CN106303388B - Video return operation method and terminal equipment - Google Patents
Video return operation method and terminal equipment Download PDFInfo
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- CN106303388B CN106303388B CN201510292881.3A CN201510292881A CN106303388B CN 106303388 B CN106303388 B CN 106303388B CN 201510292881 A CN201510292881 A CN 201510292881A CN 106303388 B CN106303388 B CN 106303388B
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Abstract
The invention provides an operation method and terminal equipment for video return, wherein a video return operation area is displayed on an unlocking interface, and a return operation gesture of a user is received in the video return operation area, so that a video return function interface is displayed on the unlocking interface, furthermore, a video return starting gesture of the user is received on a video return shutter button, a camera is started to record a video, and the video is transmitted to opposite-end equipment for video return; therefore, when an emergency occurs, the user of the mobile terminal can quickly complete video return based on the operation method, and send the field video of the emergency to the opposite terminal equipment, so that the real-time performance of the video return is ensured.
Description
Technical Field
The present invention relates to communications technologies, and in particular, to an operation method for video backhaul and a terminal device.
Background
With the rapid development of communication technology, people rely more and more on modern communication technology to realize information transfer. And in the face of emergency communication scenarios such as disasters, emergency scenes, etc., it is also necessary to obtain the scene situation through modern communication technologies. For example, video data of an emergency scene is obtained through a video monitoring device, and the video data is transmitted back to a remote monitoring center. However, in order to implement video backhaul, additional video monitoring devices and transmission devices are often required to be added. The problems are that: the addition of these additional devices increases the cost of implementation. In addition, emergency communication scenes belong to emergencies, the purpose of video return is to obtain live video information at the first time, and the equipment needs to be deployed after the emergencies, so that the live video information at the first time cannot be obtained.
In order to solve the problems, a scheme of returning videos can be realized by using mobile terminals such as a smart phone and a tablet personal computer, and due to the popularization of the mobile terminals, on-site people can immediately use the portable mobile terminals to return videos when an emergency occurs. However, the video recording and transmitting functions of the existing mobile terminal need to be implemented by performing multi-step operations in an operating system, which cannot meet the requirement of an emergency on real-time transmission of video return at the first time, and reduces the real-time performance of video return in an emergency communication scene.
Disclosure of Invention
The invention provides an operation method for video return and terminal equipment, which are used for improving the real-time performance of video return in an emergency communication scene.
The first aspect of the present invention provides a video backhaul operation method, which is performed by a mobile terminal having a touch screen, and includes:
displaying a video return operation area on an unlocking interface;
receiving a return operation gesture of a user in the video return operation area;
displaying a video return function interface on the unlocking interface;
receiving a video return starting gesture of the user on a video return shutter button, starting a camera to record a video, and transmitting the video to opposite-end equipment for video return;
displaying a real-time video preview picture in a video preview display area;
displaying the video return information in a video return information display area; the video backhaul information at least comprises any one or a combination of the following: the video recording duration, the opposite terminal equipment information returned by the video and the returned video information;
and receiving a video return setting gesture of the user in a video return setting area, wherein the video return setting gesture of the user is used for setting a video return mode and/or selecting opposite-end equipment for video return.
With reference to the first aspect, in a first possible implementation manner of the first aspect, the video backhaul setting area includes: a first setting region and a second setting region; the video backhaul mode includes: a backhaul mode and a backhaul backup mode; the video return setting gesture of the user comprises the following steps: a first video passback setting gesture and a second video passback setting gesture;
displaying the backhaul mode and the backhaul backup mode in the first setting area;
receiving the first video feed-back setting gesture at the first setting area;
when the first video return setting gesture selects the return mode, the video is sent to opposite-end equipment of the video return; or when the first video backhaul setting gesture selects the backhaul backup mode, backing up the video and sending the video to an opposite-end device of the video backhaul;
displaying an opposite terminal equipment list in the second setting area, wherein the opposite terminal equipment list comprises at least one opposite terminal equipment;
receiving the second video feed-back setting gesture at the second setting area; the second video feed back setup gesture is used to select the at least one peer device from the peer device list as the peer device for the video feed back.
With reference to the first possible implementation manner of the first aspect, in a second possible implementation manner of the first aspect, the video backhaul setting area further includes: a third setting area; the video return setting gesture of the user further comprises: a third video passback setup gesture;
displaying an encryption option in the third setting area;
receiving the third video feed-back setting gesture at the third setting area;
and if the third video return setting gesture selects the encryption option, encrypting the video.
With reference to the first aspect or any one of the foregoing possible implementation manners of the first aspect, in a third possible implementation manner of the first aspect, the video backhaul function interface further includes: a microphone setup option;
receiving a microphone adjustment gesture of the user at the microphone setting option;
a microphone adjustment gesture of the user is used to adjust the microphone volume;
and adjusting the volume of the microphone according to the microphone adjusting gesture of the user.
With reference to the first aspect or any one of the foregoing possible implementation manners of the first aspect, in a fourth possible implementation manner of the first aspect, the video backhaul function interface further includes: returning a recording option;
displaying a return record list after the return record option receives the user click;
the list of returned records is at least one or a combination of the following: the returned video time, the returned video starting time and ending time, the returned video recording date and the returned video recording place.
A second aspect of the present invention provides a mobile terminal, comprising: the system comprises a touch screen, a display screen, a processor, a transmission interface and a camera;
the display screen is used for displaying a video return operation area on the unlocking interface; displaying a video return function interface on the unlocking interface; displaying a real-time video preview picture in a video preview display area; displaying the video return information in a video return information display area;
the video backhaul information at least comprises any one or a combination of the following: the video recording duration, the opposite terminal equipment information returned by the video and the returned video information;
the touch screen is used for receiving a return operation gesture of a user in the video return operation area; receiving a video return starting gesture of the user on a video return shutter button; receiving a video return setting gesture of the user in a video return setting area, wherein the video return setting gesture of the user is used for setting a video return mode and/or selecting opposite-end equipment of the video return;
and the processor is used for starting a camera to record a video and indicating the transmission interface to transmit the video to opposite-end equipment of video return when the touch screen receives the video return starting gesture of the user on the video return shutter button.
With reference to the second aspect, in a first possible implementation manner of the first aspect, the method further includes: a memory;
the video backhaul setting area includes: a first setting region and a second setting region; the video backhaul mode includes: a backhaul mode and a backhaul backup mode; the video return setting gesture of the user comprises the following steps: a first video passback setting gesture and a second video passback setting gesture;
the display screen is further used for displaying the backhaul mode and the backhaul backup mode in the first setting area; displaying an opposite terminal equipment list in the second setting area, wherein the opposite terminal equipment list comprises at least one opposite terminal equipment;
the touch screen is further used for receiving the first video return setting gesture in the first setting area; receiving the second video feed-back setting gesture at the second setting area; the second video backhaul setting gesture is used for selecting the at least one peer device in the peer device list as a peer device of the video backhaul;
when the first video backhaul setting gesture selects the backhaul mode, the processor is specifically configured to instruct the transmission interface to send the video to an opposite-end device of the video backhaul; alternatively, the first and second electrodes may be,
when the first video backhaul setting gesture selects the backhaul backup mode, the memory is configured to store a backup of the video, and the processor is specifically configured to instruct the transmission interface to send the video to an opposite-end device of the video backhaul.
With reference to the first possible implementation manner of the second aspect, in a second possible implementation manner of the second aspect, the video backhaul setting area further includes: a third setting area; the video return setting gesture of the user further comprises: a third video passback setup gesture;
the display screen is further used for displaying an encryption option in the third setting area;
the touch screen is further used for receiving the third video return setting gesture in the third setting area;
and if the third video feedback setting gesture selects the encryption option, the processor is further used for encrypting the video.
With reference to the second aspect or any one of the foregoing possible implementation manners of the second aspect, in a third possible implementation manner of the first aspect, the method further includes: a microphone; the video return function interface further comprises: a microphone setup option;
the touch screen is further used for receiving a microphone adjusting gesture of the user at the microphone setting option; a microphone adjustment gesture of the user is used to adjust the microphone volume;
the processor is further configured to adjust the microphone volume according to the user's microphone adjustment gesture.
With reference to the second aspect or any one of the foregoing possible implementation manners of the second aspect, in a fourth possible implementation manner of the first aspect, the video backhaul function interface further includes: returning a recording option;
the touch screen is further used for receiving the user click in the return recording option;
after the return recording option receives the click of the user, the display screen is further used for displaying a return recording list;
the list of returned records is at least one or a combination of the following: the returned video time, the returned video starting time and ending time, the returned video recording date and the returned video recording place.
According to the video return operation method and the terminal device provided by the embodiment of the invention, the video return operation area is displayed on the unlocking interface, and the return operation gesture of the user is received in the video return operation area, so that the video return function interface is displayed on the unlocking interface, further, the video return starting gesture of the user is received on the video return shutter button, the camera is started to record the video, and the video is transmitted to the opposite terminal device of the video return; therefore, when an emergency occurs, the user of the mobile terminal can quickly complete video return based on the operation method, and send the field video of the emergency to the opposite terminal equipment, so that the real-time performance of the video return is ensured. Further, displaying the video return information in a video return information display area; the video backhaul information at least comprises any one or a combination of the following: the video recording duration, the opposite terminal equipment information returned by the video and the returned video information; therefore, the corresponding information of the video return is accurately provided for the user. Further, a video return setting gesture of the user is received in a video return setting area, and the video return setting gesture of the user is used for setting a video return mode and/or selecting opposite-end equipment of the video return. Different video return modes can be provided for the user to select, and the opposite-end device for returning the video can be selected to return the video, so that a more flexible video return scheme is realized.
Drawings
Fig. 1 is a flowchart illustrating a method for operating a video backhaul according to an embodiment of the present invention;
fig. 2A-2F are schematic diagrams illustrating a method for operating a video backhaul according to an embodiment of the present invention;
fig. 3 is a schematic structural diagram of a mobile terminal according to an embodiment of the present invention;
fig. 4 is a schematic structural diagram of another mobile terminal according to an embodiment of the present invention.
Detailed Description
Fig. 1 is a schematic flowchart of an operation method of video backhaul provided in an embodiment of the present invention, where the operation method of video backhaul is applied to a mobile terminal having a touch screen, and referring to fig. 1, the operation method of video backhaul includes:
102, displaying a video return function interface on the unlocking interface;
103, receiving a video return starting gesture of the user on a video return shutter button, starting a camera to record a video, and transmitting the video to opposite-end equipment for video return;
specifically, the opposite-end device for video backhaul may be a base station, an evolved node b, a hotspot device, a relay device, or the like;
104, displaying a real-time video preview picture in a video preview display area;
105, displaying the video return information in a video return information display area; the video backhaul information at least comprises any one or a combination of the following: the video recording duration, the opposite terminal equipment information returned by the video and the returned video information;
and 106, receiving a video return setting gesture of the user in a video return setting area, wherein the video return setting gesture of the user is used for setting a video return mode and/or selecting opposite-end equipment for video return.
According to the operation method for video return, provided by the embodiment of the invention, a video return operation area is displayed on an unlocking interface, and a return operation gesture of a user is received in the video return operation area, so that a video return function interface is displayed on the unlocking interface, further, a video return starting gesture of the user is received on a video return shutter button, a camera is started to record a video, and the video is transmitted to an opposite terminal device of the video return; therefore, when an emergency occurs, the user of the mobile terminal can quickly complete video return based on the operation method, and send the field video of the emergency to the opposite terminal equipment, so that the real-time performance of the video return is ensured. Further, displaying the video return information in a video return information display area; the video backhaul information at least comprises any one or a combination of the following: the video recording duration, the opposite terminal equipment information returned by the video and the returned video information; therefore, the corresponding information of the video return is accurately provided for the user. Further, a video return setting gesture of the user is received in a video return setting area, and the video return setting gesture of the user is used for setting a video return mode and/or selecting opposite-end equipment of the video return. Different video return modes can be provided for the user to select, and the opposite-end device for returning the video can be selected to return the video, so that a more flexible video return scheme is realized.
Optionally, the video backhaul setting area includes: a first setting region and a second setting region; the video backhaul mode includes: a backhaul mode and a backhaul backup mode; the video return setting gesture of the user comprises the following steps: a first video passback setting gesture and a second video passback setting gesture;
one possible implementation of step 106 is:
106-a1, displaying the backhaul mode and the backhaul backup mode in the first setting area;
106-a2, receiving the first video passback setting gesture in the first setting area;
for step 106-a2, when the first video feed back setup gesture selects the feed back mode, then sending the video to the peer device of the video feed back; or when the first video backhaul setting gesture selects the backhaul backup mode, backing up the video and sending the video to an opposite-end device of the video backhaul;
specifically, for a mobile terminal with a smaller storage space, which may not have the backup capability, the above-mentioned backhaul mode may be adopted, that is, the video is directly transmitted back to the opposite terminal device of the video backhaul without backup; for a mobile terminal with a large storage space, the mobile terminal stores the backup of the video and sends the video to an opposite terminal device returned by the video.
When an emergency scene occurs, the mobile terminal may be capable of communicating with a plurality of peer devices, and at this time, the mobile terminal may generate a peer device list based on the plurality of peer devices capable of communicating.
Correspondingly, step 106-b1, displaying a peer device list in the second setting area, where the peer device list includes at least one peer device;
106-b2, receiving the second video feed-back setting gesture in the second setting area; the second video feed back setup gesture is used to select the at least one peer device from the peer device list as the peer device for the video feed back.
Optionally, for some emergency scenarios, the video needs to be encrypted, and in order to meet such encryption requirement, one possible implementation manner of step 106 is:
the video backhaul setting region further includes: a third setting area; the video return setting gesture of the user further comprises: a third video passback setup gesture;
106-c1, displaying an encryption option in the third setting area;
106-c2, receiving the third video backhaul setting gesture in the third setting area;
and 106-c3, if the third video return setting gesture selects the encryption option, encrypting the video.
Furthermore, according to the requirements of users, the volume control of the microphone of the mobile terminal can be provided;
specifically, the video backhaul function interface further includes: a microphone setup option;
receiving a microphone adjustment gesture of the user at the microphone setting option;
a microphone adjustment gesture of the user is used to adjust the microphone volume;
and adjusting the volume of the microphone according to the microphone adjusting gesture of the user.
Optionally, the video backhaul function interface further includes: returning a recording option;
displaying a return record list after the return record option receives the user click;
the list of returned records is at least one or a combination of the following: the returned video time, the returned video starting time and ending time, the returned video recording date and the returned video recording place.
Fig. 2A to 2F are schematic diagrams of a video return operation method according to an embodiment of the present invention, first, referring to fig. 2A, a video return operation area 10-2 is displayed on an unlocking interface of the mobile terminal 10; the touch screen 10-1 receives a return operation gesture of a user in a video return operation area 10-2; specifically, the return operation gesture of the user may be: sliding the video return operation area 10-2 in either direction; or clicking the video return operation area 10-2; further, if a click method is adopted, the corresponding video backhaul operation area 10-2 may be presented in the form of a video backhaul application icon.
Referring to fig. 2B, fig. 2B shows a schematic diagram of the video backhaul function interface 10-3 after the video backhaul operation area 10-2 receives the backhaul operation gesture of the user; the video return function interface 10-3 includes: the video return system comprises a video return shutter button 10-4, a video preview display area 10-5, a video return information display area 10-6, a video return setting area 10-7, a microphone setting option 10-8 and a return recording option 10-9;
the video return information display area 10-6 can display the video return information; the video backhaul information at least comprises any one or a combination of the following: the video recording duration, the opposite terminal equipment information returned by the video and the returned video information; referring to fig. 2C, for example, the video recording time is 1h:30 min; the peer device information returned by the video is, for example: base station A and base station B; the information of the returned video may be, but is not limited to, as shown in fig. 2 c: the video recording time, the size of the returned video and the returning speed.
Further, when the video return information display area 10-6 cannot display the information at one time, a scroll bar may be arranged in the video return information display area 10-6, so that the user may view the information that cannot be displayed at one time by dragging the scroll bar;
the video backhaul setting area 10-7 includes: a first setting region 10-7a, a second setting region 10-7b and a third setting region 10-7 c; referring to fig. 2D, therein, a first setup area 10-7a, showing the backhaul mode and the backhaul backup mode; the second setting area 10-7b displays a peer device list, and optionally, the peer device list may display names of a plurality of peer devices: such as base station a, base station B, and base station C shown in fig. 2D; preferably, the signal intensity corresponding to each peer device can also be displayed, so that a user can conveniently select the optimal peer device for video return transmission based on the signal intensity. For example, in fig. 2D, the signal strength of the base station B is the best, so the base station B is preferably selected as the peer device, and the user may also select multiple peer devices to perform video backhaul simultaneously. The third setting area 10-7c shows an encryption option, one possible implementation of which is shown in fig. 2D: a yes option and a no option are added, so that the user can conveniently select the options, and after the user selects yes, the processor of the mobile terminal automatically encrypts the data; another possible implementation (not shown in fig. 2D) is: after the user selects 'yes', a password setting frame is further displayed, and the user sets an encryption password by himself;
referring to FIG. 2E, one possible implementation of microphone setup options 10-8 is: setting a sliding strip, and realizing the control of the microphone volume by dragging the sliding strip by a user; in addition, the volume of the microphone can be adjusted only according to the gesture track of the user in the corresponding area of the microphone setting option 10-8 without setting a sliding bar, for example, the volume is adjusted to be larger from left to right, and the volume is adjusted to be smaller from right to left;
the return recording option 10-9 may display: the returned video time, the returned video starting time and ending time, the returned video recording date and the returned video recording place. Referring to fig. 2F, for example, the returned video duration: 1h, 30 min; the returned video starting time is as follows: 10:30 am; the returned video end time: 10: 45 am; the returned video recording date is as follows: 2015/05/27, respectively; the returned video recording place is as follows: XX City XX zone XX way.
Optionally, after the user presses the video return shutter button, a specific implementation manner of the processor for processing the button event may be:
in addition, after the user presses the video return shutter button, when the user presses the video return shutter button again, the video return stops.
The operation method of the video backhaul shown in fig. 2A to 2F is merely illustrated as an example, and the layout, size and display content of each display area in the drawings may be implemented in other manners, which is not limited in the embodiments of the present invention.
Fig. 3 is a schematic structural diagram of a mobile terminal according to an embodiment of the present invention, where the mobile device may implement the process of the embodiment of fig. 1, and referring to fig. 3, the mobile terminal 20 includes: the system comprises a touch screen 20-1, a display screen 20-2, a processor 20-3, a transmission interface 20-4 and a camera 20-5;
the display screen 20-2 is used for displaying a video return operation area on the unlocking interface; displaying a video return function interface on the unlocking interface; displaying a real-time video preview picture in a video preview display area; displaying the video return information in a video return information display area;
the video backhaul information at least comprises any one or a combination of the following: the video recording duration, the opposite terminal equipment information returned by the video and the returned video information;
the touch screen 20-1 is configured to receive a return operation gesture of a user in the video return operation area; receiving a video return starting gesture of the user on a video return shutter button; receiving a video return setting gesture of the user in a video return setting area, wherein the video return setting gesture of the user is used for setting a video return mode and/or selecting opposite-end equipment of the video return;
the processor 20-3 is configured to start the camera 20-5 to record a video when the touch screen 20-1 receives a video return starting gesture of the user on the video return shutter button, and instruct the transmission interface 20-4 to transmit the video to an opposite-end device for video return.
According to the mobile terminal provided by the embodiment of the invention, the video return operation area is displayed on the unlocking interface through the display screen; the display screen displays a video return function interface on the unlocking interface; the display screen displays a real-time video preview picture in a video preview display area; the display screen displays the video return information in the video return information display area; the video backhaul information at least comprises any one or a combination of the following: the video recording duration, the opposite terminal equipment information returned by the video and the returned video information; the touch screen receives a return operation gesture of a user in the video return operation area; the touch screen receives a video return starting gesture of the user on a video return shutter button; the touch screen receives a video return setting gesture of the user in a video return setting area, and the video return setting gesture of the user is used for setting a video return mode and/or selecting opposite-end equipment of the video return; when the processor receives the video return starting gesture of the user on the video return shutter button through the touch screen, the processor starts a camera to record videos and instructs the transmission interface to transmit the videos to opposite-end equipment of video return. Therefore, the corresponding information of the video return is accurately provided for the user. Further, a video return setting gesture of the user is received in a video return setting area, and the video return setting gesture of the user is used for setting a video return mode and/or selecting opposite-end equipment of the video return. Different video return modes can be provided for the user to select, and the opposite-end device for returning the video can be selected to return the video, so that a more flexible video return scheme is realized.
On the basis of fig. 3, fig. 4 is a schematic structural diagram of another mobile terminal according to an embodiment of the present invention, and referring to fig. 4, the mobile terminal 20 further includes: a memory 20-6;
the video backhaul setting area includes: a first setting region and a second setting region; the video backhaul mode includes: a backhaul mode and a backhaul backup mode; the video return setting gesture of the user comprises the following steps: a first video passback setting gesture and a second video passback setting gesture;
the display screen 20-2 is further configured to display the backhaul mode and the backhaul backup mode in the first setting area; displaying an opposite terminal equipment list in the second setting area, wherein the opposite terminal equipment list comprises at least one opposite terminal equipment;
the touch screen 20-1 is further configured to receive the first video feed-back setting gesture in the first setting area; receiving the second video feed-back setting gesture at the second setting area; the second video backhaul setting gesture is used for selecting the at least one peer device in the peer device list as a peer device of the video backhaul;
when the first video backhaul setting gesture selects the backhaul mode, the processor 20-3 is specifically configured to instruct the transmission interface 20-4 to send the video to an opposite-end device of the video backhaul; alternatively, the first and second electrodes may be,
when the first video backhaul setting gesture selects the backhaul backup mode, the memory 20-6 is configured to store a backup of the video, and the processor 20-3 is specifically configured to instruct the transmission interface 20-4 to send the video to an opposite-end device of the video backhaul.
Optionally, the video backhaul setting area further includes: a third setting area; the video return setting gesture of the user further comprises: a third video passback setup gesture;
the display screen 20-2 is further configured to display an encryption option in the third setting area;
the touch screen 20-1 is further configured to receive the third video feed-back setting gesture in the third setting area;
if the third video pass-back setting gesture selects the encryption option, the processor 20-3 is further configured to encrypt the video.
With continued reference to fig. 4, the mobile terminal 20 further includes: 20-7 of a microphone; the video return function interface further comprises: a microphone setup option;
the touch screen 20-1 is further configured to receive a microphone adjustment gesture of the user at the microphone setting option; a microphone adjustment gesture of the user is used to adjust the microphone volume;
the processor 20-3 is further configured to adjust the microphone volume according to the user's microphone adjustment gesture.
Optionally, the video backhaul function interface further includes: returning a recording option;
the touch screen 20-1 is further configured to receive the user click in the return recording option;
after the return recording option receives the user click, the display screen 20-2 is further configured to display a return recording list;
the list of returned records is at least one or a combination of the following: the returned video time, the returned video starting time and ending time, the returned video recording date and the returned video recording place.
Those of ordinary skill in the art will understand that: all or a portion of the steps of implementing the above-described method embodiments may be performed by hardware associated with program instructions. The program may be stored in a computer-readable storage medium. When executed, the program performs steps comprising the method embodiments described above; and the aforementioned storage medium includes: various media that can store program codes, such as ROM, RAM, magnetic or optical disks.
Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.
Claims (8)
1. An operation method of video return is provided, wherein a mobile terminal with a touch screen executes the operation method of video return, and the operation method of video return comprises the following steps:
displaying a video return operation area on an unlocking interface;
receiving a return operation gesture of a user in the video return operation area;
displaying a video return function interface on the unlocking interface;
receiving a video return starting gesture of the user on a video return shutter button, starting a camera to record a video, and transmitting the video to opposite-end equipment for video return;
displaying a real-time video preview picture in a video preview display area;
displaying the video return information in a video return information display area; the video backhaul information at least comprises any one or a combination of the following: the video recording duration, the opposite terminal equipment information returned by the video and the returned video information;
receiving a video return setting gesture of the user in a video return setting area, wherein the video return setting gesture of the user is used for setting a video return mode and/or selecting opposite-end equipment of the video return;
the video backhaul setting area includes: a first setting region and a second setting region; the video backhaul mode includes: a backhaul mode and a backhaul backup mode; the video return setting gesture of the user comprises the following steps: a first video passback setting gesture and a second video passback setting gesture;
displaying the backhaul mode and the backhaul backup mode in the first setting area;
receiving the first video feed-back setting gesture at the first setting area;
when the first video return setting gesture selects the return mode, the video is sent to opposite-end equipment of the video return; or when the first video backhaul setting gesture selects the backhaul backup mode, backing up the video and sending the video to an opposite-end device of the video backhaul;
displaying an opposite terminal equipment list in the second setting area, wherein the opposite terminal equipment list comprises at least one opposite terminal equipment;
receiving the second video feed-back setting gesture at the second setting area; the second video feed back setup gesture is used to select the at least one peer device from the peer device list as the peer device for the video feed back.
2. The method of claim 1, wherein the video backhaul setup area further comprises: a third setting area; the video return setting gesture of the user further comprises: a third video passback setup gesture;
displaying an encryption option in the third setting area;
receiving the third video feed-back setting gesture at the third setting area;
and if the third video return setting gesture selects the encryption option, encrypting the video.
3. The method according to any of claims 1-2, wherein the video backhaul functionality interface further comprises: a microphone setup option;
receiving a microphone adjustment gesture of the user at the microphone setting option;
a microphone adjustment gesture of the user is used to adjust the microphone volume;
and adjusting the volume of the microphone according to the microphone adjusting gesture of the user.
4. The method according to any of claims 1-2, wherein the video backhaul functionality interface further comprises: returning a recording option;
displaying a return record list after the return record option receives the user click;
the list of returned records is at least one or a combination of the following: the returned video time, the returned video starting time and ending time, the returned video recording date and the returned video recording place.
5. A mobile terminal, comprising: the system comprises a touch screen, a display screen, a processor, a transmission interface and a camera;
the display screen is used for displaying a video return operation area on the unlocking interface; displaying a video return function interface on the unlocking interface; displaying a real-time video preview picture in a video preview display area; displaying the video return information in a video return information display area;
the video backhaul information at least comprises any one or a combination of the following: the video recording duration, the opposite terminal equipment information returned by the video and the returned video information;
the touch screen is used for receiving a return operation gesture of a user in the video return operation area; receiving a video return starting gesture of the user on a video return shutter button; receiving a video return setting gesture of the user in a video return setting area, wherein the video return setting gesture of the user is used for setting a video return mode and/or selecting opposite-end equipment of the video return;
the processor is used for starting a camera to record a video and indicating the transmission interface to transmit the video to an opposite terminal device of a video return when the touch screen receives a video return starting gesture of the user on the video return shutter button;
further comprising: a memory;
the video backhaul setting area includes: a first setting region and a second setting region; the video backhaul mode includes: a backhaul mode and a backhaul backup mode; the video return setting gesture of the user comprises the following steps: a first video passback setting gesture and a second video passback setting gesture;
the display screen is further used for displaying the backhaul mode and the backhaul backup mode in the first setting area; displaying an opposite terminal equipment list in the second setting area, wherein the opposite terminal equipment list comprises at least one opposite terminal equipment;
the touch screen is further used for receiving the first video return setting gesture in the first setting area; receiving the second video feed-back setting gesture at the second setting area; the second video backhaul setting gesture is used for selecting the at least one peer device in the peer device list as a peer device of the video backhaul;
when the first video backhaul setting gesture selects the backhaul mode, the processor is specifically configured to instruct the transmission interface to send the video to an opposite-end device of the video backhaul; alternatively, the first and second electrodes may be,
when the first video backhaul setting gesture selects the backhaul backup mode, the memory is configured to store a backup of the video, and the processor is specifically configured to instruct the transmission interface to send the video to an opposite-end device of the video backhaul.
6. The mobile terminal of claim 5, wherein the video backhaul setup area further comprises: a third setting area; the video return setting gesture of the user further comprises: a third video passback setup gesture;
the display screen is further used for displaying an encryption option in the third setting area;
the touch screen is further used for receiving the third video return setting gesture in the third setting area;
and if the third video feedback setting gesture selects the encryption option, the processor is further used for encrypting the video.
7. The mobile terminal according to any of claims 5-6, further comprising: a microphone; the video return function interface further comprises: a microphone setup option;
the touch screen is further used for receiving a microphone adjusting gesture of the user at the microphone setting option; a microphone adjustment gesture of the user is used to adjust the microphone volume;
the processor is further configured to adjust the microphone volume according to the user's microphone adjustment gesture.
8. The mobile terminal according to any of claims 5-6, wherein the video backhaul function interface further comprises: returning a recording option;
the touch screen is further used for receiving the user click in the return recording option;
after the return recording option receives the click of the user, the display screen is further used for displaying a return recording list;
the list of returned records is at least one or a combination of the following: the returned video time, the returned video starting time and ending time, the returned video recording date and the returned video recording place.
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CN101916166A (en) * | 2010-08-19 | 2010-12-15 | 中兴通讯股份有限公司 | Method for starting application program and mobile terminal |
CN102447779A (en) * | 2010-10-04 | 2012-05-09 | Lg电子株式会社 | Mobile terminal and image transmitting method therein |
CN104077020A (en) * | 2013-10-31 | 2014-10-01 | 苏州天鸣信息科技有限公司 | Mobile device directly running application and method thereof |
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CN101916166A (en) * | 2010-08-19 | 2010-12-15 | 中兴通讯股份有限公司 | Method for starting application program and mobile terminal |
CN102447779A (en) * | 2010-10-04 | 2012-05-09 | Lg电子株式会社 | Mobile terminal and image transmitting method therein |
CN104077020A (en) * | 2013-10-31 | 2014-10-01 | 苏州天鸣信息科技有限公司 | Mobile device directly running application and method thereof |
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