the rotary camera to shoot a target image in the target visual direction.

605. And the user terminal sends the target image to the intelligent glasses.

606. And after receiving the target image, the intelligent glasses display the target image in the appointed display area of the intelligent glasses.

607. The intelligent glasses detect the input photographing synthesis instruction.

608. The intelligent glasses respond to the photographing synthesis instruction and photograph images in the visual direction of the intelligent glasses.

609. The intelligent glasses splice the shot image of the intelligent glasses in the visual direction with the target image to obtain a composite image.

610. The intelligent glasses detect the input social sharing instruction of the synthetic image.

In the embodiment of the invention, the intelligent glasses can detect the social contact sharing instruction of the synthetic image input by the user in a voice mode.

611. The intelligent glasses respond to the social sharing instruction of the synthetic image and send the synthetic image to the user terminal.

612. The user terminal sends a login account and a composite image of the social application running on the user terminal to the server.

613. And the server queries the social user group to which the login account belongs according to the login account.

614. The server sends the composite image to social accounts in the social user group.

In the method described in fig. 6, before the user terminal acquires the visual orientation of the smart glasses, the user terminal may establish a wireless communication connection with the smart glasses. Specifically, the manner in which the user terminal establishes the wireless communication connection with the smart glasses may include the following steps:

By implementing the method described in fig. 6, when the user terminal obtains and judges that the visual direction of the smart glasses and the visual direction of the rotary camera of the user terminal have an intersection, the rotary camera can be controlled to rotate to a target visual direction which does not have an intersection with the visual direction of the smart glasses, the rotary camera is controlled to shoot a target image in the target visual direction and send the target image to the smart glasses, and the smart glasses can display the target image in a specified display area of the smart glasses, so that after the user wears the smart glasses, under the condition that the visual direction of the smart glasses is not adjusted by rotating the body, scenes in different visual directions can be observed conveniently, and the efficiency of observing the scenes in different visual directions is improved. Further, the method described in fig. 6 can also realize the synthesis of the image in the visual orientation of the smart glasses and the target image, so that the synthesized image can be obtained efficiently. Still further, the method described in fig. 6 may also share the composite image to social users.

Based on the network architecture shown in fig. 2, the embodiment of the invention discloses another shooting method based on a rotary camera and intelligent glasses. As shown in fig. 7, another photographing method based on a rotary camera and smart glasses disclosed in the embodiment of the present invention may include the following steps.

701. The user terminal obtains the visual direction of the intelligent glasses.

702. The user terminal judges whether the visual orientation of the intelligent glasses and the visual orientation of the rotary camera of the user terminal have an intersection or not, and if the visual orientation of the intelligent glasses and the visual orientation of the rotary camera of the user terminal have the intersection, the step 703 is executed; if there is no intersection, proceed to step 701.

703. The user terminal controls the rotary camera to rotate to a target visual direction which does not have intersection with the visual direction of the intelligent glasses.

704. And the user terminal controls the rotary camera to shoot a target image in the target visual direction.

705. And the user terminal sends the target image to the intelligent glasses.

706. And after receiving the target image, the intelligent glasses display the target image in the appointed display area of the intelligent glasses.

707. The intelligent glasses detect the input photographing synthesis instruction.

708. The intelligent glasses respond to the photographing synthesis instruction and photograph images in the visual direction of the intelligent glasses.

709. The intelligent glasses splice the shot image of the intelligent glasses in the visual direction with the target image to obtain a composite image.

710. The intelligent glasses detect the input social sharing instruction of the synthetic image.

711. The intelligent glasses respond to the social sharing instruction of the synthetic image and send the synthetic image to the user terminal.

712. The user terminal sends a login account and a composite image of the social application running on the user terminal to the server.

713. And the server queries the social user group to which the login account belongs according to the login account.

714. The server sends the composite image to social accounts in the social user group.

715. And the intelligent glasses detect the input synthetic image contact person sharing instruction.

In the embodiment of the invention, the intelligent glasses can detect the synthetic image contact person sharing instruction input by the user in a voice mode.

716. The intelligent glasses respond to the synthetic image contact person sharing instruction and send the synthetic image to the user terminal.

717. The user terminal sends the composite image to a designated contact in the address book of the user terminal.

In the embodiment of the invention, a user can designate a contact person in an address book of the user terminal in advance in a hook mode, wherein the designated contact person refers to a contact person capable of sharing the composite image. The number of the designated contacts in the address book may be one or more, and the embodiment of the present invention is not limited thereto.

In the method described in fig. 7, before the user terminal acquires the visual orientation of the smart glasses, the user terminal may establish a wireless communication connection with the smart glasses. Specifically, the manner in which the user terminal establishes the wireless communication connection with the smart glasses may include the following steps:

By implementing the method described in fig. 7, when the user terminal obtains and judges that the visual direction of the smart glasses and the visual direction of the rotary camera of the user terminal have an intersection, the rotary camera can be controlled to rotate to a target visual direction which does not have an intersection with the visual direction of the smart glasses, the rotary camera is controlled to shoot a target image in the target visual direction and send the target image to the smart glasses, and the smart glasses can display the target image in a specified display area of the smart glasses, so that after the user wears the smart glasses, under the condition that the visual direction of the smart glasses is not adjusted by rotating the body, scenes in different visual directions can be observed conveniently, and the efficiency of observing the scenes in different visual directions is improved. Further, the method described in fig. 7 can also realize the synthesis of the image in the visual orientation of the smart glasses and the target image, so that the synthesized image can be obtained efficiently. Further, the method described in fig. 7 may also share the composite image to the social user and the designated contact in the address book.

Based on the network architecture shown in fig. 3, the embodiment of the invention discloses another shooting method based on a rotary camera and intelligent glasses. As shown in fig. 8, another photographing method based on a rotary camera and smart glasses disclosed in the embodiment of the present invention may include the following steps.

801. The user terminal obtains the visual direction of the intelligent glasses.

802. The user terminal judges whether the visual orientation of the intelligent glasses and the visual orientation of the rotary camera of the user terminal have an intersection or not, and if the visual orientation of the intelligent glasses and the visual orientation of the rotary camera of the user terminal have the intersection, the step 803 is executed; if there is no intersection, proceed to step 801.

803. The user terminal controls the rotary camera to rotate to a target visual direction which does not have intersection with the visual direction of the intelligent glasses.

804. And the user terminal controls the rotary camera to shoot a target image in the target visual direction.

805. And the user terminal sends the target image to the intelligent glasses.

806. And after receiving the target image, the intelligent glasses display the target image in the appointed display area of the intelligent glasses.

807. The intelligent glasses detect the input photographing synthesis instruction.

808. The intelligent glasses respond to the photographing synthesis instruction and photograph images in the visual direction of the intelligent glasses.

809. The intelligent glasses splice the shot image of the intelligent glasses in the visual direction with the target image to obtain a composite image.

810. The intelligent glasses detect the input social sharing instruction of the synthetic image.

811. And the intelligent glasses respond to the social sharing instruction of the synthetic image and send a login account and the synthetic image of the social application running on the intelligent glasses to the server.

812. And the server queries the social user group to which the login account belongs according to the login account.

813. The server sends the composite image to social accounts in the social user group.

In the method described in fig. 8, before the user terminal acquires the visual orientation of the smart glasses, the user terminal may establish a wireless communication connection with the smart glasses. Specifically, the manner in which the user terminal establishes the wireless communication connection with the smart glasses may include the following steps:

By implementing the method described in fig. 8, when the user terminal obtains and judges that the visual direction of the smart glasses and the visual direction of the rotary camera of the user terminal have an intersection, the rotary camera can be controlled to rotate to a target visual direction which does not have an intersection with the visual direction of the smart glasses, the rotary camera is controlled to shoot a target image in the target visual direction and send the target image to the smart glasses, and the smart glasses can display the target image in a specified display area of the smart glasses, so that after the user wears the smart glasses, under the condition that the visual direction of the smart glasses is not adjusted by rotating the body, scenes in different visual directions can be observed conveniently, and the efficiency of observing the scenes in different visual directions is improved. Further, the method described in fig. 8 can also realize the synthesis of the image in the visual orientation of the smart glasses and the target image, so that the synthesized image can be obtained efficiently. Further, the method described in fig. 8 may also share the composite image to the social user and the designated contact in the address book.

Based on the network architecture shown in fig. 3, the embodiment of the invention discloses another shooting method based on a rotary camera and intelligent glasses. As shown in fig. 9, another photographing method based on a rotary camera and smart glasses disclosed in the embodiment of the present invention may include the following steps.

901. The user terminal obtains the visual direction of the intelligent glasses.

902. The user terminal judges whether an intersection exists between the visual orientation of the intelligent glasses and the visual orientation of a rotary camera of the user terminal, and if the intersection exists, the step 903 is executed; if there is no intersection, proceed to step 901.

903. The user terminal controls the rotary camera to rotate to a target visual direction which does not have intersection with the visual direction of the intelligent glasses.

904. And the user terminal controls the rotary camera to shoot a target image in the target visual direction.

905. And the user terminal sends the target image to the intelligent glasses.

906. And after receiving the target image, the intelligent glasses display the target image in the appointed display area of the intelligent glasses.

907. The intelligent glasses detect the input photographing synthesis instruction.

908. The intelligent glasses respond to the photographing synthesis instruction and photograph images in the visual direction of the intelligent glasses.

909. The intelligent glasses splice the shot image of the intelligent glasses in the visual direction with the target image to obtain a composite image.

910. The intelligent glasses detect the input social sharing instruction of the synthetic image.

911. And the intelligent glasses respond to the social sharing instruction of the synthetic image and send a login account and the synthetic image of the social application running on the intelligent glasses to the server.

912. And the server queries the social user group to which the login account belongs according to the login account.

913. The server sends the composite image to social accounts in the social user group.

914. And the intelligent glasses detect the input synthetic image contact person sharing instruction.

915. The intelligent glasses respond to the synthetic image contact person sharing instruction and send the synthetic image to the user terminal.

916. The user terminal sends the composite image to a designated contact in the address book of the user terminal.

In the method described in fig. 9, before the user terminal acquires the visual orientation of the smart glasses, the user terminal may establish a wireless communication connection with the smart glasses. Specifically, the manner in which the user terminal establishes the wireless communication connection with the smart glasses may include the following steps:

By implementing the method described in fig. 9, when the user terminal obtains and judges that the visual direction of the smart glasses and the visual direction of the rotary camera of the user terminal have an intersection, the rotary camera can be controlled to rotate to a target visual direction which does not have an intersection with the visual direction of the smart glasses, the rotary camera is controlled to shoot a target image in the target visual direction and send the target image to the smart glasses, and the smart glasses can display the target image in a specified display area of the smart glasses, so that after the user wears the smart glasses, under the condition that the visual direction of the smart glasses is not adjusted by rotating the body, scenes in different visual directions can be observed conveniently, and the efficiency of observing the scenes in different visual directions is improved. Further, the method described in fig. 9 can also realize the synthesis of the image in the visual orientation of the smart glasses and the target image, so that the synthesized image can be obtained efficiently. Further, the method described in fig. 9 may also share the composite image to the social user and the designated contact in the address book.

Based on the network architecture shown in fig. 1, the embodiment of the invention discloses a shooting system based on a rotary camera and intelligent glasses. As shown in fig. 10, a photographing system based on a rotary camera and smart glasses disclosed in the embodiment of the present invention may include a user terminal 1 and smart glasses 2, wherein the user terminal 1 and the smart glasses 2 are in communication connection in a wireless manner, and wherein:

the user terminal 1 is used for acquiring the visual direction of the intelligent glasses 2;

the user terminal 1 is further configured to determine whether an intersection exists between the visual orientation of the smart glasses 2 and the visual orientation of the rotary camera of the user terminal 1, and if an intersection exists, control the rotary camera to rotate to a target visual orientation which does not exist an intersection with the visual orientation of the smart glasses 2;

the user terminal 1 is also used for controlling the rotary camera to shoot a target image in the target visual direction;

the user terminal 1 is further configured to send the target image to the smart glasses 2;

and the intelligent glasses 2 are used for displaying the target image in the appointed display area of the intelligent glasses 2 after receiving the target image.

As an alternative embodiment, in the photographing system shown in fig. 10:

the intelligent glasses 2 are also used for detecting an input photographing synthesis instruction;

the intelligent glasses 2 are also used for responding to the photographing synthesis instruction and photographing images in the visual direction of the intelligent glasses 2;

the intelligent glasses 2 are further used for splicing the shot images of the intelligent glasses 2 in the visual direction with the target image to obtain a composite image.

Based on the network architecture shown in fig. 2, the embodiment of the invention discloses another shooting system based on a rotary camera and intelligent glasses. Referring to fig. 11, fig. 11 is a schematic structural diagram of another photographing system based on a rotary camera and smart glasses according to an embodiment of the disclosure. The imaging system shown in fig. 11 is optimized from the imaging system shown in fig. 10. The photographing system shown in fig. 11 may include a server 3 in addition to implementing all functions of the photographing system shown in fig. 10, the server 3 may be connected to the user terminal 1 through internet communication, and in the photographing system shown in fig. 11:

the intelligent glasses 2 are further used for detecting an input social sharing instruction of the synthetic image;

the intelligent glasses 2 are further used for responding to the social sharing instruction of the synthetic image and sending the synthetic image to the user terminal 1;

the user terminal 1 is further configured to send a login account and a composite image of a social application running on the user terminal 1 to the server 3;

the server 3 is used for inquiring the social user group to which the login account belongs according to the login account;

and the server 3 is further used for sending the composite image to the social account numbers in the social user group.

As an alternative embodiment, in the photographing system shown in fig. 11:

the intelligent glasses 2 are also used for detecting an input synthetic image contact person sharing instruction;

the intelligent glasses 2 are further used for responding to the synthetic image contact person sharing instruction and sending the synthetic image to the user terminal 1;

the user terminal 1 is further configured to send the composite image to a designated contact in the address book of the user terminal 1.

Based on the network architecture shown in fig. 3, the embodiment of the invention discloses another shooting system based on a rotary camera and intelligent glasses. Referring to fig. 12, fig. 12 is a schematic structural diagram of another photographing system based on a rotary camera and smart glasses according to an embodiment of the disclosure. The imaging system shown in fig. 12 is optimized from the imaging system shown in fig. 10. The photographing system shown in fig. 12 may include a server 3 in addition to realizing all functions of the photographing system shown in fig. 10, and the server 3 may be connected to the smart glasses 2 through internet communication, in the photographing system shown in fig. 12:

the intelligent glasses 2 are further used for responding to the social contact sharing instruction of the synthetic image and sending a login account and the synthetic image of the social application running on the intelligent glasses to the server 3;

As an alternative embodiment, in the photographing system shown in fig. 12:

By implementing the shooting system described in fig. 10-12, when the user terminal obtains and judges that the visual direction of the smart glasses and the visual direction of the rotary camera of the user terminal have an intersection, the rotary camera can be controlled to rotate to a target visual direction which does not have an intersection with the visual direction of the smart glasses, the rotary camera is controlled to shoot a target image in the target visual direction and send the target image to the smart glasses, and the smart glasses can display the target image in a designated display area of the smart glasses, so that after the user takes the smart glasses, under the condition that the visual direction of the smart glasses is not adjusted by rotating the body, scenes in different visual directions can be observed conveniently, and the efficiency of observing the scenes in different visual directions is improved. Furthermore, the photographing systems described in fig. 10 to 12 can also realize the synthesis of the image in the visual direction of the smart glasses and the target image, so that the synthesized image can be obtained efficiently. Furthermore, the photographing systems described in fig. 10 to 12 may also share the composite image to the social user and the designated contact in the address book.

It will be understood by those skilled in the art that all or part of the steps in the methods of the embodiments described above may be implemented by instructions associated with a program, which may be stored in a computer-readable storage medium, where the storage medium includes Read-Only Memory (ROM), Random Access Memory (RAM), Programmable Read-Only Memory (PROM), Erasable Programmable Read-Only Memory (EPROM), One-time Programmable Read-Only Memory (OTPROM), Electrically Erasable Programmable Read-Only Memory (EEPROM), compact disc-Read-Only Memory (CD-ROM), or other Memory, magnetic disk, magnetic tape, or magnetic tape, Or any other medium which can be used to carry or store data and which can be read by a computer.

The above detailed description is made on the photographing method and system based on the rotary camera and the smart glasses disclosed in the embodiments of the present invention, and a specific example is applied in the present document to explain the principle and the implementation of the present invention, and the description of the above embodiments is only used to help understanding the method and the core idea of the present invention; meanwhile, for a person skilled in the art, according to the idea of the present invention, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present invention.

Claims

1. A shooting method based on a rotary camera and intelligent glasses is characterized by comprising the following steps:

the method comprises the steps that a user terminal obtains a visual orientation of intelligent glasses, wherein the visual orientation of the intelligent glasses is the visual orientation of the intelligent glasses towards an external scene;

the user terminal sends the target image to the intelligent glasses;

2. The photographing method according to claim 1, wherein the method further comprises:

the intelligent glasses detect an input photographing synthesis instruction;

the intelligent glasses respond to the photographing synthesis instruction and photograph images in the visual direction of the intelligent glasses;

and the intelligent glasses splice the shot image of the intelligent glasses in the visual direction with the target image to obtain a composite image.

3. The photographing method according to claim 2, wherein the method further comprises:

the intelligent glasses detect an input social sharing instruction of the synthetic image;

the intelligent glasses respond to the social sharing instruction of the synthetic image and send the synthetic image to the user terminal;

the user terminal sends a login account of a social application running on the user terminal and the composite image to a server;

the server queries a social user group to which the login account belongs according to the login account;

the server sends the composite image to social accounts in the social user group.

4. The photographing method according to claim 2, wherein the method further comprises:

the intelligent glasses respond to the synthetic image social sharing instruction and send a login account of a social application running on the intelligent glasses and the synthetic image to a server;

5. The photographing method according to claim 3 or 4, wherein the method further comprises:

the intelligent glasses detect an input synthetic image contact person sharing instruction;

the intelligent glasses respond to the synthetic image contact person sharing instruction and send the synthetic image to the user terminal;

and the user terminal sends the composite image to a designated contact in an address book of the user terminal.

6. The shooting method according to claim 1, wherein the visual orientation of the smart glasses is actively and wirelessly transmitted to the user terminal by the smart glasses when the smart glasses detect that the visual orientation of the smart glasses changes.

7. The shooting method according to claim 1, wherein the smart glasses display the target image in a designated display area of the smart glasses after receiving the target image, and the method comprises:

after receiving the target image, the intelligent glasses display the target image in the designated display area of the intelligent glasses, so that a user can conveniently observe scenes in different visual directions without adjusting the visual directions of the intelligent glasses by rotating the body after wearing the intelligent glasses.

8. The utility model provides a shooting system based on rotatory camera and intelligent glasses which characterized in that includes:

the user terminal is used for acquiring the visual orientation of the intelligent glasses, wherein the visual orientation of the intelligent glasses is the visual orientation of the intelligent glasses towards an external scene;

9. The camera system according to claim 8, wherein:

the intelligent glasses are also used for detecting an input photographing synthesis instruction;

the intelligent glasses are also used for responding to the photographing synthesis instruction and photographing images in the visual direction of the intelligent glasses;

the intelligent glasses are further used for splicing the shot images of the intelligent glasses in the visual direction with the target image to obtain a composite image.

10. The camera system according to claim 9, further comprising a server, wherein:

the intelligent glasses are further used for detecting an input synthetic image social sharing instruction;

the intelligent glasses are further used for responding to the social sharing instruction of the synthetic image and sending the synthetic image to the user terminal;

the user terminal is further used for sending a login account of a social application running on the user terminal and the composite image to the server;

the server is used for inquiring a social user group to which the login account belongs according to the login account;

the server is further configured to send the composite image to social accounts in the social user group.

11. The camera system according to claim 9, further comprising a server, wherein:

the intelligent glasses are further used for responding to the synthetic image social sharing instruction and sending a login account of a social application running on the intelligent glasses and the synthetic image to the server;

12. The photographing system according to claim 10 or 11, wherein:

the intelligent glasses are also used for detecting an input synthetic image contact person sharing instruction;

the intelligent glasses are further used for responding to the synthetic image contact person sharing instruction and sending the synthetic image to the user terminal;

the user terminal is further used for sending the composite image to a designated contact in an address book of the user terminal.

13. The shooting system of claim 8, wherein the visual orientation of the smart glasses is actively wirelessly transmitted to the user terminal by the smart glasses when the smart glasses detect a change in the visual orientation of the smart glasses.

14. The shooting system of claim 8, wherein after the smart glasses receive the target image, the smart glasses display the target image in a designated display area of the smart glasses, including:

15. A computer-readable storage medium, wherein the computer-readable storage medium stores program instructions for a computer to call and execute the rotating camera and smart glasses-based photographing method according to any one of claims 1 to 7.